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-rw-r--r--.slibcat164
-rw-r--r--ANNOUNCE99
-rw-r--r--ChangeLog654
-rw-r--r--DrScheme.init85
-rw-r--r--FAQ22
-rw-r--r--Makefile211
-rw-r--r--README40
-rw-r--r--RScheme.init163
-rw-r--r--STk.init155
-rw-r--r--Template.scm153
-rw-r--r--alist.scm2
-rw-r--r--alist.txi6
-rw-r--r--array.scm528
-rw-r--r--array.txi376
-rw-r--r--arraymap.scm72
-rw-r--r--arraymap.txi10
-rw-r--r--batch.scm47
-rw-r--r--bigloo.init294
-rw-r--r--byte.scm6
-rw-r--r--byte.txi16
-rw-r--r--bytenumb.scm10
-rw-r--r--bytenumb.txi12
-rw-r--r--chap.scm1
-rw-r--r--chap.txi3
-rw-r--r--charplot.scm27
-rw-r--r--chez.init143
-rw-r--r--ciesia.dat110
-rw-r--r--ciesid65.dat110
-rw-r--r--clrnamdb.scm1745
-rw-r--r--cltime.scm22
-rw-r--r--coerce.scm6
-rw-r--r--coerce.txi2
-rw-r--r--color.scm36
-rw-r--r--color.txi31
-rw-r--r--colornam.txi6
-rw-r--r--colorspc.scm43
-rw-r--r--comlist.scm4
-rw-r--r--comparse.txi2
-rw-r--r--cring.scm3
-rw-r--r--cvs.scm8
-rw-r--r--cvs.txi14
-rw-r--r--daylight.scm10
-rw-r--r--daylight.txi15
-rw-r--r--db2html.scm76
-rw-r--r--db2html.txi20
-rw-r--r--dbinterp.scm42
-rw-r--r--dbsyn.scm68
-rw-r--r--dbutil.scm26
-rw-r--r--dbutil.txi14
-rw-r--r--debian/changelog15
-rw-r--r--debian/control2
-rwxr-xr-xdebian/rules18
-rw-r--r--determ.scm32
-rw-r--r--determ.txi8
-rw-r--r--differ.scm331
-rw-r--r--differ.txi60
-rw-r--r--dirs.txi3
-rw-r--r--elk.init160
-rw-r--r--eval.scm2
-rw-r--r--factor.txi5
-rw-r--r--fft.scm6
-rw-r--r--fft.txi2
-rw-r--r--fluidlet.scm2
-rw-r--r--format.scm2968
-rw-r--r--format.texi451
-rw-r--r--formatst.scm44
-rw-r--r--gambit.init300
-rw-r--r--getparam.scm1
-rw-r--r--getparam.txi2
-rw-r--r--glob.txi4
-rw-r--r--grapheps.ps36
-rw-r--r--grapheps.scm34
-rw-r--r--grapheps.txi48
-rw-r--r--guile.init392
-rw-r--r--guile.init.local416
-rw-r--r--hash.scm46
-rw-r--r--hashtab.scm2
-rw-r--r--hashtab.txi9
-rw-r--r--html4each.scm22
-rw-r--r--html4each.txi3
-rw-r--r--htmlform.scm8
-rw-r--r--htmlform.txi24
-rw-r--r--http-cgi.scm12
-rw-r--r--http-cgi.txi13
-rw-r--r--indexes.texi55
-rw-r--r--jscheme.init478
-rw-r--r--lineio.scm2
-rw-r--r--lineio.txi4
-rw-r--r--logical.scm185
-rw-r--r--macscheme.init158
-rw-r--r--manifest.scm102
-rw-r--r--manifest.txi36
-rw-r--r--matfile.scm27
-rw-r--r--matfile.txi2
-rw-r--r--minimize.txi1
-rw-r--r--mitscheme.init150
-rw-r--r--mkclrnam.scm22
-rw-r--r--mkclrnam.txi13
-rw-r--r--mklibcat.scm6
-rw-r--r--modular.scm32
-rw-r--r--modular.txi12
-rw-r--r--nbs-iscc.txt295
-rw-r--r--ncbi-dna.txi8
-rw-r--r--obj2str.txi2
-rw-r--r--peanosfc.scm109
-rw-r--r--peanosfc.txi15
-rw-r--r--phil-spc.scm242
-rw-r--r--phil-spc.txi130
-rw-r--r--pnm.scm88
-rw-r--r--pnm.txi3
-rw-r--r--ppfile.scm7
-rw-r--r--printf.scm2
-rw-r--r--priorque.txi4
-rw-r--r--pscheme.init158
-rw-r--r--psxtime.scm163
-rw-r--r--qp.scm9
-rw-r--r--queue.txi9
-rw-r--r--randinex.txi6
-rw-r--r--random.scm4
-rw-r--r--random.txi4
-rw-r--r--ratize.txi3
-rw-r--r--rdms.scm24
-rw-r--r--record.scm1
-rw-r--r--repl.scm13
-rw-r--r--require.scm97
-rw-r--r--s48-0_57.init412
-rw-r--r--saturate.txt1
-rw-r--r--sc4opt.scm14
-rw-r--r--scamacr.scm2
-rw-r--r--scheme2c.init159
-rw-r--r--scheme48.init316
-rw-r--r--schmooz.scm34
-rw-r--r--scsh.init192
-rw-r--r--simetrix.scm2
-rw-r--r--slib.145
-rw-r--r--slib.doc47
-rw-r--r--slib.html76
-rw-r--r--slib.info13110
-rwxr-xr-xslib.sh77
-rw-r--r--slib.spec58
-rw-r--r--slib.texi794
-rw-r--r--slib_1.html1172
-rw-r--r--slib_10.html217
-rw-r--r--slib_11.html268
-rw-r--r--slib_12.html346
-rw-r--r--slib_13.html325
-rw-r--r--slib_14.html314
-rw-r--r--slib_15.html367
-rw-r--r--slib_16.html311
-rw-r--r--slib_17.html461
-rw-r--r--slib_18.html331
-rw-r--r--slib_19.html214
-rw-r--r--slib_2.html824
-rw-r--r--slib_20.html294
-rw-r--r--slib_21.html271
-rw-r--r--slib_22.html180
-rw-r--r--slib_3.html2013
-rw-r--r--slib_4.html5157
-rw-r--r--slib_5.html6100
-rw-r--r--slib_6.html3658
-rw-r--r--slib_7.html8218
-rw-r--r--slib_8.html767
-rw-r--r--slib_9.html340
-rw-r--r--slib_abt.html205
-rw-r--r--slib_fot.html92
-rw-r--r--slib_ovr.html69
-rw-r--r--slib_toc.html676
-rw-r--r--solid.scm231
-rw-r--r--solid.txi123
-rw-r--r--sort.scm25
-rw-r--r--soundex.scm56
-rw-r--r--srcdir.mk2
-rw-r--r--srfi-1.scm382
-rw-r--r--srfi-1.txi262
-rw-r--r--srfi-2.txi1
-rw-r--r--srfi-8.txi1
-rw-r--r--srfi.txi1
-rw-r--r--strcase.scm2
-rw-r--r--strsrch.scm6
-rw-r--r--subarray.scm120
-rw-r--r--subarray.txi42
-rw-r--r--t3.init170
-rw-r--r--timecore.scm202
-rw-r--r--timezone.scm145
-rw-r--r--top-refs.scm48
-rw-r--r--top-refs.txi5
-rw-r--r--trace.scm4
-rw-r--r--transact.scm13
-rw-r--r--transact.txi6
-rw-r--r--tree.txi2
-rw-r--r--tsort.txi1
-rw-r--r--tzfile.scm49
-rw-r--r--umbscheme.init196
-rw-r--r--uri.scm16
-rw-r--r--uri.txi18
-rw-r--r--version.txi4
-rw-r--r--vet.scm92
-rw-r--r--vet.txi10
-rw-r--r--vscm.init156
-rw-r--r--wttree.scm31
200 files changed, 19517 insertions, 45308 deletions
diff --git a/.slibcat b/.slibcat
deleted file mode 100644
index 54d82ee..0000000
--- a/.slibcat
+++ /dev/null
@@ -1,164 +0,0 @@
-;"slibcat" SLIB catalog for guile1.6.7. -*-scheme-*-
-;
-; DO NOT EDIT THIS FILE -- it is automagically generated
-
-(
- (schelog . "./schelog/schelog")
- (portable-scheme-debugger . "./psd/psd-slib")
- (jfilter . "./jfilter/jfilter")
- (null . "./null")
- (aggregate . "./null")
- (r2rs aggregate rev3-procedures rev2-procedures)
- (r3rs aggregate rev3-procedures)
- (r4rs aggregate rev4-optional-procedures)
- (r5rs aggregate values macro eval)
- (rev4-optional-procedures . "./sc4opt")
- (rev3-procedures . "./null")
- (rev2-procedures . "./sc2")
- (multiarg/and- . "./mularg")
- (multiarg-apply . "./mulapply")
- (rationalize . "./ratize")
- (transcript . "./trnscrpt")
- (with-file . "./withfile")
- (dynamic-wind . "./dynwind")
- (dynamic . "./dynamic")
- (fluid-let defmacro "./fluidlet")
- (alist . "./alist")
- (hash . "./hash")
- (sierpinski . "./sierpinski")
- (hilbert-fill . "./phil-spc")
- (soundex . "./soundex")
- (hash-table . "./hashtab")
- (logical . "./logical")
- (random . "./random")
- (random-inexact . "./randinex")
- (modular . "./modular")
- (factor . "./factor")
- (primes . factor)
- (eps-graph . "./grapheps")
- (charplot . "./charplot")
- (sort . "./sort")
- (tsort . topological-sort)
- (topological-sort . "./tsort")
- (common-list-functions . "./comlist")
- (tree . "./tree")
- (coerce . "./coerce")
- (format . "./format")
- (generic-write . "./genwrite")
- (pretty-print . "./pp")
- (pprint-file . "./ppfile")
- (object->string . "./obj2str")
- (string-case . "./strcase")
- (line-i/o . "./lineio")
- (string-port . "./strport")
- (getopt . "./getopt")
- (qp . "./qp")
- (eval . "./eval")
- (record . "./record")
- (synchk . "./synchk")
- (defmacroexpand . "./defmacex")
- (printf . "./printf")
- (scanf defmacro "./scanf")
- (stdio-ports . "./stdio")
- (stdio aggregate scanf printf stdio-ports)
- (break defmacro "./break")
- (trace defmacro "./trace")
- (debugf . "./debug")
- (debug aggregate trace break debugf)
- (delay . promise)
- (promise macro "./promise")
- (macro-by-example defmacro "./mbe")
- (syntax-case . "./scainit")
- (syntactic-closures . "./scmacro")
- (macros-that-work . "./macwork")
- (macro . macro-by-example)
- (object . "./object")
- (yasos macro "./yasyn")
- (oop . yasos)
- (collect . "./collectx")
- (structure syntax-case "./structure")
- (values . "./values")
- (queue . "./queue")
- (priority-queue . "./priorque")
- (array . "./array")
- (subarray . "./subarray")
- (array-for-each . "./arraymap")
- (repl . "./repl")
- (process . "./process")
- (chapter-order . "./chap")
- (posix-time . "./psxtime")
- (common-lisp-time . "./cltime")
- (time-zone defmacro "./timezone")
- (relational-database . "./rdms")
- (databases . "./dbutil")
- (database-utilities . databases)
- (database-commands . "./dbcom")
- (database-browse . "./dbrowse")
- (database-interpolate . "./dbinterp")
- (within-database macro "./dbsyn")
- (html-form . "./htmlform")
- (alist-table . "./alistab")
- (parameters . "./paramlst")
- (getopt-parameters . "./getparam")
- (read-command . "./comparse")
- (batch . "./batch")
- (glob . "./glob")
- (filename . glob)
- (crc . "./crc")
- (fft . "./fft")
- (wt-tree . "./wttree")
- (string-search . "./strsrch")
- (root . "./root")
- (minimize . "./minimize")
- (precedence-parse defmacro "./prec")
- (parse . precedence-parse)
- (commutative-ring . "./cring")
- (self-set . "./selfset")
- (determinant . "./determ")
- (byte . "./byte")
- (byte-number . "./bytenumb")
- (tzfile . "./tzfile")
- (schmooz . "./schmooz")
- (transact defmacro "./transact")
- (net-clients . transact)
- (db->html . "./db2html")
- (http defmacro "./http-cgi")
- (cgi . http)
- (uri defmacro "./uri")
- (uniform-resource-identifier . uri)
- (pnm . "./pnm")
- (metric-units . "./simetrix")
- (diff . "./differ")
- (solid . "./solid")
- (vrml97 . solid)
- (vrml . vrml97)
- (color defmacro "./color")
- (color-space . "./colorspc")
- (cie . color-space)
- (color-names . "./colornam")
- (color-database defmacro "./mkclrnam")
- (resene color-names "./clrnamdb.scm")
- (saturate color-names "./clrnamdb.scm")
- (daylight . "./daylight")
- (matfile . "./matfile")
- (mat-file . matfile)
- (spectral-tristimulus-values . color-space)
- (cie1964 spectral-tristimulus-values "./cie1964.xyz")
- (cie1931 spectral-tristimulus-values "./cie1931.xyz")
- (ciexyz . cie1931)
- (cvs defmacro "./cvs")
- (html-for-each defmacro "./html4each")
- (directory . "./dirs")
- (ncbi-dna defmacro "./ncbi-dna")
- (manifest . "./manifest")
- (top-refs . "./top-refs")
- (vet . "./vet")
- (srfi-0 . srfi)
- (srfi defmacro "./srfi")
- (srfi-1 . "./srfi-1")
- (srfi-2 defmacro "./srfi-2")
- (srfi-8 macro "./srfi-8")
- (srfi-9 macro "./srfi-9")
- (new-catalog . "./mklibcat")
- (*slib-version* . "3a1")
-)
diff --git a/ANNOUNCE b/ANNOUNCE
index a4201ba..ec4e57b 100644
--- a/ANNOUNCE
+++ b/ANNOUNCE
@@ -1,54 +1,63 @@
-This message announces the availability of Scheme Library release slib3a1.
+This message announces the availability of Scheme Library release slib3a2.
-New in slib3a1:
+It has been too long since the last release. Many bugs have been
+fixed; and support for several implementations (especially Guile,
+Scheme48) has been significantly improved. New in slib3a2:
- SLIB 3 has undergone major development from SLIB2d6.
+ peanosfc.scm: Peano space filling curve.
- Most noticeable is that SLIB now has a module system with documented
- semantics and a suite of reflexive tools for deriving reference and
- module dependencies from library code. The reflexive tools are
- designed to support compiler-writer's needs as expressed in
- discussions arising from comp.lang.scheme in July 2003.
+ logical.scm: (logand, logior, logxor): Take one or more arguments.
+ Refactored to match SRFI-60.
- The module semantics are intended to be compatible both with
- implementations having module systems and those lacking. Ivan
- Shmakov has been striving to integrate SLIB's and Scheme48's module
- systems. His efforts and SLIB's reflexive tools have found a great
- many bugs, some of them present since SLIB's beginnings.
+ All uses of CREATE-ARRAY replaced by MAKE-ARRAY (SRFI-63).
+ All uses of ARRAY-SHAPE replaced with ARRAY-DIMENSIONS (SRFI-63).
- "make install" now creates a "slib" shell script for running various
- Schemes with SLIB initialization. Currently supported
- implementations are gsi (Gambit), Guile, MzScheme, Scheme48, and
- SCM.
+ * subarray.scm (subarray, array-trim): Rewrote for all arrays being
+ 0-based.
- The byte-number module converts between byte-vectors,
- twos-complement integers, and IEEE floating-point formats -- all in
- R4RS-compliant Scheme code. It also converts byte-vectors to a form
- whose lexicographic ordering matches the encoded number's ordering.
+ * arraymap.scm (array-map!, array-for-each, array-index-map!):
+ Use of ARRAY-DIMENSIONS replaces use of ARRAY-SHAPE.
+ (make-shared-array): converted.
- The correctly ordered byte representations of numbers tie in with
- SLIB's relational database being extended to include indexed
- sequential access methods (ISAM). The Database-interpolation module
- uses sequential methods to synthesize continuous functions from
- discrete data tables.
+ * array.scm: Made compatible with SRFI-63.
+ (equal?): Replaces array=?.
- These "continuous databases" are vital to my soon-to-be-released
- optics program which calculates spectral responses of layered thin
- films.
+ pnm.scm: Finished implementation; handles 16-bit color.
- The character plotting utility has been improved, and is now
- complemented by eps-graph, a very flexible graphing library for
- producing encapsulated-PostScript files.
+ * colorspc.scm (read-normalized-illuminant, illuminant-map)
+ (illuminant-map->XYZ): Added.
+ (wavelength->CIEXYZ, XYZ:normalize, XYZ:normalize-colors)
+ (temperature->CIEXYZ, spectrum->CIEXYZ, wavelength->CIEXYZ):
+ Removed; use chromaticity functions instead.
+ (read-cie-illuminant): Added.
- SRFI-2, SRFI-8, and SRFI-9 are added.
+ * ciesia.dat: Added CIE Standard Illuminant A relative spectral
+ power distribution 300 nm - 830 nm at 5 nm intervals.
- Although I have endeavored to support legacy usage, some programs
- will need modification to work with SLIB 3. Some issues that I know
- of are:
+ * ciesid65.dat: Added CIE Standard Illuminant D65 relative
+ spectral power distribution 300 nm - 830 nm at 5 nm intervals.
- * REQUIRE no longer accepts a string as its argument.
- * The RANDOM module is split into RANDOM and RANDOM-INEXACT.
- * Some refactoring among TRANSACT, GLOB, and LINE-I/O.
+ * daylight.scm (sunlight-chromaticity): Replaces sunlight-CIEXYZ.
+
+ * solid.scm (scene:sun, scene:overcast): Use chromaticity to
+ normalize XYZ values.
+ (solid:polyline): Added.
+ (solid:cylinder): Negative radius for invisible side.
+
+ * format.scm: Made reentrant; restored. Call slib:error for errors.
+
+ * dbutil.scm (close-database): Don't lock immutable dbs.
+
+ * transact.scm (word-lock:certificate): Test file's existence
+ before OPEN-FILE.
+
+ vet.scm (vet-slib): Accept file arguments to include in vetting.
+
+ * vscm.init, umbscheme.init, scsh.init, macscheme.init,
+ guile.init, gambit.init, elk.init, chez.init, STk.init,
+ RScheme.init, Template.scm, pscheme.init, t3.init, scheme48.init,
+ scheme2c.init, s48-0_57.init, mitscheme.init, bigloo.init
+ (*features*): Regularized order and content.
-=-=-
@@ -56,8 +65,8 @@ SLIB is a portable Scheme library providing compatibiliy and utility
functions for all standard Scheme implementations.
SLIB includes initialization files for Bigloo, Chez, DrScheme, ELK,
-GAMBIT, MacScheme, MITScheme, PocketScheme, RScheme Scheme->C,
-Scheme48, SCM, SCSH, T3.1, UMB-Scheme, and VSCM.
+GAMBIT, Jscheme, MacScheme, MITScheme, PocketScheme, RScheme,
+Scheme->C, Scheme48, SCM, SCSH, T3.1, UMB-Scheme, and VSCM.
Documentation includes a manifest, installation instructions, and
coding guidelines for the library. Documentation of each library
@@ -66,10 +75,10 @@ package is supplied. SLIB Documentation is online at:
http://swissnet.ai.mit.edu/~jaffer/SLIB.html
SLIB is available from:
- http://swissnet.ai.mit.edu/ftpdir/scm/slib3a1.zip
- http://swissnet.ai.mit.edu/ftpdir/scm/slib-3a1-1.noarch.rpm
- swissnet.ai.mit.edu:/pub/scm/slib3a1.zip
- swissnet.ai.mit.edu:/pub/scm/slib-3a1-1.noarch.rpm
+ http://swissnet.ai.mit.edu/ftpdir/scm/slib3a2.zip
+ http://swissnet.ai.mit.edu/ftpdir/scm/slib-3a2-1.noarch.rpm
+ swissnet.ai.mit.edu:/pub/scm/slib3a2.zip
+ swissnet.ai.mit.edu:/pub/scm/slib-3a2-1.noarch.rpm
SLIB-PSD is a portable debugger for Scheme (requires emacs editor):
http://swissnet.ai.mit.edu/ftpdir/scm/slib-psd1-3.tar.gz
diff --git a/ChangeLog b/ChangeLog
index 857cc78..b59767d 100644
--- a/ChangeLog
+++ b/ChangeLog
@@ -1,3 +1,651 @@
+2005-06-22 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * slib.spec (install): Make slib executable.
+
+2005-06-18 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * Makefile (rpm): Program name changed to rpmbuild.
+
+ * slib.spec: Fixed for rpmbuild version 4.3.1
+
+2005-06-04 Aubrey Jaffer <jaffer@aubrey>
+
+ * require.scm (*SLIB-VERSION*): Bumped from 3a1 to 3a2.
+
+2005-05-08 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * Makefile (allfiles): Added clrnamdb.scm.
+
+2005-04-15 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * slib.texi (Installation): Instructions to replace Guile's
+ built-in slib directory.
+
+2005-04-14 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * dynwind.scm (with-load-pathname): Redefinition removed.
+
+ * slib.texi (Vicinity): with-load-pathname moved from System.
+
+ * require.scm: Moved vicinity definitions to *.init.
+
+ * Template.scm, *.init: Now contains all vicinity definitions.
+
+ * pnm.scm (pnm:image-file->array, pnm:array-write): Support up to
+ 16-bit values.
+
+ * slib.texi (Color Data-Type): Expanded make-color description.
+
+ * color.scm (make-color): Apply conversion function.
+
+2005-04-11 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * timecore.scm (time:year-70): Fixed -- was very broken.
+
+2005-03-22 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * solid.scm (solid:polyline): Added.
+
+2005-03-20 Kevin Ryde
+
+ * guile.init (<?, <=?, =?, >?, >=?): Added rev2-procedures.
+ (delete-file): Return #f for failure (not bomb).
+ (system, open-file): Made compatible with SLIB.
+
+2005-03-18 Reed Sheridan
+
+ * uri.scm (uri:decode-authority, uri:split): Remove colon from end
+ of idx-: (renamed cdx) to work around Gambit keyword syntax.
+
+2005-03-18 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * Makefile (install): Installs in $(libdir)slib/.
+ (uninstall): Fixed.
+
+2005-03-16 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * array.scm (array->vector): Return vector for rank-0 array.
+
+2005-03-13 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * solid.scm (solid:text, solid:font): Added.
+ (solid:extract-elevations): Rein in line length.
+
+2005-03-07 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * guile.init (a:*): Added case-insensitive aliases.
+ (random:chunk): Added.
+
+2005-03-06 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * differ.scm (diff:edit-length): Reconciled case for Guile.
+
+ * solid.scm (solid:bry): Fixed scaling off-by-one error.
+
+2005-02-24 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * phil-spc.scm (delaminate-list): Added.
+ (integer->hilbert-coordinates, hilbert-coordinates->integer): Use
+ lists of integers instead of bignums for intermediate results.
+
+2005-02-23 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * phil-spc.scm (integer->hilbert-coordinates)
+ (hilbert-coordinates->integer): Distributed rank-bit flipping.
+
+2005-02-21 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * phil-spc.scm (hilbert-coordinates->integer)
+ (integer->hilbert-coordinates): Added optional width argument
+ treating integers as fractional bits.
+
+2005-02-18 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * grapheps.scm (set-margin-templates): Added.
+
+2005-02-06 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * peanosfc.scm: Peano space filling curve added.
+
+2005-01-27 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * logical.scm (any-bits-set?, first-set-bit, bitwise-merge): Added
+ remaining SRFI-33 aliases.
+
+2005-01-24 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * guile.init: Removed gray-code functions (for SRFI-60).
+
+ * logical.scm: Moved gray-code to "phil-spc.scm" (for SRFI-60).
+
+ * phil-spc.scm: Moved gray-code functions from "logical.scm".
+
+2005-01-23 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * slib.texi (The SLIB script): Added section.
+
+ * Makefile (uninstall): Added.
+ (pinstall): Install slib.1
+
+2005-01-20 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * gambit.init: Major update for Gambit-C 4.0b12.
+
+ * slib.texi (Define-Structure): Documentation from Gambit-C 4.0.
+
+ * timecore.scm (tzfile:transition-index, time:split): Cleaned to
+ work with Gambit-C time datatype.
+
+ * Makefile (install): Include definition for S48_VICINITY.
+
+2005-01-19 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * http-cgi.scm (http:forwarding-page): Renamed DELAY argument.
+
+ * htmlform.scm (html:meta-refresh): Renamed DELAY argument.
+
+ * slib.sh (gsi): Gambit 4.0 doesn't allow input redirection;
+ foils --version test.
+
+2005-01-16 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * array.scm: Fixed documentation.
+ (make-array): Rank 0 arrays are box.
+ (array->vector, array->list): Added.
+ (list->array, vector->array): Added.
+
+2005-01-09 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * html4each.scm (htm-fields): Don't warn about empty ALT fields.
+
+ * slib.texi (Bit-Twiddling): Updated for SRFI-60 changes.
+
+ * phil-spc.scm: Updated for logical.scm changes.
+ (bitwise-delaminate, bitwise-laminate): Moved from logical.scm.
+
+ * logical.scm (logical:reduce): Handle null arity.
+ (reverse-bit-field): Replaced bit-reverse export.
+ (rotate-bit-field): Replaced logical:rotate export.
+ (copy-bit-field): Chaned argument order.
+ Laminates moved to "phil-spc.scm".
+ ARITHMETIC-SHIFT replaces interal uses of ASH.
+
+2005-01-07 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * guile.init (expt): Workaround removed. LOGICAL: aliases
+ removed.
+
+ * sort.scm, pnm.scm, matfile.scm, logical.scm, grapheps.scm,
+ fft.scm, differ.scm, determ.scm, charplot.scm, arraymap.scm:
+ MAKE-ARRAY replaced CREATE-ARRAY.
+
+2004-12-27 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * array.scm (Ac64, Ac32, Ar64, Ar32): Added word "inexact" to
+ descriptions.
+
+2004-12-22 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * vet.scm (vet-slib): Accept file arguments to include in vetting.
+
+2004-12-19 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * slib.texi (Bit-Twiddling): Updated and shuffled.
+
+ * logical.scm (logand, logior, logxor): Take one or more
+ arguments.
+
+2004-11-14 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * scheme48.init (inexact->exact, exact->inexact, atan, modulo):
+ Bugs have been fixed in 1.1
+
+2004-11-13 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * scheme48.init: From s48-0_57.init, which works with Scheme48 1.1
+
+2004-11-09 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * db2html.scm (table->linked-html): Chop tables into 50-row
+ chunks.
+
+ * tzfile.scm (tzfile:read): Use bytes, not strings.
+
+ * pnm.scm (pnm:write-bits): Added.
+
+ * array.scm (make-shared-array): Recoded 3-arg -.
+
+2004-10-27 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * timezone.scm (read-tzfile): Check for "/etc/localtime".
+
+ * psxtime.scm (tzset, daylight?, *timezone*, tzname): Moved from
+ "timezone.scm".
+
+ * slib.texi (Time Infrastructure): Added.
+
+ * Makefile (afiles): Added "timecore.scm".
+
+ * timecore.scm: Core time conversion routines split from
+ "psxtime.scm".
+
+2004-10-16 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * html4each.scm (htm-fields): Handle field without value.
+
+2004-10-15 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * slib.texi (Cyclic Checksum): Added citation for Philip Koopman
+ and his exhaustive analysis of CRC behavior.
+
+2004-10-13 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * byte.scm (bytes-reverse!): Was hosed for even number of bytes.
+
+2004-10-10 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * slib.texi (SRFI): SRFI-47 is the same as 'array.
+
+ * colorspc.scm (read-normalized-illuminant, illuminant-map)
+ (illuminant-map->XYZ): Added.
+ (wavelength->CIEXYZ, XYZ:normalize, XYZ:normalize-colors)
+ (temperature->CIEXYZ, spectrum->CIEXYZ, wavelength->CIEXYZ):
+ Removed; use chromaticity functions instead.
+
+ * daylight.scm (sunlight-chromaticity): Replaces sunlight-CIEXYZ.
+
+ * solid.scm (scene:sun, scene:overcast): Use chromaticity to
+ normalize XYZ values.
+
+ * subarray.scm (subarray, array-trim): Rewrote for all-0-based
+ arrays.
+
+2004-10-07 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * arraymap.scm (array-map!, array-for-each, array-index-map!):
+ Use of ARRAY-DIMENSIONS replaces use of ARRAY-SHAPE.
+ (make-shared-array): converted.
+
+ * array.scm: Made compatible with SRFI-47.
+ (equal?): Replaces array=?.
+ (make-array): Restored.
+
+ * schmooz.scm (schmooz-fun): Latest Texinfo needs additional blank
+ lines after @end statements converting to info.
+
+2004-10-03 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * colorspc.scm (read-cie-illuminant): Added.
+
+ * ciesia.dat: Added CIE Standard Illuminant A relative spectral
+ power distribution 300 nm - 830 nm at 5 nm intervals.
+
+ * ciesid65.dat: Added CIE Standard Illuminant D65 relative
+ spectral power distribution 300 nm - 830 nm at 5 nm intervals.
+
+2004-09-22 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * slib.texi (Miscellany): Added EXPT for integers.
+
+ * cring.scm (number^): Is EXPT.
+
+ * modular.scm (modular:expt): EXPT replaces integer-expt.
+
+ * bytenumb.scm (expt): Replaces BN:EXPT.
+
+ * logical.scm (expt): Replaces INTEGER-EXPT.
+
+ * Template.scm (expt): Define for exacts-only implementation.
+
+2004-09-14 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * arraymap.scm (array:copy!): Renamed from array-copy! and
+ argument order reversed.
+
+2004-09-04 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * batch.scm (batch:write-comment-line): Simplified.
+ (batch-line): Issue warning, but don't fail when line is too long.
+
+2004-08-21 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * format.scm (format:get-port-column, format:set-port-column!):
+ Added to track individual port columns.
+
+ * FAQ (What happened to FORMAT?): Question removed.
+
+ * format.scm: Tidied slib:error messages.
+
+ * Makefile (texifiles, format.texi): Added.
+
+ * format.texi, formatst.scm: Reinstated.
+
+ * format.scm: Made reentrant; call slib:error for errors.
+
+2004-08-11 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * matfile.scm (unwritten-stubber): Place holder for VAX and Cray
+ floating conversions.
+
+2004-08-10 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * slib.texi (Session Support): Documented 'abort feature.
+
+ * determ.scm (matrix2array, matrix2lists): Changed to 0-base.
+
+2004-07-28 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * top-refs.scm (exports<-info-index): Adjusted for texinfo 4.7,
+ which breaks long index lines.
+
+2004-07-27 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * Makefile (docfiles): Added indexs.texi.
+
+ * slib.texi (Top, About SLIB): Changed conditional for texinfo 4.7.
+
+ * indexs.texi (Index): Give each index its own node. Moved
+ index stuff here so it doesn't break texinfo-every-node-update.
+
+2004-06-17 Ivan Shmakov <ivan@theory.dcn-asu.ru>
+
+ * coerce.scm (type-of): Removed RECORD.
+
+ * hash.scm (hash): Removed obsolete support for RECORD types.
+
+2004-06-14 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * *.init (slib:eval-load): Moved to "require.scm".
+
+ * require.scm (slib:eval-load): Definition moved here.
+
+2004-06-13 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * slib.texi (System): Added with-load-pathname.
+
+ * dynwind.scm (with-load-pathname): Redefine using dynamic-wind.
+
+ * require.scm (vicinity:suffix?): Flag unknown SOFTWARE-TYPE.
+
+ * *.init (slib:eval-load): Converted to use with-load-pathname.
+
+2004-06-13 Ivan Shmakov <ivan@theory.dcn-asu.ru>
+
+ * manifest.scm (file->loads, file->definitions, file->exports):
+ * top-refs.scm (top-refs:include):
+ * ppfile.scm (pprint-filter-file):
+ * Template.scm (slib:eval-load):
+ * repl.scm (repl:repl): Converted to use with-load-pathname.
+
+ * require.scm (with-load-pathname): Added.
+
+2004-06-12 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * coerce.scm (type-of): Vector has priority over array.
+
+2004-06-10 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * trace.scm (debug:trace-procedure): Use 'call and 'retn instead
+ of (string->symbol "CALL") to avoid slashification.
+
+ * qp.scm (qp): Put ellipsis (...) in middle of strings, symbols.
+
+2004-06-03 Aubrey Jaffer <agj%fun@gte.com>
+
+ * slib.texi (Random Numbers): Don't change PRNG seed (URL).
+
+2004-05-23 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * dbutil.scm (close-database): Don't lock immutable dbs.
+
+2004-05-19 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * solid.scm (solid:cylinder): Negative radius for invisible side.
+
+2004-04-20 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * differ.scm (diff:mid-split): Removed unused M argument.
+
+2004-04-16 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * differ.scm: Removed equality predicate arguments.
+
+2004-04-14 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * differ.scm (diff2ez): Interleave insertions and deletions.
+ (diff2editlen, diff2edits!, edits2lcs!, diff:invert-edits!):
+ Derive lengths from array-dimensions.
+ (diff:edit-length, diff:edits, diff:longest-common-subsequence):
+ Moved all array creation to top-level API.
+
+2004-04-11 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * differ.scm (diff:negate-edits!): diff:fixup-edits Remnant.
+ (diff:fixup-edits): Removed unnecessary procedure.
+ (diff:longest-common-subsequence): Removed diff:order-edits call.
+ (sort): Feature no longer required.
+
+2004-03-20 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * transact.scm (file-lock!): Don't call EMACS:LOCK! unless
+ CURRENT-TIME is provided.
+
+ * Makefile (S48INIT): Abstracted .init file.
+ (IMAGE48): Renamed from IMAGE.
+
+2004-03-20 Ivan Shmakov <ivan@theory.dcn-asu.ru>
+
+ * s48-0_57.init (slib:warn, string-port): native functions based.
+ (slib-primitives): Makes transact.scm work with Scheme48 0.57.
+
+2004-03-19 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * transact.scm (word-lock:certificate): Test file's existence
+ before OPEN-FILE.
+
+2004-03-07 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * differ.scm (fp:run): Removed gratuitous variable KFPOFF.
+ (diff:mid-split): Removed unused definitions.
+ (diff:fixup-edits): Abstracted from DIFF:ORDER-EDITS.
+ Procedures grouped into API and supporting procedures.
+
+2004-03-01 Radey Shouman <shouman@comcast.net>
+
+ * pnm.scm (pnm:type-dimensions): Allow comments beginning with
+ # and ending with newline in pnm file headers as required by
+ libppm documentation.
+
+2004-02-08 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * manifest.scm (file->requires): Don't squawk if feature not in
+ catalog. Read through non-lists at top level.
+
+ * colorspc.scm (temperature->XYZ): Use blackbody-spectrum default
+ span.
+
+2004-02-01 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * manifest.scm (file->requires, file->loads, file->definitions)
+ (file->exports): Ignore first line if it begins with '#'.
+ (feature->requires*, file->requires*): Added transitive closures.
+
+2004-01-31 L.J. Buitinck
+
+ * soundex.scm (soundex): Converted to use dotted pairs for CODES.
+
+2004-01-31 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * solid.scm (scene:viewpoint): Restored earlier code which works
+ with current freewrl.
+ (solid:bry, solid:extract-elevations, solid:extract-colors):
+ ARRAY-DIMENSIONS replaced ARRAY-SHAPE.
+
+ * grapheps.scm (write-array-def):
+ ARRAY-DIMENSIONS replaced ARRAY-SHAPE.
+
+ * charplot.scm (charplot:plot, charplot:data->lists):
+ ARRAY-DIMENSIONS replaced ARRAY-SHAPE.
+
+ * sort.scm (sorted?, sort!, rank-1-array->list, sort):
+ ARRAY-DIMENSIONS replaced ARRAY-SHAPE.
+
+2004-01-20 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * bigloo.init (slib:load): Source or compiled.
+
+2004-01-16 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * Makefile ($(infodir)slib.info): "cp -a" ==> "cp -p".
+
+ * slib.sh: grep -q is not universal.
+
+2004-01-14 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * slib.sh: Separated shell assignments and exports.
+
+ * Makefile (srcdir.mk): Include after target.
+ Separated shell assignments and exports.
+
+2004-01-13 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * DrScheme.init (slib:warn): Added newline.
+
+2004-01-11 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * differ.scm (diff2editlen, diff2edits): 0-based fp.
+ (fp:compare, fp:run, fp:init! diff:divide-and-conquer)
+ (diff2et, diff2ez): 0-based fp; added fpoff argument.
+
+ * scamacr.scm (let*): Fixed syncase:andmap reference.
+
+ * slib.texi (provided?): Add scheme-implementation-type footnote.
+
+ * mitscheme.init (slib:error): Dispatch to special error routines.
+
+ * wttree.scm (error:error, error:wrong-type-argument):
+ (error:bad-range-argument): Changed to SLIB:ERROR.
+
+ * require.scm (provided?): Answer #t to
+ (scheme-implementation-type).
+
+2004-01-09 L.J. Buitinck
+
+ * srfi-1.scm (filter!): Updated.
+
+2004-01-09 Ken Anderson
+
+ * jscheme.init (scheme-implementation-version): 6.2.
+ (defmacro): Made native.
+
+2004-01-08 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * batch.scm (*operating-system*): SOFTWARE-TYPE symbols are
+ uppercase.
+
+2004-01-06 Ken Anderson
+
+ * jscheme.init: Added.
+
+2004-01-04 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * vscm.init, umbscheme.init, scsh.init, macscheme.init,
+ guile.init, gambit.init, elk.init, chez.init, STk.init,
+ RScheme.init, Template.scm, pscheme.init, t3.init, scheme48.init,
+ scheme2c.init, s48-0_57.init, mitscheme.init, bigloo.init
+ (*features*): Regularized order and content.
+
+ * slib.texi (Rev4 Optional Procedures): Removed R4RS essential
+ procedures string->list, list->string, vector->list, and
+ list->vector.
+
+ * rdms.scm (make-relational-system): Recode 3-argument -.
+
+2004-01-04 Ivan Shmakov <ivan@theory.dcn-asu.ru>
+
+ * transact.scm (word:lock!, word-lock:certificate): Modes are
+ symbols.
+
+2004-01-03 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * sc4opt.scm (string->list, list->string, vector->list):
+ (list->vector): Removed. These are R4RS essential procedures.
+
+ * dbinterp.scm, rdms.scm : Require REV4-OPTIONAL-PROCEDURES for
+ LIST-TAIL.
+
+ * byte.scm, chap.scm, getparam.scm, strcase.scm: Require
+ REV4-OPTIONAL-PROCEDURES for STRING-COPY.
+
+ * vet.scm (r4rs-symbols): Removed optional procedures DENOMINATOR,
+ FORCE, LIST-TAIL, NUMERATOR, RATIONALIZE, STRING-COPY,
+ STRING-FILL!, TRANSCRIPT-OFF, TRANSCRIPT-ON, VECTOR-FILL!,
+ WITH-INPUT-FROM-FILE, and WITH-OUTPUT-TO-FILE.
+
+2003-12-19 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * grapheps.scm (create-postscript-graph): Push bounds on stack at
+ end of preamble.
+
+ * grapheps.ps (wholepage): Bounds left on stack by preamble.
+
+2003-12-16 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * color.scm (string->color): Was spoofed by #00.
+
+2003-12-16 L.J. Buitinck
+
+ * srfi-1.scm (take!, split-at, fold, fold-right, pair-fold)
+ (pair-fold-right, reduce, reduce-right, delete-duplicates)
+ (alist-cons, alist-copy, alist-delete, lset<=, lset=, lset-adjoin)
+ (lset-union, lset-intersection, lset-difference, lset-xor)
+ (lset-diff+intersection): Added.
+
+2003-12-14 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * mkclrnam.scm (make-slib-color-name-db): Added nbs-iscc.
+
+ * Makefile (rfiles): Added nbs-iscc.
+
+ * mklibcat.scm (nbs-iscc): Added.
+
+ * nbs-iscc.txt: Added.
+
+2003-12-11 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * charplot.scm (charplot:array->list): Handle rank-1 arrays.
+
+2003-12-11 Ivan Shmakov <ivan@theory.dcn-asu.ru>
+
+ * dbsyn.scm (within-database): Added define-macro syntax.
+ (add-macro-support): Added.
+
+2003-12-09 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * manifest.scm (file->exports, file->definitions): Added optional
+ arguments to allow selection for types of definitions.
+
+2003-12-06 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * grapheps.scm (in-graphic-context): Use gpush and gpop.
+
+ * grapheps.ps (impulse, bargraph): Fixed.
+ (triup, tridown): Removed gratuitous 2 copy.
+ (gpush, gpop): Added for pointsize and glyphsize state.
+
+2003-12-05 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * dbinterp.scm (dbinterp:memoize): Speeds interpolate-from-table
+ by factor of 2.
+
+2003-12-02 Aubrey Jaffer <agj@alum.mit.edu>
+
+ * printf.scm (stdio:iprintf): `K' put dot between number and unit.
+
+ * rdms.scm (delete-table): Delete table only if TABLE-EXISTS?
+
+ * dbutil.scm (mdbm:try-opens, mdbm:open-type): Unlock if fail.
+
2003-11-30 Aubrey Jaffer <jaffer@scm.jaffer>
* require.scm (*SLIB-VERSION*): Bumped from 2d6 to 3a1.
@@ -1005,7 +1653,7 @@
* queue.scm (dequeue-all!): Added.
-2003-01-05 L.J. Buitinck <L.J.Buitinck@student.rug.nl>
+2003-01-05 L.J. Buitinck
* comlist.scm (comlist:subset?): Added.
@@ -1039,7 +1687,7 @@
* comlist.scm (comlist:list*): Make letrec top-level.
-2002-12-25 "L.J. Buitinck" <L.J.Buitinck@let.rug.nl>
+2002-12-25 L.J. Buitinck
* comlist.scm (comlist:union): Make letrec top-level.
@@ -1060,7 +1708,7 @@
* Makefile (catalogs): Make mzscheme new-catalog -g
(case-sensitive) so *SLIB-VERSION* symbol upper-cased.
-2002-12-08 L.J. Buitinck <L.J.Buitinck@let.rug.nl>
+2002-12-08 L.J. Buitinck
* slib.texi (Destructive list operations): Fixed SOME example.
MAP instead of MAPCAR in nconc example.
diff --git a/DrScheme.init b/DrScheme.init
index 9942897..8cce2e9 100644
--- a/DrScheme.init
+++ b/DrScheme.init
@@ -3,6 +3,85 @@
;;;
;;; This code is in the public domain.
+;;; (software-type) should be set to the generic operating system type.
+;;; UNIX, VMS, MACOS, AMIGA and MS-DOS are supported.
+
+;@
+(define (software-type)
+ (case (system-type)
+ [(unix macosx) 'UNIX]
+ [(windows) 'MS-DOS]
+ [(macos) 'MACOS]
+ [else (system-type)]))
+;@
+(define in-vicinity string-append)
+;@
+(define (user-vicinity)
+ (case (software-type)
+ ((VMS) "[.]")
+ (else "")))
+
+(define *load-pathname* #f)
+;@
+(define vicinity:suffix?
+ (let ((suffi
+ (case (software-type)
+ ((AMIGA) '(#\: #\/))
+ ((MACOS THINKC) '(#\:))
+ ((MS-DOS WINDOWS ATARIST OS/2) '(#\\ #\/))
+ ((NOSVE) '(#\: #\.))
+ ((UNIX COHERENT PLAN9) '(#\/))
+ ((VMS) '(#\: #\]))
+ (else
+ (slib:warn "require.scm" 'unknown 'software-type (software-type))
+ "/"))))
+ (lambda (chr) (and (memv chr suffi) #t))))
+;@
+(define (pathname->vicinity pathname)
+ (let loop ((i (- (string-length pathname) 1)))
+ (cond ((negative? i) "")
+ ((vicinity:suffix? (string-ref pathname i))
+ (substring pathname 0 (+ i 1)))
+ (else (loop (- i 1))))))
+(define (program-vicinity)
+ (if *load-pathname*
+ (pathname->vicinity *load-pathname*)
+ (slib:error 'program-vicinity " called; use slib:load to load")))
+;@
+(define sub-vicinity
+ (case (software-type)
+ ((VMS) (lambda
+ (vic name)
+ (let ((l (string-length vic)))
+ (if (or (zero? (string-length vic))
+ (not (char=? #\] (string-ref vic (- l 1)))))
+ (string-append vic "[" name "]")
+ (string-append (substring vic 0 (- l 1))
+ "." name "]")))))
+ (else (let ((*vicinity-suffix*
+ (case (software-type)
+ ((NOSVE) ".")
+ ((MACOS THINKC) ":")
+ ((MS-DOS WINDOWS ATARIST OS/2) "\\")
+ ((UNIX COHERENT PLAN9 AMIGA) "/"))))
+ (lambda (vic name)
+ (string-append vic name *vicinity-suffix*))))))
+;@
+(define (make-vicinity <pathname>) <pathname>)
+;@
+(define with-load-pathname
+ (let ((exchange
+ (lambda (new)
+ (let ((old *load-pathname*))
+ (set! *load-pathname* new)
+ old))))
+ (lambda (path thunk)
+ (let ((old #f))
+ (dynamic-wind
+ (lambda () (set! old (exchange path)))
+ thunk
+ (lambda () (exchange old)))))))
+
(define (make-exchanger obj)
(lambda (rep) (let ((old obj)) (set! obj rep) old)))
(define (open-file filename modes)
@@ -41,6 +120,9 @@
(eval '(require (lib "defmacro.ss")))
(slib:provide 'defmacro)))
+(provide 'vicinity)
+(provide 'srfi-59)
+
;;;The rest corrects mistakes in
;;;/usr/local/lib/plt/collects/slibinit/init.ss:
@@ -51,7 +133,8 @@
(let ((cep (current-error-port)))
(if (provided? 'trace) (print-call-stack cep))
(display "Warn: " cep)
- (for-each (lambda (x) (display #\ cep) (write x cep)) args))))
+ (for-each (lambda (x) (display #\ cep) (write x cep)) args)
+ (newline cep))))
(define call-with-input-string
(lambda (string thunk)
diff --git a/FAQ b/FAQ
index 3a428a5..38b1a53 100644
--- a/FAQ
+++ b/FAQ
@@ -1,4 +1,4 @@
-FAQ (Frequently Asked Questions and answers) for SLIB Scheme Library (slib3a1).
+FAQ (Frequently Asked Questions and answers) for SLIB Scheme Library (slib3a2).
Written by Aubrey Jaffer (http://swissnet.ai.mit.edu/~jaffer).
INTRODUCTION AND GENERAL INFORMATION
@@ -46,7 +46,7 @@ Several times a year.
[] What is the latest version?
-The version as of this writing is slib3a1. The latest documentation
+The version as of this writing is slib3a2. The latest documentation
is available online at:
http://swissnet.ai.mit.edu/~jaffer/SLIB.html
@@ -130,17 +130,6 @@ I find that I only type require statements at top level when
debugging. I put require statements in my Scheme files so that the
appropriate modules are loaded automatically.
-[] What happened to FORMAT?
-
-In order for FORMAT to call itself for FORMAT error messages, the
-original author made its code non-reentrant. For that reason and the
-reasons below, FORMAT was removed; I saw little evidence of anyone
-using it.
-
-If someone fixes FORMAT, I will put it back into SLIB. The last
-versions of FORMAT are in "format.scm", "formatst.scm", and
-"fmtdoc.txi" in http://swissnet.ai.mit.edu/ftpdir/scm/OLD/slib2d5.zip
-
[] Why does SLIB have PRINTF when it already has the more
powerful (CommonLisp) FORMAT?
@@ -162,19 +151,12 @@ again, printf gets it right:
(printf "%.20s\n" "the quick brown fox jumped over the lazy dog")
==> the quick brown fox
-FORMAT also lacks directives for formatting date and time. printf
-does not handle these directly, but a related function strftime does.
-
[] Why doesn't SLIB:ERROR call FORMAT?
Format does not provide a method to truncate fields. When an error
message contains non-terminating or large expressions, the essential
information of the message may be lost in the ensuing deluge.
-FORMAT as currently written in SLIB is not reentrant. Until this is
-fixed, exception handlers and errors which might occur while using
-FORMAT cannot use it.
-
MACROS
[] Why are there so many macro implementations in SLIB?
diff --git a/Makefile b/Makefile
index 2251d10..b90044f 100644
--- a/Makefile
+++ b/Makefile
@@ -11,31 +11,36 @@ intro:
@echo
-make slib.info
-include srcdir.mk
srcdir.mk: .. Makefile
- echo -e "srcdir = `pwd`/\n" > srcdir.mk
+ echo "srcdir = `pwd`/" > srcdir.mk
#srcdir=$(HOME)/slib/
+include srcdir.mk
-VERSION = 3a1
+VERSION = 3a2
RELEASE = 1
rpm_prefix=/usr/src/redhat/
-prefix = debian/tmp/usr
+prefix = /usr/local/
exec_prefix = $(prefix)
# directory where `make install' will put executable.
bindir = $(exec_prefix)bin/
libdir = $(exec_prefix)lib/
+libslibdir = $(libdir)slib/
+# directory where `make install' will put manual page.
+mandir = $(prefix)man/
+man1dir = $(mandir)man1/
infodir = $(prefix)info/
PREVDOCS = prevdocs/
-htmldir=slib_html/
+htmldir=../public_html/
dvidir=../dvi/
RUNNABLE = scheme48
+S48INIT = scheme48.init
LIB = $(libdir)$(RUNNABLE)/
VM = scheme48vm
-IMAGE = slib.image
+IMAGE48 = slib.image
INSTALL_DATA = install -c
$(LIB)slibcat:
@@ -45,66 +50,39 @@ catalogs:
-if type scm; then scm -c "(require 'new-catalog)"; fi
-if type guile; then guile -l guile.init -c\
"(use-modules (ice-9 slib)) (require 'new-catalog)"; fi
- -if type umb-scheme; then export SCHEME_INIT=umbscheme.init;\
+ -if type umb-scheme; then SCHEME_INIT=umbscheme.init;export SCHEME_INIT;\
echo "(require 'new-catalog)" | umb-scheme; fi
- -if type mzscheme; then export SCHEME_LIBRARY_PATH=`pwd`/;\
+ -if type mzscheme; then SCHEME_LIBRARY_PATH=`pwd`/;export SCHEME_LIBRARY_PATH;\
mzscheme -g -f DrScheme.init -e "(require 'new-catalog)" </dev/null; fi
-if type scheme48; then make install48; fi
MKNMDB = (require 'color-database) (make-slib-color-name-db) (slib:exit)
clrnamdb: clrnamdb.scm
-clrnamdb.scm: mkclrnam.scm Makefile
+clrnamdb.scm: mkclrnam.scm color.scm resenecolours.txt saturate.txt nbs-iscc.txt
if type scm; then scm -e"$(MKNMDB)";\
elif type guile; then guile -l guile.init -c\
"(use-modules (ice-9 slib)) $(MKNMDB)";\
elif type slib48; then echo -e "$(MKNMDB)\n,exit" | slib48 -h 3000000;\
- elif type umb-scheme; then export SCHEME_INIT=`pwd`/umbscheme.init;\
+ elif type umb-scheme; then SCHEME_INIT=`pwd`/umbscheme.init;export SCHEME_INIT;\
echo "$(MKNMDB)" | umb-scheme;\
- elif type mzscheme; then export SCHEME_LIBRARY_PATH=`pwd`/;\
+ elif type mzscheme; then SCHEME_LIBRARY_PATH=`pwd`/;export SCHEME_LIBRARY_PATH;\
echo "$(MKNMDB)" | mzscheme -f DrScheme.init;\
fi
-slib48: $(IMAGE)
-$(IMAGE): Makefile scheme48.init
- export S48_VERSION="`echo ,exit | scheme48 | sed -n 's/Welcome to Scheme 48 //;s/ ([^)]*)[.]//;p;q'`";\
- export S48_VICINITY="$(LIB)";\
- export SCHEME_LIBRARY_PATH="`pwd`/";\
- scheme48 < scheme48.init
-install48: $(IMAGE)
- $(INSTALL_DATA) $(IMAGE) $(LIB)
+slib48: $(IMAGE48)
+$(IMAGE48): Makefile $(S48INIT)
+ S48_VERSION="`echo ,exit | $(RUNNABLE) | sed -n 's/Welcome to Scheme 48 //;s/ ([^)]*)[.]//;p;q'`";export S48_VERSION;\
+ S48_VICINITY="$(LIB)";export S48_VICINITY;\
+ SCHEME_LIBRARY_PATH="`pwd`/";export SCHEME_LIBRARY_PATH;\
+ $(RUNNABLE) < $(S48INIT)
+install48: $(IMAGE48)
+ $(INSTALL_DATA) $(IMAGE48) $(LIB)
(echo '#! /bin/sh';\
- echo exec $(RUNNABLE) -i '$(LIB)$(IMAGE)' \"\$$\@\") \
+ echo exec $(RUNNABLE) -i '$(LIB)$(IMAGE48)' \"\$$\@\") \
> $(bindir)slib48
chmod +x $(bindir)slib48
-install:
- test -d $(bindir) || mkdir $(bindir)
- echo '#! /bin/sh' > $(bindir)slib
- echo export SCHEME_LIBRARY_PATH=$(libdir)slib/ >> $(bindir)slib
- echo VERSION=$(VERSION) >> $(bindir)slib
- cat slib.sh >> $(bindir)slib
- chmod +x $(bindir)slib
-
-#### Stuff for maintaining SLIB below ####
-
-ver = $(VERSION)
-version.txi: Makefile
- echo @set SLIBVERSION $(ver) > version.txi
- echo @set SLIBDATE `date +"%B %Y"` >> version.txi
-
-scheme = guile-1.6
-
-collect.sc:
- echo "(require 'macros-that-work)" > collect.sc
- echo "(require 'pprint-file)" >> collect.sc
- echo "(require 'yasos)" >> collect.sc
- echo "(pprint-filter-file \"collect.scm\" macwork:expand \"collectx.scm\")" >> collect.sc
- echo "(slib:exit #t)" >> collect.sc
-
-collectx.scm: collect.scm macwork.scm collect.sc
- $(scheme) < collect.sc
-
-ffiles = printf.scm genwrite.scm pp.scm format.scm \
+ffiles = format.scm printf.scm genwrite.scm pp.scm \
ppfile.scm strcase.scm debug.scm trace.scm \
strport.scm scanf.scm qp.scm break.scm stdio.scm \
strsrch.scm prec.scm schmooz.scm defmacex.scm mbe.scm
@@ -112,8 +90,8 @@ lfiles = sort.scm comlist.scm logical.scm
revfiles = sc4opt.scm sc4sc3.scm sc2.scm mularg.scm mulapply.scm \
trnscrpt.scm withfile.scm dynwind.scm promise.scm \
values.scm eval.scm null.scm
-afiles = charplot.scm root.scm cring.scm \
- selfset.scm psxtime.scm cltime.scm timezone.scm tzfile.scm
+afiles = charplot.scm root.scm cring.scm selfset.scm \
+ timecore.scm psxtime.scm cltime.scm timezone.scm tzfile.scm
bfiles = fluidlet.scm object.scm recobj.scm yasyn.scm collect.scm collectx.scm
scfiles = r4rsyn.scm scmacro.scm synclo.scm synrul.scm synchk.scm \
repl.scm macwork.scm mwexpand.scm mwdenote.scm mwsynrul.scm
@@ -125,7 +103,8 @@ efiles = record.scm dynamic.scm process.scm hash.scm \
rfiles = rdms.scm alistab.scm paramlst.scm \
batch.scm crc.scm dbrowse.scm getopt.scm dbinterp.scm \
dbcom.scm dbsyn.scm
-gfiles = colorspc.scm cie1931.xyz cie1964.xyz resenecolours.txt saturate.txt
+gfiles = colorspc.scm cie1931.xyz cie1964.xyz resenecolours.txt saturate.txt \
+ nbs-iscc.txt ciesid65.dat ciesia.dat
txiscms =grapheps.scm glob.scm getparam.scm \
vet.scm top-refs.scm hashtab.scm chap.scm comparse.scm\
@@ -136,7 +115,8 @@ txiscms =grapheps.scm glob.scm getparam.scm \
minimize.scm factor.scm determ.scm daylight.scm colornam.scm\
mkclrnam.scm color.scm subarray.scm dbutil.scm array.scm transact.scm\
arraymap.scm phil-spc.scm lineio.scm differ.scm cvs.scm tree.scm\
- coerce.scm byte.scm bytenumb.scm matfile.scm tsort.scm manifest.scm
+ coerce.scm byte.scm bytenumb.scm matfile.scm tsort.scm manifest.scm\
+ peanosfc.scm
txifiles =grapheps.txi glob.txi getparam.txi\
vet.txi top-refs.txi hashtab.txi chap.txi comparse.txi\
alist.txi ratize.txi modular.txi dirs.txi priorque.txi queue.txi\
@@ -146,56 +126,103 @@ txifiles =grapheps.txi glob.txi getparam.txi\
minimize.txi factor.txi determ.txi daylight.txi colornam.txi\
mkclrnam.txi color.txi subarray.txi dbutil.txi array.txi transact.txi\
arraymap.txi phil-spc.txi lineio.txi differ.txi cvs.txi tree.txi\
- coerce.txi byte.txi bytenumb.txi matfile.txi tsort.txi manifest.txi
+ coerce.txi byte.txi bytenumb.txi matfile.txi tsort.txi manifest.txi\
+ peanosfc.txi
% = `echo $(txiscms) | sed 's%.scm%.txi%g'`
-docfiles = ANNOUNCE README COPYING FAQ slib.info slib.texi schmooz.texi\
- ChangeLog version.txi object.texi $(txifiles)
+texifiles = schmooz.texi indexes.texi object.texi format.texi
+docfiles = ANNOUNCE README COPYING FAQ slib.1 slib.info slib.texi version.txi\
+ ChangeLog $(texifiles) $(txifiles)
mkfiles = Makefile require.scm Template.scm syncase.sh mklibcat.scm \
Bev2slib.scm slib.spec slib.sh grapheps.ps
ifiles = bigloo.init chez.init elk.init macscheme.init mitscheme.init \
- scheme2c.init scheme48.init s48-0_57.init gambit.init t3.init \
+ scheme2c.init scheme48.init gambit.init t3.init \
vscm.init scm.init scsh.init pscheme.init STk.init \
- RScheme.init DrScheme.init umbscheme.init guile.init
+ RScheme.init DrScheme.init umbscheme.init guile.init jscheme.init
tfiles = plottest.scm macrotst.scm dwindtst.scm formatst.scm
sfiles = $(ffiles) $(lfiles) $(revfiles) $(afiles) $(scfiles) $(efiles) \
$(rfiles) $(gfiles) $(scafiles) $(txiscms) $(srfiles)
-allfiles = $(docfiles) $(mkfiles) $(ifiles) $(sfiles) $(tfiles) $(bfiles)
+allfiles = $(docfiles) $(mkfiles) $(ifiles) $(sfiles) $(tfiles) $(bfiles) \
+ slib.doc clrnamdb.scm
+
+pinstall: slib.1
+ test -d $(mandir) || mkdir $(mandir)
+ test -d $(man1dir) || mkdir $(man1dir)
+ -cp slib.1 $(man1dir)
+
+install: pinstall clrnamdb.scm
+ test -d $(libdir) || mkdir $(libdir)
+ test -d $(libslibdir) || mkdir $(libslibdir)
+ -cp $(ifiles) $(sfiles) $(bfiles) $(mkfiles) clrnamdb.scm $(libslibdir)
+ test -d $(bindir) || mkdir $(bindir)
+ echo '#! /bin/sh' > $(bindir)slib
+ echo SCHEME_LIBRARY_PATH=$(libslibdir) >> $(bindir)slib
+ echo export SCHEME_LIBRARY_PATH >> $(bindir)slib
+ echo VERSION=$(VERSION) >> $(bindir)slib
+ echo "S48_VICINITY=\"$(LIB)\";export S48_VICINITY" >> $(bindir)slib
+ cat slib.sh >> $(bindir)slib
+ chmod +x $(bindir)slib
+
+uninstall:
+ -(cd $(libslibdir); rm $(ifiles) $(sfiles) $(bfiles) $(mkfiles) clrnamdb.scm)
+ -rm $(bindir)slib
+ -rm $(man1dir)slib.1
+
+slib.doc: slib.1
+ nroff -man $< | ul -tunknown >$@
+
+#### Stuff for maintaining SLIB below ####
+
+ver = $(VERSION)
+version.txi: Makefile
+ echo @set SLIBVERSION $(ver) > version.txi
+ echo @set SLIBDATE `date +"%B %Y"` >> version.txi
+
+scheme = scm
+
+collect.sc:
+ echo "(require 'macros-that-work)" > collect.sc
+ echo "(require 'pprint-file)" >> collect.sc
+ echo "(require 'yasos)" >> collect.sc
+ echo "(pprint-filter-file \"collect.scm\" macwork:expand \"collectx.scm\")" >> collect.sc
+ echo "(slib:exit #t)" >> collect.sc
+
+collectx.scm: collect.scm macwork.scm collect.sc
+ $(scheme) < collect.sc
$(txifiles): $(txiscms) schmooz.scm
- $(scheme) -l guile.init.local -c '(require '\''schmooz) (schmooz "slib.texi")'
+ $(scheme) -rschmooz -e'(schmooz "slib.texi")'
dvi: $(dvidir)slib.dvi
-$(dvidir)slib.dvi: version.txi slib.texi $(dvidir)slib.fn \
- $(txifiles) object.texi schmooz.texi
-# cd $(dvidir);export TEXINPUTS=$(srcdir):;texi2dvi $(srcdir)slib.texi
- -(cd $(dvidir);export TEXINPUTS=$(srcdir):;texindex slib.??)
- cd $(dvidir);export TEXINPUTS=$(srcdir):;tex $(srcdir)slib.texi
+$(dvidir)slib.dvi: version.txi slib.texi $(dvidir)slib.fn $(txifiles) $(texifiles)
+# cd $(dvidir);TEXINPUTS=$(srcdir):;export TEXINPUTS;texi2dvi $(srcdir)slib.texi
+ -(cd $(dvidir);TEXINPUTS=$(srcdir):;export TEXINPUTS;texindex slib.??)
+ cd $(dvidir);TEXINPUTS=$(srcdir):;export TEXINPUTS;tex $(srcdir)slib.texi
$(dvidir)slib.fn:
- cd $(dvidir);export TEXINPUTS=$(srcdir):;tex $(srcdir)slib.texi \
+ cd $(dvidir);TEXINPUTS=$(srcdir):;export TEXINPUTS;tex $(srcdir)slib.texi \
$(srcdir)schmooz.texi
xdvi: $(dvidir)slib.dvi
xdvi -s 3 $(dvidir)slib.dvi
pdf: $(htmldir)slib.pdf
-$(htmldir)slib.pdf: version.txi slib.texi $(dvidir)slib.fn schmooz.texi
+$(htmldir)slib.pdf: version.txi slib.texi $(dvidir)slib.fn $(txifiles) $(texifiles)
# cd $(dvidir);dvipdf slib.dvi # doesn't have links!
- cd $(dvidir);export TEXINPUTS=$(srcdir):;pdftex $(srcdir)slib.texi
+ cd $(dvidir);TEXINPUTS=$(srcdir):;export TEXINPUTS;pdftex $(srcdir)slib.texi
mv $(dvidir)slib.pdf $(htmldir)
xpdf: $(htmldir)slib.pdf
xpdf -z 3 $(htmldir)slib.pdf
-TEXI2HTML = texi2html -split chapter -verbose
-slib_toc.html: $(txifiles) version.txi slib.texi schmooz.texi
+TEXI2HTML = /usr/local/bin/texi2html -split -verbose
+$(htmldir)slib_toc.html: version.txi slib.texi $(txifiles) $(texifiles)
${TEXI2HTML} slib.texi
html: $(htmldir)slib_toc.html
-$(htmldir)slib_toc.html: slib_toc.html Makefile
- -rm -f slib_stoc.html
- if [ -f $(PREVDOCS)slib_toc.html ]; \
- then hitch $(PREVDOCS)slib_\*.html slib_\*.html $(htmldir); \
- else mkdir -p $(htmldir) ; cp slib_*.html $(htmldir);fi
+#$(htmldir)slib_toc.html: slib_toc.html Makefile
+# -rm -f slib_stoc.html
+# if [ -f $(PREVDOCS)slib_toc.html ]; \
+# then hitch $(PREVDOCS)slib_\*.html slib_\*.html $(htmldir); \
+# else cp slib_*.html $(htmldir);fi
-slib$(VERSION).info: $(txifiles) version.txi slib.texi schmooz.texi
+slib$(VERSION).info: version.txi slib.texi $(txifiles) $(texifiles)
makeinfo slib.texi --no-warn --no-split -o slib.info
mv slib.info slib$(VERSION).info
slib.info: slib$(VERSION).info
@@ -205,7 +232,7 @@ slib.info: slib$(VERSION).info
info: installinfo
installinfo: $(infodir)slib.info
$(infodir)slib.info: slib.info
- cp -a slib.info $(infodir)slib.info
+ cp -p slib.info $(infodir)slib.info
-install-info $(infodir)slib.info $(infodir)dir
-rm $(infodir)slib.info.gz
infoz: installinfoz
@@ -215,9 +242,11 @@ $(infodir)slib.info.gz: $(infodir)slib.info
makedev = make -f $(HOME)/makefile.dev
CHPAT=$(HOME)/bin/chpat
-RSYNC=rsync -avessh
+RSYNC=rsync --rsync-path=bin/rsync -bav
UPLOADEE=swissnet_upload
dest = $(HOME)/dist/
+DOSCM = /misc/usb1/scm/
+
temp/slib: $(allfiles)
-rm -rf temp
mkdir temp
@@ -230,6 +259,7 @@ infotemp/slib: slib.info
mkdir infotemp/slib
ln slib.info slib.info-* infotemp/slib
#For change-barred HTML.
+prevdocs: $(PREVDOCS)slib_toc.html $(PREVDOCS)slib.info
$(PREVDOCS)slib_toc.html:
$(PREVDOCS)slib.info: srcdir.mk Makefile
cd $(PREVDOCS); unzip -ao $(dest)slib*.zip
@@ -282,7 +312,7 @@ $(dest)slib$(VERSION).tar.gz: temp/slib
rpm: pubzip
#$(dest)slib-$(VERSION)-$(RELEASE).noarch.rpm: $(dest)slib$(VERSION).zip
cp $(HOME)/pub/slib.zip $(rpm_prefix)SOURCES/slib$(VERSION).zip
- rpm -ba slib.spec # --clean
+ rpmbuild -ba slib.spec # --clean
rm $(rpm_prefix)SOURCES/slib$(VERSION).zip
mv $(rpm_prefix)RPMS/noarch/slib-$(VERSION)-$(RELEASE).noarch.rpm \
$(rpm_prefix)SRPMS/slib-$(VERSION)-$(RELEASE).src.rpm $(dest)
@@ -297,10 +327,10 @@ slib.com: temp/slib
zip: slib.zip
slib.zip: temp/slib
$(makedev) DEST=../ PROD=slib zip
-doszip: /c/scm/dist/slib$(VERSION).zip
-/c/scm/dist/slib$(VERSION).zip: temp/slib
- $(makedev) DEST=/c/scm/dist/ PROD=slib ver=$(VERSION) zip
- zip -d /c/scm/dist/slib$(VERSION).zip slib/slib.info
+doszip: $(DOSCM)dist/slib$(VERSION).zip
+$(DOSCM)dist/slib$(VERSION).zip: temp/slib
+ $(makedev) DEST=$(DOSCM)dist/ PROD=slib ver=$(VERSION) zip
+ zip -d $(DOSCM)dist/slib$(VERSION).zip slib/slib.info
pubzip: temp/slib
$(makedev) DEST=$(HOME)/pub/ PROD=slib zip
@@ -343,8 +373,8 @@ new:
$(htmldir)JACAL.html \
$(htmldir)SCM.html \
$(htmldir)SIMSYNCH.html ../scm/scm.texi \
- /c/scm/dist/install.bat /c/scm/dist/makefile \
- /c/scm/dist/mkdisk.bat
+ $(DOSCM)dist/install.bat $(DOSCM)dist/makefile \
+ $(DOSCM)dist/mkdisk.bat
$(CHPAT) slib-$(VERSION) slib-$(ver) ANNOUNCE FAQ ../scm/ANNOUNCE \
../jacal/ANNOUNCE ../wb/README ../wb/ANNOUNCE \
../synch/ANNOUNCE \
@@ -352,14 +382,14 @@ new:
$(htmldir)JACAL.html \
$(htmldir)SCM.html \
$(htmldir)SIMSYNCH.html ../scm/scm.texi \
- /c/scm/dist/install.bat /c/scm/dist/makefile \
- /c/scm/dist/mkdisk.bat
+ $(DOSCM)dist/install.bat $(DOSCM)dist/makefile \
+ $(DOSCM)dist/mkdisk.bat
$(CHPAT) $(VERSION) $(ver) README slib.texi require.scm Makefile \
- $(htmldir)SLIB.html slib.spec scheme48.init s48-0_57.init
+ $(htmldir)SLIB.html slib.spec scheme48.init
cvs commit -lm '(*SLIB-VERSION*): Bumped from $(VERSION) to $(ver).'
cvs tag -lF slib$(ver)
-tagfiles = README version.txi slib.texi \
+tagfiles = README version.txi slib.texi $(texifiles) \
$(mkfiles) $(sfiles) $(bfiles) $(tfiles) $(ifiles)
# README and $(ifiles) cause semgentation faults in ETAGS for Emacs version 19.
tags: $(tagfiles)
@@ -374,11 +404,6 @@ report:
clean:
-rm -f *~ *.bak *.orig *.rej core a.out *.o \#*
-rm -rf *temp
- -rm -f slib$(VERSION).info
- -rm -f version.txi
- -rm -rf $(htmldir)
- echo $(scheme) -l guile.init.local -c '(require '\''schmooz) (schmooz-which-files "slib.texi")'
-
distclean: realclean
realclean:
-rm -f *~ *.bak *.orig *.rej TAGS core a.out *.o \#*
diff --git a/README b/README
index 1443e0e..1dd6441 100644
--- a/README
+++ b/README
@@ -1,10 +1,10 @@
-This directory contains the distribution of Scheme Library slib3a1.
+This directory contains the distribution of Scheme Library slib3a2.
Slib conforms to Revised^5 Report on the Algorithmic Language Scheme
and the IEEE P1178 specification. Slib supports Unix and similar
systems, VMS, and MS-DOS.
The maintainer can be reached at agj @ alum.mit.edu.
- http://swissnet.ai.mit.edu/~jaffer/SLIB.html
+ http://swiss.csail.mit.edu/~jaffer/SLIB.html
MANIFEST
@@ -27,7 +27,6 @@ The maintainer can be reached at agj @ alum.mit.edu.
`RScheme.init' is a configuration file for RScheme.
`scheme2c.init' is a configuration file for DEC's scheme->c.
`scheme48.init' is a configuration file for Scheme48.
- `s48-0_57.init is a configuration file for Scheme48-0.57.
`scsh.init' is a configuration file for Scheme-Shell
`scm.init' is a configuration file for SCM.
`t3.init' is a configuration file for T3.1 in Scheme mode.
@@ -35,6 +34,7 @@ The maintainer can be reached at agj @ alum.mit.edu.
`umbscheme.init' is a configuration file for umb-scheme.
`vscm.init' is a configuration file for VSCM.
`guile.init' is a configuration file for guile.
+ `jscheme.init' is a configuration file for JScheme.
`mklibcat.scm' builds the *catalog* cache.
`require.scm' has code which allows system independent access to
the library files.
@@ -47,6 +47,8 @@ The maintainer can be reached at agj @ alum.mit.edu.
`strcase.scm' has functions for manipulating the case of strings.
`genwrite.scm' has a generic-write which is used by pp.scm,
pp2str.scm and obj2str.scm
+ `format.scm' has Common-Lisp format.
+ `formatst.scm' tests format.
`printf.scm' has printf, fprintf, and sprintf compatible with C.
`scanf.scm' has scanf, fscanf, and sscanf compatible by C.
`lineio' has line oriented input/output functions.
@@ -62,7 +64,8 @@ The maintainer can be reached at agj @ alum.mit.edu.
`hash.scm' defines hash, hashq, and hashv.
`hashtab.scm' has hash tables.
`sierpinski.scm' 2-dimensional coordinate hash.
- `phil-spc.scm' Peano-Hilbert Space-Filling Curve.
+ `phil-spc.scm' Hilbert Space-Filling Curve.
+ `peanosfc.scm' Peano Space-Filling Curve.
`soundex.scm' English name hash.
`logical.scm' emulates 2's complement logical operations.
`random.scm' has random number generator compatible with Common Lisp.
@@ -86,8 +89,11 @@ The maintainer can be reached at agj @ alum.mit.edu.
`color.scm' has color data-type.
`cie1931.xyz' CIE XYZ(1931) Spectra from 380.nm to 780.nm.
`cie1964.xyz' CIE XYZ(1964) Spectra from 380.nm to 780.nm.
+ `ciesia.dat' CIE Standard Illuminant A relative spectral power distribution
+ `ciesid65.dat' CIE Standard Illuminant D65 relative spectral power distribution
`daylight.scm' Model of sky colors.
`getopt.scm' has posix-like getopt for parsing command line arguments.
+ `timecore.scm' has shared time conversion routines.
`psxtime.scm' has Posix time conversion routines.
`cltime.scm' has Common-Lisp time conversion routines.
`timezone.scm' has the default time-zone, UTC.
@@ -202,7 +208,7 @@ The maintainer can be reached at agj @ alum.mit.edu.
Unpacking the SLIB Distribution
-------------------------------
- If the SLIB distribution is a Linux RPM, it will create the SLIB
+If the SLIB distribution is a Linux RPM, it will create the SLIB
directory `/usr/share/slib'.
If the SLIB distribution is a ZIP file, unzip the distribution to
@@ -216,7 +222,7 @@ please inform agj @ alum.mit.edu.
Configure Scheme Implementation to Locate SLIB
----------------------------------------------
- If the Scheme implementation supports `getenv', then the value of the
+If the Scheme implementation supports `getenv', then the value of the
shell environment variable SCHEME_LIBRARY_PATH will be used for
`(library-vicinity)' if it is defined. Currently, Chez, Elk,
MITScheme, scheme->c, VSCM, and SCM support `getenv'. Scheme48
@@ -229,7 +235,7 @@ initialization file or by implementation-specific means.
Loading SLIB Initialization File
--------------------------------
- Check the manifest in `README' to find a configuration file for your
+Check the manifest in `README' to find a configuration file for your
Scheme implementation. Initialization files for most IEEE P1178
compliant Scheme Implementations are included with this distribution.
@@ -244,9 +250,9 @@ implementation to `load' this initialization file.
Build New SLIB Catalog for Implementation
-----------------------------------------
- When SLIB is first used from an implementation, a file named
-`slibcat' is written to the `implementation-vicinity' for that
-implementation. Because users may lack permission to write in
+When SLIB is first used from an implementation, a file named `slibcat'
+is written to the `implementation-vicinity' for that implementation.
+Because users may lack permission to write in
`implementation-vicinity', it is good practice to build the new catalog
when installing SLIB.
@@ -265,9 +271,9 @@ SLIB-installed scheme implementation, type:
Implementation-specific Instructions
------------------------------------
- Multiple implementations of Scheme can all use the same SLIB
-directory. Simply configure each implementation's initialization file
-as outlined above.
+Multiple implementations of Scheme can all use the same SLIB directory.
+Simply configure each implementation's initialization file as outlined
+above.
- Implementation: SCM
The SCM implementation does not require any initialization file as
@@ -328,7 +334,7 @@ as outlined above.
PORTING INSTRUCTIONS
- If there is no initialization file for your Scheme implementation, you
+If there is no initialization file for your Scheme implementation, you
will have to create one. Your Scheme implementation must be largely
compliant with
`IEEE Std 1178-1990',
@@ -348,8 +354,8 @@ library; this will allow the use of `provide', `provided?', and
`require' along with the "vicinity" functions. The rest of the
library will then be accessible in a system independent fashion.
- Please mail new working configuration files to `agj @ alum.mit.edu' so
-that they can be included in the SLIB distribution.
+ Please mail new working configuration files to `agj @ alum.mit.edu'
+so that they can be included in the SLIB distribution.
USING SLIB
@@ -361,4 +367,4 @@ as well by using, for example, `(provided? 'r3rs)' or `(require 'r3rs)'.
The first chapter of the SLIB manual "The Library System" explains the
mechanics of using SLIB modules.
- http://swissnet.ai.mit.edu/~jaffer/slib_1
+ http://swiss.csail.mit.edu/~jaffer/slib_1
diff --git a/RScheme.init b/RScheme.init
index b9a7d84..d04e4dc 100644
--- a/RScheme.init
+++ b/RScheme.init
@@ -66,76 +66,146 @@
home
(string-append home "/")))
(else home)))))
+;@
+(define in-vicinity string-append)
+;@
+(define (user-vicinity)
+ (case (software-type)
+ ((VMS) "[.]")
+ (else "")))
-;;; *FEATURES* should be set to a list of symbols describing features
-;;; of this implementation. Suggestions for features are:
-
+(define *load-pathname* #f)
+;@
+(define vicinity:suffix?
+ (let ((suffi
+ (case (software-type)
+ ((AMIGA) '(#\: #\/))
+ ((MACOS THINKC) '(#\:))
+ ((MS-DOS WINDOWS ATARIST OS/2) '(#\\ #\/))
+ ((NOSVE) '(#\: #\.))
+ ((UNIX COHERENT PLAN9) '(#\/))
+ ((VMS) '(#\: #\]))
+ (else
+ (slib:warn "require.scm" 'unknown 'software-type (software-type))
+ "/"))))
+ (lambda (chr) (and (memv chr suffi) #t))))
+;@
+(define (pathname->vicinity pathname)
+ (let loop ((i (- (string-length pathname) 1)))
+ (cond ((negative? i) "")
+ ((vicinity:suffix? (string-ref pathname i))
+ (substring pathname 0 (+ i 1)))
+ (else (loop (- i 1))))))
+(define (program-vicinity)
+ (if *load-pathname*
+ (pathname->vicinity *load-pathname*)
+ (slib:error 'program-vicinity " called; use slib:load to load")))
+;@
+(define sub-vicinity
+ (case (software-type)
+ ((VMS) (lambda
+ (vic name)
+ (let ((l (string-length vic)))
+ (if (or (zero? (string-length vic))
+ (not (char=? #\] (string-ref vic (- l 1)))))
+ (string-append vic "[" name "]")
+ (string-append (substring vic 0 (- l 1))
+ "." name "]")))))
+ (else (let ((*vicinity-suffix*
+ (case (software-type)
+ ((NOSVE) ".")
+ ((MACOS THINKC) ":")
+ ((MS-DOS WINDOWS ATARIST OS/2) "\\")
+ ((UNIX COHERENT PLAN9 AMIGA) "/"))))
+ (lambda (vic name)
+ (string-append vic name *vicinity-suffix*))))))
+;@
+(define (make-vicinity <pathname>) <pathname>)
+;@
+(define with-load-pathname
+ (let ((exchange
+ (lambda (new)
+ (let ((old *load-pathname*))
+ (set! *load-pathname* new)
+ old))))
+ (lambda (path thunk)
+ (let* ((old (exchange path))
+ (val (thunk)))
+ (exchange old)
+ val))))
+
+;;@ *FEATURES* is a list of symbols naming the (SLIB) features
+;;; initially supported by this implementation.
(define *features*
'(
source ;can load scheme source files
- ;(slib:load-source "filename")
-; compiled ;can load compiled files
- ;(slib:load-compiled "filename")
+ ;(SLIB:LOAD-SOURCE "filename")
+;;; compiled ;can load compiled files
+ ;(SLIB:LOAD-COMPILED "filename")
+ vicinity
+ srfi-59
;; Scheme report features
+ ;; R5RS-compliant implementations should provide all 9 features.
-; r5rs ;conforms to
-; eval ;R5RS two-argument eval
-; values ;R5RS multiple values
-; dynamic-wind ;R5RS dynamic-wind
-; macro ;R5RS high level macros
+;;; r5rs ;conforms to
+;;; eval ;R5RS two-argument eval
+;;; values ;R5RS multiple values
+;;; dynamic-wind ;R5RS dynamic-wind
+;;; macro ;R5RS high level macros
delay ;has DELAY and FORCE
multiarg-apply ;APPLY can take more than 2 args.
char-ready?
-; rationalize
- rev4-optional-procedures ;LIST-TAIL, STRING->LIST,
- ;LIST->STRING, STRING-COPY,
- ;STRING-FILL!, LIST->VECTOR,
- ;VECTOR->LIST, and VECTOR-FILL!
+ rev4-optional-procedures ;LIST-TAIL, STRING-COPY,
+ ;STRING-FILL!, and VECTOR-FILL!
+
+ ;; These four features are optional in both R4RS and R5RS
+
+ multiarg/and- ;/ and - can take more than 2 args.
+;;; rationalize
+;;; transcript ;TRANSCRIPT-ON and TRANSCRIPT-OFF
+ with-file ;has WITH-INPUT-FROM-FILE and
+ ;WITH-OUTPUT-TO-FILE
r4rs ;conforms to
ieee-p1178 ;conforms to
-; r3rs ;conforms to
+;;; r3rs ;conforms to
-; rev2-procedures ;SUBSTRING-MOVE-LEFT!,
+;;; rev2-procedures ;SUBSTRING-MOVE-LEFT!,
;SUBSTRING-MOVE-RIGHT!,
;SUBSTRING-FILL!,
;STRING-NULL?, APPEND!, 1+,
;-1+, <?, <=?, =?, >?, >=?
-; object-hash ;has OBJECT-HASH
+;;; object-hash ;has OBJECT-HASH
- multiarg/and- ;/ and - can take more than 2 args.
- with-file ;has WITH-INPUT-FROM-FILE and
- ;WITH-OUTPUT-TO-FILE
-; transcript ;TRANSCRIPT-ON and TRANSCRIPT-OFF
-; ieee-floating-point ;conforms to IEEE Standard 754-1985
+ full-continuation ;can return multiple times
+;;; ieee-floating-point ;conforms to IEEE Standard 754-1985
;IEEE Standard for Binary
;Floating-Point Arithmetic.
- full-continuation ;can return multiple times
;; Other common features
srfi ;srfi-0, COND-EXPAND finds all srfi-*
-; sicp ;runs code from Structure and
+;;; sicp ;runs code from Structure and
;Interpretation of Computer
;Programs by Abelson and Sussman.
-; defmacro ;has Common Lisp DEFMACRO
-; record ;has user defined data structures
+;;; defmacro ;has Common Lisp DEFMACRO
+;;; record ;has user defined data structures
string-port ;has CALL-WITH-INPUT-STRING and
;CALL-WITH-OUTPUT-STRING
-; sort
-; pretty-print
-; object->string
-; format ;Common-lisp output formatting
-; trace ;has macros: TRACE and UNTRACE
-; compiler ;has (COMPILER)
-; ed ;(ED) is editor
-; system ;posix (system <string>)
+;;; sort
+;;; pretty-print
+;;; object->string
+;;; format ;Common-lisp output formatting
+;;; trace ;has macros: TRACE and UNTRACE
+;;; compiler ;has (COMPILER)
+;;; ed ;(ED) is editor
+;;; system ;posix (system <string>)
getenv ;posix (getenv <string>)
-; program-arguments ;returns list of strings (argv)
-; current-time ;returns time in seconds since 1/1/1970
+;;; program-arguments ;returns list of strings (argv)
+;;; current-time ;returns time in seconds since 1/1/1970
;; Implementation Specific features
@@ -254,18 +324,7 @@
(define (defmacro:load <pathname>)
(slib:eval-load <pathname> defmacro:eval))
-
-(define (slib:eval-load <pathname> evl)
- (if (not (file-exists? <pathname>))
- (set! <pathname> (string-append <pathname> (scheme-file-suffix))))
- (call-with-input-file <pathname>
- (lambda (port)
- (let ((old-load-pathname *load-pathname*))
- (set! *load-pathname* <pathname>)
- (do ((o (read port) (read port)))
- ((eof-object? o))
- (evl o))
- (set! *load-pathname* old-load-pathname)))))
+;; slib:eval-load definition moved to "require.scm"
(define slib:warn
(lambda args
@@ -295,10 +354,8 @@
;(define (-1+ n) (+ n -1))
;(define 1- -1+)
-(define in-vicinity string-append)
-
;;; Define SLIB:EXIT to be the implementation procedure to exit or
-;;; return if exitting not supported.
+;;; return if exiting not supported.
(define slib:exit (lambda args (process-exit 0)))
;;; Here for backward compatability
diff --git a/STk.init b/STk.init
index 97edf81..d09074d 100644
--- a/STk.init
+++ b/STk.init
@@ -47,75 +47,147 @@
home
(string-append home "/")))
(else home)))))
-
-;;; *FEATURES* should be set to a list of symbols describing features
-;;; of this implementation. Suggestions for features are:
+;@
+(define in-vicinity string-append)
+;@
+(define (user-vicinity)
+ (case (software-type)
+ ((VMS) "[.]")
+ (else "")))
+
+(define *load-pathname* #f)
+;@
+(define vicinity:suffix?
+ (let ((suffi
+ (case (software-type)
+ ((AMIGA) '(#\: #\/))
+ ((MACOS THINKC) '(#\:))
+ ((MS-DOS WINDOWS ATARIST OS/2) '(#\\ #\/))
+ ((NOSVE) '(#\: #\.))
+ ((UNIX COHERENT PLAN9) '(#\/))
+ ((VMS) '(#\: #\]))
+ (else
+ (slib:warn "require.scm" 'unknown 'software-type (software-type))
+ "/"))))
+ (lambda (chr) (and (memv chr suffi) #t))))
+;@
+(define (pathname->vicinity pathname)
+ (let loop ((i (- (string-length pathname) 1)))
+ (cond ((negative? i) "")
+ ((vicinity:suffix? (string-ref pathname i))
+ (substring pathname 0 (+ i 1)))
+ (else (loop (- i 1))))))
+(define (program-vicinity)
+ (if *load-pathname*
+ (pathname->vicinity *load-pathname*)
+ (slib:error 'program-vicinity " called; use slib:load to load")))
+;@
+(define sub-vicinity
+ (case (software-type)
+ ((VMS) (lambda
+ (vic name)
+ (let ((l (string-length vic)))
+ (if (or (zero? (string-length vic))
+ (not (char=? #\] (string-ref vic (- l 1)))))
+ (string-append vic "[" name "]")
+ (string-append (substring vic 0 (- l 1))
+ "." name "]")))))
+ (else (let ((*vicinity-suffix*
+ (case (software-type)
+ ((NOSVE) ".")
+ ((MACOS THINKC) ":")
+ ((MS-DOS WINDOWS ATARIST OS/2) "\\")
+ ((UNIX COHERENT PLAN9 AMIGA) "/"))))
+ (lambda (vic name)
+ (string-append vic name *vicinity-suffix*))))))
+;@
+(define (make-vicinity <pathname>) <pathname>)
+;@
+(define with-load-pathname
+ (let ((exchange
+ (lambda (new)
+ (let ((old *load-pathname*))
+ (set! *load-pathname* new)
+ old))))
+ (lambda (path thunk)
+ (let ((old #f))
+ (dynamic-wind
+ (lambda () (set! old (exchange path)))
+ thunk
+ (lambda () (exchange old)))))))
+
+;;@ *FEATURES* is a list of symbols naming the (SLIB) features
+;;; initially supported by this implementation.
(define *features*
'(
source ;can load scheme source files
- ;(slib:load-source "filename")
+ ;(SLIB:LOAD-SOURCE "filename")
compiled ;can load compiled files
- ;(slib:load-compiled "filename")
+ ;(SLIB:LOAD-COMPILED "filename")
+ vicinity
+ srfi-59
;; Scheme report features
+ ;; R5RS-compliant implementations should provide all 9 features.
-; r5rs ;conforms to
+;;; r5rs ;conforms to
eval ;R5RS two-argument eval
-; values ;R5RS multiple values
+;;; values ;R5RS multiple values
dynamic-wind ;R5RS dynamic-wind
-; macro ;R5RS high level macros
+;;; macro ;R5RS high level macros
delay ;has DELAY and FORCE
multiarg-apply ;APPLY can take more than 2 args.
-; char-ready?
-; rationalize
- rev4-optional-procedures ;LIST-TAIL, STRING->LIST,
- ;LIST->STRING, STRING-COPY,
- ;STRING-FILL!, LIST->VECTOR,
- ;VECTOR->LIST, and VECTOR-FILL!
+;;; char-ready?
+ rev4-optional-procedures ;LIST-TAIL, STRING-COPY,
+ ;STRING-FILL!, and VECTOR-FILL!
+
+ ;; These four features are optional in both R4RS and R5RS
+
+ multiarg/and- ;/ and - can take more than 2 args.
+;;; rationalize
+;;; transcript ;TRANSCRIPT-ON and TRANSCRIPT-OFF
+ with-file ;has WITH-INPUT-FROM-FILE and
+ ;WITH-OUTPUT-TO-FILE
r4rs ;conforms to
ieee-p1178 ;conforms to
-; r3rs ;conforms to
+;;; r3rs ;conforms to
-; rev2-procedures ;SUBSTRING-MOVE-LEFT!,
+;;; rev2-procedures ;SUBSTRING-MOVE-LEFT!,
;SUBSTRING-MOVE-RIGHT!,
;SUBSTRING-FILL!,
;STRING-NULL?, APPEND!, 1+,
;-1+, <?, <=?, =?, >?, >=?
-; object-hash ;has OBJECT-HASH
+;;; object-hash ;has OBJECT-HASH
- multiarg/and- ;/ and - can take more than 2 args.
- with-file ;has WITH-INPUT-FROM-FILE and
- ;WITH-OUTPUT-TO-FILE
-; transcript ;TRANSCRIPT-ON and TRANSCRIPT-OFF
+ full-continuation ;can return multiple times
ieee-floating-point ;conforms to IEEE Standard 754-1985
;IEEE Standard for Binary
;Floating-Point Arithmetic.
- full-continuation ;can return multiple times
;; Other common features
srfi ;srfi-0, COND-EXPAND finds all srfi-*
-; sicp ;runs code from Structure and
+;;; sicp ;runs code from Structure and
;Interpretation of Computer
;Programs by Abelson and Sussman.
-; defmacro ;has Common Lisp DEFMACRO
-; record ;has user defined data structures
+;;; defmacro ;has Common Lisp DEFMACRO
+;;; record ;has user defined data structures
string-port ;has CALL-WITH-INPUT-STRING and
;CALL-WITH-OUTPUT-STRING
-; sort
-; pretty-print
-; object->string
-; format ;Common-lisp output formatting
-; trace ;has macros: TRACE and UNTRACE
-; compiler ;has (COMPILER)
+;;; sort
+;;; pretty-print
+;;; object->string
+;;; format ;Common-lisp output formatting
+;;; trace ;has macros: TRACE and UNTRACE
+;;; compiler ;has (COMPILER)
ed ;(ED) is editor
system ;posix (system <string>)
getenv ;posix (getenv <string>)
-; program-arguments ;returns list of strings (argv)
-; current-time ;returns time in seconds since 1/1/1970
+;;; program-arguments ;returns list of strings (argv)
+;;; current-time ;returns time in seconds since 1/1/1970
;; Implementation Specific features
@@ -210,18 +282,7 @@
(define (defmacro:load <pathname>)
(slib:eval-load <pathname> defmacro:eval))
-
-(define (slib:eval-load <pathname> evl)
- (if (not (file-exists? <pathname>))
- (set! <pathname> (string-append <pathname> (scheme-file-suffix))))
- (call-with-input-file <pathname>
- (lambda (port)
- (let ((old-load-pathname *load-pathname*))
- (set! *load-pathname* <pathname>)
- (do ((o (read port) (read port)))
- ((eof-object? o))
- (evl o))
- (set! *load-pathname* old-load-pathname)))))
+;; slib:eval-load definition moved to "require.scm"
(define slib:warn
(lambda args
@@ -244,10 +305,8 @@
;;; they are not already defined.
(define -1+ 1-)
-(define in-vicinity string-append)
-
;;; Define SLIB:EXIT to be the implementation procedure to exit or
-;;; return if exitting not supported.
+;;; return if exiting not supported.
(define slib:exit exit)
;;; Here for backward compatability
diff --git a/Template.scm b/Template.scm
index 63c10c9..b35f8e5 100644
--- a/Template.scm
+++ b/Template.scm
@@ -58,16 +58,88 @@
(string-append home "/")))
(else home)))))
-;;@ *FEATURES* should be set to a list of symbols describing features
-;;; of this implementation. Suggestions for features are:
+;@
+(define in-vicinity string-append)
+;@
+(define (user-vicinity)
+ (case (software-type)
+ ((VMS) "[.]")
+ (else "")))
+
+(define *load-pathname* #f)
+;@
+(define vicinity:suffix?
+ (let ((suffi
+ (case (software-type)
+ ((AMIGA) '(#\: #\/))
+ ((MACOS THINKC) '(#\:))
+ ((MS-DOS WINDOWS ATARIST OS/2) '(#\\ #\/))
+ ((NOSVE) '(#\: #\.))
+ ((UNIX COHERENT PLAN9) '(#\/))
+ ((VMS) '(#\: #\]))
+ (else
+ (slib:warn "require.scm" 'unknown 'software-type (software-type))
+ "/"))))
+ (lambda (chr) (and (memv chr suffi) #t))))
+;@
+(define (pathname->vicinity pathname)
+ (let loop ((i (- (string-length pathname) 1)))
+ (cond ((negative? i) "")
+ ((vicinity:suffix? (string-ref pathname i))
+ (substring pathname 0 (+ i 1)))
+ (else (loop (- i 1))))))
+(define (program-vicinity)
+ (if *load-pathname*
+ (pathname->vicinity *load-pathname*)
+ (slib:error 'program-vicinity " called; use slib:load to load")))
+;@
+(define sub-vicinity
+ (case (software-type)
+ ((VMS) (lambda
+ (vic name)
+ (let ((l (string-length vic)))
+ (if (or (zero? (string-length vic))
+ (not (char=? #\] (string-ref vic (- l 1)))))
+ (string-append vic "[" name "]")
+ (string-append (substring vic 0 (- l 1))
+ "." name "]")))))
+ (else (let ((*vicinity-suffix*
+ (case (software-type)
+ ((NOSVE) ".")
+ ((MACOS THINKC) ":")
+ ((MS-DOS WINDOWS ATARIST OS/2) "\\")
+ ((UNIX COHERENT PLAN9 AMIGA) "/"))))
+ (lambda (vic name)
+ (string-append vic name *vicinity-suffix*))))))
+;@
+(define (make-vicinity <pathname>) <pathname>)
+;@
+(define with-load-pathname
+ (let ((exchange
+ (lambda (new)
+ (let ((old *load-pathname*))
+ (set! *load-pathname* new)
+ old))))
+ (lambda (path thunk)
+ (let ((old #f))
+ (dynamic-wind
+ (lambda () (set! old (exchange path)))
+ thunk
+ (lambda () (exchange old)))))))
+
+;;@ *FEATURES* is a list of symbols naming the (SLIB) features
+;;; initially supported by this implementation.
(define *features*
'(
source ;can load scheme source files
- ;(slib:load-source "filename")
-; compiled ;can load compiled files
- ;(slib:load-compiled "filename")
+ ;(SLIB:LOAD-SOURCE "filename")
+;;; compiled ;can load compiled files
+ ;(SLIB:LOAD-COMPILED "filename")
+ vicinity
+ srfi-59
;; Scheme report features
+ ;; R5RS-compliant implementations should provide all 9 features.
r5rs ;conforms to
eval ;R5RS two-argument eval
@@ -77,55 +149,56 @@
delay ;has DELAY and FORCE
multiarg-apply ;APPLY can take more than 2 args.
char-ready?
+ rev4-optional-procedures ;LIST-TAIL, STRING-COPY,
+ ;STRING-FILL!, and VECTOR-FILL!
+
+ ;; These four features are optional in both R4RS and R5RS
+
+;;; multiarg/and- ;/ and - can take more than 2 args.
rationalize
- rev4-optional-procedures ;LIST-TAIL, STRING->LIST,
- ;LIST->STRING, STRING-COPY,
- ;STRING-FILL!, LIST->VECTOR,
- ;VECTOR->LIST, and VECTOR-FILL!
+;;; transcript ;TRANSCRIPT-ON and TRANSCRIPT-OFF
+;;; with-file ;has WITH-INPUT-FROM-FILE and
+ ;WITH-OUTPUT-TO-FILE
r4rs ;conforms to
ieee-p1178 ;conforms to
-; r3rs ;conforms to
+;;; r3rs ;conforms to
-; rev2-procedures ;SUBSTRING-MOVE-LEFT!,
+;;; rev2-procedures ;SUBSTRING-MOVE-LEFT!,
;SUBSTRING-MOVE-RIGHT!,
;SUBSTRING-FILL!,
;STRING-NULL?, APPEND!, 1+,
;-1+, <?, <=?, =?, >?, >=?
-; object-hash ;has OBJECT-HASH
+;;; object-hash ;has OBJECT-HASH
-; multiarg/and- ;/ and - can take more than 2 args.
-; with-file ;has WITH-INPUT-FROM-FILE and
- ;WITH-OUTPUT-TO-FILE
-; transcript ;TRANSCRIPT-ON and TRANSCRIPT-OFF
+ full-continuation ;can return multiple times
ieee-floating-point ;conforms to IEEE Standard 754-1985
;IEEE Standard for Binary
;Floating-Point Arithmetic.
- full-continuation ;can return multiple times
;; Other common features
srfi ;srfi-0, COND-EXPAND finds all srfi-*
-; sicp ;runs code from Structure and
+;;; sicp ;runs code from Structure and
;Interpretation of Computer
;Programs by Abelson and Sussman.
-; defmacro ;has Common Lisp DEFMACRO
-; record ;has user defined data structures
-; string-port ;has CALL-WITH-INPUT-STRING and
+;;; defmacro ;has Common Lisp DEFMACRO
+;;; record ;has user defined data structures
+;;; string-port ;has CALL-WITH-INPUT-STRING and
;CALL-WITH-OUTPUT-STRING
-; sort
-; pretty-print
-; object->string
-; format ;Common-lisp output formatting
-; trace ;has macros: TRACE and UNTRACE
-; compiler ;has (COMPILER)
-; ed ;(ED) is editor
-; system ;posix (system <string>)
+;;; sort
+;;; pretty-print
+;;; object->string
+;;; format ;Common-lisp output formatting
+;;; trace ;has macros: TRACE and UNTRACE
+;;; compiler ;has (COMPILER)
+;;; ed ;(ED) is editor
+;;; system ;posix (system <string>)
getenv ;posix (getenv <string>)
-; program-arguments ;returns list of strings (argv)
-; current-time ;returns time in seconds since 1/1/1970
+;;; program-arguments ;returns list of strings (argv)
+;;; current-time ;returns time in seconds since 1/1/1970
;; Implementation Specific features
@@ -224,18 +297,7 @@
;@
(define (defmacro:load <pathname>)
(slib:eval-load <pathname> defmacro:eval))
-;@
-(define (slib:eval-load <pathname> evl)
- (if (not (file-exists? <pathname>))
- (set! <pathname> (string-append <pathname> (scheme-file-suffix))))
- (call-with-input-file <pathname>
- (lambda (port)
- (let ((old-load-pathname *load-pathname*))
- (set! *load-pathname* <pathname>)
- (do ((o (read port) (read port)))
- ((eof-object? o))
- (evl o))
- (set! *load-pathname* old-load-pathname)))))
+;; slib:eval-load definition moved to "require.scm"
;@
(define slib:warn
(lambda args
@@ -295,11 +357,8 @@
;(define (-1+ n) (+ n -1))
;(define 1- -1+)
-;@
-(define in-vicinity string-append)
-
;;@ Define SLIB:EXIT to be the implementation procedure to exit or
-;;; return if exitting not supported.
+;;; return if exiting not supported.
(define slib:exit (lambda args #f))
;;@ Here for backward compatability
diff --git a/alist.scm b/alist.scm
index f1bdd70..4da3a34 100644
--- a/alist.scm
+++ b/alist.scm
@@ -1,5 +1,5 @@
;;;"alist.scm", alist functions for Scheme.
-;;;Copyright (c) 1992, 1993, 2003 Aubrey Jaffer
+;;;Copyright (C) 1992, 1993, 2003 Aubrey Jaffer
;
;Permission to copy this software, to modify it, to redistribute it,
;to distribute modified versions, and to use it for any purpose is
diff --git a/alist.txi b/alist.txi
index 804df8a..257724e 100644
--- a/alist.txi
+++ b/alist.txi
@@ -20,6 +20,7 @@ argument or @code{#f} if no key in the alist is @var{pred}-equal to the
first argument.
@end defun
+
@defun alist-inquirer pred
Returns a procedure of 2 arguments, @var{alist} and @var{key}, which
@@ -27,6 +28,7 @@ returns the value associated with @var{key} in @var{alist} or @code{#f} if
@var{key} does not appear in @var{alist}.
@end defun
+
@defun alist-associator pred
Returns a procedure of 3 arguments, @var{alist}, @var{key}, and
@@ -42,6 +44,7 @@ lost. This returned procedure may or may not have side effects on its
@end lisp
@end defun
+
@defun alist-remover pred
Returns a procedure of 2 arguments, @var{alist} and @var{key}, which
@@ -55,6 +58,7 @@ This returned procedure may or may not have side effects on its
@end lisp
@end defun
+
@defun alist-map proc alist
Returns a new association list formed by mapping @var{proc} over the
@@ -62,9 +66,11 @@ keys and values of @var{alist}. @var{proc} must be a function of 2
arguments which returns the new value part.
@end defun
+
@defun alist-for-each proc alist
Applies @var{proc} to each pair of keys and values of @var{alist}.
@var{proc} must be a function of 2 arguments. The returned value is
unspecified.
@end defun
+
diff --git a/array.scm b/array.scm
index 417e137..5f87b98 100644
--- a/array.scm
+++ b/array.scm
@@ -1,5 +1,5 @@
;;;;"array.scm" Arrays for Scheme
-; Copyright (C) 2001, 2003 Aubrey Jaffer
+; Copyright (C) 2001, 2003, 2005 Aubrey Jaffer
;
;Permission to copy this software, to modify it, to redistribute it,
;to distribute modified versions, and to use it for any purpose is
@@ -17,25 +17,25 @@
;promotional, or sales literature without prior written consent in
;each case.
-;;@code{(require 'array)}
+;;@code{(require 'array)} or @code{(require 'srfi-63)}
;;@ftindex array
(require 'record)
(define array:rtd
(make-record-type "array"
- '(shape
+ '(dimensions
scales ;list of dimension scales
offset ;exact integer
store ;data
)))
-(define array:shape
- (let ((shape (record-accessor array:rtd 'shape)))
+(define array:dimensions
+ (let ((dimensions (record-accessor array:rtd 'dimensions)))
(lambda (array)
- (cond ((vector? array) (list (list 0 (+ -1 (vector-length array)))))
- ((string? array) (list (list 0 (+ -1 (string-length array)))))
- (else (shape array))))))
+ (cond ((vector? array) (list (vector-length array)))
+ ((string? array) (list (string-length array)))
+ (else (dimensions array))))))
(define array:scales
(let ((scales (record-accessor array:rtd 'scales)))
@@ -59,7 +59,7 @@
(else (offset obj))))))
(define array:construct
- (record-constructor array:rtd '(shape scales offset store)))
+ (record-constructor array:rtd '(dimensions scales offset store)))
;;@args obj
;;Returns @code{#t} if the @1 is an array, and @code{#f} if not.
@@ -68,9 +68,9 @@
(lambda (obj) (or (string? obj) (vector? obj) (array:array? obj)))))
;;@noindent
-;;@emph{Note:} Arrays are not disjoint from other Scheme types. Strings
-;;and vectors also satisfy @code{array?}. A disjoint array predicate can
-;;be written:
+;;@emph{Note:} Arrays are not disjoint from other Scheme types.
+;;Vectors and possibly strings also satisfy @code{array?}.
+;;A disjoint array predicate can be written:
;;
;;@example
;;(define (strict-array? obj)
@@ -78,159 +78,106 @@
;;@end example
;;@body
-;;Returns @code{#t} if @1 and @2 have the same rank and shape and the
+;;Returns @code{#t} if @1 and @2 have the same rank and dimensions and the
;;corresponding elements of @1 and @2 are @code{equal?}.
+
+;;@body
+;;@0 recursively compares the contents of pairs, vectors, strings, and
+;;@emph{arrays}, applying @code{eqv?} on other objects such as numbers
+;;and symbols. A rule of thumb is that objects are generally @0 if
+;;they print the same. @0 may fail to terminate if its arguments are
+;;circular data structures.
;;
;;@example
-;;(array=? (create-array '#(foo) 3 3)
-;; (create-array '#(foo) '(0 2) '(0 2)))
-;; @result{} #t
+;;(equal? 'a 'a) @result{} #t
+;;(equal? '(a) '(a)) @result{} #t
+;;(equal? '(a (b) c)
+;; '(a (b) c)) @result{} #t
+;;(equal? "abc" "abc") @result{} #t
+;;(equal? 2 2) @result{} #t
+;;(equal? (make-vector 5 'a)
+;; (make-vector 5 'a)) @result{} #t
+;;(equal? (make-array (A:fixN32b 4) 5 3)
+;; (make-array (A:fixN32b 4) 5 3)) @result{} #t
+;;(equal? (make-array '#(foo) 3 3)
+;; (make-array '#(foo) 3 3)) @result{} #t
+;;(equal? (lambda (x) x)
+;; (lambda (y) y)) @result{} @emph{unspecified}
;;@end example
-(define (array=? array1 array2)
- (and (equal? (array:shape array1) (array:shape array2))
- (equal? (array:store array1) (array:store array2))))
+(define (equal? obj1 obj2)
+ (cond ((eqv? obj1 obj2) #t)
+ ((or (pair? obj1) (pair? obj2))
+ (and (pair? obj1) (pair? obj2)
+ (equal? (car obj1) (car obj2))
+ (equal? (cdr obj1) (cdr obj2))))
+ ((or (string? obj1) (string? obj2))
+ (and (string? obj1) (string? obj2)
+ (string=? obj1 obj2)))
+ ((or (vector? obj1) (vector? obj2))
+ (and (vector? obj1) (vector? obj2)
+ (equal? (vector-length obj1) (vector-length obj2))
+ (do ((idx (+ -1 (vector-length obj1)) (+ -1 idx)))
+ ((or (negative? idx)
+ (not (equal? (vector-ref obj1 idx)
+ (vector-ref obj2 idx))))
+ (negative? idx)))))
+ ((or (array? obj1) (array? obj2))
+ (and (array? obj1) (array? obj2)
+ (equal? (array:dimensions obj1) (array:dimensions obj2))
+ (equal? (array:store obj1) (array:store obj2))))
+ (else #f)))
-(define (array:dimensions->shape dims)
- (map (lambda (dim) (if (list? dim) dim (list 0 (+ -1 dim)))) dims))
+;;@body
+;;Returns the number of dimensions of @1. If @1 is not an array, 0 is
+;;returned.
+(define (array-rank obj)
+ (if (array? obj) (length (array:dimensions obj)) 0))
+
+;;@args array
+;;Returns a list of dimensions.
+;;
+;;@example
+;;(array-dimensions (make-array '#() 3 5))
+;; @result{} (3 5)
+;;@end example
+(define array-dimensions array:dimensions)
-;;@args prototype bound1 bound2 @dots{}
+;;@args prototype k1 @dots{}
;;
-;;Creates and returns an array of type @1 with dimensions @2, @3,
-;;@dots{} and filled with elements from @1. @1 must be an array,
-;;vector, or string. The implementation-dependent type of the returned
-;;array will be the same as the type of @1; except if that would be a
-;;vector or string with non-zero origin, in which case some variety of
+;;Creates and returns an array of type @1 with dimensions @2, @dots{}
+;;and filled with elements from @1. @1 must be an array, vector, or
+;;string. The implementation-dependent type of the returned array
+;;will be the same as the type of @1; except if that would be a vector
+;;or string with rank not equal to one, in which case some variety of
;;array will be returned.
;;
;;If the @1 has no elements, then the initial contents of the returned
;;array are unspecified. Otherwise, the returned array will be filled
;;with the element at the origin of @1.
-(define (create-array prototype . dimensions)
- (define range2length (lambda (bnd) (- 1 (apply - bnd))))
- ;;(if (not (array? prototype)) (set! prototype (vector prototype)))
- (let* ((shape (array:dimensions->shape dimensions))
- (dims (map range2length shape))
- (scales
- (do ((dims (reverse (cdr dims)) (cdr dims))
- (scls '(1) (cons (* (car dims) (car scls)) scls)))
- ((null? dims) scls))))
- (array:construct
- shape
- scales
- (- (apply + (map * (map car shape) scales)))
- (if (string? prototype)
- (case (string-length prototype)
- ((0) (make-string (apply * dims)))
- (else (make-string (apply * dims)
- (string-ref prototype 0))))
- (let ((pshape (array:shape prototype)))
- (case (apply * (map range2length pshape))
- ((0) (make-vector (apply * dims)))
- (else (make-vector (apply * dims)
- (apply array-ref prototype
- (map car pshape))))))))))
-
-;;@noindent
-;;These functions return a prototypical uniform-array enclosing the
-;;optional argument (which must be of the correct type). If the
-;;uniform-array type is supported by the implementation, then it is
-;;returned; defaulting to the next larger precision type; resorting
-;;finally to vector.
-
-(define (make-prototype-checker name pred? creator)
- (lambda args
- (case (length args)
- ((1) (if (pred? (car args))
- (creator (car args))
- (slib:error name 'incompatible 'type (car args))))
- ((0) (creator))
- (else (slib:error name 'wrong 'number 'of 'args args)))))
-
-(define (integer-bytes?? n)
- (lambda (obj)
- (and (integer? obj)
- (exact? obj)
- (or (negative? n) (not (negative? obj)))
- (do ((num obj (quotient num 256))
- (n (+ -1 (abs n)) (+ -1 n)))
- ((or (zero? num) (negative? n))
- (zero? num))))))
-
-;;@args z
-;;@args
-;;Returns a high-precision complex uniform-array prototype.
-(define Ac64 (make-prototype-checker 'Ac64 complex? vector))
-;;@args z
-;;@args
-;;Returns a complex uniform-array prototype.
-(define Ac32 (make-prototype-checker 'Ac32 complex? vector))
-
-;;@args x
-;;@args
-;;Returns a high-precision real uniform-array prototype.
-(define Ar64 (make-prototype-checker 'Ar64 real? vector))
-;;@args x
-;;@args
-;;Returns a real uniform-array prototype.
-(define Ar32 (make-prototype-checker 'Ar32 real? vector))
-
-;;@args n
-;;@args
-;;Returns an exact signed integer uniform-array prototype with at least
-;;64 bits of precision.
-(define As64 (make-prototype-checker 'As64 (integer-bytes?? -8) vector))
-;;@args n
-;;@args
-;;Returns an exact signed integer uniform-array prototype with at least
-;;32 bits of precision.
-(define As32 (make-prototype-checker 'As32 (integer-bytes?? -4) vector))
-;;@args n
-;;@args
-;;Returns an exact signed integer uniform-array prototype with at least
-;;16 bits of precision.
-(define As16 (make-prototype-checker 'As16 (integer-bytes?? -2) vector))
-;;@args n
-;;@args
-;;Returns an exact signed integer uniform-array prototype with at least
-;;8 bits of precision.
-(define As8 (make-prototype-checker 'As8 (integer-bytes?? -1) vector))
-
-;;@args k
-;;@args
-;;Returns an exact non-negative integer uniform-array prototype with at
-;;least 64 bits of precision.
-(define Au64 (make-prototype-checker 'Au64 (integer-bytes?? 8) vector))
-;;@args k
-;;@args
-;;Returns an exact non-negative integer uniform-array prototype with at
-;;least 32 bits of precision.
-(define Au32 (make-prototype-checker 'Au32 (integer-bytes?? 4) vector))
-;;@args k
-;;@args
-;;Returns an exact non-negative integer uniform-array prototype with at
-;;least 16 bits of precision.
-(define Au16 (make-prototype-checker 'Au16 (integer-bytes?? 2) vector))
-;;@args k
-;;@args
-;;Returns an exact non-negative integer uniform-array prototype with at
-;;least 8 bits of precision.
-(define Au8 (make-prototype-checker 'Au8 (integer-bytes?? 1) vector))
-
-;;@args bool
-;;@args
-;;Returns a boolean uniform-array prototype.
-(define At1 (make-prototype-checker 'At1 boolean? vector))
-
-;;@noindent
-;;When constructing an array, @var{bound} is either an inclusive range of
-;;indices expressed as a two element list, or an upper bound expressed as
-;;a single integer. So
-;;
-;;@example
-;;(create-array '#(foo) 3 3) @equiv{} (create-array '#(foo) '(0 2) '(0 2))
-;;@end example
-
-;;@args array mapper bound1 bound2 @dots{}
+(define (make-array prototype . dimensions)
+ (define tcnt (apply * dimensions))
+ (let ((store
+ (if (string? prototype)
+ (case (string-length prototype)
+ ((0) (make-string tcnt))
+ (else (make-string tcnt
+ (string-ref prototype 0))))
+ (let ((pdims (array:dimensions prototype)))
+ (case (apply * pdims)
+ ((0) (make-vector tcnt))
+ (else (make-vector tcnt
+ (apply array-ref prototype
+ (map (lambda (x) 0) pdims)))))))))
+ (define (loop dims scales)
+ (if (null? dims)
+ (array:construct dimensions (cdr scales) 0 store)
+ (loop (cdr dims) (cons (* (car dims) (car scales)) scales))))
+ (loop (reverse dimensions) '(1))))
+;;@args prototype k1 @dots{}
+;;@0 is an alias for @code{make-array}.
+(define create-array make-array)
+
+;;@args array mapper k1 @dots{}
;;@0 can be used to create shared subarrays of other
;;arrays. The @var{mapper} is a function that translates coordinates in
;;the new array into coordinates in the old array. A @var{mapper} must be
@@ -238,7 +185,7 @@
;;it can be otherwise arbitrary. A simple example:
;;
;;@example
-;;(define fred (create-array '#(#f) 8 8))
+;;(define fred (make-array '#(#f) 8 8))
;;(define freds-diagonal
;; (make-shared-array fred (lambda (i) (list i i)) 8))
;;(array-set! freds-diagonal 'foo 3)
@@ -253,68 +200,149 @@
(define (make-shared-array array mapper . dimensions)
(define odl (array:scales array))
(define rank (length dimensions))
- (define shape (array:dimensions->shape dimensions))
+ (define shape
+ (map (lambda (dim) (if (list? dim) dim (list 0 (+ -1 dim)))) dimensions))
(do ((idx (+ -1 rank) (+ -1 idx))
(uvt (append (cdr (vector->list (make-vector rank 0))) '(1))
(append (cdr uvt) '(0)))
(uvts '() (cons uvt uvts)))
((negative? idx)
- (let* ((ker0 (apply + (map * odl (apply mapper uvt))))
- (scales (map (lambda (uvt)
- (- (apply + (map * odl (apply mapper uvt))) ker0))
- uvts)))
+ (let ((ker0 (apply + (map * odl (apply mapper uvt)))))
(array:construct
- shape
- scales
- (- (apply + (array:offset array)
- (map * odl (apply mapper (map car shape))))
- (apply + (map * (map car shape) scales)))
+ (map (lambda (dim) (+ 1 (- (cadr dim) (car dim)))) shape)
+ (map (lambda (uvt) (- (apply + (map * odl (apply mapper uvt))) ker0))
+ uvts)
+ (apply +
+ (array:offset array)
+ (map * odl (apply mapper (map car shape))))
(array:store array))))))
-;;@body
-;;Returns the number of dimensions of @1. If @1 is not an array, 0 is
-;;returned.
-(define (array-rank obj)
- (if (array? obj) (length (array:shape obj)) 0))
+;;@args rank proto list
+;;@3 must be a rank-nested list consisting of all the elements, in
+;;row-major order, of the array to be created.
+;;
+;;@0 returns an array of rank @1 and type @2 consisting of all the
+;;elements, in row-major order, of @3. When @1 is 0, @3 is the lone
+;;array element; not necessarily a list.
+;;
+;;@example
+;;(list->array 2 '#() '((1 2) (3 4)))
+;; @result{} #2A((1 2) (3 4))
+;;(list->array 0 '#() 3)
+;; @result{} #0A 3
+;;@end example
+(define (list->array rank proto lst)
+ (define dimensions
+ (do ((shp '() (cons (length row) shp))
+ (row lst (car lst))
+ (rnk (+ -1 rank) (+ -1 rnk)))
+ ((negative? rnk) (reverse shp))))
+ (let ((nra (apply make-array proto dimensions)))
+ (define (l2ra dims idxs row)
+ (cond ((null? dims)
+ (apply array-set! nra row (reverse idxs)))
+ ((if (not (eqv? (car dims) (length row)))
+ (slib:error 'list->array
+ 'non-rectangular 'array dims dimensions))
+ (do ((idx 0 (+ 1 idx))
+ (row row (cdr row)))
+ ((>= idx (car dims)))
+ (l2ra (cdr dims) (cons idx idxs) (car row))))))
+ (l2ra dimensions '() lst)
+ nra))
;;@args array
-;;Returns a list of inclusive bounds.
+;;Returns a rank-nested list consisting of all the elements, in
+;;row-major order, of @1. In the case of a rank-0 array, @0 returns
+;;the single element.
+;;
+;;@example
+;;(array->list #2A((ho ho ho) (ho oh oh)))
+;; @result{} ((ho ho ho) (ho oh oh))
+;;(array->list #0A ho)
+;; @result{} ho
+;;@end example
+(define (array->list ra)
+ (define (ra2l dims idxs)
+ (if (null? dims)
+ (apply array-ref ra (reverse idxs))
+ (do ((lst '() (cons (ra2l (cdr dims) (cons idx idxs)) lst))
+ (idx (+ -1 (car dims)) (+ -1 idx)))
+ ((negative? idx) lst))))
+ (ra2l (array-dimensions ra) '()))
+
+;;@args vect proto dim1 @dots{}
+;;@1 must be a vector of length equal to the product of exact
+;;nonnegative integers @3, @dots{}.
+;;
+;;@0 returns an array of type @2 consisting of all the elements, in
+;;row-major order, of @1. In the case of a rank-0 array, @1 has a
+;;single element.
;;
;;@example
-;;(array-shape (create-array '#() 3 5))
-;; @result{} ((0 2) (0 4))
+;;(vector->array #(1 2 3 4) #() 2 2)
+;; @result{} #2A((1 2) (3 4))
+;;(vector->array '#(3) '#())
+;; @result{} #0A 3
;;@end example
-(define array-shape array:shape)
+(define (vector->array vect prototype . dimensions)
+ (define vdx (vector-length vect))
+ (if (not (eqv? vdx (apply * dimensions)))
+ (slib:error 'vector->array vdx '<> (cons '* dimensions)))
+ (let ((ra (apply make-array prototype dimensions)))
+ (define (v2ra dims idxs)
+ (cond ((null? dims)
+ (set! vdx (+ -1 vdx))
+ (apply array-set! ra (vector-ref vect vdx) (reverse idxs)))
+ (else
+ (do ((idx (+ -1 (car dims)) (+ -1 idx)))
+ ((negative? idx) vect)
+ (v2ra (cdr dims) (cons idx idxs))))))
+ (v2ra dimensions '())
+ ra))
-;;@body
-;;@code{array-dimensions} is similar to @code{array-shape} but replaces
-;;elements with a 0 minimum with one greater than the maximum.
+;;@args array
+;;Returns a new vector consisting of all the elements of @1 in
+;;row-major order.
;;
;;@example
-;;(array-dimensions (create-array '#() 3 5))
-;; @result{} (3 5)
+;;(array->vector #2A ((1 2)( 3 4)))
+;; @result{} #(1 2 3 4)
+;;(array->vector #0A ho)
+;; @result{} #(ho)
;;@end example
-(define (array-dimensions array)
- (map (lambda (bnd) (if (zero? (car bnd)) (+ 1 (cadr bnd)) bnd))
- (array:shape array)))
+(define (array->vector ra)
+ (define dims (array-dimensions ra))
+ (let* ((vdx (apply * dims))
+ (vect (make-vector vdx)))
+ (define (ra2v dims idxs)
+ (if (null? dims)
+ (let ((val (apply array-ref ra (reverse idxs))))
+ (set! vdx (+ -1 vdx))
+ (vector-set! vect vdx val)
+ vect)
+ (do ((idx (+ -1 (car dims)) (+ -1 idx)))
+ ((negative? idx) vect)
+ (ra2v (cdr dims) (cons idx idxs)))))
+ (ra2v dims '())))
(define (array:in-bounds? array indices)
- (do ((bnds (array:shape array) (cdr bnds))
+ (do ((bnds (array:dimensions array) (cdr bnds))
(idxs indices (cdr idxs)))
((or (null? bnds)
(null? idxs)
(not (integer? (car idxs)))
- (not (<= (caar bnds) (car idxs) (cadar bnds))))
+ (not (< -1 (car idxs) (car bnds))))
(and (null? bnds) (null? idxs)))))
-;;@args array index1 index2 @dots{}
+;;@args array index1 @dots{}
;;Returns @code{#t} if its arguments would be acceptable to
;;@code{array-ref}.
(define (array-in-bounds? array . indices)
(array:in-bounds? array indices))
-;;@args array index1 index2 @dots{}
-;;Returns the (@2, @3, @dots{}) element of @1.
+;;@args array k1 @dots{}
+;;Returns the (@2, @dots{}) element of @1.
(define (array-ref array . indices)
(define store (array:store array))
(or (array:in-bounds? array indices)
@@ -322,8 +350,8 @@
((if (string? store) string-ref vector-ref)
store (apply + (array:offset array) (map * (array:scales array) indices))))
-;;@args array obj index1 index2 @dots{}
-;;Stores @2 in the (@3, @4, @dots{}) element of @1. The value returned
+;;@args array obj k1 @dots{}
+;;Stores @2 in the (@3, @dots{}) element of @1. The value returned
;;by @0 is unspecified.
(define (array-set! array obj . indices)
(define store (array:store array))
@@ -333,10 +361,122 @@
store (apply + (array:offset array) (map * (array:scales array) indices))
obj))
-;;; Legacy functions
+;;@noindent
+;;These functions return a prototypical uniform-array enclosing the
+;;optional argument (which must be of the correct type). If the
+;;uniform-array type is supported by the implementation, then it is
+;;returned; defaulting to the next larger precision type; resorting
+;;finally to vector.
+
+(define (make-prototype-checker name pred? creator)
+ (lambda args
+ (case (length args)
+ ((1) (if (pred? (car args))
+ (creator (car args))
+ (slib:error name 'incompatible 'type (car args))))
+ ((0) (creator))
+ (else (slib:error name 'wrong 'number 'of 'args args)))))
+
+(define (integer-bytes?? n)
+ (lambda (obj)
+ (and (integer? obj)
+ (exact? obj)
+ (or (negative? n) (not (negative? obj)))
+ (do ((num obj (quotient num 256))
+ (n (+ -1 (abs n)) (+ -1 n)))
+ ((or (zero? num) (negative? n))
+ (zero? num))))))
+
+;;@args z
+;;@args
+;;Returns an inexact 128.bit flonum complex uniform-array prototype.
+(define A:floC128b (make-prototype-checker 'A:floC128b complex? vector))
+;;@args z
+;;@args
+;;Returns an inexact 64.bit flonum complex uniform-array prototype.
+(define A:floC64b (make-prototype-checker 'A:floC64b complex? vector))
+;;@args z
+;;@args
+;;Returns an inexact 32.bit flonum complex uniform-array prototype.
+(define A:floC32b (make-prototype-checker 'A:floC32b complex? vector))
+;;@args z
+;;@args
+;;Returns an inexact 16.bit flonum complex uniform-array prototype.
+(define A:floC16b (make-prototype-checker 'A:floC16b complex? vector))
+
+;;@args z
+;;@args
+;;Returns an inexact 128.bit flonum real uniform-array prototype.
+(define A:floR128b (make-prototype-checker 'A:floR128b real? vector))
+;;@args z
+;;@args
+;;Returns an inexact 64.bit flonum real uniform-array prototype.
+(define A:floR64b (make-prototype-checker 'A:floR64b real? vector))
+;;@args z
+;;@args
+;;Returns an inexact 32.bit flonum real uniform-array prototype.
+(define A:floR32b (make-prototype-checker 'A:floR32b real? vector))
+;;@args z
+;;@args
+;;Returns an inexact 16.bit flonum real uniform-array prototype.
+(define A:floR16b (make-prototype-checker 'A:floR16b real? vector))
+
+;;@args z
+;;@args
+;;Returns an exact 128.bit decimal flonum rational uniform-array prototype.
+(define A:floR128b (make-prototype-checker 'A:floR128b real? vector))
+;;@args z
+;;@args
+;;Returns an exact 64.bit decimal flonum rational uniform-array prototype.
+(define A:floR64b (make-prototype-checker 'A:floR64b real? vector))
+;;@args z
+;;@args
+;;Returns an exact 32.bit decimal flonum rational uniform-array prototype.
+(define A:floR32b (make-prototype-checker 'A:floR32b real? vector))
+
+;;@args n
+;;@args
+;;Returns an exact binary fixnum uniform-array prototype with at least
+;;64 bits of precision.
+(define A:fixZ64b (make-prototype-checker 'A:fixZ64b (integer-bytes?? -8) vector))
+;;@args n
+;;@args
+;;Returns an exact binary fixnum uniform-array prototype with at least
+;;32 bits of precision.
+(define A:fixZ32b (make-prototype-checker 'A:fixZ32b (integer-bytes?? -4) vector))
+;;@args n
+;;@args
+;;Returns an exact binary fixnum uniform-array prototype with at least
+;;16 bits of precision.
+(define A:fixZ16b (make-prototype-checker 'A:fixZ16b (integer-bytes?? -2) vector))
+;;@args n
+;;@args
+;;Returns an exact binary fixnum uniform-array prototype with at least
+;;8 bits of precision.
+(define A:fixZ8b (make-prototype-checker 'A:fixZ8b (integer-bytes?? -1) vector))
+
+;;@args k
+;;@args
+;;Returns an exact non-negative binary fixnum uniform-array prototype with at
+;;least 64 bits of precision.
+(define A:fixN64b (make-prototype-checker 'A:fixN64b (integer-bytes?? 8) vector))
+;;@args k
+;;@args
+;;Returns an exact non-negative binary fixnum uniform-array prototype with at
+;;least 32 bits of precision.
+(define A:fixN32b (make-prototype-checker 'A:fixN32b (integer-bytes?? 4) vector))
+;;@args k
+;;@args
+;;Returns an exact non-negative binary fixnum uniform-array prototype with at
+;;least 16 bits of precision.
+(define A:fixN16b (make-prototype-checker 'A:fixN16b (integer-bytes?? 2) vector))
+;;@args k
+;;@args
+;;Returns an exact non-negative binary fixnum uniform-array prototype with at
+;;least 8 bits of precision.
+(define A:fixN8b (make-prototype-checker 'A:fixN8b (integer-bytes?? 1) vector))
-;; ;;@args initial-value bound1 bound2 @dots{}
-;; ;;Creates and returns an array with dimensions @2,
-;; ;;@3, @dots{} and filled with @1.
-;; (define (make-array initial-value . dimensions)
-;; (apply create-array (vector initial-value) dimensions))
+;;@args bool
+;;@args
+;;Returns a boolean uniform-array prototype.
+(define A:bool (make-prototype-checker 'A:bool boolean? vector))
diff --git a/array.txi b/array.txi
index bb09e16..a00ab97 100644
--- a/array.txi
+++ b/array.txi
@@ -1,4 +1,4 @@
-@code{(require 'array)}
+@code{(require 'array)} or @code{(require 'srfi-63)}
@ftindex array
@@ -6,10 +6,11 @@
Returns @code{#t} if the @var{obj} is an array, and @code{#f} if not.
@end defun
+
@noindent
-@emph{Note:} Arrays are not disjoint from other Scheme types. Strings
-and vectors also satisfy @code{array?}. A disjoint array predicate can
-be written:
+@emph{Note:} Arrays are not disjoint from other Scheme types.
+Vectors and possibly strings also satisfy @code{array?}.
+A disjoint array predicate can be written:
@example
(define (strict-array? obj)
@@ -17,32 +18,184 @@ be written:
@end example
-@defun array=? array1 array2
+@defun equal? obj1 obj2
+
+Returns @code{#t} if @var{obj1} and @var{obj2} have the same rank and dimensions and the
+corresponding elements of @var{obj1} and @var{obj2} are @code{equal?}.
-Returns @code{#t} if @var{array1} and @var{array2} have the same rank and shape and the
-corresponding elements of @var{array1} and @var{array2} are @code{equal?}.
+@code{equal?} recursively compares the contents of pairs, vectors, strings, and
+@emph{arrays}, applying @code{eqv?} on other objects such as numbers
+and symbols. A rule of thumb is that objects are generally @code{equal?} if
+they print the same. @code{equal?} may fail to terminate if its arguments are
+circular data structures.
@example
-(array=? (create-array '#(foo) 3 3)
- (create-array '#(foo) '(0 2) '(0 2)))
- @result{} #t
+(equal? 'a 'a) @result{} #t
+(equal? '(a) '(a)) @result{} #t
+(equal? '(a (b) c)
+ '(a (b) c)) @result{} #t
+(equal? "abc" "abc") @result{} #t
+(equal? 2 2) @result{} #t
+(equal? (make-vector 5 'a)
+ (make-vector 5 'a)) @result{} #t
+(equal? (make-array (A:fixN32b 4) 5 3)
+ (make-array (A:fixN32b 4) 5 3)) @result{} #t
+(equal? (make-array '#(foo) 3 3)
+ (make-array '#(foo) 3 3)) @result{} #t
+(equal? (lambda (x) x)
+ (lambda (y) y)) @result{} @emph{unspecified}
@end example
@end defun
-@defun create-array prototype bound1 bound2 @dots{}
+@defun array-rank obj
+
+Returns the number of dimensions of @var{obj}. If @var{obj} is not an array, 0 is
+returned.
+@end defun
+
+
+@defun array-dimensions array
+
+Returns a list of dimensions.
-Creates and returns an array of type @var{prototype} with dimensions @var{bound1}, @var{bound2},
-@dots{} and filled with elements from @var{prototype}. @var{prototype} must be an array,
-vector, or string. The implementation-dependent type of the returned
-array will be the same as the type of @var{prototype}; except if that would be a
-vector or string with non-zero origin, in which case some variety of
+@example
+(array-dimensions (make-array '#() 3 5))
+ @result{} (3 5)
+@end example
+@end defun
+
+
+@defun make-array prototype k1 @dots{}
+
+
+Creates and returns an array of type @var{prototype} with dimensions @var{k1}, @dots{}
+and filled with elements from @var{prototype}. @var{prototype} must be an array, vector, or
+string. The implementation-dependent type of the returned array
+will be the same as the type of @var{prototype}; except if that would be a vector
+or string with rank not equal to one, in which case some variety of
array will be returned.
If the @var{prototype} has no elements, then the initial contents of the returned
array are unspecified. Otherwise, the returned array will be filled
with the element at the origin of @var{prototype}.
@end defun
+
+
+@defun create-array prototype k1 @dots{}
+
+@code{create-array} is an alias for @code{make-array}.
+@end defun
+
+
+@defun make-shared-array array mapper k1 @dots{}
+
+@code{make-shared-array} can be used to create shared subarrays of other
+arrays. The @var{mapper} is a function that translates coordinates in
+the new array into coordinates in the old array. A @var{mapper} must be
+linear, and its range must stay within the bounds of the old array, but
+it can be otherwise arbitrary. A simple example:
+
+@example
+(define fred (make-array '#(#f) 8 8))
+(define freds-diagonal
+ (make-shared-array fred (lambda (i) (list i i)) 8))
+(array-set! freds-diagonal 'foo 3)
+(array-ref fred 3 3)
+ @result{} FOO
+(define freds-center
+ (make-shared-array fred (lambda (i j) (list (+ 3 i) (+ 3 j)))
+ 2 2))
+(array-ref freds-center 0 0)
+ @result{} FOO
+@end example
+@end defun
+
+
+@defun list->array rank proto list
+
+@var{list} must be a rank-nested list consisting of all the elements, in
+row-major order, of the array to be created.
+
+@code{list->array} returns an array of rank @var{rank} and type @var{proto} consisting of all the
+elements, in row-major order, of @var{list}. When @var{rank} is 0, @var{list} is the lone
+array element; not necessarily a list.
+
+@example
+(list->array 2 '#() '((1 2) (3 4)))
+ @result{} #2A((1 2) (3 4))
+(list->array 0 '#() 3)
+ @result{} #0A 3
+@end example
+@end defun
+
+
+@defun array->list array
+
+Returns a rank-nested list consisting of all the elements, in
+row-major order, of @var{array}. In the case of a rank-0 array, @code{array->list} returns
+the single element.
+
+@example
+(array->list #2A((ho ho ho) (ho oh oh)))
+ @result{} ((ho ho ho) (ho oh oh))
+(array->list #0A ho)
+ @result{} ho
+@end example
+@end defun
+
+
+@defun vector->array vect proto dim1 @dots{}
+
+@var{vect} must be a vector of length equal to the product of exact
+nonnegative integers @var{dim1}, @dots{}.
+
+@code{vector->array} returns an array of type @var{proto} consisting of all the elements, in
+row-major order, of @var{vect}. In the case of a rank-0 array, @var{vect} has a
+single element.
+
+@example
+(vector->array #(1 2 3 4) #() 2 2)
+ @result{} #2A((1 2) (3 4))
+(vector->array '#(3) '#())
+ @result{} #0A 3
+@end example
+@end defun
+
+
+@defun array->vector array
+
+Returns a new vector consisting of all the elements of @var{array} in
+row-major order.
+
+@example
+(array->vector #2A ((1 2)( 3 4)))
+ @result{} #(1 2 3 4)
+(array->vector #0A ho)
+ @result{} #(ho)
+@end example
+@end defun
+
+
+@defun array-in-bounds? array index1 @dots{}
+
+Returns @code{#t} if its arguments would be acceptable to
+@code{array-ref}.
+@end defun
+
+
+@defun array-ref array k1 @dots{}
+
+Returns the (@var{k1}, @dots{}) element of @var{array}.
+@end defun
+
+
+@deffn {Procedure} array-set! array obj k1 @dots{}
+
+Stores @var{obj} in the (@var{k1}, @dots{}) element of @var{array}. The value returned
+by @code{array-set!} is unspecified.
+@end deffn
+
@noindent
These functions return a prototypical uniform-array enclosing the
optional argument (which must be of the correct type). If the
@@ -51,177 +204,170 @@ returned; defaulting to the next larger precision type; resorting
finally to vector.
-@defun ac64 z
+@defun a:floc128b z
-@defunx ac64
-Returns a high-precision complex uniform-array prototype.
+@defunx a:floc128b
+Returns an inexact 128.bit flonum complex uniform-array prototype.
@end defun
-@defun ac32 z
+
+@defun a:floc64b z
-@defunx ac32
-Returns a complex uniform-array prototype.
+@defunx a:floc64b
+Returns an inexact 64.bit flonum complex uniform-array prototype.
@end defun
-@defun ar64 x
+
+@defun a:floc32b z
-@defunx ar64
-Returns a high-precision real uniform-array prototype.
+@defunx a:floc32b
+Returns an inexact 32.bit flonum complex uniform-array prototype.
@end defun
-@defun ar32 x
+@defun a:floc16b z
-@defunx ar32
-Returns a real uniform-array prototype.
+
+@defunx a:floc16b
+Returns an inexact 16.bit flonum complex uniform-array prototype.
@end defun
-@defun as64 n
+@defun a:flor128b z
-@defunx as64
-Returns an exact signed integer uniform-array prototype with at least
-64 bits of precision.
+
+@defunx a:flor128b
+Returns an inexact 128.bit flonum real uniform-array prototype.
@end defun
-@defun as32 n
+@defun a:flor64b z
-@defunx as32
-Returns an exact signed integer uniform-array prototype with at least
-32 bits of precision.
+
+@defunx a:flor64b
+Returns an inexact 64.bit flonum real uniform-array prototype.
@end defun
-@defun as16 n
+@defun a:flor32b z
-@defunx as16
-Returns an exact signed integer uniform-array prototype with at least
-16 bits of precision.
+
+@defunx a:flor32b
+Returns an inexact 32.bit flonum real uniform-array prototype.
@end defun
-@defun as8 n
+@defun a:flor16b z
-@defunx as8
-Returns an exact signed integer uniform-array prototype with at least
-8 bits of precision.
+
+@defunx a:flor16b
+Returns an inexact 16.bit flonum real uniform-array prototype.
@end defun
-@defun au64 k
+@defun a:flor128b z
-@defunx au64
-Returns an exact non-negative integer uniform-array prototype with at
-least 64 bits of precision.
+
+@defunx a:flor128b
+Returns an exact 128.bit decimal flonum rational uniform-array prototype.
@end defun
-@defun au32 k
+@defun a:flor64b z
-@defunx au32
-Returns an exact non-negative integer uniform-array prototype with at
-least 32 bits of precision.
+
+@defunx a:flor64b
+Returns an exact 64.bit decimal flonum rational uniform-array prototype.
@end defun
-@defun au16 k
+@defun a:flor32b z
-@defunx au16
-Returns an exact non-negative integer uniform-array prototype with at
-least 16 bits of precision.
+
+@defunx a:flor32b
+Returns an exact 32.bit decimal flonum rational uniform-array prototype.
@end defun
-@defun au8 k
+@defun a:fixz64b n
-@defunx au8
-Returns an exact non-negative integer uniform-array prototype with at
-least 8 bits of precision.
+
+@defunx a:fixz64b
+Returns an exact binary fixnum uniform-array prototype with at least
+64 bits of precision.
@end defun
-@defun at1 bool
+@defun a:fixz32b n
-@defunx at1
-Returns a boolean uniform-array prototype.
-@end defun
-@noindent
-When constructing an array, @var{bound} is either an inclusive range of
-indices expressed as a two element list, or an upper bound expressed as
-a single integer. So
-@example
-(create-array '#(foo) 3 3) @equiv{} (create-array '#(foo) '(0 2) '(0 2))
-@end example
+@defunx a:fixz32b
+Returns an exact binary fixnum uniform-array prototype with at least
+32 bits of precision.
+@end defun
-@defun make-shared-array array mapper bound1 bound2 @dots{}
+@defun a:fixz16b n
-@code{make-shared-array} can be used to create shared subarrays of other
-arrays. The @var{mapper} is a function that translates coordinates in
-the new array into coordinates in the old array. A @var{mapper} must be
-linear, and its range must stay within the bounds of the old array, but
-it can be otherwise arbitrary. A simple example:
-@example
-(define fred (create-array '#(#f) 8 8))
-(define freds-diagonal
- (make-shared-array fred (lambda (i) (list i i)) 8))
-(array-set! freds-diagonal 'foo 3)
-(array-ref fred 3 3)
- @result{} FOO
-(define freds-center
- (make-shared-array fred (lambda (i j) (list (+ 3 i) (+ 3 j)))
- 2 2))
-(array-ref freds-center 0 0)
- @result{} FOO
-@end example
+@defunx a:fixz16b
+Returns an exact binary fixnum uniform-array prototype with at least
+16 bits of precision.
@end defun
-@defun array-rank obj
-Returns the number of dimensions of @var{obj}. If @var{obj} is not an array, 0 is
-returned.
+@defun a:fixz8b n
+
+
+@defunx a:fixz8b
+Returns an exact binary fixnum uniform-array prototype with at least
+8 bits of precision.
@end defun
-@defun array-shape array
-Returns a list of inclusive bounds.
+@defun a:fixn64b k
-@example
-(array-shape (create-array '#() 3 5))
- @result{} ((0 2) (0 4))
-@end example
+
+@defunx a:fixn64b
+Returns an exact non-negative binary fixnum uniform-array prototype with at
+least 64 bits of precision.
@end defun
-@defun array-dimensions array
-@code{array-dimensions} is similar to @code{array-shape} but replaces
-elements with a 0 minimum with one greater than the maximum.
+@defun a:fixn32b k
-@example
-(array-dimensions (create-array '#() 3 5))
- @result{} (3 5)
-@end example
+
+@defunx a:fixn32b
+Returns an exact non-negative binary fixnum uniform-array prototype with at
+least 32 bits of precision.
@end defun
-@defun array-in-bounds? array index1 index2 @dots{}
-Returns @code{#t} if its arguments would be acceptable to
-@code{array-ref}.
+@defun a:fixn16b k
+
+
+@defunx a:fixn16b
+Returns an exact non-negative binary fixnum uniform-array prototype with at
+least 16 bits of precision.
@end defun
-@defun array-ref array index1 index2 @dots{}
-Returns the (@var{index1}, @var{index2}, @dots{}) element of @var{array}.
+@defun a:fixn8b k
+
+
+@defunx a:fixn8b
+Returns an exact non-negative binary fixnum uniform-array prototype with at
+least 8 bits of precision.
@end defun
-@deffn {Procedure} array-set! array obj index1 index2 @dots{}
-Stores @var{obj} in the (@var{index1}, @var{index2}, @dots{}) element of @var{array}. The value returned
-by @code{array-set!} is unspecified.
-@end deffn
+@defun a:bool bool
+
+
+@defunx a:bool
+Returns a boolean uniform-array prototype.
+@end defun
+
diff --git a/arraymap.scm b/arraymap.scm
index 747962e..2c88eb8 100644
--- a/arraymap.scm
+++ b/arraymap.scm
@@ -1,5 +1,5 @@
;;;; "arraymap.scm", applicative routines for arrays in Scheme.
-;;; Copyright (c) 1993, 2003 Aubrey Jaffer
+;;; Copyright (C) 1993, 2003 Aubrey Jaffer
;
;Permission to copy this software, to modify it, to redistribute it,
;to distribute modified versions, and to use it for any purpose is
@@ -30,21 +30,20 @@
;;as the corresponding element in @var{array0}. The value returned is
;;unspecified. The order of application is unspecified.
(define (array-map! ra0 proc . ras)
- (define (ramap rshape inds)
- (if (null? (cdr rshape))
- (do ((i (cadar rshape) (+ -1 i))
- (is (cons (cadar rshape) inds)
+ (define (ramap rdims inds)
+ (if (null? (cdr rdims))
+ (do ((i (+ -1 (car rdims)) (+ -1 i))
+ (is (cons (+ -1 (car rdims)) inds)
(cons (+ -1 i) inds)))
- ((< i (caar rshape)))
+ ((negative? i))
(apply array-set! ra0
(apply proc (map (lambda (ra) (apply array-ref ra is)) ras))
is))
- (let ((crshape (cdr rshape))
- (ll (caar rshape)))
- (do ((i (cadar rshape) (+ -1 i)))
- ((< i ll))
- (ramap crshape (cons i inds))))))
- (ramap (reverse (array-shape ra0)) '()))
+ (let ((crdims (cdr rdims)))
+ (do ((i (+ -1 (car rdims)) (+ -1 i)))
+ ((negative? i))
+ (ramap crdims (cons i inds))))))
+ (ramap (reverse (array-dimensions ra0)) '()))
;;@args prototype proc array1 array2 @dots{}
;;@var{array2}, @dots{} must have the same number of dimensions as
@@ -55,7 +54,7 @@
;;new array of type @var{prototype}. The new array is returned. The
;;order of application is unspecified.
(define (array-map prototype proc ra1 . ras)
- (define nra (apply create-array prototype (array-shape ra1)))
+ (define nra (apply make-array prototype (array-dimensions ra1)))
(apply array-map! nra proc ra1 ras)
nra)
@@ -63,20 +62,20 @@
;;@var{proc} is applied to each tuple of elements of @var{array0} @dots{}
;;in row-major order. The value returned is unspecified.
(define (array-for-each proc . ras)
- (define (rafe rshape inds)
- (if (null? (cdr rshape))
+ (define (rafe rdims inds)
+ (if (null? (cdr rdims))
(let ((sdni (reverse (cons #f inds))))
(define lastpair (last-pair sdni))
- (do ((i (caar rshape) (+ 1 i)))
- ((> i (cadar rshape)))
+ (do ((i 0 (+ 1 i)))
+ ((> i (+ -1 (car rdims))))
(set-car! lastpair i)
(apply proc (map (lambda (ra) (apply array-ref ra sdni)) ras))))
- (let ((crshape (cdr rshape))
- (ll (cadar rshape)))
- (do ((i (caar rshape) (+ 1 i)))
+ (let ((crdims (cdr rdims))
+ (ll (+ -1 (car rdims))))
+ (do ((i 0 (+ 1 i)))
((> i ll))
- (rafe crshape (cons i inds))))))
- (rafe (array-shape (car ras)) '()))
+ (rafe crdims (cons i inds))))))
+ (rafe (array-dimensions (car ras)) '()))
;;@args array
;;Returns an array of lists of indexes for @var{array} such that, if
@@ -84,7 +83,7 @@
;;(equal? @var{li} (apply array-ref (array-indexes @var{array})
;;@var{li})).
(define (array-indexes ra)
- (let ((ra0 (apply create-array '#() (array-shape ra))))
+ (let ((ra0 (apply make-array '#() (array-dimensions ra))))
(array-index-map! ra0 list)
ra0))
@@ -96,7 +95,7 @@
;;One can implement @var{array-indexes} as
;;@example
;;(define (array-indexes array)
-;; (let ((ra (apply create-array '#() (array-shape array))))
+;; (let ((ra (apply make-array '#() (array-dimensions array))))
;; (array-index-map! ra (lambda x x))
;; ra))
;;@end example
@@ -108,26 +107,25 @@
;; v))
;;@end example
(define (array-index-map! ra fun)
- (define (ramap rshape inds)
- (if (null? (cdr rshape))
- (do ((i (cadar rshape) (+ -1 i))
- (is (cons (cadar rshape) inds)
+ (define (ramap rdims inds)
+ (if (null? (cdr rdims))
+ (do ((i (+ -1 (car rdims)) (+ -1 i))
+ (is (cons (+ -1 (car rdims)) inds)
(cons (+ -1 i) inds)))
- ((< i (caar rshape)))
+ ((negative? i))
(apply array-set! ra (apply fun is) is))
- (let ((crshape (cdr rshape))
- (ll (caar rshape)))
- (do ((i (cadar rshape) (+ -1 i)))
- ((< i ll))
- (ramap crshape (cons i inds))))))
+ (let ((crdims (cdr rdims)))
+ (do ((i (+ -1 (car rdims)) (+ -1 i)))
+ ((negative? i))
+ (ramap crdims (cons i inds))))))
(if (zero? (array-rank ra))
(array-set! ra (fun))
- (ramap (reverse (array-shape ra)) '())))
+ (ramap (reverse (array-dimensions ra)) '())))
-;;@args source destination
+;;@args destination source
;;Copies every element from vector or array @var{source} to the
;;corresponding element of @var{destination}. @var{destination} must
;;have the same rank as @var{source}, and be at least as large in each
;;dimension. The order of copying is unspecified.
-(define (array-copy! source dest)
+(define (array:copy! dest source)
(array-map! dest identity source))
diff --git a/arraymap.txi b/arraymap.txi
index f10ad65..2547eaf 100644
--- a/arraymap.txi
+++ b/arraymap.txi
@@ -12,6 +12,7 @@ as the corresponding element in @var{array0}. The value returned is
unspecified. The order of application is unspecified.
@end deffn
+
@defun array-map prototype proc array1 array2 @dots{}
@var{array2}, @dots{} must have the same number of dimensions as
@@ -23,12 +24,14 @@ new array of type @var{prototype}. The new array is returned. The
order of application is unspecified.
@end defun
+
@defun array-for-each proc array0 @dots{}
@var{proc} is applied to each tuple of elements of @var{array0} @dots{}
in row-major order. The value returned is unspecified.
@end defun
+
@defun array-indexes array
Returns an array of lists of indexes for @var{array} such that, if
@@ -37,6 +40,7 @@ Returns an array of lists of indexes for @var{array} such that, if
@var{li})).
@end defun
+
@deffn {Procedure} array-index-map! array proc
applies @var{proc} to the indices of each element of @var{array} in
@@ -46,7 +50,7 @@ returned and the order of application are unspecified.
One can implement @var{array-indexes} as
@example
(define (array-indexes array)
- (let ((ra (apply create-array '#() (array-shape array))))
+ (let ((ra (apply make-array '#() (array-dimensions array))))
(array-index-map! ra (lambda x x))
ra))
@end example
@@ -59,10 +63,12 @@ Another example:
@end example
@end deffn
-@deffn {Procedure} array-copy! source destination
+
+@deffn {Procedure} array:copy! destination source
Copies every element from vector or array @var{source} to the
corresponding element of @var{destination}. @var{destination} must
have the same rank as @var{source}, and be at least as large in each
dimension. The order of copying is unspecified.
@end deffn
+
diff --git a/batch.scm b/batch.scm
index bef29cc..8c122af 100644
--- a/batch.scm
+++ b/batch.scm
@@ -1,5 +1,5 @@
;;; "batch.scm" Group and execute commands on various systems.
-;Copyright (C) 1994, 1995, 1997 Aubrey Jaffer
+;Copyright (C) 1994, 1995, 1997, 2004 Aubrey Jaffer
;
;Permission to copy this software, to modify it, to redistribute it,
;to distribute modified versions, and to use it for any purpose is
@@ -49,14 +49,18 @@
(define (batch:operating-system parms)
(car (parameter-list-ref parms 'operating-system)))
-(define (write-batch-line str line-limit port)
- (cond ((and line-limit (>= (string-length str) line-limit))
- (slib:warn 'write-batch-line 'too-long
- (string-length str) '> line-limit)
- #f)
- (else (write-line str port) #t)))
(define (batch-line parms str)
- (write-batch-line str (batch:line-length-limit parms) (batch:port parms)))
+ (define line-limit (batch:line-length-limit parms))
+ (define port (batch:port parms))
+ (cond ((and line-limit (>= (string-length str) line-limit))
+ (let ((msg (string-append "batch line is too long "
+ (number->string (string-length str))
+ " > "
+ (number->string line-limit))))
+ (batch:comment parms (string-append "WARN: " msg))
+ (if (not (eq? port (current-output-port))) (slib:warn msg)))))
+ (write-line str port)
+ #t)
;;; add a Scheme batch-dialect?
;@
@@ -107,16 +111,19 @@
((vms) (batch:command parms (string-append "@" name) strings))
(else (batch:command parms name strings))))
-(define (batch:write-comment-line dialect line port)
+(define (batch:comment-prefix dialect)
(case dialect
- ((unix) (write-batch-line (string-append "# " line) #f port))
- ((dos) (write-batch-line (string-append "rem " line) #f port))
- ((vms) (write-batch-line (string-append "$! " line) #f port))
- ((amigaos) (write-batch-line (string-append "; " line) #f port))
- ((system) (write-batch-line (string-append "; " line) #f port))
- ((*unknown*) (write-batch-line (string-append ";;; " line) #f port)
- ;;(newline port)
- #f)))
+ ((unix) "# ")
+ ((dos) "rem ")
+ ((vms) "$! ")
+ ((amigaos) "; ")
+ ((system) "; ")
+ ((*unknown*) ";;; ")))
+
+;;; Comment lines usually don't have a length limit.
+(define (batch:write-comment-line dialect line port)
+ (write-line (string-append (batch:comment-prefix dialect) line) port)
+ #t)
;@
(define (batch:comment parms . lines)
(define port (batch:port parms))
@@ -464,7 +471,7 @@
)
;@
(define *operating-system*
- (cond ((and (eq? 'unix (software-type)) (provided? 'system))
+ (cond ((and (eq? 'UNIX (software-type)) (provided? 'system))
(let* ((file-name (tmpnam))
(uname (and (system (string-append "uname > " file-name))
(call-with-input-file file-name read)))
@@ -473,11 +480,11 @@
(cond ((and ustr
(> (string-length ustr) 5)
(string-ci=? "cygwin" (substring ustr 0 6)))
- 'gnu-win32)
+ 'GNU-WIN32)
((and ustr
(> (string-length ustr) 4)
(string-ci=? "mingw" (substring ustr 0 5)))
- 'gnu-win32)
+ 'GNU-WIN32)
(ustr uname)
(else (software-type)))))
(else (software-type))))
diff --git a/bigloo.init b/bigloo.init
index 9ded1a4..af34546 100644
--- a/bigloo.init
+++ b/bigloo.init
@@ -3,23 +3,25 @@
;;;
;;; This code is in the public domain.
+;;@ (software-type) should be set to the generic operating system type.
+;;; UNIX, VMS, MACOS, AMIGA and MS-DOS are supported.
(define (software-type) 'UNIX)
-;;; (scheme-implementation-type) should return the name of the scheme
+;;@ (scheme-implementation-type) should return the name of the scheme
;;; implementation loading this file.
(define (scheme-implementation-type) 'Bigloo)
-;;; (scheme-implementation-home-page) should return a (string) URI
+;;@ (scheme-implementation-home-page) should return a (string) URI
;;; (Uniform Resource Identifier) for this scheme implementation's home
;;; page; or false if there isn't one.
(define (scheme-implementation-home-page)
"http://www-sop.inria.fr/mimosa/fp/Bigloo/")
-;;; (scheme-implementation-version) should return a string describing
+;;@ (scheme-implementation-version) should return a string describing
;;; the version the scheme implementation loading this file.
(define (scheme-implementation-version) *bigloo-version*)
-;;; (implementation-vicinity) should be defined to be the pathname of
+;;@ (implementation-vicinity) should be defined to be the pathname of
;;; the directory where any auxillary files to your Scheme
;;; implementation reside.
(define (implementation-vicinity)
@@ -28,7 +30,7 @@
((MS-DOS) "C:\\scheme\\")
(else "")))
-;;; (library-vicinity) should be defined to be the pathname of the
+;;@ (library-vicinity) should be defined to be the pathname of the
;;; directory where files of Scheme library functions reside.
(define library-vicinity
(let ((library-path
@@ -47,7 +49,7 @@
(else "")))))
(lambda () library-path)))
-;;; (home-vicinity) should return the vicinity of the user's HOME
+;;@ (home-vicinity) should return the vicinity of the user's HOME
;;; directory, the directory which typically contains files which
;;; customize a computer environment for a user.
(define (home-vicinity)
@@ -59,32 +61,106 @@
home
(string-append home "/")))
(else home)))))
+;@
+(define in-vicinity string-append)
+;@
+(define (user-vicinity)
+ (case (software-type)
+ ((VMS) "[.]")
+ (else "")))
-;;; *FEATURES* should be set to a list of symbols describing features
-;;; of this implementation. See Template.scm for the list of feature
-;;; names.
+(define *load-pathname* #f)
+;@
+(define vicinity:suffix?
+ (let ((suffi
+ (case (software-type)
+ ((AMIGA) '(#\: #\/))
+ ((MACOS THINKC) '(#\:))
+ ((MS-DOS WINDOWS ATARIST OS/2) '(#\\ #\/))
+ ((NOSVE) '(#\: #\.))
+ ((UNIX COHERENT PLAN9) '(#\/))
+ ((VMS) '(#\: #\]))
+ (else
+ (slib:warn "require.scm" 'unknown 'software-type (software-type))
+ "/"))))
+ (lambda (chr) (and (memv chr suffi) #t))))
+;@
+(define (pathname->vicinity pathname)
+ (let loop ((i (- (string-length pathname) 1)))
+ (cond ((negative? i) "")
+ ((vicinity:suffix? (string-ref pathname i))
+ (substring pathname 0 (+ i 1)))
+ (else (loop (- i 1))))))
+(define (program-vicinity)
+ (if *load-pathname*
+ (pathname->vicinity *load-pathname*)
+ (slib:error 'program-vicinity " called; use slib:load to load")))
+;@
+(define sub-vicinity
+ (case (software-type)
+ ((VMS) (lambda
+ (vic name)
+ (let ((l (string-length vic)))
+ (if (or (zero? (string-length vic))
+ (not (char=? #\] (string-ref vic (- l 1)))))
+ (string-append vic "[" name "]")
+ (string-append (substring vic 0 (- l 1))
+ "." name "]")))))
+ (else (let ((*vicinity-suffix*
+ (case (software-type)
+ ((NOSVE) ".")
+ ((MACOS THINKC) ":")
+ ((MS-DOS WINDOWS ATARIST OS/2) "\\")
+ ((UNIX COHERENT PLAN9 AMIGA) "/"))))
+ (lambda (vic name)
+ (string-append vic name *vicinity-suffix*))))))
+;@
+(define (make-vicinity <pathname>) <pathname>)
+;@
+(define with-load-pathname
+ (let ((exchange
+ (lambda (new)
+ (let ((old *load-pathname*))
+ (set! *load-pathname* new)
+ old))))
+ (lambda (path thunk)
+ (let* ((old (exchange path))
+ (val (thunk)))
+ (exchange old)
+ val))))
+
+;;@ *FEATURES* is a list of symbols naming the (SLIB) features
+;;; initially supported by this implementation.
(define *features*
'(
source ;can load scheme source files
- ;(slib:load-source "filename")
-; compiled ;can load compiled files
- ;(slib:load-compiled "filename")
+ ;(SLIB:LOAD-SOURCE "filename")
+;;; compiled ;can load compiled files
+ ;(SLIB:LOAD-COMPILED "filename")
+ vicinity
+ srfi-59
;; Scheme report features
+ ;; R5RS-compliant implementations should provide all 9 features.
-; r5rs ;conforms to
+;;; r5rs ;conforms to
eval ;R5RS two-argument eval
-; values ;R5RS multiple values
-; dynamic-wind ;R5RS dynamic-wind
-; macro ;R5RS high level macros
+;;; values ;R5RS multiple values
+;;; dynamic-wind ;R5RS dynamic-wind
+;;; macro ;R5RS high level macros
delay ;has DELAY and FORCE
multiarg-apply ;APPLY can take more than 2 args.
-; char-ready?
+;;; char-ready?
+ rev4-optional-procedures ;LIST-TAIL, STRING-COPY,
+ ;STRING-FILL!, and VECTOR-FILL!
+
+ ;; These four features are optional in both R4RS and R5RS
+
+ multiarg/and- ;/ and - can take more than 2 args.
rationalize
- rev4-optional-procedures ;LIST-TAIL, STRING->LIST,
- ;LIST->STRING, STRING-COPY,
- ;STRING-FILL!, LIST->VECTOR,
- ;VECTOR->LIST, and VECTOR-FILL!
+ transcript ;TRANSCRIPT-ON and TRANSCRIPT-OFF
+ with-file ;has WITH-INPUT-FROM-FILE and
+ ;WITH-OUTPUT-TO-FILE
r4rs ;conforms to
@@ -92,43 +168,39 @@
r3rs ;conforms to
-; rev2-procedures ;SUBSTRING-MOVE-LEFT!,
+;;; rev2-procedures ;SUBSTRING-MOVE-LEFT!,
;SUBSTRING-MOVE-RIGHT!,
;SUBSTRING-FILL!,
;STRING-NULL?, APPEND!, 1+,
;-1+, <?, <=?, =?, >?, >=?
object-hash ;has OBJECT-HASH
- multiarg/and- ;/ and - can take more than 2 args.
- with-file ;has WITH-INPUT-FROM-FILE and
- ;WITH-OUTPUT-TO-FILE
- transcript ;TRANSCRIPT-ON and TRANSCRIPT-OFF
+;; full-continuation ;not without the -call/cc switch
ieee-floating-point ;conforms to IEEE Standard 754-1985
;IEEE Standard for Binary
;Floating-Point Arithmetic.
-;; full-continuation ;not without the -call/cc switch
;; Other common features
srfi ;srfi-0, COND-EXPAND finds all srfi-*
-; sicp ;runs code from Structure and
+;;; sicp ;runs code from Structure and
;Interpretation of Computer
;Programs by Abelson and Sussman.
defmacro ;has Common Lisp DEFMACRO
-; record ;has user defined data structures
+;;; record ;has user defined data structures
string-port ;has CALL-WITH-INPUT-STRING and
;CALL-WITH-OUTPUT-STRING
-; sort
+;;; sort
pretty-print
object->string
-; format ;Common-lisp output formatting
-; trace ;has macros: TRACE and UNTRACE
-; compiler ;has (COMPILER)
-; ed ;(ED) is editor
+;;; format ;Common-lisp output formatting
+;;; trace ;has macros: TRACE and UNTRACE
+;;; compiler ;has (COMPILER)
+;;; ed ;(ED) is editor
system ;posix (system <string>)
getenv ;posix (getenv <string>)
-; program-arguments ;returns list of strings (argv)
-; current-time ;returns time in seconds since 1/1/1970
+;;; program-arguments ;returns list of strings (argv)
+;;; current-time ;returns time in seconds since 1/1/1970
;; Implementation Specific features
@@ -140,13 +212,13 @@
(define (object->string x) (obj->string x))
-;;; (OUTPUT-PORT-WIDTH <port>)
+;;@ (OUTPUT-PORT-WIDTH <port>)
(define (output-port-width . arg) 79)
-;;; (OUTPUT-PORT-HEIGHT <port>)
+;;@ (OUTPUT-PORT-HEIGHT <port>)
(define (output-port-height . arg) 24)
-;;; (TMPNAM) makes a temporary file name.
+;;@ (TMPNAM) makes a temporary file name.
(define tmpnam
(let ((cntr 100))
(lambda ()
@@ -154,55 +226,23 @@
(let ((tmp (string-append "slib_" (number->string cntr))))
(if (file-exists? tmp) (tmpnam) tmp)))))
-;;; FORCE-OUTPUT flushes any pending output on optional arg output port
+;;@ FORCE-OUTPUT flushes any pending output on optional arg output port
;;; use this definition if your system doesn't have such a procedure.
(define (force-output . args)
(flush-output-port (if (pair? args) (car args) (current-output-port))))
-;;; CALL-WITH-INPUT-STRING and CALL-WITH-OUTPUT-STRING are the string
+;;@ CALL-WITH-INPUT-STRING and CALL-WITH-OUTPUT-STRING are the string
;;; port versions of CALL-WITH-*PUT-FILE.
(define (call-with-output-string f)
(let ((outsp (open-output-string)))
(f outsp)
(close-output-port outsp)))
-
(define (call-with-input-string s f)
(let* ((insp (open-input-string s))
(res (f insp)))
(close-input-port insp)
res))
-(define (make-exchanger obj)
- (lambda (rep) (let ((old obj)) (set! obj rep) old)))
-(define (open-file filename modes)
- (case modes
- ((r rb) (open-input-file filename))
- ((w wb) (open-output-file filename))
- (else (slib:error 'open-file 'mode? modes))))
-;;(define (port? obj) (or (input-port? port) (output-port? port)))
-(define (call-with-open-ports . ports)
- (define proc (car ports))
- (cond ((procedure? proc) (set! ports (cdr ports)))
- (else (set! ports (reverse ports))
- (set! proc (car ports))
- (set! ports (reverse (cdr ports)))))
- (let ((ans (apply proc ports)))
- (for-each close-port ports)
- ans))
-(define (close-port port)
- (cond ((input-port? port)
- (close-input-port port)
- (if (output-port? port) (close-output-port port)))
- ((output-port? port) (close-output-port port))
- (else (slib:error 'close-port 'port? port))))
-
-(define (browse-url url)
- (define (try cmd end) (zero? (system (string-append cmd url end))))
- (or (try "netscape-remote -remote 'openURL(" ")'")
- (try "netscape -remote 'openURL(" ")'")
- (try "netscape '" "'&")
- (try "netscape '" "'")))
-
;;; "rationalize" adjunct procedures.
(define (find-ratio x e)
(let ((rat (rationalize x e)))
@@ -210,40 +250,42 @@
(define (find-ratio-between x y)
(find-ratio (/ (+ x y) 2) (/ (- x y) 2)))
-;;; CHAR-CODE-LIMIT is one greater than the largest integer which can
+;;@ CHAR-CODE-LIMIT is one greater than the largest integer which can
;;; be returned by CHAR->INTEGER.
(define char-code-limit 256)
-;;; MOST-POSITIVE-FIXNUM is used in modular.scm
+;;@ MOST-POSITIVE-FIXNUM is used in modular.scm
(define most-positive-fixnum 536870911)
-;;; Return argument
+;;@ Return argument
(define (identity x) x)
-;;; SLIB:EVAL is single argument eval using the top-level (user) environment.
+;;@ SLIB:EVAL is single argument eval using the top-level (user) environment.
(define slib:eval eval)
+;;; If your implementation provides R4RS macros:
+;(define macro:eval slib:eval)
+;(define macro:load load)
+
(define-macro (defmacro name . forms)
`(define-macro (,name . ,(car forms)) ,@(cdr forms)))
-
+;@
(define (defmacro? m) (get-eval-expander m))
+;@
(define (macroexpand-1 body) (expand-once body))
+;@
(define (macroexpand body) (expand body))
-
+;@
(define (gentemp) (gensym))
+;@
+(define defmacro:eval slib:eval)
-(define (slib:eval-load <pathname> evl)
- (if (not (file-exists? <pathname>))
- (set! <pathname> (string-append <pathname> (scheme-file-suffix))))
- (call-with-input-file <pathname>
- (lambda (port)
- (let ((old-load-pathname *load-pathname*))
- (set! *load-pathname* <pathname>)
- (do ((o (read port) (read port)))
- ((eof-object? o))
- (evl o))
- (set! *load-pathname* old-load-pathname)))))
+;;(define (defmacro:expand* x)
+;; (require 'defmacroexpand) (apply defmacro:expand* x '()))
+;; slib:eval-load definition moved to "require.scm"
+
+;@
(define slib:warn
(lambda args
(let ((cep (current-error-port)))
@@ -251,13 +293,43 @@
(display "Warn: " cep)
(for-each (lambda (x) (display #\ cep) (write x cep)) args))))
-
-;;; define an error procedure for the library
+;;@ define an error procedure for the library
(define (slib:error . args)
(if (provided? 'trace) (print-call-stack (current-error-port)))
(error 'slib:error "" args))
+;@
+(define (make-exchanger obj)
+ (lambda (rep) (let ((old obj)) (set! obj rep) old)))
+(define (open-file filename modes)
+ (case modes
+ ((r rb) (open-input-file filename))
+ ((w wb) (open-output-file filename))
+ (else (slib:error 'open-file 'mode? modes))))
+;;(define (port? obj) (or (input-port? port) (output-port? port)))
+(define (call-with-open-ports . ports)
+ (define proc (car ports))
+ (cond ((procedure? proc) (set! ports (cdr ports)))
+ (else (set! ports (reverse ports))
+ (set! proc (car ports))
+ (set! ports (reverse (cdr ports)))))
+ (let ((ans (apply proc ports)))
+ (for-each close-port ports)
+ ans))
+(define (close-port port)
+ (cond ((input-port? port)
+ (close-input-port port)
+ (if (output-port? port) (close-output-port port)))
+ ((output-port? port) (close-output-port port))
+ (else (slib:error 'close-port 'port? port))))
+;@
+(define (browse-url url)
+ (define (try cmd end) (zero? (system (string-append cmd url end))))
+ (or (try "netscape-remote -remote 'openURL(" ")'")
+ (try "netscape -remote 'openURL(" ")'")
+ (try "netscape '" "'&")
+ (try "netscape '" "'")))
-;; define these as appropriate for your system.
+;;@ define these as appropriate for your system.
(define slib:tab (integer->char 9))
(define slib:form-feed (integer->char 12))
@@ -270,47 +342,39 @@
(define ,maker-name ,name))
))
-
-;;(define force force)
-
-;;; Define these if your implementation's syntax can support it and if
+;;@ Define these if your implementation's syntax can support it and if
;;; they are not already defined.
-
(define (1+ n) (+ n 1))
(define (-1+ n) (+ n -1))
(define 1- -1+)
-(define in-vicinity string-append)
-
-;;; Define SLIB:EXIT to be the implementation procedure to exit or
-;;; return if exitting not supported.
+;;@ Define SLIB:EXIT to be the implementation procedure to exit or
+;;; return if exiting not supported.
(define slib:exit (lambda args (exit 0)))
-;;; Here for backward compatability
+;;@ Here for backward compatability
(define scheme-file-suffix
(let ((suffix (case (software-type)
((NOSVE) "_scm")
(else ".scm"))))
(lambda () suffix)))
-;;; (SLIB:LOAD-SOURCE "foo") should load "foo.scm" or with whatever
+;;@ (SLIB:LOAD-SOURCE "foo") should load "foo.scm" or with whatever
;;; suffix all the module files in SLIB have. See feature 'SOURCE.
(define (slib:load-source f) (loadq (string-append f (scheme-file-suffix))))
-;;; (SLIB:LOAD-COMPILED "foo") should load the file that was produced
+;;@ (SLIB:LOAD-COMPILED "foo") should load the file that was produced
;;; by compiling "foo.scm" if this implementation can compile files.
;;; See feature 'COMPILED.
(define slib:load-compiled loadq)
-;;; At this point SLIB:LOAD must be able to load SLIB files.
-(define slib:load slib:load-source)
-
-(define defmacro:eval slib:eval)
-(define defmacro:load slib:load)
-
-;;; If your implementation provides R4RS macros:
-;(define macro:eval slib:eval)
-;(define macro:load load)
+;;@ At this point SLIB:LOAD must be able to load SLIB files.
+(define (slib:load file)
+ (define file.scm (string-append file (scheme-file-suffix)))
+ (if (file-exists? file.scm)
+ (slib:load-source file.scm)
+ (slib:load-compiled file)))
+;@
+(define defmacro:load slib:load-source)
(slib:load (in-vicinity (library-vicinity) "require"))
-; eof
diff --git a/byte.scm b/byte.scm
index b7e12da..2d410bd 100644
--- a/byte.scm
+++ b/byte.scm
@@ -1,5 +1,5 @@
;;; "byte.scm" small integers, not necessarily chars.
-; Copyright (c) 2001, 2002, 2003 Aubrey Jaffer
+; Copyright (C) 2001, 2002, 2003 Aubrey Jaffer
;
;Permission to copy this software, to modify it, to redistribute it,
;to distribute modified versions, and to use it for any purpose is
@@ -17,6 +17,8 @@
;promotional, or sales literature without prior written consent in
;each case.
+(require 'rev4-optional-procedures) ; string-copy
+
;;@code{(require 'byte)}
;;@ftindex byte
;;
@@ -80,7 +82,7 @@
(define (bytes-reverse! bytes)
(do ((idx 0 (+ 1 idx))
(xdi (+ -1 (bytes-length bytes)) (+ -1 xdi)))
- ((>= idx xdi) bytes)
+ ((> idx xdi) bytes)
(let ((tmp (byte-ref bytes idx)))
(byte-set! bytes idx (byte-ref bytes xdi))
(byte-set! bytes xdi tmp))))
diff --git a/byte.txi b/byte.txi
index 01c725b..e4502b9 100644
--- a/byte.txi
+++ b/byte.txi
@@ -16,6 +16,7 @@ character sets. These functions abstract the notion of a @dfn{byte}.
zero-origin indexing.
@end defun
+
@deffn {Procedure} byte-set! bytes k byte
@var{k} must be a valid index of @var{bytes}, and @var{byte} must be a small
@@ -23,6 +24,7 @@ nonnegative integer. @code{byte-set!} stores @var{byte} in element @var{k} of @
returns an unspecified value. @c <!>
@end deffn
+
@defun make-bytes k byte
@@ -32,28 +34,33 @@ given, then all elements of the byte-array are initialized to @var{byte},
otherwise the contents of the byte-array are unspecified.
@end defun
+
@defun bytes-length bytes
@code{bytes-length} returns length of byte-array @var{bytes}.
@end defun
+
@defun bytes byte @dots{}
Returns a newly allocated byte-array composed of the small
nonnegative arguments.
@end defun
+
@defun bytes->list bytes
@code{bytes->list} returns a newly allocated list of the bytes that make up the
given byte-array.
@end defun
+
@defun list->bytes bytes
@code{list->bytes} returns a newly allocated byte-array formed from the small
nonnegative integers in the list @var{bytes}.
@end defun
+
@noindent
@code{Bytes->list} and @code{list->bytes} are inverses so far as
@code{equal?} is concerned.
@@ -65,16 +72,19 @@ nonnegative integers in the list @var{bytes}.
Returns a newly allocated copy of the given @var{bytes}.
@end defun
+
@deffn {Procedure} bytes-reverse! bytes
Reverses the order of byte-array @var{bytes}.
@end deffn
+
@defun bytes-reverse bytes
Returns a newly allocated bytes-array consisting of the elements of
@var{bytes} in reverse order.
@end defun
+
@noindent
@cindex binary
Input and output of bytes should be with ports opened in @dfn{binary}
@@ -96,6 +106,7 @@ be omitted, in which case it defaults to the value returned by
@findex current-output-port
@end defun
+
@defun read-byte port
@@ -106,6 +117,7 @@ end-of-file object is returned. @var{port} may be omitted, in which case it
defaults to the value returned by @code{current-input-port}.
@findex current-input-port
@end defun
+
@noindent
When reading and writing binary numbers with @code{read-bytes} and
@code{write-bytes}, the sign of the length argument determines the
@@ -135,6 +147,7 @@ end-of-file.
by @code{current-input-port}.
@end defun
+
@defun write-bytes bytes n port
@@ -147,6 +160,7 @@ value.
@var{port} may be omitted, in which case it defaults to the value returned
by @code{current-output-port}.
@end defun
+
@noindent
@code{substring-read!} and @code{substring-write} provide
lower-level procedures for reading and writing blocks of bytes. The
@@ -166,6 +180,7 @@ read from @var{port}. The first byte read is stored at index @var{string}.
by @code{current-input-port}.
@end deffn
+
@defun substring-write string start end port
@@ -177,3 +192,4 @@ returns the number of bytes written.
@var{port} may be omitted, in which case it defaults to the value returned
by @code{current-output-port}.
@end defun
+
diff --git a/bytenumb.scm b/bytenumb.scm
index 68ee748..7febf64 100644
--- a/bytenumb.scm
+++ b/bytenumb.scm
@@ -1,5 +1,5 @@
;;; "bytenumb.scm" Byte integer and IEEE floating-point conversions.
-; Copyright (c) 2003 Aubrey Jaffer
+; Copyright (C) 2003 Aubrey Jaffer
;
;Permission to copy this software, to modify it, to redistribute it,
;to distribute modified versions, and to use it for any purpose is
@@ -20,10 +20,6 @@
(require 'byte)
(require 'logical)
-(define bn:expt
- (if (provided? 'inexact) expt
- (lambda (n k) (if (negative? k) 0 (integer-expt n k)))))
-
;;@code{(require 'byte-number)}
;;@ftindex byte-number
@@ -107,7 +103,7 @@
(idx (+ -2 len) (+ -1 idx)))
((<= idx 1)
(set! F (/ (+ (logand #x7F (byte-ref bytes 1)) (/ F 256)) 128))
- (cond ((< 0 E 255) (* (if S -1 1) (bn:expt 2 (- E 127)) (+ 1 F)))
+ (cond ((< 0 E 255) (* (if S -1 1) (expt 2 (- E 127)) (+ 1 F)))
((zero? E)
(if (zero? F)
(if S (- zero) zero)
@@ -151,7 +147,7 @@
(idx (+ -2 len) (+ -1 idx)))
((<= idx 1)
(set! F (/ (+ (logand #x0F (byte-ref bytes 1)) (/ F 256)) 16))
- (cond ((< 0 E 2047) (* (if S -1 1) (bn:expt 2 (- E 1023)) (+ 1 F)))
+ (cond ((< 0 E 2047) (* (if S -1 1) (expt 2 (- E 1023)) (+ 1 F)))
((zero? E)
(if (zero? F)
(if S (- zero) zero)
diff --git a/bytenumb.txi b/bytenumb.txi
index 67c340b..9be7630 100644
--- a/bytenumb.txi
+++ b/bytenumb.txi
@@ -28,6 +28,7 @@ bytes are treated as two's-complement (can be negative).
@end example
@end defun
+
@defun integer->bytes n len
Converts the integer @var{n} to a byte-array of @code{(abs @var{n})}
@@ -44,11 +45,13 @@ returned array are coded two's-complement.
@end example
@end defun
+
@defun bytes->ieee-float bytes
@var{bytes} must be a 4-element byte-array. @code{bytes->ieee-float} calculates and returns the
value of @var{bytes} interpreted as a big-endian IEEE 4-byte (32-bit) number.
@end defun
+
@example
(bytes->ieee-float (bytes #x40 0 0 0)) @result{} 2.0
(bytes->ieee-float (bytes #x40 #xd0 0 0)) @result{} 6.5
@@ -69,6 +72,7 @@ value of @var{bytes} interpreted as a big-endian IEEE 4-byte (32-bit) number.
@var{bytes} must be a 8-element byte-array. @code{bytes->ieee-double} calculates and returns the
value of @var{bytes} interpreted as a big-endian IEEE 8-byte (64-bit) number.
@end defun
+
@example
(bytes->ieee-double (bytes 0 0 0 0 0 0 0 0)) @result{} 0.0
(bytes->ieee-double (bytes #x40 0 0 0 0 0 0 0)) @result{} 2
@@ -90,6 +94,7 @@ value of @var{bytes} interpreted as a big-endian IEEE 8-byte (64-bit) number.
Returns a 4-element byte-array encoding the IEEE single-precision
floating-point of @var{x}.
@end defun
+
@example
(bytes->list (ieee-float->bytes 2.0)) @result{} (64 0 0 0)
(bytes->list (ieee-float->bytes 6.5)) @result{} (64 208 0 0)
@@ -110,6 +115,7 @@ floating-point of @var{x}.
Returns a 8-element byte-array encoding the IEEE double-precision
floating-point of @var{x}.
@end defun
+
@example
(bytes->list (ieee-double->bytes 2.0)) @result{} (64 0 0 0 0 0 0 0)
(bytes->list (ieee-double->bytes 6.5)) @result{} (64 26 0 0 0 0 0 0)
@@ -149,6 +155,7 @@ two's-complement byte-vectors matches numerical order. @code{integer-byte-colla
@var{byte-vector} and is its own functional inverse.
@end deffn
+
@defun integer-byte-collate byte-vector
Returns copy of @var{byte-vector} with sign bit modified so that @code{string<?}
@@ -156,26 +163,31 @@ ordering of two's-complement byte-vectors matches numerical order.
@code{integer-byte-collate} is its own functional inverse.
@end defun
+
@deffn {Procedure} ieee-byte-collate! byte-vector
Modifies @var{byte-vector} so that @code{string<?} ordering of IEEE floating-point
byte-vectors matches numerical order. @code{ieee-byte-collate!} returns @var{byte-vector}.
@end deffn
+
@deffn {Procedure} ieee-byte-decollate! byte-vector
Given @var{byte-vector} modified by @code{IEEE-byte-collate!}, reverses the @var{byte-vector}
modifications.
@end deffn
+
@defun ieee-byte-collate byte-vector
Returns copy of @var{byte-vector} encoded so that @code{string<?} ordering of IEEE
floating-point byte-vectors matches numerical order.
@end defun
+
@defun ieee-byte-decollate byte-vector
Given @var{byte-vector} returned by @code{IEEE-byte-collate}, reverses the @var{byte-vector}
modifications.
@end defun
+
diff --git a/chap.scm b/chap.scm
index 1766720..dfd3c1f 100644
--- a/chap.scm
+++ b/chap.scm
@@ -22,6 +22,7 @@
;;; section of the string consists of consecutive numeric or
;;; consecutive aphabetic characters.
+(require 'rev4-optional-procedures) ; string-copy
;;@code{(require 'chapter-order)}
;;@ftindex chapter-order
diff --git a/chap.txi b/chap.txi
index 514decd..3e2baee 100644
--- a/chap.txi
+++ b/chap.txi
@@ -22,6 +22,7 @@ characters of @var{string2}.
@end example
@end defun
+
@defun chap:string>? string1 string2
@defunx chap:string<=? string1 string2
@defunx chap:string>=? string1 string2
@@ -29,6 +30,7 @@ characters of @var{string2}.
Implement the corresponding chapter-order predicates.
@end defun
+
@defun chap:next-string string
Returns the next string in the @emph{chapter order}. If @var{string}
@@ -44,3 +46,4 @@ chap:next-string will always be @code{chap:string<?} than the result.
@end example
@end defun
+
diff --git a/charplot.scm b/charplot.scm
index 890fca0..31d0fea 100644
--- a/charplot.scm
+++ b/charplot.scm
@@ -85,7 +85,7 @@
(output-port-height (current-output-port))))
(width (or (and charplot:dimensions (cadr charplot:dimensions))
(output-port-width (current-output-port)))))
- (define pra (create-array " " height width))
+ (define pra (make-array " " height width))
;;Put newlines on right edge
(do ((idx (+ -1 height) (+ -1 idx)))
((negative? idx))
@@ -166,20 +166,24 @@
(define (charplot:array->list ra)
(define dims (array-dimensions ra))
- (do ((idx (+ -1 (car dims)) (+ -1 idx))
- (cols '() (cons (do ((jdx (+ -1 (cadr dims)) (+ -1 jdx))
- (row '() (cons (array-ref ra idx jdx) row)))
- ((negative? jdx) row))
- cols)))
- ((negative? idx) cols)))
+ (if (= 2 (length dims))
+ (do ((idx (+ -1 (car dims)) (+ -1 idx))
+ (cols '() (cons (do ((jdx (+ -1 (cadr dims)) (+ -1 jdx))
+ (row '() (cons (array-ref ra idx jdx) row)))
+ ((negative? jdx) row))
+ cols)))
+ ((negative? idx) cols))
+ (do ((idx (+ -1 (car dims)) (+ -1 idx))
+ (cols '() (cons (array-ref ra idx) cols)))
+ ((negative? idx) cols))))
;;;Converts data to list of coordinates (list).
(define (charplot:data->lists data)
(cond ((array? data)
(case (array-rank data)
((1) (set! data (map list
- (let ((ra (apply create-array '#()
- (array-shape data))))
+ (let ((ra (apply make-array '#()
+ (array-dimensions data))))
(array-index-map! ra identity)
(charplot:array->list ra))
(charplot:array->list data))))
@@ -279,12 +283,13 @@
data)
(array-for-each write-char pra)
(if (not (eqv? #\newline (apply array-ref pra
- (map cadr (array-shape pra)))))
+ (map (lambda (x) (+ -1 x))
+ (array-dimensions pra)))))
(newline))))
(define (charplot:plot-function func vlo vhi . npts)
(set! npts (if (null? npts) 64 (car npts)))
- (let ((dats (create-array (Ar64) npts 2)))
+ (let ((dats (make-array (A:floR64b) npts 2)))
(array-index-map! (make-shared-array dats (lambda (idx) (list idx 0)) npts)
(lambda (idx)
(+ vlo (* (- vhi vlo) (/ idx (+ -1 npts))))))
diff --git a/chez.init b/chez.init
index 19d796e..5216cec 100644
--- a/chez.init
+++ b/chez.init
@@ -58,17 +58,88 @@
home
(string-append home "/")))
(else home)))))
-
-;;; *FEATURES* should be set to a list of symbols describing features
-;;; of this implementation. Suggestions for features are:
+;@
+(define in-vicinity string-append)
+;@
+(define (user-vicinity)
+ (case (software-type)
+ ((VMS) "[.]")
+ (else "")))
+
+(define *load-pathname* #f)
+;@
+(define vicinity:suffix?
+ (let ((suffi
+ (case (software-type)
+ ((AMIGA) '(#\: #\/))
+ ((MACOS THINKC) '(#\:))
+ ((MS-DOS WINDOWS ATARIST OS/2) '(#\\ #\/))
+ ((NOSVE) '(#\: #\.))
+ ((UNIX COHERENT PLAN9) '(#\/))
+ ((VMS) '(#\: #\]))
+ (else
+ (slib:warn "require.scm" 'unknown 'software-type (software-type))
+ "/"))))
+ (lambda (chr) (and (memv chr suffi) #t))))
+;@
+(define (pathname->vicinity pathname)
+ (let loop ((i (- (string-length pathname) 1)))
+ (cond ((negative? i) "")
+ ((vicinity:suffix? (string-ref pathname i))
+ (substring pathname 0 (+ i 1)))
+ (else (loop (- i 1))))))
+(define (program-vicinity)
+ (if *load-pathname*
+ (pathname->vicinity *load-pathname*)
+ (slib:error 'program-vicinity " called; use slib:load to load")))
+;@
+(define sub-vicinity
+ (case (software-type)
+ ((VMS) (lambda
+ (vic name)
+ (let ((l (string-length vic)))
+ (if (or (zero? (string-length vic))
+ (not (char=? #\] (string-ref vic (- l 1)))))
+ (string-append vic "[" name "]")
+ (string-append (substring vic 0 (- l 1))
+ "." name "]")))))
+ (else (let ((*vicinity-suffix*
+ (case (software-type)
+ ((NOSVE) ".")
+ ((MACOS THINKC) ":")
+ ((MS-DOS WINDOWS ATARIST OS/2) "\\")
+ ((UNIX COHERENT PLAN9 AMIGA) "/"))))
+ (lambda (vic name)
+ (string-append vic name *vicinity-suffix*))))))
+;@
+(define (make-vicinity <pathname>) <pathname>)
+;@
+(define with-load-pathname
+ (let ((exchange
+ (lambda (new)
+ (let ((old *load-pathname*))
+ (set! *load-pathname* new)
+ old))))
+ (lambda (path thunk)
+ (let ((old #f))
+ (dynamic-wind
+ (lambda () (set! old (exchange path)))
+ thunk
+ (lambda () (exchange old)))))))
+
+;;@ *FEATURES* is a list of symbols naming the (SLIB) features
+;;; initially supported by this implementation.
(define *features*
'(
source ;can load scheme source files
- ;(slib:load-source "filename")
+ ;(SLIB:LOAD-SOURCE "filename")
compiled ;can load compiled files
- ;(slib:load-compiled "filename")
+ ;(SLIB:LOAD-COMPILED "filename")
+ vicinity
+ srfi-59
;; Scheme report features
+ ;; R5RS-compliant implementations should provide all 9 features.
r5rs ;conforms to
eval ;R5RS two-argument eval
@@ -78,11 +149,16 @@
delay ;has DELAY and FORCE
multiarg-apply ;APPLY can take more than 2 args.
char-ready?
+ rev4-optional-procedures ;LIST-TAIL, STRING-COPY,
+ ;STRING-FILL!, and VECTOR-FILL!
+
+ ;; These four features are optional in both R4RS and R5RS
+
+ multiarg/and- ;/ and - can take more than 2 args.
rationalize
- rev4-optional-procedures ;LIST-TAIL, STRING->LIST,
- ;LIST->STRING, STRING-COPY,
- ;STRING-FILL!, LIST->VECTOR,
- ;VECTOR->LIST, and VECTOR-FILL!
+ transcript ;TRANSCRIPT-ON and TRANSCRIPT-OFF
+ with-file ;has WITH-INPUT-FROM-FILE and
+ ;WITH-OUTPUT-TO-FILE
r4rs ;conforms to
@@ -90,43 +166,39 @@
r3rs ;conforms to
-; rev2-procedures ;SUBSTRING-MOVE-LEFT!,
+;;; rev2-procedures ;SUBSTRING-MOVE-LEFT!,
;SUBSTRING-MOVE-RIGHT!,
;SUBSTRING-FILL!,
;STRING-NULL?, APPEND!, 1+,
;-1+, <?, <=?, =?, >?, >=?
-; object-hash ;has OBJECT-HASH
+;;; object-hash ;has OBJECT-HASH
- multiarg/and- ;/ and - can take more than 2 args.
- with-file ;has WITH-INPUT-FROM-FILE and
- ;WITH-OUTPUT-TO-FILE
- transcript ;TRANSCRIPT-ON and TRANSCRIPT-OFF
-; ieee-floating-point ;conforms to IEEE Standard 754-1985
+ full-continuation ;can return multiple times
+;;; ieee-floating-point ;conforms to IEEE Standard 754-1985
;IEEE Standard for Binary
;Floating-Point Arithmetic.
- full-continuation ;can return multiple times
;; Other common features
-; srfi ;srfi-0, COND-EXPAND finds all srfi-*
-; sicp ;runs code from Structure and
+;;; srfi ;srfi-0, COND-EXPAND finds all srfi-*
+;;; sicp ;runs code from Structure and
;Interpretation of Computer
;Programs by Abelson and Sussman.
-; defmacro ;has Common Lisp DEFMACRO
+;;; defmacro ;has Common Lisp DEFMACRO
record ;has user defined data structures
string-port ;has CALL-WITH-INPUT-STRING and
;CALL-WITH-OUTPUT-STRING
sort
pretty-print
-; object->string
+;;; object->string
format ;Common-lisp output formatting
trace ;has macros: TRACE and UNTRACE
-; compiler ;has (COMPILER)
-; ed ;(ED) is editor
+;;; compiler ;has (COMPILER)
+;;; ed ;(ED) is editor
system ;posix (system <string>)
getenv ;posix (getenv <string>)
-; program-arguments ;returns list of strings (argv)
-; current-time ;returns time in seconds since 1/1/1970
+;;; program-arguments ;returns list of strings (argv)
+;;; current-time ;returns time in seconds since 1/1/1970
;; Implementation Specific features
@@ -264,13 +336,8 @@
;(define (-1+ n) (+ n -1))
;(define 1- -1+)
-;;; (IN-VICINITY <string>) is simply STRING-APPEND, conventionally used
-;;; to attach a directory pathname to the name of a file that is expected to
-;;; be in that directory.
-(define in-vicinity string-append)
-
;;; Define SLIB:EXIT to be the implementation procedure to exit or
-;;; return if exitting not supported.
+;;; return if exiting not supported.
(define slib:chez:quit
(let ((arg (call-with-current-continuation identity)))
(cond ((procedure? arg) arg)
@@ -398,21 +465,9 @@
(define (defmacro:eval x) (base:eval (defmacro:expand* x)))
(define (defmacro:expand* x)
(require 'defmacroexpand) (apply defmacro:expand* x '()))
-
-(define (slib:eval-load <pathname> evl)
- (if (not (file-exists? <pathname>))
- (set! <pathname> (string-append <pathname> (scheme-file-suffix))))
- (call-with-input-file <pathname>
- (lambda (port)
- (let ((old-load-pathname *load-pathname*))
- (set! *load-pathname* <pathname>)
- (do ((o (read port) (read port)))
- ((eof-object? o))
- (evl o))
- (set! *load-pathname* old-load-pathname)))))
-
(define (defmacro:load <pathname>)
(slib:eval-load <pathname> defmacro:eval))
+;; slib:eval-load definition moved to "require.scm"
(define slib:warn
(lambda args
diff --git a/ciesia.dat b/ciesia.dat
new file mode 100644
index 0000000..2bcff04
--- /dev/null
+++ b/ciesia.dat
@@ -0,0 +1,110 @@
+;;; CIE 15.2-1986 Table 1.1
+;;; Part 1: CIE Standard Illuminant A relative spectral power distribution
+;;; 300 nm - 830 nm at 5 nm intervals
+0.930483
+1.128210
+1.357690
+1.622190
+1.925080
+2.269800
+2.659810
+3.098610
+3.589680
+4.136480
+4.742380
+5.410700
+6.144620
+6.947200
+7.821350
+8.769800
+9.795100
+10.899600
+12.085300
+13.354300
+14.708000
+16.148000
+17.675300
+19.290700
+20.995000
+22.788300
+24.670900
+26.642500
+28.702700
+30.850800
+33.085900
+35.406800
+37.812100
+40.300200
+42.869300
+45.517400
+48.242300
+51.041800
+53.913200
+56.853900
+59.861100
+62.932000
+66.063500
+69.252500
+72.495900
+75.790300
+79.132600
+82.519300
+85.947000
+89.412400
+92.912000
+96.442300
+100.000000
+103.582000
+107.184000
+110.803000
+114.436000
+118.080000
+121.731000
+125.386000
+129.043000
+132.697000
+136.346000
+139.988000
+143.618000
+147.235000
+150.836000
+154.418000
+157.979000
+161.516000
+165.028000
+168.510000
+171.963000
+175.383000
+178.769000
+182.118000
+185.429000
+188.701000
+191.931000
+195.118000
+198.261000
+201.359000
+204.409000
+207.411000
+210.365000
+213.268000
+216.120000
+218.920000
+221.667000
+224.361000
+227.000000
+229.585000
+232.115000
+234.589000
+237.008000
+239.370000
+241.675000
+243.924000
+246.116000
+248.251000
+250.329000
+252.350000
+254.314000
+256.221000
+258.071000
+259.865000
+261.602000
diff --git a/ciesid65.dat b/ciesid65.dat
new file mode 100644
index 0000000..bc63299
--- /dev/null
+++ b/ciesid65.dat
@@ -0,0 +1,110 @@
+;;; CIE 15.2-1986 Table 1.1
+;;; Part 2: CIE Standard Illuminant D65 relative spectral power distribution
+;;; 300 nm - 830 nm at 5 nm intervals
+0.03410
+1.66430
+3.29450
+11.76520
+20.23600
+28.64470
+37.05350
+38.50110
+39.94880
+42.43020
+44.91170
+45.77500
+46.63830
+49.36370
+52.08910
+51.03230
+49.97550
+52.31180
+54.64820
+68.70150
+82.75490
+87.12040
+91.48600
+92.45890
+93.43180
+90.05700
+86.68230
+95.77360
+104.86500
+110.93600
+117.00800
+117.41000
+117.81200
+116.33600
+114.86100
+115.39200
+115.92300
+112.36700
+108.81100
+109.08200
+109.35400
+108.57800
+107.80200
+106.29600
+104.79000
+106.23900
+107.68900
+106.04700
+104.40500
+104.22500
+104.04600
+102.02300
+100.00000
+98.16710
+96.33420
+96.06110
+95.78800
+92.23680
+88.68560
+89.34590
+90.00620
+89.80260
+89.59910
+88.64890
+87.69870
+85.49360
+83.28860
+83.49390
+83.69920
+81.86300
+80.02680
+80.12070
+80.21460
+81.24620
+82.27780
+80.28100
+78.28420
+74.00270
+69.72130
+70.66520
+71.60910
+72.97900
+74.34900
+67.97650
+61.60400
+65.74480
+69.88560
+72.48630
+75.08700
+69.33980
+63.59270
+55.00540
+46.41820
+56.61180
+66.80540
+65.09410
+63.38280
+63.84340
+64.30400
+61.87790
+59.45190
+55.70540
+51.95900
+54.69980
+57.44060
+58.87650
+60.31250
diff --git a/clrnamdb.scm b/clrnamdb.scm
new file mode 100644
index 0000000..68386c9
--- /dev/null
+++ b/clrnamdb.scm
@@ -0,0 +1,1745 @@
+;;; "/usr/local/lib/slib/clrnamdb.scm" SLIB 3a2 alist-table database -*-scheme-*-
+
+(
+ (10
+ ("black" "sRGB:34/34/34" 267)
+ ("darkgray" "sRGB:85/85/85" 266)
+ ("mediumgray" "sRGB:132/132/130" 265)
+ ("lightgray" "sRGB:185/184/181" 264)
+ ("white" "sRGB:242/243/244" 263)
+ ("grayishpurplishred" "sRGB:145/95/109" 262)
+ ("lightgrayishpurplishred" "sRGB:175/134/142" 261)
+ ("verydarkpurplishred" "sRGB:56/21/44" 260)
+ ("darkpurplishred" "sRGB:103/49/71" 259)
+ ("moderatepurplishred" "sRGB:168/81/110" 258)
+ ("verydeeppurplishred" "sRGB:84/19/59" 257)
+ ("deeppurplishred" "sRGB:120/24/74" 256)
+ ("strongpurplishred" "sRGB:179/68/108" 255)
+ ("vividpurplishred" "sRGB:206/70/118" 254)
+ ("grayishpurplishpink" "sRGB:195/166/177" 253)
+ ("palepurplishpink" "sRGB:232/204/215" 252)
+ ("darkpurplishpink" "sRGB:193/126/145" 251)
+ ("moderatepurplishpink" "sRGB:213/151/174" 250)
+ ("lightpurplishpink" "sRGB:239/187/204" 249)
+ ("deeppurplishpink" "sRGB:222/111/161" 248)
+ ("strongpurplishpink" "sRGB:230/143/172" 247)
+ ("brilliantpurplishpink" "sRGB:255/200/214" 246)
+ ("grayishreddishpurple" "sRGB:131/100/121" 245)
+ ("palereddishpurple" "sRGB:170/138/158" 244)
+ ("verydarkreddishpurple" "sRGB:52/23/49" 243)
+ ("darkreddishpurple" "sRGB:93/57/84" 242)
+ ("moderatereddishpurple" "sRGB:145/92/131" 241)
+ ("lightreddishpurple" "sRGB:183/132/167" 240)
+ ("verydeepreddishpurple" "sRGB:84/25/78" 239)
+ ("deepreddishpurple" "sRGB:112/41/99" 238)
+ ("strongreddishpurple" "sRGB:158/79/136" 237)
+ ("vividreddishpurple" "sRGB:135/0/116" 236)
+ ("purplishblack" "sRGB:36/33/36" 235)
+ ("darkpurplishgray" "sRGB:93/85/91" 234)
+ ("purplishgray" "sRGB:139/133/137" 233)
+ ("lightpurplishgray" "sRGB:191/185/189" 232)
+ ("purplishwhite" "sRGB:232/227/229" 231)
+ ("blackishpurple" "sRGB:41/30/41" 230)
+ ("darkgrayishpurple" "sRGB:80/64/77" 229)
+ ("grayishpurple" "sRGB:121/104/120" 228)
+ ("palepurple" "sRGB:170/152/169" 227)
+ ("verypalepurple" "sRGB:214/202/221" 226)
+ ("verydarkpurple" "sRGB:48/25/52" 225)
+ ("darkpurple" "sRGB:86/60/92" 224)
+ ("moderatepurple" "sRGB:134/96/142" 223)
+ ("lightpurple" "sRGB:182/149/192" 222)
+ ("verylightpurple" "sRGB:213/186/219" 221)
+ ("verydeeppurple" "sRGB:64/26/76" 220)
+ ("deeppurple" "sRGB:96/47/107" 219)
+ ("strongpurple" "sRGB:135/86/146" 218)
+ ("brilliantpurple" "sRGB:211/153/230" 217)
+ ("vividpurple" "sRGB:154/78/174" 216)
+ ("grayishviolet" "sRGB:85/76/105" 215)
+ ("paleviolet" "sRGB:150/144/171" 214)
+ ("verypaleviolet" "sRGB:196/195/221" 213)
+ ("darkviolet" "sRGB:47/33/64" 212)
+ ("moderateviolet" "sRGB:96/78/129" 211)
+ ("lightviolet" "sRGB:140/130/182" 210)
+ ("verylightviolet" "sRGB:220/208/255" 209)
+ ("deepviolet" "sRGB:50/23/77" 208)
+ ("strongviolet" "sRGB:96/78/151" 207)
+ ("brilliantviolet" "sRGB:126/115/184" 206)
+ ("vividviolet" "sRGB:144/101/202" 205)
+ ("grayishpurplishblue" "sRGB:76/81/109" 204)
+ ("palepurplishblue" "sRGB:140/146/172" 203)
+ ("verypalepurplishblue" "sRGB:192/200/225" 202)
+ ("darkpurplishblue" "sRGB:37/36/64" 201)
+ ("moderatepurplishblue" "sRGB:78/81/128" 200)
+ ("lightpurplishblue" "sRGB:135/145/191" 199)
+ ("verylightpurplishblue" "sRGB:179/188/226" 198)
+ ("deeppurplishblue" "sRGB:39/36/88" 197)
+ ("strongpurplishblue" "sRGB:84/90/167" 196)
+ ("brilliantpurplishblue" "sRGB:108/121/184" 195)
+ ("vividpurplishblue" "sRGB:48/38/122" 194)
+ ("bluishblack" "sRGB:32/36/40" 193)
+ ("darkbluishgray" "sRGB:81/88/94" 192)
+ ("bluishgray" "sRGB:129/135/139" 191)
+ ("lightbluishgray" "sRGB:180/188/192" 190)
+ ("bluishwhite" "sRGB:233/233/237" 189)
+ ("blackishblue" "sRGB:32/40/48" 188)
+ ("darkgrayishblue" "sRGB:54/69/79" 187)
+ ("grayishblue" "sRGB:83/104/120" 186)
+ ("paleblue" "sRGB:145/163/176" 185)
+ ("verypaleblue" "sRGB:188/212/230" 184)
+ ("darkblue" "sRGB:0/48/78" 183)
+ ("moderateblue" "sRGB:67/107/149" 182)
+ ("lightblue" "sRGB:112/163/204" 181)
+ ("verylightblue" "sRGB:161/202/241" 180)
+ ("deepblue" "sRGB:0/65/106" 179)
+ ("strongblue" "sRGB:0/103/165" 178)
+ ("brilliantblue" "sRGB:73/151/208" 177)
+ ("vividblue" "sRGB:0/161/194" 176)
+ ("verydarkgreenishblue" "sRGB:0/46/59" 175)
+ ("darkgreenishblue" "sRGB:0/73/88" 174)
+ ("moderategreenishblue" "sRGB:54/117/136" 173)
+ ("lightgreenishblue" "sRGB:102/170/188" 172)
+ ("verylightgreenishblue" "sRGB:156/209/220" 171)
+ ("deepgreenishblue" "sRGB:46/132/149" 170)
+ ("stronggreenishblue" "sRGB:0/119/145" 169)
+ ("brilliantgreenishblue" "sRGB:35/158/186" 168)
+ ("vividgreenishblue" "sRGB:0/133/161" 167)
+ ("verydarkbluishgreen" "sRGB:0/42/41" 166)
+ ("darkbluishgreen" "sRGB:0/75/73" 165)
+ ("moderatebluishgreen" "sRGB:49/120/115" 164)
+ ("lightbluishgreen" "sRGB:102/173/164" 163)
+ ("verylightbluishgreen" "sRGB:150/222/209" 162)
+ ("deepbluishgreen" "sRGB:0/68/63" 161)
+ ("strongbluishgreen" "sRGB:0/122/116" 160)
+ ("brilliantbluishgreen" "sRGB:0/166/147" 159)
+ ("vividbluishgreen" "sRGB:0/136/130" 158)
+ ("greenishblack" "sRGB:30/35/33" 157)
+ ("darkgreenishgray" "sRGB:78/87/85" 156)
+ ("greenishgray" "sRGB:125/137/132" 155)
+ ("lightgreenishgray" "sRGB:178/190/181" 154)
+ ("greenishwhite" "sRGB:223/237/232" 153)
+ ("blackishgreen" "sRGB:26/36/33" 152)
+ ("darkgrayishgreen" "sRGB:58/75/71" 151)
+ ("grayishgreen" "sRGB:94/113/106" 150)
+ ("palegreen" "sRGB:141/163/153" 149)
+ ("verypalegreen" "sRGB:199/230/215" 148)
+ ("verydarkgreen" "sRGB:28/53/45" 147)
+ ("darkgreen" "sRGB:27/77/62" 146)
+ ("moderategreen" "sRGB:59/120/97" 145)
+ ("lightgreen" "sRGB:106/171/142" 144)
+ ("verylightgreen" "sRGB:142/209/178" 143)
+ ("deepgreen" "sRGB:0/84/61" 142)
+ ("stronggreen" "sRGB:0/121/89" 141)
+ ("brilliantgreen" "sRGB:62/180/137" 140)
+ ("vividgreen" "sRGB:0/136/86" 139)
+ ("verydarkyellowishgreen" "sRGB:23/54/32" 138)
+ ("darkyellowishgreen" "sRGB:53/94/59" 137)
+ ("moderateyellowishgreen" "sRGB:103/146/103" 136)
+ ("lightyellowishgreen" "sRGB:147/197/146" 135)
+ ("verylightyellowishgreen" "sRGB:182/229/175" 134)
+ ("verydeepyellowishgreen" "sRGB:0/49/24" 133)
+ ("deepyellowishgreen" "sRGB:0/98/45" 132)
+ ("strongyellowishgreen" "sRGB:68/148/74" 131)
+ ("brilliantyellowishgreen" "sRGB:131/211/125" 130)
+ ("vividyellowishgreen" "sRGB:39/166/76" 129)
+ ("darkgrayisholivegreen" "sRGB:49/54/43" 128)
+ ("grayisholivegreen" "sRGB:81/87/68" 127)
+ ("darkolivegreen" "sRGB:43/61/38" 126)
+ ("moderateolivegreen" "sRGB:74/93/35" 125)
+ ("deepolivegreen" "sRGB:35/47/0" 124)
+ ("strongolivegreen" "sRGB:64/79/0" 123)
+ ("grayishyellowgreen" "sRGB:143/151/121" 122)
+ ("paleyellowgreen" "sRGB:218/223/183" 121)
+ ("moderateyellowgreen" "sRGB:138/154/91" 120)
+ ("lightyellowgreen" "sRGB:201/220/137" 119)
+ ("deepyellowgreen" "sRGB:70/113/41" 118)
+ ("strongyellowgreen" "sRGB:126/159/46" 117)
+ ("brilliantyellowgreen" "sRGB:189/218/87" 116)
+ ("vividyellowgreen" "sRGB:141/182/0" 115)
+ ("oliveblack" "sRGB:37/36/29" 114)
+ ("olivegray" "sRGB:87/85/76" 113)
+ ("lightolivegray" "sRGB:138/135/118" 112)
+ ("darkgrayisholive" "sRGB:54/53/39" 111)
+ ("grayisholive" "sRGB:91/88/66" 110)
+ ("lightgrayisholive" "sRGB:140/135/103" 109)
+ ("darkolive" "sRGB:64/61/33" 108)
+ ("moderateolive" "sRGB:102/93/30" 107)
+ ("lightolive" "sRGB:134/126/54" 106)
+ ("grayishgreenishyellow" "sRGB:185/181/125" 105)
+ ("palegreenishyellow" "sRGB:235/232/164" 104)
+ ("darkgreenishyellow" "sRGB:152/148/62" 103)
+ ("moderategreenishyellow" "sRGB:185/180/89" 102)
+ ("lightgreenishyellow" "sRGB:234/230/121" 101)
+ ("deepgreenishyellow" "sRGB:155/148/0" 100)
+ ("stronggreenishyellow" "sRGB:190/183/46" 99)
+ ("brilliantgreenishyellow" "sRGB:233/228/80" 98)
+ ("vividgreenishyellow" "sRGB:220/211/0" 97)
+ ("darkolivebrown" "sRGB:59/49/33" 96)
+ ("moderateolivebrown" "sRGB:108/84/30" 95)
+ ("lightolivebrown" "sRGB:150/113/23" 94)
+ ("yellowishgray" "sRGB:191/184/165" 93)
+ ("yellowishwhite" "sRGB:240/234/214" 92)
+ ("darkgrayishyellow" "sRGB:161/143/96" 91)
+ ("grayishyellow" "sRGB:194/178/128" 90)
+ ("paleyellow" "sRGB:243/229/171" 89)
+ ("darkyellow" "sRGB:171/145/68" 88)
+ ("moderateyellow" "sRGB:201/174/93" 87)
+ ("lightyellow" "sRGB:248/222/126" 86)
+ ("deepyellow" "sRGB:175/141/19" 85)
+ ("strongyellow" "sRGB:212/175/55" 84)
+ ("brilliantyellow" "sRGB:250/218/94" 83)
+ ("vividyellow" "sRGB:243/195/0" 82)
+ ("darkgrayishyellowishbrown" "sRGB:72/60/50" 81)
+ ("grayishyellowishbrown" "sRGB:126/109/90" 80)
+ ("lightgrayishyellowishbrown" "sRGB:174/155/130" 79)
+ ("darkyellowishbrown" "sRGB:75/54/33" 78)
+ ("moderateyellowishbrown" "sRGB:130/102/68" 77)
+ ("lightyellowishbrown" "sRGB:193/154/107" 76)
+ ("deepyellowishbrown" "sRGB:101/69/34" 75)
+ ("strongyellowishbrown" "sRGB:153/101/21" 74)
+ ("paleorangeyellow" "sRGB:250/214/165" 73)
+ ("darkorangeyellow" "sRGB:190/138/61" 72)
+ ("moderateorangeyellow" "sRGB:227/168/87" 71)
+ ("lightorangeyellow" "sRGB:251/201/127" 70)
+ ("deeporangeyellow" "sRGB:201/133/0" 69)
+ ("strongorangeyellow" "sRGB:234/162/33" 68)
+ ("brilliantorangeyellow" "sRGB:255/193/79" 67)
+ ("vividorangeyellow" "sRGB:246/166/0" 66)
+ ("brownishblack" "sRGB:40/32/28" 65)
+ ("brownishgray" "sRGB:91/80/79" 64)
+ ("lightbrownishgray" "sRGB:142/130/121" 63)
+ ("darkgrayishbrown" "sRGB:62/50/44" 62)
+ ("grayishbrown" "sRGB:99/81/71" 61)
+ ("lightgrayishbrown" "sRGB:149/128/112" 60)
+ ("darkbrown" "sRGB:66/37/24" 59)
+ ("moderatebrown" "sRGB:111/78/55" 58)
+ ("lightbrown" "sRGB:166/123/91" 57)
+ ("deepbrown" "sRGB:89/51/25" 56)
+ ("strongbrown" "sRGB:128/70/27" 55)
+ ("brownishorange" "sRGB:174/105/56" 54)
+ ("moderateorange" "sRGB:217/144/88" 53)
+ ("lightorange" "sRGB:250/181/127" 52)
+ ("deeporange" "sRGB:190/101/22" 51)
+ ("strongorange" "sRGB:237/135/45" 50)
+ ("brilliantorange" "sRGB:253/148/63" 49)
+ ("vividorange" "sRGB:243/132/0" 48)
+ ("darkgrayishreddishbrown" "sRGB:67/48/46" 47)
+ ("grayishreddishbrown" "sRGB:103/76/71" 46)
+ ("lightgrayishreddishbrown" "sRGB:151/127/115" 45)
+ ("darkreddishbrown" "sRGB:62/29/30" 44)
+ ("moderatereddishbrown" "sRGB:121/68/59" 43)
+ ("lightreddishbrown" "sRGB:168/124/109" 42)
+ ("deepreddishbrown" "sRGB:86/7/12" 41)
+ ("strongreddishbrown" "sRGB:136/45/23" 40)
+ ("grayishreddishorange" "sRGB:180/116/94" 39)
+ ("darkreddishorange" "sRGB:158/71/50" 38)
+ ("moderatereddishorange" "sRGB:203/109/81" 37)
+ ("deepreddishorange" "sRGB:170/56/30" 36)
+ ("strongreddishorange" "sRGB:217/96/59" 35)
+ ("vividreddishorange" "sRGB:226/88/34" 34)
+ ("brownishpink" "sRGB:194/172/153" 33)
+ ("grayishyellowishpink" "sRGB:199/173/163" 32)
+ ("paleyellowishpink" "sRGB:236/213/197" 31)
+ ("darkyellowishpink" "sRGB:196/131/121" 30)
+ ("moderateyellowishpink" "sRGB:217/166/169" 29)
+ ("lightyellowishpink" "sRGB:244/194/194" 28)
+ ("deepyellowishpink" "sRGB:230/103/33" 27)
+ ("strongyellowishpink" "sRGB:249/147/121" 26)
+ ("vividyellowishpink" "sRGB:255/183/165" 25)
+ ("reddishblack" "sRGB:40/32/34" 24)
+ ("darkreddishgray" "sRGB:92/80/79" 23)
+ ("reddishgray" "sRGB:143/129/127" 22)
+ ("blackishred" "sRGB:46/29/33" 21)
+ ("darkgrayishred" "sRGB:84/61/63" 20)
+ ("grayishred" "sRGB:144/93/93" 19)
+ ("lightgrayishred" "sRGB:173/136/132" 18)
+ ("verydarkred" "sRGB:63/23/40" 17)
+ ("darkred" "sRGB:114/47/55" 16)
+ ("moderatered" "sRGB:171/78/82" 15)
+ ("verydeepred" "sRGB:92/9/35" 14)
+ ("deepred" "sRGB:132/27/45" 13)
+ ("strongred" "sRGB:188/63/74" 12)
+ ("vividred" "sRGB:190/0/50" 11)
+ ("pinkishgray" "sRGB:193/182/179" 10)
+ ("pinkishwhite" "sRGB:234/227/225" 9)
+ ("grayishpink" "sRGB:196/174/173" 8)
+ ("palepink" "sRGB:234/216/215" 7)
+ ("darkpink" "sRGB:192/128/129" 6)
+ ("moderatepink" "sRGB:222/165/164" 5)
+ ("lightpink" "sRGB:249/204/202" 4)
+ ("deeppink" "sRGB:228/113/122" 3)
+ ("strongpink" "sRGB:234/147/153" 2)
+ ("vividpink" "sRGB:255/181/186" 1)
+ )
+ (9
+ (3 #f order #f ordinal)
+ (2 #f color #f string)
+ (1 #t name #f string)
+ )
+ (8
+ ("zydeco" "sRGB:2/64/44" 1383)
+ ("zumthor" "sRGB:237/246/255" 1382)
+ ("zuccini" "sRGB:4/64/34" 1381)
+ ("zorba" "sRGB:165/155/145" 1380)
+ ("zombie" "sRGB:228/214/155" 1379)
+ ("zircon" "sRGB:244/248/255" 1378)
+ ("ziggurat" "sRGB:191/219/226" 1377)
+ ("zeus" "sRGB:41/35/25" 1376)
+ ("zest" "sRGB:229/132/27" 1375)
+ ("zanah" "sRGB:218/236/214" 1374)
+ ("zambezi" "sRGB:104/85/88" 1373)
+ ("yuma" "sRGB:206/194/145" 1372)
+ ("yukongold" "sRGB:123/102/8" 1371)
+ ("yourpink" "sRGB:255/195/192" 1370)
+ ("yellowsea" "sRGB:254/169/4" 1369)
+ ("yellowmetal" "sRGB:113/99/56" 1368)
+ ("xanadu" "sRGB:115/134/120" 1367)
+ ("woodybrown" "sRGB:72/49/49" 1366)
+ ("woodybay" "sRGB:41/33/48" 1365)
+ ("woodsmoke" "sRGB:12/13/15" 1364)
+ ("woodrush" "sRGB:48/42/15" 1363)
+ ("woodland" "sRGB:77/83/40" 1362)
+ ("woodburn" "sRGB:60/32/5" 1361)
+ ("woodbark" "sRGB:38/17/5" 1360)
+ ("witchhaze" "sRGB:255/252/153" 1359)
+ ("wistful" "sRGB:164/166/211" 1358)
+ ("wisteria" "sRGB:151/113/181" 1357)
+ ("wisppink" "sRGB:254/244/248" 1356)
+ ("winterhazel" "sRGB:213/209/149" 1355)
+ ("wineberry" "sRGB:89/29/53" 1354)
+ ("windsor" "sRGB:60/8/120" 1353)
+ ("willowgrove" "sRGB:101/116/93" 1352)
+ ("willowbrook" "sRGB:223/236/218" 1351)
+ ("william" "sRGB:58/104/108" 1350)
+ ("wildwillow" "sRGB:185/196/106" 1349)
+ ("wildsand" "sRGB:244/244/244" 1348)
+ ("wildrice" "sRGB:236/224/144" 1347)
+ ("whiterock" "sRGB:234/232/212" 1346)
+ ("whitepointer" "sRGB:254/248/255" 1345)
+ ("whitenectar" "sRGB:252/255/231" 1344)
+ ("whitelinen" "sRGB:248/240/232" 1343)
+ ("whitelilac" "sRGB:248/247/252" 1342)
+ ("whiteice" "sRGB:221/249/241" 1341)
+ ("whisper" "sRGB:247/245/250" 1340)
+ ("whiskeysour" "sRGB:219/153/94" 1339)
+ ("whiskey" "sRGB:213/154/111" 1338)
+ ("wheatfield" "sRGB:243/237/207" 1337)
+ ("wewak" "sRGB:241/155/171" 1336)
+ ("westernred" "sRGB:139/7/35" 1335)
+ ("westar" "sRGB:220/217/210" 1334)
+ ("westside" "sRGB:255/145/15" 1333)
+ ("westcoast" "sRGB:98/81/25" 1332)
+ ("wellread" "sRGB:180/51/50" 1331)
+ ("wedgewood" "sRGB:78/127/158" 1330)
+ ("wepeep" "sRGB:247/219/230" 1329)
+ ("waxflower" "sRGB:255/192/168" 1328)
+ ("watusi" "sRGB:255/221/207" 1327)
+ ("wattle" "sRGB:220/215/71" 1326)
+ ("waterloo" "sRGB:123/124/148" 1325)
+ ("watercourse" "sRGB:5/111/87" 1324)
+ ("waterleaf" "sRGB:161/233/222" 1323)
+ ("wasabi" "sRGB:120/138/37" 1322)
+ ("wanwhite" "sRGB:252/255/249" 1321)
+ ("walnut" "sRGB:119/63/26" 1320)
+ ("waiouru" "sRGB:54/60/13" 1319)
+ ("waikawagrey" "sRGB:90/110/156" 1318)
+ ("wafer" "sRGB:222/203/198" 1317)
+ ("vulcan" "sRGB:16/18/29" 1316)
+ ("voodoo" "sRGB:83/52/85" 1315)
+ ("volcano" "sRGB:101/26/20" 1314)
+ ("vistawhite" "sRGB:252/248/247" 1313)
+ ("vistablue" "sRGB:143/214/180" 1312)
+ ("visvis" "sRGB:255/239/161" 1311)
+ ("viridiangreen" "sRGB:103/137/117" 1310)
+ ("violet" "sRGB:36/10/64" 1309)
+ ("violentviolet" "sRGB:41/12/94" 1308)
+ ("viola" "sRGB:203/143/169" 1307)
+ ("vinrouge" "sRGB:152/61/97" 1306)
+ ("viking" "sRGB:100/204/219" 1305)
+ ("vidaloca" "sRGB:84/144/25" 1304)
+ ("victoria" "sRGB:83/68/145" 1303)
+ ("vesuvius" "sRGB:177/74/11" 1302)
+ ("verdungreen" "sRGB:73/84/0" 1301)
+ ("verdigris" "sRGB:93/94/55" 1300)
+ ("venus" "sRGB:146/133/144" 1299)
+ ("veniceblue" "sRGB:5/89/137" 1298)
+ ("venetianred" "sRGB:114/1/15" 1297)
+ ("varden" "sRGB:255/246/223" 1296)
+ ("vanillaice" "sRGB:243/217/223" 1295)
+ ("vanilla" "sRGB:209/190/168" 1294)
+ ("vancleef" "sRGB:73/23/12" 1293)
+ ("valhalla" "sRGB:43/25/79" 1292)
+ ("valentino" "sRGB:53/14/66" 1291)
+ ("valencia" "sRGB:216/68/55" 1290)
+ ("twine" "sRGB:194/149/93" 1289)
+ ("twilightblue" "sRGB:238/253/255" 1288)
+ ("twilight" "sRGB:228/207/222" 1287)
+ ("tutu" "sRGB:255/241/249" 1286)
+ ("tussock" "sRGB:197/153/75" 1285)
+ ("tusk" "sRGB:238/243/195" 1284)
+ ("tuscany" "sRGB:189/94/46" 1283)
+ ("turtlegreen" "sRGB:42/56/11" 1282)
+ ("turmeric" "sRGB:202/187/72" 1281)
+ ("turkishrose" "sRGB:181/114/129" 1280)
+ ("turbo" "sRGB:250/230/0" 1279)
+ ("tundora" "sRGB:74/66/68" 1278)
+ ("tuna" "sRGB:53/53/66" 1277)
+ ("tumbleweed" "sRGB:55/41/14" 1276)
+ ("tuliptree" "sRGB:234/179/59" 1275)
+ ("tuftbush" "sRGB:255/221/205" 1274)
+ ("tuatara" "sRGB:54/53/52" 1273)
+ ("truev" "sRGB:138/115/214" 1272)
+ ("trout" "sRGB:74/78/90" 1271)
+ ("tropicalblue" "sRGB:195/221/249" 1270)
+ ("trinidad" "sRGB:230/78/3" 1269)
+ ("trendypink" "sRGB:140/100/149" 1268)
+ ("trendygreen" "sRGB:124/136/26" 1267)
+ ("treehouse" "sRGB:59/40/32" 1266)
+ ("treepoppy" "sRGB:252/156/29" 1265)
+ ("travertine" "sRGB:255/253/232" 1264)
+ ("tranquil" "sRGB:230/255/255" 1263)
+ ("tradewind" "sRGB:95/179/172" 1262)
+ ("towergrey" "sRGB:169/189/191" 1261)
+ ("touchwood" "sRGB:55/48/33" 1260)
+ ("totempole" "sRGB:153/27/7" 1259)
+ ("tosca" "sRGB:141/63/63" 1258)
+ ("toryblue" "sRGB:20/80/170" 1257)
+ ("toreabay" "sRGB:15/45/158" 1256)
+ ("topaz" "sRGB:124/119/138" 1255)
+ ("tonyspink" "sRGB:231/159/140" 1254)
+ ("tomthumb" "sRGB:63/88/59" 1253)
+ ("tolopea" "sRGB:27/2/69" 1252)
+ ("toledo" "sRGB:58/0/32" 1251)
+ ("tobago" "sRGB:62/43/35" 1250)
+ ("tobaccobrown" "sRGB:113/93/71" 1249)
+ ("toast" "sRGB:154/110/97" 1248)
+ ("titanwhite" "sRGB:240/238/255" 1247)
+ ("timbergreen" "sRGB:22/50/44" 1246)
+ ("tide" "sRGB:191/184/176" 1245)
+ ("tidal" "sRGB:241/255/173" 1244)
+ ("tiber" "sRGB:6/53/55" 1243)
+ ("tiara" "sRGB:195/209/209" 1242)
+ ("tiamaria" "sRGB:193/68/14" 1241)
+ ("thunderbird" "sRGB:192/43/24" 1240)
+ ("thunder" "sRGB:51/41/47" 1239)
+ ("thistle" "sRGB:204/202/168" 1238)
+ ("thatchgreen" "sRGB:64/61/25" 1237)
+ ("thatch" "sRGB:182/157/152" 1236)
+ ("texasrose" "sRGB:255/181/85" 1235)
+ ("texas" "sRGB:248/249/156" 1234)
+ ("tequila" "sRGB:255/230/199" 1233)
+ ("temptress" "sRGB:59/0/11" 1232)
+ ("tealblue" "sRGB:4/66/89" 1231)
+ ("teakwoodfinish" "sRGB:107/42/20" 1230)
+ ("teak" "sRGB:177/148/97" 1229)
+ ("tea" "sRGB:193/186/176" 1228)
+ ("tepapagreen" "sRGB:30/67/60" 1227)
+ ("taxbreak" "sRGB:81/128/143" 1226)
+ ("tawnyport" "sRGB:105/37/69" 1225)
+ ("taupegrey" "sRGB:179/175/149" 1224)
+ ("tasman" "sRGB:207/220/207" 1223)
+ ("tarawera" "sRGB:7/58/80" 1222)
+ ("tara" "sRGB:225/246/232" 1221)
+ ("tapestry" "sRGB:176/94/129" 1220)
+ ("tapa" "sRGB:123/120/116" 1219)
+ ("tango" "sRGB:237/122/28" 1218)
+ ("tangerine" "sRGB:233/110/0" 1217)
+ ("tangaroa" "sRGB:3/22/60" 1216)
+ ("tana" "sRGB:217/220/193" 1215)
+ ("tamarind" "sRGB:52/21/21" 1214)
+ ("tamarillo" "sRGB:153/22/19" 1213)
+ ("tallow" "sRGB:168/165/137" 1212)
+ ("tallpoppy" "sRGB:179/45/41" 1211)
+ ("tahunasands" "sRGB:238/240/200" 1210)
+ ("tahitigold" "sRGB:233/124/7" 1209)
+ ("tacha" "sRGB:214/197/98" 1208)
+ ("tacao" "sRGB:237/179/129" 1207)
+ ("tabasco" "sRGB:160/39/18" 1206)
+ ("sycamore" "sRGB:144/141/57" 1205)
+ ("swisscoffee" "sRGB:221/214/213" 1204)
+ ("swirl" "sRGB:211/205/197" 1203)
+ ("sweetpink" "sRGB:253/159/162" 1202)
+ ("sweetcorn" "sRGB:251/234/140" 1201)
+ ("swansdown" "sRGB:220/240/234" 1200)
+ ("swamp" "sRGB:0/27/28" 1199)
+ ("suvagrey" "sRGB:136/131/135" 1198)
+ ("sushi" "sRGB:135/171/57" 1197)
+ ("surfiegreen" "sRGB:12/122/121" 1196)
+ ("surfcrest" "sRGB:207/229/210" 1195)
+ ("surf" "sRGB:187/215/193" 1194)
+ ("supernova" "sRGB:255/201/1" 1193)
+ ("sunshade" "sRGB:255/158/44" 1192)
+ ("sunset" "sRGB:220/67/51" 1191)
+ ("sunglo" "sRGB:225/104/101" 1190)
+ ("sunflower" "sRGB:228/212/34" 1189)
+ ("sundown" "sRGB:255/177/179" 1188)
+ ("sundance" "sRGB:201/179/91" 1187)
+ ("sun" "sRGB:251/172/19" 1186)
+ ("summergreen" "sRGB:150/187/171" 1185)
+ ("sulu" "sRGB:193/240/124" 1184)
+ ("sugarcane" "sRGB:249/255/246" 1183)
+ ("submarine" "sRGB:186/199/201" 1182)
+ ("studio" "sRGB:113/74/178" 1181)
+ ("stromboli" "sRGB:50/93/82" 1180)
+ ("strikemaster" "sRGB:149/99/135" 1179)
+ ("straw" "sRGB:212/191/141" 1178)
+ ("stratos" "sRGB:0/7/65" 1177)
+ ("stormgrey" "sRGB:113/116/134" 1176)
+ ("stormdust" "sRGB:100/100/99" 1175)
+ ("stonewall" "sRGB:146/133/115" 1174)
+ ("stinger" "sRGB:139/107/11" 1173)
+ ("stiletto" "sRGB:156/51/54" 1172)
+ ("steelgrey" "sRGB:38/35/53" 1171)
+ ("starship" "sRGB:236/242/69" 1170)
+ ("starkwhite" "sRGB:229/215/189" 1169)
+ ("stardust" "sRGB:159/159/156" 1168)
+ ("stack" "sRGB:138/143/138" 1167)
+ ("sttropaz" "sRGB:45/86/155" 1166)
+ ("squirrel" "sRGB:143/129/118" 1165)
+ ("spunpearl" "sRGB:170/171/183" 1164)
+ ("sprout" "sRGB:193/215/176" 1163)
+ ("springwood" "sRGB:248/246/241" 1162)
+ ("springsun" "sRGB:246/255/220" 1161)
+ ("springrain" "sRGB:172/203/177" 1160)
+ ("springgreen" "sRGB:87/131/99" 1159)
+ ("spray" "sRGB:121/222/236" 1158)
+ ("splash" "sRGB:255/239/193" 1157)
+ ("spindle" "sRGB:182/209/234" 1156)
+ ("spicypink" "sRGB:129/110/113" 1155)
+ ("spicymix" "sRGB:136/83/66" 1154)
+ ("spice" "sRGB:106/68/46" 1153)
+ ("spectra" "sRGB:47/90/87" 1152)
+ ("spanishwhite" "sRGB:244/235/211" 1151)
+ ("spanishgreen" "sRGB:129/152/133" 1150)
+ ("spaceshuttle" "sRGB:67/49/32" 1149)
+ ("soyabean" "sRGB:106/96/81" 1148)
+ ("sourdough" "sRGB:209/190/168" 1147)
+ ("sorrellbrown" "sRGB:206/185/143" 1146)
+ ("sorbus" "sRGB:253/124/7" 1145)
+ ("solitude" "sRGB:234/246/255" 1144)
+ ("solitaire" "sRGB:254/248/226" 1143)
+ ("solidpink" "sRGB:137/56/67" 1142)
+ ("softpeach" "sRGB:245/237/239" 1141)
+ ("softamber" "sRGB:209/198/180" 1140)
+ ("soapstone" "sRGB:255/251/249" 1139)
+ ("snuff" "sRGB:226/216/237" 1138)
+ ("snowymint" "sRGB:214/255/219" 1137)
+ ("snowflurry" "sRGB:228/255/209" 1136)
+ ("snowdrift" "sRGB:247/250/247" 1135)
+ ("smoky" "sRGB:96/91/115" 1134)
+ ("smokeyash" "sRGB:65/60/55" 1133)
+ ("smoketree" "sRGB:218/99/4" 1132)
+ ("smaltblue" "sRGB:81/128/143" 1131)
+ ("slugger" "sRGB:65/32/16" 1130)
+ ("skeptic" "sRGB:202/230/218" 1129)
+ ("sisal" "sRGB:211/203/186" 1128)
+ ("sirocco" "sRGB:113/128/128" 1127)
+ ("siren" "sRGB:122/1/58" 1126)
+ ("sinbad" "sRGB:159/215/211" 1125)
+ ("silvertree" "sRGB:102/181/143" 1124)
+ ("silversand" "sRGB:191/193/194" 1123)
+ ("silverchalice" "sRGB:172/172/172" 1122)
+ ("silk" "sRGB:189/177/168" 1121)
+ ("sidecar" "sRGB:243/231/187" 1120)
+ ("siam" "sRGB:100/106/84" 1119)
+ ("shuttlegrey" "sRGB:95/102/114" 1118)
+ ("shocking" "sRGB:226/146/192" 1117)
+ ("shiraz" "sRGB:178/9/49" 1116)
+ ("shipgrey" "sRGB:62/58/68" 1115)
+ ("shipcove" "sRGB:120/139/186" 1114)
+ ("shinglefawn" "sRGB:107/78/49" 1113)
+ ("shilo" "sRGB:232/185/179" 1112)
+ ("sherwoodgreen" "sRGB:2/64/44" 1111)
+ ("sherpablue" "sRGB:0/73/80" 1110)
+ ("shark" "sRGB:37/39/44" 1109)
+ ("shalimar" "sRGB:251/255/186" 1108)
+ ("shakespeare" "sRGB:78/171/209" 1107)
+ ("shadylady" "sRGB:170/165/169" 1106)
+ ("shadowgreen" "sRGB:154/194/184" 1105)
+ ("serenade" "sRGB:255/244/232" 1104)
+ ("sepia" "sRGB:43/2/2" 1103)
+ ("selago" "sRGB:240/238/253" 1102)
+ ("seaweed" "sRGB:27/47/17" 1101)
+ ("seashell" "sRGB:241/241/241" 1100)
+ ("seance" "sRGB:115/30/143" 1099)
+ ("seagull" "sRGB:128/204/234" 1098)
+ ("seapink" "sRGB:237/152/158" 1097)
+ ("seanymph" "sRGB:120/163/156" 1096)
+ ("seamist" "sRGB:197/219/202" 1095)
+ ("seagreen" "sRGB:9/88/89" 1094)
+ ("seafog" "sRGB:252/255/249" 1093)
+ ("seabuckthorn" "sRGB:251/161/41" 1092)
+ ("scrub" "sRGB:46/50/34" 1091)
+ ("scotchmist" "sRGB:255/251/220" 1090)
+ ("scorpion" "sRGB:105/95/98" 1089)
+ ("scooter" "sRGB:46/191/212" 1088)
+ ("schooner" "sRGB:139/132/126" 1087)
+ ("schist" "sRGB:169/180/151" 1086)
+ ("scarpaflow" "sRGB:88/85/98" 1085)
+ ("scarlett" "sRGB:149/0/21" 1084)
+ ("scarletgum" "sRGB:67/21/96" 1083)
+ ("scandal" "sRGB:207/250/244" 1082)
+ ("scampi" "sRGB:103/95/166" 1081)
+ ("sazerac" "sRGB:255/244/224" 1080)
+ ("sauvignon" "sRGB:255/245/243" 1079)
+ ("saratoga" "sRGB:85/91/16" 1078)
+ ("sapphire" "sRGB:47/81/158" 1077)
+ ("sapling" "sRGB:222/212/164" 1076)
+ ("santasgrey" "sRGB:159/160/177" 1075)
+ ("santafe" "sRGB:177/109/82" 1074)
+ ("sanguinebrown" "sRGB:141/61/56" 1073)
+ ("sangria" "sRGB:146/0/10" 1072)
+ ("sandybeach" "sRGB:255/234/200" 1071)
+ ("sandwisp" "sRGB:245/231/162" 1070)
+ ("sandstone" "sRGB:121/109/98" 1069)
+ ("sandrift" "sRGB:171/145/122" 1068)
+ ("sandal" "sRGB:170/141/111" 1067)
+ ("sanddune" "sRGB:130/111/101" 1066)
+ ("sanmarino" "sRGB:69/108/172" 1065)
+ ("sanjuan" "sRGB:48/75/106" 1064)
+ ("sanfelix" "sRGB:11/98/7" 1063)
+ ("sambuca" "sRGB:58/32/16" 1062)
+ ("saltpan" "sRGB:241/247/242" 1061)
+ ("saltbox" "sRGB:104/94/110" 1060)
+ ("salomie" "sRGB:254/219/141" 1059)
+ ("salem" "sRGB:9/127/75" 1058)
+ ("sail" "sRGB:184/224/249" 1057)
+ ("sahara" "sRGB:183/162/20" 1056)
+ ("sage" "sRGB:158/165/135" 1055)
+ ("saffron" "sRGB:249/191/88" 1054)
+ ("saddlebrown" "sRGB:88/52/1" 1053)
+ ("saddle" "sRGB:76/48/36" 1052)
+ ("rustynail" "sRGB:134/86/10" 1051)
+ ("rusticred" "sRGB:72/4/4" 1050)
+ ("russett" "sRGB:117/90/87" 1049)
+ ("rumswizzle" "sRGB:249/248/228" 1048)
+ ("rum" "sRGB:121/105/137" 1047)
+ ("royalheath" "sRGB:171/52/114" 1046)
+ ("rouge" "sRGB:162/59/108" 1045)
+ ("roti" "sRGB:198/168/75" 1044)
+ ("rosewood" "sRGB:101/0/11" 1043)
+ ("rosewhite" "sRGB:255/246/245" 1042)
+ ("roseofsharon" "sRGB:191/85/0" 1041)
+ ("rosebudcherry" "sRGB:128/11/71" 1040)
+ ("rosebud" "sRGB:251/178/163" 1039)
+ ("rose" "sRGB:231/188/180" 1038)
+ ("rope" "sRGB:142/77/30" 1037)
+ ("roofterracotta" "sRGB:166/47/32" 1036)
+ ("ronchi" "sRGB:236/197/78" 1035)
+ ("romantic" "sRGB:255/210/183" 1034)
+ ("romance" "sRGB:255/254/253" 1033)
+ ("romancoffee" "sRGB:121/93/76" 1032)
+ ("roman" "sRGB:222/99/96" 1031)
+ ("rollingstone" "sRGB:116/125/131" 1030)
+ ("rodeodust" "sRGB:201/178/155" 1029)
+ ("rockspray" "sRGB:186/69/12" 1028)
+ ("rocksalt" "sRGB:255/255/255" 1027)
+ ("rockblue" "sRGB:158/177/205" 1026)
+ ("rock" "sRGB:77/56/51" 1025)
+ ("robinseggblue" "sRGB:189/200/179" 1024)
+ ("robroy" "sRGB:234/198/116" 1023)
+ ("riverbed" "sRGB:67/76/89" 1022)
+ ("riptide" "sRGB:139/230/216" 1021)
+ ("riogrande" "sRGB:187/208/9" 1020)
+ ("richgold" "sRGB:168/83/7" 1019)
+ ("riceflower" "sRGB:238/255/226" 1018)
+ ("ricecake" "sRGB:255/254/240" 1017)
+ ("ribbon" "sRGB:102/0/69" 1016)
+ ("rhino" "sRGB:46/63/98" 1015)
+ ("revolver" "sRGB:44/22/50" 1014)
+ ("resolutionblue" "sRGB:0/35/135" 1013)
+ ("renosand" "sRGB:168/101/21" 1012)
+ ("remy" "sRGB:254/235/243" 1011)
+ ("regentstblue" "sRGB:170/214/230" 1010)
+ ("regentgrey" "sRGB:134/148/159" 1009)
+ ("regalblue" "sRGB:1/63/106" 1008)
+ ("reefgold" "sRGB:159/130/28" 1007)
+ ("reef" "sRGB:201/255/162" 1006)
+ ("redwood" "sRGB:93/30/15" 1005)
+ ("redstage" "sRGB:208/95/4" 1004)
+ ("redrobin" "sRGB:128/52/31" 1003)
+ ("redoxide" "sRGB:110/9/2" 1002)
+ ("reddevil" "sRGB:134/1/17" 1001)
+ ("reddamask" "sRGB:218/106/65" 1000)
+ ("redberry" "sRGB:142/0/0" 999)
+ ("redbeech" "sRGB:123/56/1" 998)
+ ("rebel" "sRGB:60/18/6" 997)
+ ("raven" "sRGB:114/123/137" 996)
+ ("rangoongreen" "sRGB:28/30/19" 995)
+ ("rangitoto" "sRGB:46/50/34" 994)
+ ("rajah" "sRGB:247/182/104" 993)
+ ("rainee" "sRGB:185/200/172" 992)
+ ("raincloud" "sRGB:123/124/148" 991)
+ ("rainforest" "sRGB:119/129/32" 990)
+ ("raffia" "sRGB:234/218/184" 989)
+ ("racinggreen" "sRGB:12/25/17" 988)
+ ("quincy" "sRGB:98/63/45" 987)
+ ("quillgrey" "sRGB:214/214/209" 986)
+ ("quicksand" "sRGB:189/151/142" 985)
+ ("quarterspanishwhite" "sRGB:247/242/225" 984)
+ ("quarterpearllusta" "sRGB:255/253/244" 983)
+ ("putty" "sRGB:231/205/140" 982)
+ ("punga" "sRGB:77/61/20" 981)
+ ("punch" "sRGB:220/67/51" 980)
+ ("pumpkin" "sRGB:177/97/11" 979)
+ ("pumice" "sRGB:194/202/196" 978)
+ ("puertorico" "sRGB:63/193/170" 977)
+ ("pueblo" "sRGB:125/44/20" 976)
+ ("prussianblue" "sRGB:0/49/83" 975)
+ ("provincialpink" "sRGB:254/245/241" 974)
+ ("promenade" "sRGB:252/255/231" 973)
+ ("primrose" "sRGB:237/234/153" 972)
+ ("prim" "sRGB:240/226/236" 971)
+ ("prelude" "sRGB:208/192/229" 970)
+ ("prairiesand" "sRGB:154/56/32" 969)
+ ("powderblue" "sRGB:188/201/194" 968)
+ ("pottersclay" "sRGB:140/87/56" 967)
+ ("potpourri" "sRGB:245/231/226" 966)
+ ("portica" "sRGB:249/230/99" 965)
+ ("portage" "sRGB:139/159/238" 964)
+ ("portafino" "sRGB:255/255/180" 963)
+ ("portgore" "sRGB:37/31/79" 962)
+ ("porsche" "sRGB:234/174/105" 961)
+ ("porcelain" "sRGB:239/242/243" 960)
+ ("pompadour" "sRGB:102/0/69" 959)
+ ("poloblue" "sRGB:141/168/204" 958)
+ ("polar" "sRGB:229/249/246" 957)
+ ("pohutukawa" "sRGB:143/2/28" 956)
+ ("plum" "sRGB:65/0/86" 955)
+ ("planter" "sRGB:97/93/48" 954)
+ ("plantation" "sRGB:39/80/75" 953)
+ ("pizza" "sRGB:201/148/21" 952)
+ ("pizazz" "sRGB:255/144/0" 951)
+ ("pixiegreen" "sRGB:192/216/182" 950)
+ ("pistachio" "sRGB:157/194/9" 949)
+ ("pirategold" "sRGB:186/127/3" 948)
+ ("pippin" "sRGB:255/225/223" 947)
+ ("pipi" "sRGB:254/244/204" 946)
+ ("piper" "sRGB:201/99/35" 945)
+ ("pinkswan" "sRGB:190/181/183" 944)
+ ("pinklady" "sRGB:255/241/216" 943)
+ ("pinklace" "sRGB:255/221/244" 942)
+ ("pinkflare" "sRGB:225/192/200" 941)
+ ("pinetree" "sRGB:23/31/4" 940)
+ ("pineglade" "sRGB:199/205/144" 939)
+ ("pinecone" "sRGB:109/94/84" 938)
+ ("pigeonpost" "sRGB:175/189/217" 937)
+ ("pictonblue" "sRGB:69/177/232" 936)
+ ("pickledbluewood" "sRGB:49/68/89" 935)
+ ("pickledbean" "sRGB:110/72/38" 934)
+ ("pickledaspen" "sRGB:63/76/58" 933)
+ ("picasso" "sRGB:255/243/157" 932)
+ ("pharlap" "sRGB:163/128/123" 931)
+ ("pewter" "sRGB:150/168/161" 930)
+ ("petiteorchid" "sRGB:219/150/144" 929)
+ ("pesto" "sRGB:124/118/49" 928)
+ ("perutan" "sRGB:127/58/2" 927)
+ ("persimmon" "sRGB:255/107/83" 926)
+ ("persianred" "sRGB:82/12/23" 925)
+ ("persianplum" "sRGB:112/28/28" 924)
+ ("periglacialblue" "sRGB:225/230/214" 923)
+ ("perfume" "sRGB:208/190/248" 922)
+ ("perano" "sRGB:169/190/242" 921)
+ ("peppermint" "sRGB:227/245/225" 920)
+ ("pelorous" "sRGB:62/171/191" 919)
+ ("peat" "sRGB:113/107/86" 918)
+ ("pearllusta" "sRGB:252/244/220" 917)
+ ("pearlbush" "sRGB:232/224/213" 916)
+ ("peanut" "sRGB:120/47/22" 915)
+ ("peachschnapps" "sRGB:255/220/214" 914)
+ ("peach" "sRGB:255/240/219" 913)
+ ("peasoup" "sRGB:207/229/210" 912)
+ ("pavlova" "sRGB:215/196/152" 911)
+ ("paua" "sRGB:38/3/104" 910)
+ ("pattensblue" "sRGB:222/245/255" 909)
+ ("patina" "sRGB:99/154/143" 908)
+ ("parsley" "sRGB:19/79/25" 907)
+ ("pariswhite" "sRGB:202/220/212" 906)
+ ("parism" "sRGB:38/5/106" 905)
+ ("parisdaisy" "sRGB:255/244/110" 904)
+ ("parchment" "sRGB:241/233/210" 903)
+ ("paradiso" "sRGB:49/125/130" 902)
+ ("paprika" "sRGB:141/2/38" 901)
+ ("panda" "sRGB:66/57/33" 900)
+ ("pancho" "sRGB:237/205/171" 899)
+ ("panache" "sRGB:234/246/238" 898)
+ ("pampas" "sRGB:244/242/238" 897)
+ ("palmleaf" "sRGB:25/51/14" 896)
+ ("palmgreen" "sRGB:9/35/15" 895)
+ ("paleslate" "sRGB:195/191/193" 894)
+ ("palesky" "sRGB:110/119/131" 893)
+ ("palerose" "sRGB:255/225/242" 892)
+ ("paleprim" "sRGB:253/254/184" 891)
+ ("paleoyster" "sRGB:152/141/119" 890)
+ ("paleleaf" "sRGB:192/211/185" 889)
+ ("padua" "sRGB:173/230/196" 888)
+ ("paco" "sRGB:65/31/16" 887)
+ ("pacifika" "sRGB:119/129/32" 886)
+ ("pablo" "sRGB:119/111/97" 885)
+ ("paarl" "sRGB:166/85/41" 884)
+ ("oysterpink" "sRGB:233/206/205" 883)
+ ("oysterbay" "sRGB:218/250/255" 882)
+ ("oxley" "sRGB:119/158/134" 881)
+ ("oxfordblue" "sRGB:56/69/85" 880)
+ ("outerspace" "sRGB:5/16/64" 879)
+ ("ottoman" "sRGB:233/248/237" 878)
+ ("oslogrey" "sRGB:135/141/145" 877)
+ ("orinoco" "sRGB:243/251/212" 876)
+ ("orientalpink" "sRGB:198/145/145" 875)
+ ("orient" "sRGB:1/94/133" 874)
+ ("oregon" "sRGB:155/71/3" 873)
+ ("orchidwhite" "sRGB:255/253/243" 872)
+ ("orangewhite" "sRGB:254/252/237" 871)
+ ("orangeroughy" "sRGB:196/87/25" 870)
+ ("oracle" "sRGB:55/116/117" 869)
+ ("opium" "sRGB:142/111/112" 868)
+ ("opal" "sRGB:169/198/194" 867)
+ ("onion" "sRGB:47/39/14" 866)
+ ("onahau" "sRGB:205/244/255" 865)
+ ("olivetone" "sRGB:113/110/16" 864)
+ ("olivehaze" "sRGB:139/132/112" 863)
+ ("olivegreen" "sRGB:36/46/22" 862)
+ ("oldcopper" "sRGB:114/74/47" 861)
+ ("oldbrick" "sRGB:144/30/30" 860)
+ ("oiledcedar" "sRGB:124/28/5" 859)
+ ("oil" "sRGB:40/30/21" 858)
+ ("offyellow" "sRGB:254/249/227" 857)
+ ("offgreen" "sRGB:230/248/243" 856)
+ ("oceangreen" "sRGB:65/170/120" 855)
+ ("observatory" "sRGB:2/134/111" 854)
+ ("oasis" "sRGB:254/239/206" 853)
+ ("nutmegwoodfinish" "sRGB:104/54/0" 852)
+ ("nutmeg" "sRGB:129/66/44" 851)
+ ("nugget" "sRGB:197/153/34" 850)
+ ("norway" "sRGB:168/189/159" 849)
+ ("nordic" "sRGB:1/39/49" 848)
+ ("nomad" "sRGB:186/177/162" 847)
+ ("nobel" "sRGB:183/177/177" 846)
+ ("nileblue" "sRGB:25/55/81" 845)
+ ("nightclub" "sRGB:102/0/69" 844)
+ ("nightshadz" "sRGB:170/55/90" 843)
+ ("nightrider" "sRGB:31/18/15" 842)
+ ("niagara" "sRGB:6/161/137" 841)
+ ("newyorkpink" "sRGB:215/131/127" 840)
+ ("neworleans" "sRGB:243/214/157" 839)
+ ("newamber" "sRGB:123/56/1" 838)
+ ("nevada" "sRGB:100/110/117" 837)
+ ("neutralgreen" "sRGB:172/165/134" 836)
+ ("nero" "sRGB:20/6/0" 835)
+ ("neptune" "sRGB:124/183/187" 834)
+ ("nepal" "sRGB:142/171/193" 833)
+ ("negroni" "sRGB:255/226/197" 832)
+ ("nebula" "sRGB:203/219/214" 831)
+ ("natural" "sRGB:134/86/10" 830)
+ ("narvik" "sRGB:237/249/241" 829)
+ ("napa" "sRGB:172/164/148" 828)
+ ("nandor" "sRGB:75/93/82" 827)
+ ("mystic" "sRGB:226/235/237" 826)
+ ("mysin" "sRGB:255/179/31" 825)
+ ("mypink" "sRGB:214/145/136" 824)
+ ("mustard" "sRGB:116/100/13" 823)
+ ("mulledwine" "sRGB:78/69/98" 822)
+ ("mulefawn" "sRGB:140/71/47" 821)
+ ("mulberry" "sRGB:92/5/54" 820)
+ ("muesli" "sRGB:170/139/91" 819)
+ ("muddywaters" "sRGB:183/142/92" 818)
+ ("mountainmist" "sRGB:149/147/150" 817)
+ ("mosque" "sRGB:3/106/110" 816)
+ ("mosaic" "sRGB:18/52/71" 815)
+ ("mortar" "sRGB:80/67/81" 814)
+ ("moroccobrown" "sRGB:68/29/0" 813)
+ ("morningglory" "sRGB:158/222/224" 812)
+ ("moonyellow" "sRGB:252/217/23" 811)
+ ("moonraker" "sRGB:214/206/246" 810)
+ ("moonmist" "sRGB:220/221/204" 809)
+ ("moonglow" "sRGB:252/254/218" 808)
+ ("moodyblue" "sRGB:127/118/211" 807)
+ ("monza" "sRGB:199/3/30" 806)
+ ("montecarlo" "sRGB:131/208/198" 805)
+ ("montana" "sRGB:41/30/48" 804)
+ ("monsoon" "sRGB:138/131/137" 803)
+ ("mongoose" "sRGB:181/162/127" 802)
+ ("mondo" "sRGB:74/60/48" 801)
+ ("monarch" "sRGB:139/7/35" 800)
+ ("monalisa" "sRGB:255/161/148" 799)
+ ("mojo" "sRGB:192/71/55" 798)
+ ("mocha" "sRGB:120/45/25" 797)
+ ("moccaccino" "sRGB:110/29/20" 796)
+ ("mobster" "sRGB:127/117/137" 795)
+ ("mistgrey" "sRGB:196/196/188" 794)
+ ("mischka" "sRGB:209/210/221" 793)
+ ("mirage" "sRGB:22/25/40" 792)
+ ("minttulip" "sRGB:196/244/235" 791)
+ ("mintjulep" "sRGB:241/238/193" 790)
+ ("minsk" "sRGB:63/48/127" 789)
+ ("ming" "sRGB:54/116/125" 788)
+ ("mineralgreen" "sRGB:63/93/83" 787)
+ ("mineshaft" "sRGB:50/50/50" 786)
+ ("mindaro" "sRGB:227/249/136" 785)
+ ("mimosa" "sRGB:248/253/211" 784)
+ ("millbrook" "sRGB:89/68/51" 783)
+ ("milkwhite" "sRGB:246/240/230" 782)
+ ("milkpunch" "sRGB:255/246/212" 781)
+ ("milanored" "sRGB:184/17/4" 780)
+ ("milan" "sRGB:250/255/164" 779)
+ ("mikado" "sRGB:45/37/16" 778)
+ ("midnightmoss" "sRGB:4/16/4" 777)
+ ("midnightexpress" "sRGB:0/7/65" 776)
+ ("midnight" "sRGB:1/22/53" 775)
+ ("midgrey" "sRGB:95/95/110" 774)
+ ("mexicanred" "sRGB:167/37/37" 773)
+ ("meteorite" "sRGB:60/31/118" 772)
+ ("meteor" "sRGB:208/125/18" 771)
+ ("metalliccopper" "sRGB:113/41/29" 770)
+ ("metallicbronze" "sRGB:73/55/27" 769)
+ ("merlot" "sRGB:131/25/35" 768)
+ ("merlin" "sRGB:65/60/55" 767)
+ ("merino" "sRGB:246/240/230" 766)
+ ("mercury" "sRGB:229/229/229" 765)
+ ("meranti" "sRGB:93/30/15" 764)
+ ("melrose" "sRGB:199/193/255" 763)
+ ("melanzane" "sRGB:48/5/41" 762)
+ ("melanie" "sRGB:228/194/213" 761)
+ ("mckenzie" "sRGB:175/135/81" 760)
+ ("maverick" "sRGB:216/194/213" 759)
+ ("matterhorn" "sRGB:78/59/65" 758)
+ ("matrix" "sRGB:176/93/84" 757)
+ ("matisse" "sRGB:27/101/157" 756)
+ ("mash" "sRGB:64/41/29" 755)
+ ("masala" "sRGB:64/59/56" 754)
+ ("marzipan" "sRGB:248/219/157" 753)
+ ("martinique" "sRGB:54/48/80" 752)
+ ("martini" "sRGB:175/160/158" 751)
+ ("marshland" "sRGB:11/15/8" 750)
+ ("maroon" "sRGB:66/3/3" 749)
+ ("marlin" "sRGB:42/20/14" 748)
+ ("mariner" "sRGB:40/106/205" 747)
+ ("marigold" "sRGB:185/141/40" 746)
+ ("mardigras" "sRGB:53/0/54" 745)
+ ("manz" "sRGB:238/239/120" 744)
+ ("mantle" "sRGB:139/156/144" 743)
+ ("mantis" "sRGB:116/195/101" 742)
+ ("manhattan" "sRGB:245/201/153" 741)
+ ("mandyspink" "sRGB:242/195/178" 740)
+ ("mandy" "sRGB:226/84/101" 739)
+ ("mandalay" "sRGB:173/120/27" 738)
+ ("mamba" "sRGB:142/129/144" 737)
+ ("malta" "sRGB:189/178/161" 736)
+ ("mallard" "sRGB:35/52/24" 735)
+ ("malibu" "sRGB:125/200/247" 734)
+ ("malachitegreen" "sRGB:136/141/101" 733)
+ ("mako" "sRGB:68/73/84" 732)
+ ("makara" "sRGB:137/125/109" 731)
+ ("maize" "sRGB:245/213/160" 730)
+ ("maire" "sRGB:19/10/6" 729)
+ ("maitai" "sRGB:176/102/8" 728)
+ ("mahogany" "sRGB:78/6/6" 727)
+ ("magnolia" "sRGB:248/244/255" 726)
+ ("madras" "sRGB:63/48/2" 725)
+ ("madison" "sRGB:9/37/93" 724)
+ ("madang" "sRGB:183/240/190" 723)
+ ("mabel" "sRGB:217/247/255" 722)
+ ("lynch" "sRGB:105/126/154" 721)
+ ("luxorgold" "sRGB:167/136/44" 720)
+ ("lusty" "sRGB:153/27/7" 719)
+ ("lunargreen" "sRGB:60/73/58" 718)
+ ("luckypoint" "sRGB:26/26/104" 717)
+ ("lucky" "sRGB:175/159/28" 716)
+ ("loulou" "sRGB:70/11/65" 715)
+ ("lotus" "sRGB:134/60/60" 714)
+ ("lonestar" "sRGB:109/1/1" 713)
+ ("londonhue" "sRGB:190/166/195" 712)
+ ("lola" "sRGB:223/207/219" 711)
+ ("logan" "sRGB:170/169/205" 710)
+ ("logcabin" "sRGB:36/42/29" 709)
+ ("locust" "sRGB:168/175/142" 708)
+ ("lochmara" "sRGB:0/126/199" 707)
+ ("lochinvar" "sRGB:44/140/132" 706)
+ ("loblolly" "sRGB:189/201/206" 705)
+ ("loafer" "sRGB:238/244/222" 704)
+ ("lividbrown" "sRGB:77/40/46" 703)
+ ("lisbonbrown" "sRGB:66/57/33" 702)
+ ("lipstick" "sRGB:171/5/99" 701)
+ ("linkwater" "sRGB:217/228/245" 700)
+ ("linen" "sRGB:230/228/212" 699)
+ ("limerick" "sRGB:157/194/9" 698)
+ ("limedspruce" "sRGB:57/72/81" 697)
+ ("limedoak" "sRGB:172/138/86" 696)
+ ("limedgum" "sRGB:66/57/33" 695)
+ ("limedash" "sRGB:116/125/99" 694)
+ ("limeade" "sRGB:111/157/2" 693)
+ ("lime" "sRGB:191/201/33" 692)
+ ("lima" "sRGB:118/189/23" 691)
+ ("lilywhite" "sRGB:231/248/255" 690)
+ ("lily" "sRGB:200/170/191" 689)
+ ("lilacbush" "sRGB:152/116/211" 688)
+ ("lightningyellow" "sRGB:252/192/30" 687)
+ ("licorice" "sRGB:9/34/86" 686)
+ ("lemongrass" "sRGB:155/158/143" 685)
+ ("lemonginger" "sRGB:172/158/34" 684)
+ ("lemon" "sRGB:244/216/28" 683)
+ ("leather" "sRGB:150/112/89" 682)
+ ("lavender" "sRGB:168/153/230" 681)
+ ("laurel" "sRGB:116/147/120" 680)
+ ("laser" "sRGB:200/181/104" 679)
+ ("laspalmas" "sRGB:198/230/16" 678)
+ ("larioja" "sRGB:179/193/16" 677)
+ ("lapalma" "sRGB:54/135/22" 676)
+ ("kumera" "sRGB:136/98/33" 675)
+ ("kournikova" "sRGB:255/231/114" 674)
+ ("koromiko" "sRGB:255/189/95" 673)
+ ("korma" "sRGB:143/75/14" 672)
+ ("kokoda" "sRGB:110/109/87" 671)
+ ("kobi" "sRGB:231/159/196" 670)
+ ("kingfisherdaisy" "sRGB:62/4/128" 669)
+ ("kimberly" "sRGB:115/108/159" 668)
+ ("killarney" "sRGB:58/106/71" 667)
+ ("kilamanjaro" "sRGB:36/12/2" 666)
+ ("kidnapper" "sRGB:225/234/212" 665)
+ ("keppel" "sRGB:58/176/158" 664)
+ ("kenyancopper" "sRGB:124/28/5" 663)
+ ("kelp" "sRGB:69/73/54" 662)
+ ("kashmirblue" "sRGB:80/112/150" 661)
+ ("karry" "sRGB:255/234/212" 660)
+ ("karaka" "sRGB:30/22/9" 659)
+ ("kangaroo" "sRGB:198/200/189" 658)
+ ("kaitokegreen" "sRGB:0/70/32" 657)
+ ("kabul" "sRGB:94/72/62" 656)
+ ("justright" "sRGB:236/205/185" 655)
+ ("juniper" "sRGB:109/146/146" 654)
+ ("junglemist" "sRGB:180/207/211" 653)
+ ("junglegreen" "sRGB:40/30/21" 652)
+ ("jumbo" "sRGB:124/123/130" 651)
+ ("judgegrey" "sRGB:84/67/51" 650)
+ ("jordyblue" "sRGB:138/185/241" 649)
+ ("jonquil" "sRGB:238/255/154" 648)
+ ("jon" "sRGB:59/31/31" 647)
+ ("joanna" "sRGB:245/243/229" 646)
+ ("jewel" "sRGB:18/107/64" 645)
+ ("jetstream" "sRGB:181/210/206" 644)
+ ("jellybean" "sRGB:41/123/154" 643)
+ ("jazz" "sRGB:120/1/9" 642)
+ ("java" "sRGB:31/194/194" 641)
+ ("jarrah" "sRGB:52/21/21" 640)
+ ("japonica" "sRGB:216/124/99" 639)
+ ("japanesemaple" "sRGB:120/1/9" 638)
+ ("japaneselaurel" "sRGB:10/105/6" 637)
+ ("janna" "sRGB:244/235/211" 636)
+ ("jambalaya" "sRGB:91/48/19" 635)
+ ("jaguar" "sRGB:8/1/16" 634)
+ ("jagger" "sRGB:53/14/87" 633)
+ ("jaggedice" "sRGB:194/232/229" 632)
+ ("jaffa" "sRGB:239/134/63" 631)
+ ("jade" "sRGB:66/121/119" 630)
+ ("jacksonspurple" "sRGB:32/32/141" 629)
+ ("jackobean" "sRGB:46/25/5" 628)
+ ("jacarta" "sRGB:58/42/106" 627)
+ ("jacaranda" "sRGB:46/3/41" 626)
+ ("islandspice" "sRGB:255/252/238" 625)
+ ("ironstone" "sRGB:134/72/60" 624)
+ ("ironsidegrey" "sRGB:103/102/98" 623)
+ ("ironbark" "sRGB:65/31/16" 622)
+ ("iron" "sRGB:212/215/217" 621)
+ ("iroko" "sRGB:67/49/32" 620)
+ ("irishcoffee" "sRGB:95/61/38" 619)
+ ("indochine" "sRGB:194/107/3" 618)
+ ("indiantan" "sRGB:77/30/1" 617)
+ ("illusion" "sRGB:246/164/201" 616)
+ ("iceberg" "sRGB:218/244/240" 615)
+ ("icecold" "sRGB:177/244/231" 614)
+ ("husk" "sRGB:183/164/88" 613)
+ ("hurricane" "sRGB:135/124/123" 612)
+ ("huntergreen" "sRGB:22/29/16" 611)
+ ("hummingbird" "sRGB:207/249/243" 610)
+ ("hottoddy" "sRGB:179/128/7" 609)
+ ("hotpurple" "sRGB:72/6/86" 608)
+ ("hotcurry" "sRGB:136/98/33" 607)
+ ("hotchile" "sRGB:139/7/35" 606)
+ ("horsesneck" "sRGB:96/73/19" 605)
+ ("horizon" "sRGB:90/135/160" 604)
+ ("hopbush" "sRGB:208/109/161" 603)
+ ("honeysuckle" "sRGB:237/252/132" 602)
+ ("honeyflower" "sRGB:79/28/112" 601)
+ ("holly" "sRGB:1/29/19" 600)
+ ("hoki" "sRGB:101/134/159" 599)
+ ("hokeypokey" "sRGB:200/165/40" 598)
+ ("hitpink" "sRGB:255/171/129" 597)
+ ("hitgrey" "sRGB:161/173/181" 596)
+ ("hippiepink" "sRGB:174/69/96" 595)
+ ("hippiegreen" "sRGB:83/130/75" 594)
+ ("hippieblue" "sRGB:88/154/175" 593)
+ ("hintofyellow" "sRGB:250/253/228" 592)
+ ("hintofred" "sRGB:249/249/249" 591)
+ ("hintofgrey" "sRGB:252/255/249" 590)
+ ("hintofgreen" "sRGB:230/255/233" 589)
+ ("himalaya" "sRGB:106/93/27" 588)
+ ("hillary" "sRGB:172/165/134" 587)
+ ("highland" "sRGB:111/142/99" 586)
+ ("highball" "sRGB:144/141/57" 585)
+ ("hibiscus" "sRGB:182/49/108" 584)
+ ("hemp" "sRGB:144/120/116" 583)
+ ("hemlock" "sRGB:94/93/59" 582)
+ ("heavymetal" "sRGB:43/50/40" 581)
+ ("heatheredgrey" "sRGB:182/176/149" 580)
+ ("heather" "sRGB:183/195/208" 579)
+ ("heath" "sRGB:84/16/18" 578)
+ ("hawkesblue" "sRGB:212/226/252" 577)
+ ("hawaiiantan" "sRGB:157/86/22" 576)
+ ("havelockblue" "sRGB:85/144/217" 575)
+ ("havana" "sRGB:52/21/21" 574)
+ ("harvestgold" "sRGB:224/185/116" 573)
+ ("harp" "sRGB:230/242/234" 572)
+ ("hampton" "sRGB:229/216/175" 571)
+ ("halfspanishwhite" "sRGB:254/244/219" 570)
+ ("halfpearllusta" "sRGB:255/252/234" 569)
+ ("halfdutchwhite" "sRGB:254/247/222" 568)
+ ("halfcolonialwhite" "sRGB:253/246/211" 567)
+ ("halfbaked" "sRGB:133/196/204" 566)
+ ("halfandhalf" "sRGB:255/254/225" 565)
+ ("haiti" "sRGB:27/16/53" 564)
+ ("hairyheath" "sRGB:107/42/20" 563)
+ ("hacienda" "sRGB:152/129/27" 562)
+ ("gurkha" "sRGB:154/149/119" 561)
+ ("gunsmoke" "sRGB:130/134/133" 560)
+ ("gunmetal" "sRGB:2/13/21" 559)
+ ("gunpowder" "sRGB:65/66/87" 558)
+ ("gumbo" "sRGB:124/161/166" 557)
+ ("gumleaf" "sRGB:182/211/191" 556)
+ ("gullgrey" "sRGB:157/172/183" 555)
+ ("gulfstream" "sRGB:128/179/174" 554)
+ ("gulfblue" "sRGB:5/22/87" 553)
+ ("guardsmanred" "sRGB:186/1/1" 552)
+ ("greysuit" "sRGB:193/190/205" 551)
+ ("greyolive" "sRGB:169/164/145" 550)
+ ("greynurse" "sRGB:231/236/230" 549)
+ ("greynickel" "sRGB:195/195/189" 548)
+ ("greygreen" "sRGB:69/73/54" 547)
+ ("greychateau" "sRGB:162/170/179" 546)
+ ("grenadier" "sRGB:213/70/0" 545)
+ ("greenstone" "sRGB:0/62/64" 544)
+ ("greenwhite" "sRGB:232/235/224" 543)
+ ("greenwaterloo" "sRGB:16/20/5" 542)
+ ("greenvogue" "sRGB:3/43/82" 541)
+ ("greenspring" "sRGB:184/193/177" 540)
+ ("greensmoke" "sRGB:164/175/110" 539)
+ ("greenpea" "sRGB:29/97/66" 538)
+ ("greenmist" "sRGB:203/211/176" 537)
+ ("greenleaf" "sRGB:67/106/13" 536)
+ ("greenkelp" "sRGB:37/49/28" 535)
+ ("greenhouse" "sRGB:36/80/15" 534)
+ ("gravel" "sRGB:74/68/75" 533)
+ ("grasshopper" "sRGB:124/118/49" 532)
+ ("graphite" "sRGB:37/22/7" 531)
+ ("grape" "sRGB:56/26/81" 530)
+ ("grannysmith" "sRGB:132/160/160" 529)
+ ("grannyapple" "sRGB:213/246/227" 528)
+ ("granitegreen" "sRGB:141/137/116" 527)
+ ("grandis" "sRGB:255/211/140" 526)
+ ("grainbrown" "sRGB:228/213/183" 525)
+ ("governorbay" "sRGB:47/60/179" 524)
+ ("gothic" "sRGB:109/146/161" 523)
+ ("gossip" "sRGB:210/248/176" 522)
+ ("gossamer" "sRGB:6/155/129" 521)
+ ("gorse" "sRGB:255/241/79" 520)
+ ("gordonsgreen" "sRGB:11/17/7" 519)
+ ("gondola" "sRGB:38/20/20" 518)
+ ("goldentainoi" "sRGB:255/204/92" 517)
+ ("goldensand" "sRGB:240/219/125" 516)
+ ("goldenglow" "sRGB:253/226/149" 515)
+ ("goldenfizz" "sRGB:245/251/61" 514)
+ ("goldendream" "sRGB:240/213/45" 513)
+ ("goldenbell" "sRGB:226/137/19" 512)
+ ("goldtips" "sRGB:222/186/19" 511)
+ ("golddrop" "sRGB:241/130/0" 510)
+ ("goblin" "sRGB:61/125/82" 509)
+ ("goben" "sRGB:114/109/78" 508)
+ ("gladegreen" "sRGB:97/132/95" 507)
+ ("glacier" "sRGB:128/179/196" 506)
+ ("givry" "sRGB:248/228/191" 505)
+ ("ginfizz" "sRGB:255/249/226" 504)
+ ("gin" "sRGB:232/242/235" 503)
+ ("gimblet" "sRGB:184/181/106" 502)
+ ("gigas" "sRGB:82/60/148" 501)
+ ("ghost" "sRGB:199/201/213" 500)
+ ("geyser" "sRGB:212/223/226" 499)
+ ("geraldine" "sRGB:251/137/137" 498)
+ ("genoa" "sRGB:21/115/107" 497)
+ ("geebung" "sRGB:209/143/27" 496)
+ ("galliano" "sRGB:220/178/12" 495)
+ ("gallery" "sRGB:239/239/239" 494)
+ ("gablegreen" "sRGB:22/53/49" 493)
+ ("fuscousgrey" "sRGB:84/83/77" 492)
+ ("fungreen" "sRGB:1/109/57" 491)
+ ("funblue" "sRGB:25/89/168" 490)
+ ("fuelyellow" "sRGB:236/169/39" 489)
+ ("fuego" "sRGB:190/222/13" 488)
+ ("fuchsia" "sRGB:122/88/193" 487)
+ ("fruitsalad" "sRGB:79/157/93" 486)
+ ("frostee" "sRGB:228/246/231" 485)
+ ("frostedmint" "sRGB:219/255/248" 484)
+ ("frost" "sRGB:237/245/221" 483)
+ ("froly" "sRGB:245/117/132" 482)
+ ("fringyflower" "sRGB:177/226/193" 481)
+ ("friargrey" "sRGB:128/126/121" 480)
+ ("frenchpass" "sRGB:189/237/253" 479)
+ ("frenchlilac" "sRGB:236/199/238" 478)
+ ("frenchgrey" "sRGB:189/189/198" 477)
+ ("frangipani" "sRGB:255/222/179" 476)
+ ("fountainblue" "sRGB:86/180/190" 475)
+ ("forgetmenot" "sRGB:255/241/238" 474)
+ ("forestgreen" "sRGB:24/45/9" 473)
+ ("foggygrey" "sRGB:203/202/182" 472)
+ ("fog" "sRGB:215/208/255" 471)
+ ("foam" "sRGB:216/252/250" 470)
+ ("flirt" "sRGB:162/0/109" 469)
+ ("flint" "sRGB:111/106/97" 468)
+ ("flax" "sRGB:123/130/101" 467)
+ ("flamingo" "sRGB:242/85/42" 466)
+ ("flamenco" "sRGB:255/125/7" 465)
+ ("flamered" "sRGB:199/3/30" 464)
+ ("flamepea" "sRGB:218/91/56" 463)
+ ("firefly" "sRGB:14/42/48" 462)
+ ("firebush" "sRGB:232/153/40" 461)
+ ("fire" "sRGB:170/66/3" 460)
+ ("fiord" "sRGB:64/81/105" 459)
+ ("finn" "sRGB:105/45/84" 458)
+ ("finlandia" "sRGB:85/109/86" 457)
+ ("finch" "sRGB:98/102/73" 456)
+ ("fijigreen" "sRGB:101/114/32" 455)
+ ("fieryorange" "sRGB:179/82/19" 454)
+ ("feta" "sRGB:240/252/234" 453)
+ ("festival" "sRGB:251/233/108" 452)
+ ("ferra" "sRGB:112/79/80" 451)
+ ("fernfrond" "sRGB:101/114/32" 450)
+ ("fern" "sRGB:10/72/13" 449)
+ ("feijoa" "sRGB:159/221/140" 448)
+ ("fedora" "sRGB:121/106/120" 447)
+ ("fantasy" "sRGB:250/243/240" 446)
+ ("falcon" "sRGB:127/98/109" 445)
+ ("fairpink" "sRGB:255/239/236" 444)
+ ("everglade" "sRGB:28/64/46" 443)
+ ("eveningsea" "sRGB:2/78/70" 442)
+ ("eunry" "sRGB:207/163/157" 441)
+ ("eucalyptus" "sRGB:39/138/91" 440)
+ ("eternity" "sRGB:33/26/14" 439)
+ ("espresso" "sRGB:97/39/24" 438)
+ ("equator" "sRGB:225/188/100" 437)
+ ("envy" "sRGB:139/166/144" 436)
+ ("englishwalnut" "sRGB:62/43/35" 435)
+ ("englishholly" "sRGB:2/45/21" 434)
+ ("energyyellow" "sRGB:248/221/92" 433)
+ ("endeavour" "sRGB:0/86/167" 432)
+ ("empress" "sRGB:129/115/119" 431)
+ ("emperor" "sRGB:81/70/73" 430)
+ ("eminence" "sRGB:108/48/130" 429)
+ ("embers" "sRGB:160/39/18" 428)
+ ("elm" "sRGB:28/124/125" 427)
+ ("elfgreen" "sRGB:8/131/112" 426)
+ ("elephant" "sRGB:18/52/71" 425)
+ ("elsalva" "sRGB:143/62/51" 424)
+ ("elpaso" "sRGB:30/23/8" 423)
+ ("eggwhite" "sRGB:255/239/193" 422)
+ ("eggsour" "sRGB:255/244/221" 421)
+ ("edward" "sRGB:162/174/171" 420)
+ ("edgewater" "sRGB:200/227/215" 419)
+ ("eden" "sRGB:16/88/82" 418)
+ ("ecstasy" "sRGB:250/120/20" 417)
+ ("ecruwhite" "sRGB:245/243/229" 416)
+ ("eclipse" "sRGB:49/28/23" 415)
+ ("echoblue" "sRGB:175/189/217" 414)
+ ("ebonyclay" "sRGB:38/40/59" 413)
+ ("ebony" "sRGB:12/11/29" 412)
+ ("ebb" "sRGB:233/227/227" 411)
+ ("easternblue" "sRGB:30/154/176" 410)
+ ("eastside" "sRGB:172/145/206" 409)
+ ("eastbay" "sRGB:65/76/125" 408)
+ ("earlydawn" "sRGB:255/249/230" 407)
+ ("earlsgreen" "sRGB:201/185/59" 406)
+ ("eagle" "sRGB:182/186/164" 405)
+ ("dutchwhite" "sRGB:255/248/209" 404)
+ ("dustygrey" "sRGB:168/152/155" 403)
+ ("duststorm" "sRGB:229/204/201" 402)
+ ("dune" "sRGB:56/53/51" 401)
+ ("drover" "sRGB:253/247/173" 400)
+ ("driftwood" "sRGB:175/135/81" 399)
+ ("downy" "sRGB:111/208/197" 398)
+ ("downriver" "sRGB:9/34/86" 397)
+ ("dovegrey" "sRGB:109/108/108" 396)
+ ("doublespanishwhite" "sRGB:230/215/185" 395)
+ ("doublepearllusta" "sRGB:252/244/208" 394)
+ ("doublecolonialwhite" "sRGB:238/227/173" 393)
+ ("dorado" "sRGB:107/87/85" 392)
+ ("donkeybrown" "sRGB:166/146/121" 391)
+ ("donjuan" "sRGB:93/76/81" 390)
+ ("domino" "sRGB:142/119/94" 389)
+ ("dolphin" "sRGB:100/96/119" 388)
+ ("dolly" "sRGB:249/255/139" 387)
+ ("dixie" "sRGB:226/148/24" 386)
+ ("disco" "sRGB:135/21/80" 385)
+ ("dingley" "sRGB:93/119/71" 384)
+ ("diesel" "sRGB:19/0/0" 383)
+ ("diserria" "sRGB:219/153/94" 382)
+ ("dew" "sRGB:234/255/254" 381)
+ ("desertstorm" "sRGB:248/248/247" 380)
+ ("desert" "sRGB:174/96/32" 379)
+ ("derby" "sRGB:255/238/216" 378)
+ ("deluge" "sRGB:117/99/168" 377)
+ ("delta" "sRGB:164/164/157" 376)
+ ("dell" "sRGB:57/100/19" 375)
+ ("delrio" "sRGB:176/154/149" 374)
+ ("deepteal" "sRGB:0/53/50" 373)
+ ("deepsea" "sRGB:1/130/107" 372)
+ ("deepoak" "sRGB:65/32/16" 371)
+ ("deepkoamaru" "sRGB:27/18/123" 370)
+ ("deepfir" "sRGB:0/41/0" 369)
+ ("deepcove" "sRGB:5/16/64" 368)
+ ("deepbronze" "sRGB:74/48/4" 367)
+ ("deepblush" "sRGB:228/118/152" 366)
+ ("deco" "sRGB:210/218/151" 365)
+ ("deyork" "sRGB:122/196/136" 364)
+ ("dawnpink" "sRGB:243/233/229" 363)
+ ("dawn" "sRGB:166/162/154" 362)
+ ("darktan" "sRGB:102/16/16" 361)
+ ("darkslate" "sRGB:57/72/81" 360)
+ ("darkrum" "sRGB:65/32/16" 359)
+ ("darkrimu" "sRGB:95/61/38" 358)
+ ("darkoak" "sRGB:97/39/24" 357)
+ ("darkebony" "sRGB:60/32/5" 356)
+ ("danube" "sRGB:96/147/209" 355)
+ ("dallas" "sRGB:110/75/38" 354)
+ ("daisybush" "sRGB:79/35/152" 353)
+ ("dairycream" "sRGB:249/228/188" 352)
+ ("daintree" "sRGB:1/39/49" 351)
+ ("cyprus" "sRGB:0/62/64" 350)
+ ("cuttysark" "sRGB:80/118/114" 349)
+ ("curiousblue" "sRGB:37/150/209" 348)
+ ("cupid" "sRGB:251/190/218" 347)
+ ("cumulus" "sRGB:253/255/213" 346)
+ ("cumin" "sRGB:146/67/33" 345)
+ ("cubantan" "sRGB:42/20/14" 344)
+ ("crusta" "sRGB:253/123/51" 343)
+ ("crusoe" "sRGB:0/72/22" 342)
+ ("cruise" "sRGB:181/236/223" 341)
+ ("crowshead" "sRGB:28/18/8" 340)
+ ("crownofthorns" "sRGB:119/31/31" 339)
+ ("crocodile" "sRGB:115/109/88" 338)
+ ("crete" "sRGB:115/120/41" 337)
+ ("creole" "sRGB:30/15/4" 336)
+ ("cremedebanane" "sRGB:255/252/153" 335)
+ ("creamcan" "sRGB:245/200/92" 334)
+ ("creambrulee" "sRGB:255/229/160" 333)
+ ("craterbrown" "sRGB:70/36/37" 332)
+ ("cranberry" "sRGB:182/49/108" 331)
+ ("crail" "sRGB:185/81/64" 330)
+ ("crabapple" "sRGB:160/39/18" 329)
+ ("cowboy" "sRGB:77/40/45" 328)
+ ("covegrey" "sRGB:5/22/87" 327)
+ ("countygreen" "sRGB:1/55/26" 326)
+ ("cottonseed" "sRGB:194/189/182" 325)
+ ("costadelsol" "sRGB:97/93/48" 324)
+ ("cosmos" "sRGB:255/216/217" 323)
+ ("cosmic" "sRGB:118/57/93" 322)
+ ("corvette" "sRGB:250/211/162" 321)
+ ("cornflower" "sRGB:255/176/172" 320)
+ ("cornharvest" "sRGB:139/107/11" 319)
+ ("cornfield" "sRGB:248/250/205" 318)
+ ("corn" "sRGB:231/191/5" 317)
+ ("cork" "sRGB:64/41/29" 316)
+ ("coriander" "sRGB:196/208/176" 315)
+ ("corduroy" "sRGB:96/110/104" 314)
+ ("coraltree" "sRGB:168/107/107" 313)
+ ("coralcandy" "sRGB:255/220/214" 312)
+ ("coral" "sRGB:199/188/162" 311)
+ ("copperrust" "sRGB:148/71/71" 310)
+ ("coppercanyon" "sRGB:126/58/21" 309)
+ ("contessa" "sRGB:198/114/107" 308)
+ ("conifer" "sRGB:172/221/77" 307)
+ ("congobrown" "sRGB:89/55/55" 306)
+ ("confetti" "sRGB:233/215/90" 305)
+ ("concrete" "sRGB:242/242/242" 304)
+ ("concord" "sRGB:124/123/122" 303)
+ ("conch" "sRGB:201/217/210" 302)
+ ("como" "sRGB:81/124/102" 301)
+ ("comet" "sRGB:92/93/117" 300)
+ ("colonialwhite" "sRGB:255/237/188" 299)
+ ("coldturkey" "sRGB:206/186/186" 298)
+ ("coldpurple" "sRGB:171/160/217" 297)
+ ("cola" "sRGB:63/37/0" 296)
+ ("cognac" "sRGB:159/56/29" 295)
+ ("coffeebean" "sRGB:42/20/14" 294)
+ ("coffee" "sRGB:112/101/85" 293)
+ ("codgrey" "sRGB:11/11/11" 292)
+ ("coconutcream" "sRGB:248/247/220" 291)
+ ("cocoabrown" "sRGB:48/31/30" 290)
+ ("cocoabean" "sRGB:72/28/28" 289)
+ ("cobalt" "sRGB:6/42/120" 288)
+ ("clover" "sRGB:56/73/16" 287)
+ ("cloudy" "sRGB:172/165/159" 286)
+ ("cloudburst" "sRGB:32/46/84" 285)
+ ("cloud" "sRGB:199/196/191" 284)
+ ("clinker" "sRGB:55/29/9" 283)
+ ("clementine" "sRGB:233/110/0" 282)
+ ("clearday" "sRGB:233/255/253" 281)
+ ("claycreek" "sRGB:138/131/96" 280)
+ ("classicrose" "sRGB:251/204/231" 279)
+ ("claret" "sRGB:127/23/52" 278)
+ ("clamshell" "sRGB:212/182/175" 277)
+ ("clairvoyant" "sRGB:72/6/86" 276)
+ ("citrus" "sRGB:161/197/10" 275)
+ ("citron" "sRGB:158/169/31" 274)
+ ("citrinewhite" "sRGB:250/247/214" 273)
+ ("cioccolato" "sRGB:85/40/12" 272)
+ ("cinnamon" "sRGB:123/63/0" 271)
+ ("cinderella" "sRGB:253/225/220" 270)
+ ("cinder" "sRGB:14/14/24" 269)
+ ("cigar" "sRGB:119/63/26" 268)
+ ("chromewhite" "sRGB:232/241/212" 267)
+ ("christine" "sRGB:231/115/10" 266)
+ ("christi" "sRGB:103/167/18" 265)
+ ("christalle" "sRGB:51/3/107" 264)
+ ("chocolate" "sRGB:55/2/2" 263)
+ ("chinook" "sRGB:168/227/189" 262)
+ ("chino" "sRGB:206/199/167" 261)
+ ("chinaivory" "sRGB:252/255/231" 260)
+ ("chileanheath" "sRGB:255/253/230" 259)
+ ("chileanfire" "sRGB:247/119/3" 258)
+ ("chiffon" "sRGB:241/255/200" 257)
+ ("chicago" "sRGB:93/92/88" 256)
+ ("chetwodeblue" "sRGB:133/129/217" 255)
+ ("cherub" "sRGB:248/217/233" 254)
+ ("cherrywood" "sRGB:101/26/20" 253)
+ ("cherrypie" "sRGB:42/3/89" 252)
+ ("cherokee" "sRGB:252/218/152" 251)
+ ("chenin" "sRGB:223/205/111" 250)
+ ("chelseagem" "sRGB:158/83/2" 249)
+ ("chelseacucumber" "sRGB:131/170/93" 248)
+ ("chathamsblue" "sRGB:23/85/121" 247)
+ ("chatelle" "sRGB:189/179/199" 246)
+ ("chateaugreen" "sRGB:64/168/96" 245)
+ ("charm" "sRGB:212/116/148" 244)
+ ("charlotte" "sRGB:186/238/249" 243)
+ ("chardonnay" "sRGB:255/205/140" 242)
+ ("chardon" "sRGB:255/243/241" 241)
+ ("charade" "sRGB:41/41/55" 240)
+ ("chantilly" "sRGB:248/195/223" 239)
+ ("champagne" "sRGB:250/236/204" 238)
+ ("chamois" "sRGB:237/220/177" 237)
+ ("chambray" "sRGB:53/78/140" 236)
+ ("chalky" "sRGB:238/215/148" 235)
+ ("chaletgreen" "sRGB:81/110/61" 234)
+ ("chablis" "sRGB:255/244/243" 233)
+ ("ceramic" "sRGB:252/255/249" 232)
+ ("cement" "sRGB:141/118/98" 231)
+ ("celtic" "sRGB:22/50/34" 230)
+ ("cello" "sRGB:30/56/91" 229)
+ ("celeste" "sRGB:209/210/202" 228)
+ ("celery" "sRGB:184/194/93" 227)
+ ("cedarwoodfinish" "sRGB:113/26/0" 226)
+ ("cedar" "sRGB:62/28/20" 225)
+ ("cesoir" "sRGB:151/113/181" 224)
+ ("cavernpink" "sRGB:227/190/190" 223)
+ ("catskillwhite" "sRGB:238/246/247" 222)
+ ("catalinablue" "sRGB:6/42/120" 221)
+ ("castro" "sRGB:82/0/31" 220)
+ ("casper" "sRGB:173/190/209" 219)
+ ("cashmere" "sRGB:230/190/165" 218)
+ ("cascade" "sRGB:139/169/165" 217)
+ ("casal" "sRGB:47/97/104" 216)
+ ("casablanca" "sRGB:248/184/83" 215)
+ ("carouselpink" "sRGB:249/224/237" 214)
+ ("carnabytan" "sRGB:92/46/1" 213)
+ ("carla" "sRGB:243/255/216" 212)
+ ("carissma" "sRGB:234/136/168" 211)
+ ("careyspink" "sRGB:210/158/170" 210)
+ ("cardinal" "sRGB:140/5/94" 209)
+ ("cardingreen" "sRGB:1/54/28" 208)
+ ("cararra" "sRGB:238/238/232" 207)
+ ("caramel" "sRGB:255/221/175" 206)
+ ("capri" "sRGB:6/42/120" 205)
+ ("caper" "sRGB:220/237/180" 204)
+ ("capepalliser" "sRGB:162/102/69" 203)
+ ("capehoney" "sRGB:254/229/172" 202)
+ ("capecod" "sRGB:60/68/67" 201)
+ ("canvas" "sRGB:168/165/137" 200)
+ ("cannonpink" "sRGB:137/67/103" 199)
+ ("cannonblack" "sRGB:37/23/6" 198)
+ ("candlelight" "sRGB:252/217/23" 197)
+ ("canary" "sRGB:243/251/98" 196)
+ ("cancan" "sRGB:213/145/164" 195)
+ ("camouflage" "sRGB:60/57/16" 194)
+ ("cameo" "sRGB:217/185/155" 193)
+ ("camelot" "sRGB:137/52/86" 192)
+ ("camarone" "sRGB:0/88/26" 191)
+ ("calypso" "sRGB:49/114/141" 190)
+ ("california" "sRGB:254/157/4" 189)
+ ("calico" "sRGB:224/192/149" 188)
+ ("caferoyale" "sRGB:111/68/12" 187)
+ ("cadillac" "sRGB:176/76/106" 186)
+ ("cactus" "sRGB:88/113/86" 185)
+ ("cabbagepont" "sRGB:63/76/58" 184)
+ ("cabaret" "sRGB:217/73/114" 183)
+ ("cabsav" "sRGB:77/10/24" 182)
+ ("butterywhite" "sRGB:255/252/234" 181)
+ ("buttermilk" "sRGB:255/241/181" 180)
+ ("butterflybush" "sRGB:98/78/154" 179)
+ ("butteredrum" "sRGB:161/117/13" 178)
+ ("buttercup" "sRGB:243/173/22" 177)
+ ("bush" "sRGB:13/46/28" 176)
+ ("burntcrimson" "sRGB:101/0/11" 175)
+ ("burningsand" "sRGB:217/147/118" 174)
+ ("burnham" "sRGB:0/46/32" 173)
+ ("burgundy" "sRGB:119/15/5" 172)
+ ("bunting" "sRGB:21/31/76" 171)
+ ("bunker" "sRGB:13/17/23" 170)
+ ("bullshot" "sRGB:134/77/30" 169)
+ ("bulgarianrose" "sRGB:72/6/7" 168)
+ ("buddhagold" "sRGB:193/160/4" 167)
+ ("bud" "sRGB:168/174/156" 166)
+ ("buccaneer" "sRGB:98/47/48" 165)
+ ("bubbles" "sRGB:231/254/255" 164)
+ ("brownpod" "sRGB:64/24/1" 163)
+ ("brownderby" "sRGB:73/38/21" 162)
+ ("brownbramble" "sRGB:89/40/4" 161)
+ ("broom" "sRGB:255/236/19" 160)
+ ("bronzetone" "sRGB:77/64/15" 159)
+ ("bronzeolive" "sRGB:78/66/12" 158)
+ ("bronze" "sRGB:63/33/9" 157)
+ ("bronco" "sRGB:171/161/150" 156)
+ ("brightsun" "sRGB:254/211/60" 155)
+ ("brightred" "sRGB:177/0/0" 154)
+ ("brightgrey" "sRGB:60/65/81" 153)
+ ("bridesmaid" "sRGB:254/240/236" 152)
+ ("bridalheath" "sRGB:255/250/244" 151)
+ ("breakerbay" "sRGB:93/161/159" 150)
+ ("brazil" "sRGB:136/98/33" 149)
+ ("brandyrose" "sRGB:187/137/131" 148)
+ ("brandypunch" "sRGB:205/132/41" 147)
+ ("brandy" "sRGB:222/193/150" 146)
+ ("bracken" "sRGB:74/42/4" 145)
+ ("bourbon" "sRGB:186/111/30" 144)
+ ("bouquet" "sRGB:174/128/158" 143)
+ ("boulder" "sRGB:122/122/122" 142)
+ ("bottlegreen" "sRGB:9/54/36" 141)
+ ("botticelli" "sRGB:199/221/229" 140)
+ ("bostonblue" "sRGB:59/145/180" 139)
+ ("bossanova" "sRGB:78/42/90" 138)
+ ("bordeaux" "sRGB:92/1/32" 137)
+ ("bone" "sRGB:228/209/192" 136)
+ ("bondiblue" "sRGB:2/71/142" 135)
+ ("bonjour" "sRGB:229/224/225" 134)
+ ("bombay" "sRGB:175/177/184" 133)
+ ("bokaragrey" "sRGB:28/18/8" 132)
+ ("blush" "sRGB:180/70/104" 131)
+ ("blumine" "sRGB:24/88/122" 130)
+ ("bluezodiac" "sRGB:19/38/77" 129)
+ ("bluewhale" "sRGB:4/46/76" 128)
+ ("bluestone" "sRGB:1/97/98" 127)
+ ("bluesmoke" "sRGB:116/136/129" 126)
+ ("blueromance" "sRGB:210/246/222" 125)
+ ("bluemarguerite" "sRGB:118/102/198" 124)
+ ("bluelagoon" "sRGB:1/121/135" 123)
+ ("bluehaze" "sRGB:191/190/216" 122)
+ ("bluegem" "sRGB:44/14/140" 121)
+ ("bluedianne" "sRGB:32/72/82" 120)
+ ("bluediamond" "sRGB:56/4/116" 119)
+ ("bluechill" "sRGB:12/137/144" 118)
+ ("bluecharcoal" "sRGB:1/13/26" 117)
+ ("bluechalk" "sRGB:241/233/255" 116)
+ ("bluebell" "sRGB:34/8/120" 115)
+ ("bluebayoux" "sRGB:73/102/121" 114)
+ ("bluebark" "sRGB:4/19/34" 113)
+ ("blossom" "sRGB:220/180/188" 112)
+ ("bleachedcedar" "sRGB:44/33/51" 111)
+ ("bleachwhite" "sRGB:254/243/216" 110)
+ ("blanc" "sRGB:245/233/211" 109)
+ ("blackwood" "sRGB:38/17/5" 108)
+ ("blackcurrant" "sRGB:50/41/58" 107)
+ ("blackberry" "sRGB:77/1/53" 106)
+ ("blackwhite" "sRGB:255/254/246" 105)
+ ("blacksqueeze" "sRGB:242/250/250" 104)
+ ("blackrussian" "sRGB:10/0/28" 103)
+ ("blackrose" "sRGB:103/3/45" 102)
+ ("blackrock" "sRGB:13/3/50" 101)
+ ("blackpepper" "sRGB:14/14/24" 100)
+ ("blackpearl" "sRGB:4/19/34" 99)
+ ("blackmarlin" "sRGB:62/44/28" 98)
+ ("blackmagic" "sRGB:37/23/6" 97)
+ ("blackhaze" "sRGB:246/247/247" 96)
+ ("blackforest" "sRGB:11/19/4" 95)
+ ("blackbean" "sRGB:8/25/16" 94)
+ ("bizarre" "sRGB:238/222/218" 93)
+ ("bitterlemon" "sRGB:202/224/13" 92)
+ ("bitter" "sRGB:134/137/116" 91)
+ ("bisonhide" "sRGB:193/183/164" 90)
+ ("bismark" "sRGB:73/113/131" 89)
+ ("biscay" "sRGB:27/49/98" 88)
+ ("birdflower" "sRGB:212/205/22" 87)
+ ("birch" "sRGB:55/48/33" 86)
+ ("bilobaflower" "sRGB:178/161/234" 85)
+ ("bilbao" "sRGB:50/124/20" 84)
+ ("bigstone" "sRGB:22/42/64" 83)
+ ("bianca" "sRGB:252/251/243" 82)
+ ("berylgreen" "sRGB:222/229/192" 81)
+ ("bermudagrey" "sRGB:107/139/162" 80)
+ ("bermuda" "sRGB:125/216/198" 79)
+ ("beeswax" "sRGB:254/242/199" 78)
+ ("beautybush" "sRGB:238/193/190" 77)
+ ("bean" "sRGB:61/12/2" 76)
+ ("bazaar" "sRGB:152/119/123" 75)
+ ("bayofmany" "sRGB:39/58/129" 74)
+ ("bayleaf" "sRGB:125/169/141" 73)
+ ("battleshipgrey" "sRGB:130/143/114" 72)
+ ("bastille" "sRGB:41/33/48" 71)
+ ("barossa" "sRGB:68/1/45" 70)
+ ("barleywhite" "sRGB:255/244/206" 69)
+ ("barleycorn" "sRGB:166/139/91" 68)
+ ("barberry" "sRGB:222/215/23" 67)
+ ("banjul" "sRGB:19/10/6" 66)
+ ("bandicoot" "sRGB:133/132/112" 65)
+ ("bamboo" "sRGB:218/99/4" 64)
+ ("balticsea" "sRGB:42/38/48" 63)
+ ("balihai" "sRGB:133/159/175" 62)
+ ("bajawhite" "sRGB:255/248/209" 61)
+ ("bahia" "sRGB:165/203/12" 60)
+ ("bahamablue" "sRGB:2/99/149" 59)
+ ("azure" "sRGB:49/91/161" 58)
+ ("aztec" "sRGB:13/28/25" 57)
+ ("azalea" "sRGB:247/200/218" 56)
+ ("axolotl" "sRGB:78/102/73" 55)
+ ("avocado" "sRGB:136/141/101" 54)
+ ("australianmint" "sRGB:245/255/190" 53)
+ ("aubergine" "sRGB:59/9/16" 52)
+ ("auchico" "sRGB:151/96/93" 51)
+ ("atomic" "sRGB:49/68/89" 50)
+ ("atoll" "sRGB:10/111/117" 49)
+ ("atlantis" "sRGB:151/205/45" 48)
+ ("athsspecial" "sRGB:236/235/206" 47)
+ ("athensgrey" "sRGB:238/240/243" 46)
+ ("astronautblue" "sRGB:1/62/98" 45)
+ ("astronaut" "sRGB:40/58/119" 44)
+ ("astral" "sRGB:50/125/160" 43)
+ ("astra" "sRGB:250/234/185" 42)
+ ("asphalt" "sRGB:19/10/6" 41)
+ ("ashbrown" "sRGB:46/25/5" 40)
+ ("ash" "sRGB:198/195/181" 39)
+ ("arrowtown" "sRGB:148/135/113" 38)
+ ("armadillo" "sRGB:67/62/55" 37)
+ ("arapawa" "sRGB:17/12/108" 36)
+ ("aquamarine" "sRGB:1/75/67" 35)
+ ("aquasqueeze" "sRGB:232/245/242" 34)
+ ("aquaspring" "sRGB:234/249/245" 33)
+ ("aquahaze" "sRGB:237/245/245" 32)
+ ("aqua" "sRGB:161/218/215" 31)
+ ("apricotwhite" "sRGB:255/254/236" 30)
+ ("apricot" "sRGB:235/147/115" 29)
+ ("applegreen" "sRGB:226/243/236" 28)
+ ("appleblossom" "sRGB:175/77/67" 27)
+ ("apple" "sRGB:79/168/61" 26)
+ ("apache" "sRGB:223/190/111" 25)
+ ("anzac" "sRGB:224/182/70" 24)
+ ("antiquebrass" "sRGB:112/74/7" 23)
+ ("anakiwa" "sRGB:157/229/255" 22)
+ ("amulet" "sRGB:123/159/128" 21)
+ ("amour" "sRGB:249/234/243" 20)
+ ("amethystsmoke" "sRGB:163/151/180" 19)
+ ("americano" "sRGB:135/117/110" 18)
+ ("amazon" "sRGB:59/122/87" 17)
+ ("aluminium" "sRGB:169/172/182" 16)
+ ("alto" "sRGB:219/219/219" 15)
+ ("alpine" "sRGB:175/143/44" 14)
+ ("almondfrost" "sRGB:144/123/113" 13)
+ ("allports" "sRGB:0/118/163" 12)
+ ("alerttan" "sRGB:155/71/3" 11)
+ ("albescentwhite" "sRGB:245/233/211" 10)
+ ("alabaster" "sRGB:255/255/255" 9)
+ ("akaroa" "sRGB:212/196/168" 8)
+ ("afghantan" "sRGB:134/86/10" 7)
+ ("affair" "sRGB:113/70/147" 6)
+ ("aeroblue" "sRGB:201/255/229" 5)
+ ("acorn" "sRGB:106/93/27" 4)
+ ("acapulco" "sRGB:124/176/161" 3)
+ ("acadia" "sRGB:27/20/4" 2)
+ ("abbey" "sRGB:76/79/86" 1)
+ )
+ (7
+ (3 #f order #f ordinal)
+ (2 #f color #f string)
+ (1 #t name #f string)
+ )
+ (6
+ ("red" "CIEXYZ:0.639974/0.219285/0.140741" 19)
+ ("purplishred" "CIEXYZ:0.292779/0.0595298/0.647691" 18)
+ ("redpurple" "CIEXYZ:0.224491/0.0281085/0.7474" 17)
+ ("reddishpurple" "CIEXYZ:0.195341/0.0146953/0.789964" 16)
+ ("purple" "CIEXYZ:0.180159/0.00770975/0.812132" 15)
+ ("bluishpurple" "CIEXYZ:0.174724/0.00520914/0.820067" 14)
+ ("purplishblue" "CIEXYZ:0.150985/0.0227402/0.826274" 13)
+ ("blue" "CIEXYZ:0.116102/0.0738583/0.81004" 12)
+ ("greenishblue" "CIEXYZ:0.0833989/0.156445/0.760156" 11)
+ ("bluegreen" "CIEXYZ:0.0234599/0.412703/0.563837" 10)
+ ("bluishgreen" "CIEXYZ:0.00816803/0.538423/0.453409" 9)
+ ("green" "CIEXYZ:0.0388518/0.812016/0.149132" 8)
+ ("yellowishgreen" "CIEXYZ:0.337396/0.658848/0.00375544" 7)
+ ("yellowgreen" "CIEXYZ:0.380466/0.617256/0.00227802" 6)
+ ("greenishyellow" "CIEXYZ:0.465098/0.5338/0.00110199" 5)
+ ("yellow" "CIEXYZ:0.505818/0.493217/0.000965024" 4)
+ ("yellowishorange" "CIEXYZ:0.531897/0.467256/0.000847751" 3)
+ ("orange" "CIEXYZ:0.602933/0.396497/0.000570581" 2)
+ ("reddishorange" "CIEXYZ:0.658471/0.341258/0.000271188" 1)
+ )
+ (5
+ (3 #f order #f ordinal)
+ (2 #f color #f string)
+ (1 #t name #f string)
+ )
+ (4
+ (uint #f (lambda (x) (and (integer? x) (not (negative? x)))) number #f)
+ (base-id #f number? ordinal #f)
+ (number #f number? number #f)
+ (domain *domains-data* #f atom #f)
+ (atom #f (lambda (x) (or (not x) (symbol? x))) atom #f)
+ (string #f string? string #f)
+ (symbol #f symbol? symbol #f)
+ (expression #f #f expression #f)
+ (boolean #f boolean? boolean #f)
+ (ordinal #f (lambda (x) (and (integer? x) (positive? x))) number #f)
+ (type #f symbol? symbol #f)
+ )
+ (3
+ (6 #f view-procedure #f expression)
+ (5 #f user-integrity-rule #f expression)
+ (4 #f bastab-id #f ordinal)
+ (3 #f coltab-name #f symbol)
+ (2 #f column-limit #f ordinal)
+ (1 #t table-name #f symbol)
+ )
+ (2
+ (5 #f type-param #f expression)
+ (4 #f type-id #f type)
+ (3 #f domain-integrity-rule #f expression)
+ (2 #f foreign-table #f atom)
+ (1 #t domain-name #f symbol)
+ )
+ (1
+ (5 #f domain-name #f domain)
+ (4 #f column-integrity-rule #f expression)
+ (3 #f column-name #f symbol)
+ (2 #f primary-key? #f boolean)
+ (1 #t column-number #f ordinal)
+ )
+ (0
+ (nbs-iscc 3 desc:nbs-iscc 10 #f #f)
+ (desc:nbs-iscc 5 *columns* 9 #f #f)
+ (resene 3 desc:resene 8 #f #f)
+ (desc:resene 5 *columns* 7 #f #f)
+ (saturate 3 desc:saturate 6 #f #f)
+ (desc:saturate 5 *columns* 5 #f #f)
+ (*columns* 5 *columns* 1 #f #f)
+ (*domains-data* 5 *domains-desc* 4 #f #f)
+ (*catalog-data* 6 *catalog-desc* 0 #f #f)
+ (*domains-desc* 5 *columns* 2 #f #f)
+ (*catalog-desc* 5 *columns* 3 #f #f)
+ )
+ (*base-resources*
+ (free-id 11)
+ )
+)
diff --git a/cltime.scm b/cltime.scm
index 76d06d2..c271da2 100644
--- a/cltime.scm
+++ b/cltime.scm
@@ -18,10 +18,12 @@
;each case.
(require 'values)
+(require 'time-core)
(require 'time-zone)
-(require 'posix-time)
-(define time:1900 (time:invert time:gmtime '#(0 0 0 1 0 0 #f #f 0 0 "GMT")))
+(define time:1900 (time:invert
+ (lambda (tm) (time:split tm 0 0 "GMT")) ;time:gmtime
+ '#(0 0 0 1 0 0 #f #f 0 0 "GMT")))
;@
(define (get-decoded-time)
(decode-universal-time (get-universal-time)))
@@ -33,7 +35,7 @@
(let ((tv (apply time:split
(offset-time time:1900 utime)
(if (null? tzarg)
- (tz:params utime (tzset))
+ (tz:params utime (time-zone (getenv "TZ")))
(list 0 (* 3600 (car tzarg)) "???")))))
(values
(vector-ref tv 0) ;second [0..59]
@@ -50,10 +52,10 @@
)))
;@
(define (encode-universal-time second minute hour date month year . tzarg)
- (let* ((tz (if (null? tzarg)
- (tzset)
- (time-zone (string-append
- "???" (number->string (car tzarg))))))
+ (let* ((tz (time-zone
+ (if (null? tzarg)
+ (getenv "TZ")
+ (string-append "???" (number->string (car tzarg))))))
(tv (vector second
minute
hour
@@ -63,5 +65,7 @@
#f ;ignored
#f ;ignored
)))
- (difftime (time:invert localtime tv) time:1900)))
-
+ (difftime (time:invert
+ (lambda (tm) (apply time:split tm (tz:params tm tz))) ;localtime
+ tv)
+ time:1900)))
diff --git a/coerce.scm b/coerce.scm
index 7505f3f..0842c9e 100644
--- a/coerce.scm
+++ b/coerce.scm
@@ -17,11 +17,12 @@
;promotional, or sales literature without prior written consent in
;each case.
+(require-if 'compiling 'array)
+
;;@body
;;Returns a symbol name for the type of @1.
(define (type-of obj)
(cond
- ;;((null? obj) 'null)
((boolean? obj) 'boolean)
((char? obj) 'char)
((number? obj) 'number)
@@ -33,9 +34,8 @@
((eof-object? obj) 'eof-object)
((list? obj) 'list)
((pair? obj) 'pair)
- ((and (provided? 'array) (array? obj)) 'array)
- ((and (provided? 'record) (record? obj)) 'record)
((vector? obj) 'vector)
+ ((and (provided? 'array) (array? obj)) 'array)
(else '?)))
;;@body
diff --git a/coerce.txi b/coerce.txi
index 4b7f6b0..a039ded 100644
--- a/coerce.txi
+++ b/coerce.txi
@@ -4,9 +4,11 @@
Returns a symbol name for the type of @var{obj}.
@end defun
+
@defun coerce obj result-type
Converts and returns @var{obj} of type @code{char}, @code{number},
@code{string}, @code{symbol}, @code{list}, or @code{vector} to
@var{result-type} (which must be one of these symbols).
@end defun
+
diff --git a/color.scm b/color.scm
index 7f80fe5..bf8a921 100644
--- a/color.scm
+++ b/color.scm
@@ -71,8 +71,8 @@
;;@cindex tristimulus
;;The @dfn{tristimulus} color spaces are those whose component values
;;are proportional measurements of light intensity. The CIEXYZ(1931)
-;;system provides 3 sets of spectra to convolve with a spectrum of
-;;interest. The result of those convolutions is coordinates in CIEXYZ
+;;system provides 3 sets of spectra to dot-product with a spectrum of
+;;interest. The result of those dot-products is coordinates in CIEXYZ
;;space. All tristimuls color spaces are related to CIEXYZ by linear
;;transforms, namely matrix multiplication. Of the color spaces listed
;;here, CIEXYZ and RGB709 are tristimulus spaces.
@@ -81,7 +81,7 @@
;;The CIEXYZ color space covers the full @dfn{gamut}.
;;It is the basis for color-space conversions.
;;
-;;CIEXYZ is a list of three inexact numbers between 0 and 1.1.
+;;CIEXYZ is a list of three inexact numbers between 0.0 and 1.1.
;;'(0. 0. 0.) is black; '(1. 1. 1.) is white.
;;@end deftp
@@ -129,7 +129,7 @@
;;high definition television signals.
;;
;;An RGB709 color is represented by a list of three inexact numbers
-;;between 0 and 1. '(0. 0. 0.) is black '(1. 1. 1.) is white.
+;;between 0.0 and 1.0. '(0. 0. 0.) is black '(1. 1. 1.) is white.
;;@end deftp
;;@body
@@ -168,7 +168,7 @@
;;range of distances (6:1) in the L*a*b* and L*u*v* spaces than in
;;tristimulus spaces (80:1). For this reason, color distances are
;;computed in L*a*b* (or L*C*h).
-
+
;;@deftp {Color Space} L*a*b*
;;Is a CIE color space which better matches the human visual system's
;;perception of color. It is a list of three numbers:
@@ -527,16 +527,17 @@
(else (eqv? (car typ) (color:encoding obj)))))
;@
(define (make-color space . args)
- (case space
- ((CIEXYZ) (CIEXYZ->color args))
- ((RGB709) (RGB709->color args))
- ((L*a*b*) (L*a*b*->color args))
- ((L*u*v*) (L*u*v*->color args))
- ((L*C*h) (L*C*h->color args))
- ((sRGB) (sRGB->color args))
- ((xRGB) (apply xRGB->color args))
- ((e-sRGB) (e-sRGB->color args))
- (else (slib:error 'make-color ': 'not 'space? space))))
+ (apply (case space
+ ((CIEXYZ) CIEXYZ->color)
+ ((RGB709) RGB709->color)
+ ((L*a*b*) L*a*b*->color)
+ ((L*u*v*) L*u*v*->color)
+ ((L*C*h) L*C*h->color)
+ ((sRGB) sRGB->color)
+ ((xRGB) xRGB->color)
+ ((e-sRGB) e-sRGB->color)
+ (else (slib:error 'make-color ': 'not 'space? space)))
+ args))
;@
(define color-space color:encoding)
;@
@@ -620,7 +621,7 @@
((CIELab) (color:L*a*b* x y z))
((CIELuv) (color:L*u*v* x y z))
((CIELCh) (color:L*C*h x y z))
- ((RGBi ; Xlib - C Language X Interface
+ ((RGBi ; Xlib - C Language X Interface
RGB709) (color:RGB709 x y z))
(else #f)))
((eqv? 4 (sscanf str " %[sRGBSrgb]:%d/%d/%d" coding x y z))
@@ -637,6 +638,9 @@
xRGB
sRGBx) (xRGB->color x))
(else #f)))
+ ((and (eqv? 1 (sscanf str " #%6[0-9a-fA-F]%[0-9a-fA-F]" x y))
+ (eqv? 6 (string-length x)))
+ (xRGB->color (string->number x 16)))
((and (eqv? 2 (sscanf str " %[#0xX]%6[0-9a-fA-F]%[0-9a-fA-F]"
coding x y))
(eqv? 6 (string-length x))
diff --git a/color.txi b/color.txi
index ccbb3de..101bc7b 100644
--- a/color.txi
+++ b/color.txi
@@ -5,8 +5,8 @@
The @dfn{tristimulus} color spaces are those whose component values
@cindex tristimulus
are proportional measurements of light intensity. The CIEXYZ(1931)
-system provides 3 sets of spectra to convolve with a spectrum of
-interest. The result of those convolutions is coordinates in CIEXYZ
+system provides 3 sets of spectra to dot-product with a spectrum of
+interest. The result of those dot-products is coordinates in CIEXYZ
space. All tristimuls color spaces are related to CIEXYZ by linear
transforms, namely matrix multiplication. Of the color spaces listed
here, CIEXYZ and RGB709 are tristimulus spaces.
@@ -16,7 +16,7 @@ The CIEXYZ color space covers the full @dfn{gamut}.
@cindex gamut
It is the basis for color-space conversions.
-CIEXYZ is a list of three inexact numbers between 0 and 1.1.
+CIEXYZ is a list of three inexact numbers between 0.0 and 1.1.
'(0. 0. 0.) is black; '(1. 1. 1.) is white.
@end deftp
@@ -27,6 +27,7 @@ CIEXYZ is a list of three inexact numbers between 0 and 1.1.
then @code{ciexyz->color} returns the color specified by @var{xyz}; otherwise returns #f.
@end defun
+
@defun color:ciexyz x y z
Returns the CIEXYZ color composed of @var{x}, @var{y}, @var{z}. If the
@@ -34,9 +35,11 @@ coordinates do not encode a valid CIEXYZ color, then an error is
signaled.
@end defun
+
@defun color->ciexyz color
Returns the list of 3 numbers encoding @var{color} in CIEXYZ.
@end defun
+
@deftp {Color Space} RGB709
BT.709-4 (03/00) @cite{Parameter values for the HDTV standards for
production and international programme exchange} specifies parameter
@@ -44,7 +47,7 @@ values for chromaticity, sampling, signal format, frame rates, etc., of
high definition television signals.
An RGB709 color is represented by a list of three inexact numbers
-between 0 and 1. '(0. 0. 0.) is black '(1. 1. 1.) is white.
+between 0.0 and 1.0. '(0. 0. 0.) is black '(1. 1. 1.) is white.
@end deftp
@@ -54,6 +57,7 @@ between 0 and 1. '(0. 0. 0.) is black '(1. 1. 1.) is white.
then @code{rgb709->color} returns the color specified by @var{rgb}; otherwise returns #f.
@end defun
+
@defun color:rgb709 r g b
Returns the RGB709 color composed of @var{r}, @var{g}, @var{b}. If the
@@ -61,9 +65,11 @@ coordinates do not encode a valid RGB709 color, then an error is
signaled.
@end defun
+
@defun color->rgb709 color
Returns the list of 3 numbers encoding @var{color} in RGB709.
@end defun
+
@subsubheading Perceptual Uniformity
@noindent
@@ -97,6 +103,7 @@ perception of color. It is a list of three numbers:
then @code{l*a*b*->color} returns the color specified by @var{L*a*b*}; otherwise returns #f.
@end defun
+
@defun color:l*a*b* L* a* b* white-point
Returns the L*a*b* color composed of @var{L*}, @var{a*}, @var{b*} with @var{white-point}.
@@ -106,6 +113,7 @@ Returns the L*a*b* color composed of @var{L*}, @var{a*}, @var{b*}. If the coord
do not encode a valid L*a*b* color, then an error is signaled.
@end defun
+
@defun color->l*a*b* color white-point
Returns the list of 3 numbers encoding @var{color} in L*a*b* with @var{white-point}.
@@ -113,6 +121,7 @@ Returns the list of 3 numbers encoding @var{color} in L*a*b* with @var{white-poi
@defunx color->l*a*b* color
Returns the list of 3 numbers encoding @var{color} in L*a*b*.
@end defun
+
@deftp {Color Space} L*u*v*
Is another CIE encoding designed to better match the human visual
system's perception of color.
@@ -125,6 +134,7 @@ system's perception of color.
then @code{l*u*v*->color} returns the color specified by @var{L*u*v*}; otherwise returns #f.
@end defun
+
@defun color:l*u*v* L* u* v* white-point
Returns the L*u*v* color composed of @var{L*}, @var{u*}, @var{v*} with @var{white-point}.
@@ -134,6 +144,7 @@ Returns the L*u*v* color composed of @var{L*}, @var{u*}, @var{v*}. If the coord
do not encode a valid L*u*v* color, then an error is signaled.
@end defun
+
@defun color->l*u*v* color white-point
Returns the list of 3 numbers encoding @var{color} in L*u*v* with @var{white-point}.
@@ -141,6 +152,7 @@ Returns the list of 3 numbers encoding @var{color} in L*u*v* with @var{white-poi
@defunx color->l*u*v* color
Returns the list of 3 numbers encoding @var{color} in L*u*v*.
@end defun
+
@subsubheading Cylindrical Coordinates
@noindent
@@ -190,6 +202,7 @@ The colors by quadrant of h are:
then @code{l*c*h->color} returns the color specified by @var{L*C*h}; otherwise returns #f.
@end defun
+
@defun color:l*c*h L* C* h white-point
Returns the L*C*h color composed of @var{L*}, @var{C*}, @var{h} with @var{white-point}.
@@ -199,6 +212,7 @@ Returns the L*C*h color composed of @var{L*}, @var{C*}, @var{h}. If the coordin
do not encode a valid L*C*h color, then an error is signaled.
@end defun
+
@defun color->l*c*h color white-point
Returns the list of 3 numbers encoding @var{color} in L*C*h with @var{white-point}.
@@ -206,6 +220,7 @@ Returns the list of 3 numbers encoding @var{color} in L*C*h with @var{white-poin
@defunx color->l*c*h color
Returns the list of 3 numbers encoding @var{color} in L*C*h.
@end defun
+
@subsubheading Digital Color Spaces
@noindent
@@ -251,12 +266,14 @@ should work very well with sRGB.
then @code{srgb->color} returns the color specified by @var{rgb}; otherwise returns #f.
@end defun
+
@defun color:srgb r g b
Returns the sRGB color composed of @var{r}, @var{g}, @var{b}. If the
coordinates do not encode a valid sRGB color, then an error is
signaled.
@end defun
+
@deftp {Color Space} xRGB
Represents the equivalent sRGB color with a single 24-bit integer. The
most significant 8 bits encode red, the middle 8 bits blue, and the
@@ -269,14 +286,17 @@ least significant 8 bits green.
Returns the list of 3 integers encoding @var{color} in sRGB.
@end defun
+
@defun color->xrgb color
Returns the 24-bit integer encoding @var{color} in sRGB.
@end defun
+
@defun xrgb->color k
Returns the sRGB color composed of the 24-bit integer @var{k}.
@end defun
+
@deftp {Color Space} e-sRGB
Is "Photography - Electronic still picture imaging - Extended sRGB color
encoding" (PIMA 7667:2001). It extends the gamut of sRGB; and its
@@ -302,6 +322,7 @@ numbers. If @var{rgb} is valid e-sRGB coordinates, then @code{e-srgb->color} re
specified by @var{rgb}; otherwise returns #f.
@end defun
+
@defun color:e-srgb 10 r g b
Returns the e-sRGB10 color composed of integers @var{r}, @var{g}, @var{b}.
@@ -315,6 +336,7 @@ If the coordinates do not encode a valid e-sRGB color, then an error
is signaled.
@end defun
+
@defun color->e-srgb precision color
@var{precision} must be the integer 10, 12, or 16. @code{color->e-srgb} returns the list of 3
integers encoding @var{color} in sRGB10, sRGB12, or sRGB16.
@@ -343,3 +365,4 @@ integers encoding @var{color} in sRGB10, sRGB12, or sRGB16.
+
diff --git a/colornam.txi b/colornam.txi
index f72167b..bc70632 100644
--- a/colornam.txi
+++ b/colornam.txi
@@ -12,6 +12,7 @@ through the @code{grey} procedure:
Returns @code{(inexact->exact (round (* k 2.55)))}, the X11 color
grey@i{<k>}.
@end defun
+
@noindent
A color dictionary is a database table relating @dfn{canonical}
@cindex canonical
@@ -28,6 +29,7 @@ Returns a downcased copy of the string or symbol @var{name} with
@samp{_}, @samp{-}, and whitespace removed.
@end defun
+
@defun color-name->color name table1 table2 @dots{}
@@ -36,6 +38,7 @@ canonical form of @var{name} in @var{table1}, @var{table2}, @dots{} in order; re
color-string of the first matching record; #f otherwise.
@end defun
+
@defun color-dictionaries->lookup table1 table2 @dots{}
@@ -45,6 +48,7 @@ in @var{table1}, @var{table2}, @dots{}; returning the color-string of the first
record; and #f otherwise.
@end defun
+
@defun color-dictionary name rdb base-table-type
@@ -61,6 +65,7 @@ database file; and the symbol @var{name} a table therein. @code{color-dictionar
read-only table @var{name} in database @var{name} if it exists; #f otherwise.
@end defun
+
@defun load-color-dictionary name rdb base-table-type
@@ -73,3 +78,4 @@ to a lookup procedure for the color dictionary @var{name} in @var{rdb}.
The value returned by @code{load-color-dictionary} is unspecified.
@end defun
+
diff --git a/colorspc.scm b/colorspc.scm
index 3a88767..814149b 100644
--- a/colorspc.scm
+++ b/colorspc.scm
@@ -345,13 +345,6 @@
(or (color:process-params parametric-factors)
'(2 1 1)))))))
(map sqrt (map * lch1 lch2))))
-;@
-(define (XYZ:normalize-colors lst)
- (define sum (apply max (map (lambda (XYZ) (apply + XYZ)) lst)))
- (map (lambda (XYZ) (map (lambda (x) (/ x sum)) XYZ)) lst))
-;@
-(define (XYZ:normalize XYZ)
- (car (XYZ:normalize-colors (list XYZ))))
;;; Chromaticity
;@
@@ -440,6 +433,29 @@
(vector-set! cie:y-bar idx (read iprt))
(vector-set! cie:z-bar idx (read iprt))))))))
;@
+(define (read-cie-illuminant path)
+ (define siv (make-vector 107))
+ (call-with-input-file path
+ (lambda (iprt)
+ (do ((idx 0 (+ 1 idx)))
+ ((>= idx 107) siv)
+ (vector-set! siv idx (read iprt))))))
+;@
+(define (read-normalized-illuminant path)
+ (define siv (read-cie-illuminant path))
+ (let ((yw (/ (cadr (spectrum->XYZ siv 300e-9 830e-9)))))
+ (illuminant-map (lambda (w x) (* x yw)) siv)))
+;@
+(define (illuminant-map proc siv)
+ (define prod (make-vector 107))
+ (do ((idx 106 (+ -1 idx))
+ (w 830e-9 (+ -5e-9 w)))
+ ((negative? idx) prod)
+ (vector-set! prod idx (proc w (vector-ref siv idx)))))
+;@
+(define (illuminant-map->XYZ proc siv)
+ (spectrum->XYZ (illuminant-map proc siv) 300e-9 830e-9))
+;@
(define (wavelength->XYZ wl)
(if (not cie:y-bar) (require 'ciexyz))
(set! wl (- (/ wl 5.e-9) 380/5))
@@ -453,8 +469,6 @@
(interpolate cie:y-bar wlf res)
(interpolate cie:z-bar wlf res)))
(slib:error 'wavelength->XYZ 'out-of-range wl)))
-(define (wavelength->CIEXYZ wl)
- (XYZ:normalize (wavelength->XYZ wl)))
(define (wavelength->chromaticity wl)
(XYZ->chromaticity (wavelength->XYZ wl)))
;@
@@ -509,8 +523,6 @@
(set! y (+ y (* (vector-ref cie:y-bar kdx) inten)))
(set! z (+ z (* (vector-ref cie:z-bar kdx) inten))))))))
(else (slib:error 'spectrum->XYZ 'wna args))))
-(define (spectrum->CIEXYZ . args)
- (XYZ:normalize (apply spectrum->XYZ args)))
(define (spectrum->chromaticity . args)
(XYZ->chromaticity (apply spectrum->XYZ args)))
;@
@@ -522,15 +534,14 @@
(pi*2*h*c*c (* 2 pi h*c c)))
(lambda (temp . span)
(define h*c/kT (/ h*c k temp))
- (define pi*2*h*c*c*span (* pi*2*h*c*c (if (null? span) 1.e-9 (car span))))
+ (define pi*2*h*c*c*span
+ (* pi*2*h*c*c (if (null? span) 1.e-9 (car span))))
(lambda (x)
(/ pi*2*h*c*c*span
(expt x 5)
(- (exp (/ h*c/kT x)) 1))))))
;@
-(define (temperature->XYZ temp)
- (spectrum->XYZ (blackbody-spectrum temp 5.e-9)))
-(define (temperature->CIEXYZ temp)
- (XYZ:normalize (temperature->XYZ temp)))
+(define (temperature->XYZ temp . span)
+ (spectrum->XYZ (apply blackbody-spectrum temp span))) ;was .5e-9
(define (temperature->chromaticity temp)
(XYZ->chromaticity (temperature->XYZ temp)))
diff --git a/comlist.scm b/comlist.scm
index 2e3a6ef..3ca909f 100644
--- a/comlist.scm
+++ b/comlist.scm
@@ -30,9 +30,9 @@
;;;@ From: hugh@ear.mit.edu (Hugh Secker-Walker)
(define (make-list k . init)
(set! init (if (pair? init) (car init)))
- (do ((k k (+ -1 k))
+ (do ((k (+ -1 k) (+ -1 k))
(result '() (cons init result)))
- ((<= k 0) result)))
+ ((negative? k) result)))
;@
(define (copy-list lst) (append lst '()))
;@
diff --git a/comparse.txi b/comparse.txi
index 3ebe785..7ae8e3b 100644
--- a/comparse.txi
+++ b/comparse.txi
@@ -66,6 +66,7 @@ comments are also ignored.
@end table
@end defun
+
@defun read-options-file filename
@code{read-options-file} converts an @dfn{options file} into a list of
@@ -79,3 +80,4 @@ or end of file).
If an end of file is encountered before any characters are found that
can begin an object or comment, then an end of file object is returned.
@end defun
+
diff --git a/cring.scm b/cring.scm
index 97a637d..76459a2 100644
--- a/cring.scm
+++ b/cring.scm
@@ -21,9 +21,8 @@
(require 'relational-database)
(require 'databases)
(require 'sort)
-(require-if '(not inexact) 'logical) ;for integer-expt
-(define number^ (if (provided? 'inexact) expt integer-expt))
+(define number^ expt)
(define number* *)
(define number+ +)
(define number- -)
diff --git a/cvs.scm b/cvs.scm
index f1c853c..956178c 100644
--- a/cvs.scm
+++ b/cvs.scm
@@ -106,7 +106,7 @@
(else (slib:error 'mismatched root repos)))))))
;;@body
-;;Writes @1 to file CVS/Root of @2 and all its subdirectories.
+;;Writes @1 to file CVS/Root of @2.
(define (cvs-set-root! new-root directory/)
(define root (cvs-root directory/))
(define repos (cvs-repository directory/))
@@ -124,6 +124,12 @@
port))))
;;@body
+;;Writes @1 to file CVS/Root of @2 and all its CVS subdirectories.
+(define (cvs-set-roots! new-root directory/)
+ (for-each (lambda (dir/) (cvs-set-root! new-root dir/))
+ (cvs-directories directory/)))
+
+;;@body
;;Signals an error if CVS/Repository or CVS/Root files in @1 or any
;;subdirectory do not match.
(define (cvs-vet directory/)
diff --git a/cvs.txi b/cvs.txi
index 0ff1656..fed8ba8 100644
--- a/cvs.txi
+++ b/cvs.txi
@@ -4,29 +4,41 @@ Returns a list of the local pathnames (with prefix @var{directory/}) of all
CVS controlled files in @var{directory/} and in @var{directory/}'s subdirectories.
@end defun
+
@defun cvs-directories directory/
Returns a list of all of @var{directory/} and all @var{directory/}'s CVS controlled
subdirectories.
@end defun
+
@defun cvs-root path/
Returns the (string) contents of @var{path/}CVS/Root;
or @code{(getenv "CVSROOT")} if Root doesn't exist.
@end defun
+
@defun cvs-repository directory/
Returns the (string) contents of @var{directory/}CVS/Root appended
with @var{directory/}CVS/Repository; or #f if @var{directory/}CVS/Repository
doesn't exist.
@end defun
+
@deffn {Procedure} cvs-set-root! new-root directory/
-Writes @var{new-root} to file CVS/Root of @var{directory/} and all its subdirectories.
+Writes @var{new-root} to file CVS/Root of @var{directory/}.
+@end deffn
+
+
+@deffn {Procedure} cvs-set-roots! new-root directory/
+
+Writes @var{new-root} to file CVS/Root of @var{directory/} and all its CVS subdirectories.
@end deffn
+
@defun cvs-vet directory/
Signals an error if CVS/Repository or CVS/Root files in @var{directory/} or any
subdirectory do not match.
@end defun
+
diff --git a/daylight.scm b/daylight.scm
index 6c989b2..9151f99 100644
--- a/daylight.scm
+++ b/daylight.scm
@@ -245,17 +245,11 @@
(vector-set! data (quotient (- wl 380) 10)
(* (solCurve wl) tauR tauA tauO tauG tauWA))))))
-;;@body Returns (unnormalized) XYZ values for color of sunlight for a
-;;given @1 and @2.
-(define (sunlight-XYZ turbidity theta_s)
- (define spectrum (sunlight-spectrum turbidity theta_s))
- (and spectrum (spectrum->XYZ spectrum 380.e-9 780.e-9)))
-
;;@body Given @1 and @2, @0 returns the CIEXYZ triple for color of
;;sunlight scaled to be just inside the RGB709 gamut.
-(define (sunlight-CIEXYZ turbidity theta_s)
+(define (sunlight-chromaticity turbidity theta_s)
(define spectrum (sunlight-spectrum turbidity theta_s))
- (and spectrum (spectrum->CIEXYZ spectrum 380.e-9 780.e-9)))
+ (and spectrum (spectrum->chromaticity spectrum 380.e-9 780.e-9)))
;; Arguments and result in radians
(define (angle-between theta phi theta_s phi_s)
diff --git a/daylight.txi b/daylight.txi
index fa24afc..2d921d2 100644
--- a/daylight.txi
+++ b/daylight.txi
@@ -21,16 +21,19 @@ To be meticulous, subtract 4 minutes for each degree of longitude west
of the standard meridian of your time zone.
@end defun
+
@defun solar-declination julian-day
@end defun
+
@defun solar-polar declination latitude solar-hour
Returns a list of @var{theta_s}, the solar angle from the
zenith, and @var{phi_s}, the solar azimuth. 0 <= @var{theta_s}
measured in degrees. @var{phi_s} is measured in degrees from due
south; west of south being positive.
@end defun
+
@noindent
In the following procedures, the number 0 <= @var{theta_s} <= 90 is
the solar angle from the zenith in degrees.
@@ -76,21 +79,19 @@ Returns a vector of 41 values, the spectrum of sunlight from
380.nm to 790.nm for a given @var{turbidity} and @var{theta_s}.
@end defun
-@defun sunlight-xyz turbidity theta_s
-Returns (unnormalized) XYZ values for color of sunlight for a
-given @var{turbidity} and @var{theta_s}.
-@end defun
-@defun sunlight-ciexyz turbidity theta_s
-Given @var{turbidity} and @var{theta_s}, @code{sunlight-ciexyz} returns the CIEXYZ triple for color of
+@defun sunlight-chromaticity turbidity theta_s
+Given @var{turbidity} and @var{theta_s}, @code{sunlight-chromaticity} returns the CIEXYZ triple for color of
sunlight scaled to be just inside the RGB709 gamut.
@end defun
+
@defun zenith-xyy turbidity theta_s
Returns the xyY (chromaticity and luminance) at the zenith. The
Luminance has units kcd/m^2.
@end defun
+
@defun overcast-sky-color-xyy turbidity theta_s
@var{turbidity} is a positive real number expressing the amount of light
scattering. The real number @var{theta_s} is the solar angle from the zenith in
@@ -101,6 +102,7 @@ zenith of the viewing direction (in degrees); and returning the xyY
value for light coming from that elevation of the sky.
@end defun
+
@defun clear-sky-color-xyy turbidity theta_s phi_s
@defunx sky-color-xyy turbidity theta_s phi_s
@var{turbidity} is a positive real number expressing the amount of light
@@ -115,3 +117,4 @@ that direction of the sky.
@code{sky-color-xyY} calls @code{overcast-sky-color-xyY} for
@var{turbidity} <= 20; otherwise the @code{clear-sky-color-xyy} function.
@end defun
+
diff --git a/db2html.scm b/db2html.scm
index df34389..8ad97e1 100644
--- a/db2html.scm
+++ b/db2html.scm
@@ -52,10 +52,10 @@
;;@body Outputs a heading row for the currently-started table.
(define (html:heading columns)
- (sprintf #f " <TR VALIGN=\"TOP\">\\n%s </TR>\\n"
+ (sprintf #f " <TR VALIGN=\"TOP\">\\n%s\\n"
(apply string-append
(map (lambda (datum)
- (sprintf #f " <TH>%s</TH>\\n" (or datum "")))
+ (sprintf #f " <TH>%s\\n" (or datum "")))
columns))))
;;@body Outputs a heading row with column-names @1 linked to URIs @2.
@@ -92,11 +92,11 @@
(cond ((eqv? (string-index str #\newline) len)
(string-append "<TT>" (substring str 0 len) "</TT>"))
(else (html:pre str))))))
- (sprintf #f " <TR VALIGN=TOP>\\n%s </TR>\\n"
+ (sprintf #f " <TR VALIGN=TOP>\\n%s\\n"
(apply string-append
(map (lambda (idx datum foreign)
(sprintf
- #f " <TD>%s%s</TD>\\n"
+ #f " <TD>%s%s\\n"
(if (eqv? 1 idx) (row->anchor pkl row) "")
(cond ((or (not datum) (null? datum)) "")
((not foreign) (present datum))
@@ -121,8 +121,9 @@
table-name))
;;@args caption db table-name match-key1 @dots{}
-;;Returns HTML string for @2 table @3. Every foreign-key value is
-;;linked to the page (of the table) defining that key.
+;;Returns HTML string for @2 table @3 chopped into 50-row HTML tables.
+;;Every foreign-key value is linked to the page (of the table)
+;;defining that key.
;;
;;The optional @4 @dots{} arguments restrict actions to a subset of
;;the table. @xref{Table Operations, match-key}.
@@ -132,19 +133,42 @@
(tags (map table-name->filename foreigns))
(names (table 'column-names))
(primlim (table 'primary-limit)))
- (apply html:table "CELLSPACING=0 BORDER=1"
- (html:caption caption 'BOTTOM)
- (html:href-heading
- names
- (append (make-list primlim
- (table-name->filename
- (table-name->column-table-name db table-name)))
- (make-list (- (length names) primlim) #f)))
- (html:heading (table 'column-domains))
- (html:href-heading foreigns tags)
- (html:heading (table 'column-types))
- (map (html:linked-row-converter primlim tags)
- (apply (table 'row:retrieve*) args)))))
+ (define tables '())
+ (define rows '())
+ (define cnt 0)
+ (define (make-table rows)
+ (apply html:table "CELLSPACING=0 BORDER=1"
+ (html:caption caption 'BOTTOM)
+ (html:href-heading
+ names
+ (append (make-list primlim
+ (table-name->filename
+ (table-name->column-table-name db table-name)))
+ (make-list (- (length names) primlim) #f)))
+ (html:heading (table 'column-domains))
+ (html:href-heading foreigns tags)
+ (html:heading (table 'column-types))
+ rows))
+ (apply (table 'for-each-row)
+ (lambda (row)
+ (set! cnt (+ 1 cnt))
+ (set! rows (cons row rows))
+ (cond ((<= 50 cnt)
+ (set! tables
+ (cons (make-table
+ (map (html:linked-row-converter primlim tags)
+ (reverse rows)))
+ tables))
+ (set! cnt 0)
+ (set! rows '()))))
+ args)
+ (apply string-append
+ (reverse (if (and (null? rows) (not (null? tables)))
+ tables
+ (cons (make-table
+ (map (html:linked-row-converter primlim tags)
+ (reverse rows)))
+ tables))))))
;;@body
;;Returns a complete HTML page. The string @3 names the page which
@@ -162,10 +186,10 @@
(html:body (apply table->linked-html table-name db table-name args))))
(define (html:catalog-row-converter row foreigns)
- (sprintf #f " <TR VALIGN=TOP>\\n%s </TR>\\n"
+ (sprintf #f " <TR VALIGN=TOP>\\n%s\\n"
(apply string-append
(map (lambda (datum foreign)
- (sprintf #f " <TD>%s%s</TD>\\n"
+ (sprintf #f " <TD>%s%s\\n"
(html:anchor (sprintf #f "%s" datum))
(html:link (make-uri foreign #f #f) datum)))
row foreigns))))
@@ -384,7 +408,7 @@
(else (list fld))))
row arities)
foreign-choice-lists))
- (sprintf #f " <TR>\\n <TD>%s</TD>%s\\n </TR>\\n"
+ (sprintf #f " <TR>\\n <TD>%s%s\\n\\n"
(string-append
(html:hidden '*row-hash* (crc:hash-obj row))
(html:hidden '*keys* (uri:make-path (butnthcdr pkl row)))
@@ -394,7 +418,7 @@
;; (form:image "Modify Row" "/icons/bang.png")
)
(apply string-append
- (map (lambda (elt) (sprintf #f " <TD>%s</TD>\\n" elt))
+ (map (lambda (elt) (sprintf #f " <TD>%s\\n" elt))
(cdr elements))))))))
;;@args k names edit-point edit-converter
@@ -427,11 +451,11 @@
(else (html:pre str))))))))
(lambda (row)
(string-append
- (sprintf #f " <TR VALIGN=TOP>\\n%s </TR>\\n"
+ (sprintf #f " <TR VALIGN=TOP>\\n%s\\n"
(apply string-append
(map (lambda (idx datum foreign)
(sprintf
- #f " <TD>%s%s</TD>\\n"
+ #f " <TD>%s%s\\n"
(if (eqv? 1 idx) (row->anchor pkl row) "")
(cond ((or (not datum) (null? datum)) "")
((<= idx pkl)
@@ -487,7 +511,7 @@
(if (symbol? dir) (set! dir (symbol->string dir)))
(if (not (file-exists? dir)) (make-directory dir))
(db->html-files db dir index-filename dir)
- (path->uri (in-vicinity (sub-vicinity "" dir) index-filename)))
+ (path->uri (in-vicinity (sub-vicinity (user-vicinity) dir) index-filename)))
;;@args db dir index-filename
;;@args db dir
diff --git a/db2html.txi b/db2html.txi
index 3b47f31..6366f87 100644
--- a/db2html.txi
+++ b/db2html.txi
@@ -6,6 +6,7 @@
@end defun
+
@defun html:caption caption align
@@ -13,14 +14,17 @@
@var{align} can be @samp{top} or @samp{bottom}.
@end defun
+
@defun html:heading columns
Outputs a heading row for the currently-started table.
@end defun
+
@defun html:href-heading columns uris
Outputs a heading row with column-names @var{columns} linked to URIs @var{uris}.
@end defun
+
@defun html:linked-row-converter k foreigns
@@ -32,20 +36,24 @@ foreign-key field pages and #f for non foreign-key fields.
returned procedure returns the html string for that table row.
@end defun
+
@defun table-name->filename table-name
Returns the symbol @var{table-name} converted to a filename.
@end defun
+
@defun table->linked-html caption db table-name match-key1 @dots{}
-Returns HTML string for @var{db} table @var{table-name}. Every foreign-key value is
-linked to the page (of the table) defining that key.
+Returns HTML string for @var{db} table @var{table-name} chopped into 50-row HTML tables.
+Every foreign-key value is linked to the page (of the table)
+defining that key.
The optional @var{match-key1} @dots{} arguments restrict actions to a subset of
the table. @xref{Table Operations, match-key}.
@end defun
+
@defun table->linked-page db table-name index-filename arg @dots{}
Returns a complete HTML page. The string @var{index-filename} names the page which
@@ -55,10 +63,12 @@ The optional @var{args} @dots{} arguments restrict actions to a subset of
the table. @xref{Table Operations, match-key}.
@end defun
+
@defun catalog->html db caption arg @dots{}
Returns HTML string for the catalog table of @var{db}.
@end defun
+
@subsection HTML editing tables
@noindent A client can modify one row of an editable table at a time.
@@ -113,6 +123,7 @@ Optional arguments @var{update}, @var{delete}, and @var{retrieve} default to the
@code{row:delete}, and @code{row:retrieve} of @var{table-name} in @var{db}.
@end defun
+
@defun command:make-editable-table rdb table-name arg @dots{}
Given @var{table-name} in @var{rdb}, creates parameter and @code{*command*} tables
for editing one row of @var{table-name} at a time. @code{command:make-editable-table} returns a procedure taking a
@@ -132,6 +143,7 @@ have arity @samp{nary1}.
@end table
@end defun
+
@defun html:editable-row-converter k names edit-point edit-converter
@@ -148,6 +160,7 @@ the primary key fields) of each row linked to a text encoding of these
fields (the result of calling @code{row->anchor}). The page so
referenced typically allows the user to edit fields of that row.
@end defun
+
@subsection HTML databases
@@ -162,6 +175,7 @@ top level page with the catalog of tables (captioned @var{caption}) is written
to a file named @var{index-filename}.
@end defun
+
@defun db->html-directory db dir index-filename
@@ -176,6 +190,7 @@ top page, which defaults to @file{index.html}.
returned.
@end defun
+
@defun db->netscape db dir index-filename
@@ -184,3 +199,4 @@ returned.
@code{browse-url} with the uri for the top page after the
pages are created.
@end defun
+
diff --git a/dbinterp.scm b/dbinterp.scm
index 8ccb1df..2bd4e20 100644
--- a/dbinterp.scm
+++ b/dbinterp.scm
@@ -17,18 +17,36 @@
;promotional, or sales literature without prior written consent in
;each case.
+(require 'rev4-optional-procedures) ; list-tail
+
+;;; The procedures returned by MEMOIZE are not reentrant!
+(define (dbinterp:memoize proc k)
+ (define recent (vector->list (make-vector k '(#f))))
+ (let ((tailr (list-tail recent (+ -1 k))))
+ (lambda args
+ (define asp (assoc args recent))
+ (if asp
+ (cdr asp)
+ (let ((val (apply proc args)))
+ (set-cdr! tailr (list (cons args val)))
+ (set! tailr (cdr tailr))
+ (set! recent (cdr recent))
+ val)))))
+
;;@ This procedure works only for tables with a single primary key.
(define (interpolate-from-table table column)
- (define get (table 'get column))
- (define prev (table 'isam-prev))
+ (define get (dbinterp:memoize (table 'get column) 3))
+ (define prev (dbinterp:memoize (table 'isam-prev) 3))
(define next (table 'isam-next))
- (lambda (x)
- (let ((nxt (next x)))
- (if nxt (set! nxt (car nxt)))
- (let ((prv (prev (or nxt x))))
- (if prv (set! prv (car prv)))
- (cond ((not nxt) (get prv))
- ((not prv) (get nxt))
- (else (/ (+ (* (- x prv) (get nxt))
- (* (- nxt x) (get prv)))
- (- nxt prv))))))))
+ (dbinterp:memoize
+ (lambda (x)
+ (let ((nxt (next x)))
+ (if nxt (set! nxt (car nxt)))
+ (let ((prv (prev (or nxt x))))
+ (if prv (set! prv (car prv)))
+ (cond ((not nxt) (get prv))
+ ((not prv) (get nxt))
+ (else (/ (+ (* (- x prv) (get nxt))
+ (* (- nxt x) (get prv)))
+ (- nxt prv)))))))
+ 3))
diff --git a/dbsyn.scm b/dbsyn.scm
index 1bc1319..f807642 100644
--- a/dbsyn.scm
+++ b/dbsyn.scm
@@ -1,5 +1,7 @@
-;;;; "dbsyn.scm" -- Syntactic extensions for RDMS (within-database)
-;;; Copyright (C) 2002 Ivan Shmakov <ivan@theory.dcn-asu.ru>
+;;; "dbsyn.scm" -- Syntactic extensions for RDMS -*- scheme -*-
+;; Features: within-database
+
+;;; Copyright (C) 2002, 2003 Ivan Shmakov <ivan@theory.dcn-asu.ru>
;;
;; Permission to copy this software, to modify it, to redistribute it,
;; to distribute modified versions, and to use it for any purpose is
@@ -31,24 +33,68 @@
;; ... and get TAGS table with all of my database commands and tables.
-(require 'relational-database)
+;;; Code:
(require 'database-commands)
(require 'databases)
+(require 'relational-database)
+
;@
(define-syntax within-database
- (syntax-rules (define-table define-command)
-
+ (syntax-rules (define-table define-command define-macro)
+ ;
((within-database database)
database)
-
+ ; define-table
((within-database database
- (define-table (name primary columns) row ...)
- rest ...)
+ (define-table (name primary columns) row ...)
+ rest ...)
(begin (define-tables database '(name primary columns (row ...)))
(within-database database rest ...)))
-
+ ; define-command
((within-database database
- (define-command template arg-1 arg-2 ...)
- rest ...)
+ (define-command template arg-1 arg-2 ...)
+ rest ...)
(begin (define-*commands* database '(template arg-1 arg-2 ...))
+ (within-database database rest ...)))
+ ;
+ ((within-database database
+ (command arg-1 ...)
+ rest ...)
+ (begin (cond ((let ((p (database '*macro*)))
+ (and p (slib:eval (p 'command))))
+ => (lambda (proc)
+ (slib:eval
+ (apply proc database '(arg-1 ...)))))
+ (else
+ ((database 'command) arg-1 ...)))
(within-database database rest ...)))))
+
+(define (define-*macros* rdb . specs)
+ (define defmac
+ (((rdb 'open-table) '*macros* #t) 'row:update))
+ (for-each (lambda (spec)
+ (let* ((procname (caar spec))
+ (args (cdar spec))
+ (body-1 (cdr spec))
+ (comment (and (string? (car body-1))
+ (car body-1)))
+ (body (if comment (cdr body-1) body-1)))
+ (defmac (list procname
+ `(lambda ,args . ,body)
+ (or comment "")))))
+ specs))
+
+;@
+(define (add-macro-support rdb)
+ (define-tables rdb
+ '(*macros*
+ ((name symbol))
+ ((procedure expression)
+ (documentation string))
+ ((define-macro (lambda (db . args)
+ (define-*macros* db args)
+ #t) ""))))
+ (define-*commands* rdb
+ '((*macro* rdb)
+ (((rdb 'open-table) '*macros* #f) 'get 'procedure)))
+ rdb)
diff --git a/dbutil.scm b/dbutil.scm
index 5e5c86d..5df7b49 100644
--- a/dbutil.scm
+++ b/dbutil.scm
@@ -113,11 +113,13 @@
(if (null? *base-table-implementations*) (require 'alist-table))
(cond ((and (not (and mutable? (not certificate)))
(loop *base-table-implementations*)))
- ((memq 'alist-table *base-table-implementations*) #f)
- ((let ()
- (require 'alist-table)
- (loop (list (car *base-table-implementations*)))))
- (else #f)))
+ ((and (not (memq 'alist-table *base-table-implementations*))
+ (let ()
+ (require 'alist-table)
+ (loop (list (car *base-table-implementations*))))))
+ (else
+ (and certificate (file-unlock! filename certificate))
+ #f)))
(define (mdbm:open-type filename type mutable?)
(require type)
@@ -126,7 +128,9 @@
(let* ((sys (cadr (assq type *base-table-implementations*)))
(open (and sys (sys 'open-database)))
(ndb (and open (open filename mutable?))))
- (and ndb (list ndb 1 type certificate))))))
+ (cond (ndb (list ndb 1 type certificate))
+ (else (and certificate (file-unlock! filename certificate))
+ #f))))))
;;@args filename base-table-type
;;@1 should be a string naming a file; or @code{#f}. @2 must be a
@@ -302,14 +306,16 @@
(define certificate #f)
(and entry (set! rdb (car entry)))
(and (procedure? rdb)
- (set! certificate (or (and entry (cadddr entry))
- (and (rdb 'filename)
- (file-lock! (rdb 'filename))))))
+ (set! certificate (and entry (cadddr entry))))
(cond ((and entry (not (eqv? 1 (cadr entry))))
(set-car! (cdr entry) (+ -1 (cadr entry)))
#f)
- ((or (not certificate) (not (procedure? rdb)))
+ ((not (procedure? rdb))
+ (slib:warn 'close-database 'not 'procedure? rdb)
#f)
+ ((not certificate)
+ (and dbs (set! dbs (mdbm:remove-entry dbs entry)))
+ #t)
(else
(let* ((filename (rdb 'filename))
(dbclose (rdb 'close-database))
diff --git a/dbutil.txi b/dbutil.txi
index cc198f3..fae8bb6 100644
--- a/dbutil.txi
+++ b/dbutil.txi
@@ -65,6 +65,7 @@ alist-table is the default base-table type:
(define my-rdb (create-database "my.db" 'alist-table))
@end example
@end defun
+
@noindent
Only @code{alist-table} and base-table modules which have been
@code{require}d will dispatch correctly from the
@@ -79,6 +80,7 @@ argument.
Returns @emph{mutable} open relational database or #f.
@end deffn
+
@defun open-database rdb base-table-type
Returns an open relational database associated with @var{rdb}. The
@@ -90,22 +92,26 @@ Returns an open relational database associated with @var{rdb}.
@code{open-database} will attempt to deduce the correct base-table-type.
@end defun
+
@defun write-database rdb filename
Writes the mutable relational-database @var{rdb} to @var{filename}.
@end defun
+
@defun sync-database rdb
Writes the mutable relational-database @var{rdb} to the filename it was
opened with.
@end defun
+
@defun solidify-database rdb
Syncs @var{rdb} and makes it immutable.
@end defun
+
@defun close-database rdb
@var{rdb} will only be closed when the count of @code{open-database} - @code{close-database}
@@ -113,12 +119,14 @@ calls for @var{rdb} (and its filename) is 0. @code{close-database} returns #t i
and #f otherwise.
@end defun
+
@defun mdbm:report
Prints a table of open database files. The columns are the
base-table type, number of opens, @samp{!} for mutable, the
filename, and the lock certificate (if locked).
@end defun
+
@example
(mdbm:report)
@print{}
@@ -138,6 +146,7 @@ filename, and the lock certificate (if locked).
@code{#f}.
@end defun
+
@deffn {Procedure} open-table! rdb table-name
@var{rdb} must be a relational database and @var{table-name} a symbol.
@@ -146,6 +155,7 @@ filename, and the lock certificate (if locked).
@var{rdb} if it exists and can be opened in mutable mode, otherwise returns
@code{#f}.
@end deffn
+
@subsubheading Defining Tables
@@ -160,11 +170,13 @@ Representation}.
@end example
@end defun
+
@defun add-domain rdb row5
Use @code{define-domains} instead.
@end defun
+
@defun define-tables rdb spec-0 @dots{}
Adds tables as specified in @var{spec-0} @dots{} to the open
@@ -204,6 +216,7 @@ If @r{<domain>} is not a defined domain name and it matches the name of
this table or an already defined (in one of @var{spec-0} @dots{}) single
key field table, a foreign-key domain will be created for it.
@end defun
+
@subsubheading Listing Tables
@@ -217,3 +230,4 @@ and domains, its other key names and domains, and the table's records
The list returned by @code{list-table-definition}, when passed as an
argument to @code{define-tables}, will recreate the table.
@end defun
+
diff --git a/debian/changelog b/debian/changelog
index 659ae70..cbfead0 100644
--- a/debian/changelog
+++ b/debian/changelog
@@ -1,3 +1,18 @@
+slib (3a2-1) unstable; urgency=low
+
+ * New upstream release.
+ * Acknowledge NMU. (Closes: #281809)
+ * Makefile: Don't hack Makefile; use rules instead.
+ * debian/rules: Set on make invocations: prefix, htmldir, TEXI2HTML.
+ * debian/rules (clean): Clean more stuff here.
+ * Makefile: Comment out old rule for $(htmldir)slib_toc.html. Instead,
+ specify directly that the texi2html invocation produces that file.
+ * debian/rules (binary-indep): Find web files in slib subdir.
+
+ * debian/control (Build-Depends-Indep): Go back to using scm.
+
+ -- Thomas Bushnell, BSG <tb@debian.org> Wed, 2 Nov 2005 14:55:21 -0800
+
slib (3a1-5) unstable; urgency=low
* New maintainer.
diff --git a/debian/control b/debian/control
index 570d13f..77fe193 100644
--- a/debian/control
+++ b/debian/control
@@ -2,7 +2,7 @@ Source: slib
Section: devel
Priority: optional
Maintainer: Thomas Bushnell, BSG <tb@debian.org>
-Build-Depends-Indep: guile-1.6, texi2html, texinfo
+Build-Depends-Indep: scm, texi2html, texinfo
Standards-Version: 3.1.0
Package: slib
diff --git a/debian/rules b/debian/rules
index ed0da6b..b6ad478 100755
--- a/debian/rules
+++ b/debian/rules
@@ -17,10 +17,16 @@ INSTALL_PROGRAM =$(INSTALL) -m 755 -o root -g root
INSTALL_DATA =$(INSTALL) -m 644 -o root -g root
INSTALL_MAN =$(INSTALL) -m 444 -o root -g root
+# Override definitions in upstream Makefile thus:
+prefix = debian/tmp/usr
+htmldir = slib/
+TEXI2HTML = texi2html --split chapter --verbose
+makeoverrides = "prefix=$(prefix)" "htmldir=$(htmldir)" "TEXI2HTML=$(TEXI2HTML)"
+
build:
$(checkdir)
- make
- make html
+ make $(makeoverrides)
+ make html $(makeoverrides)
touch build
clean:
@@ -29,6 +35,12 @@ clean:
make clean
-rm -f build
-rm -rf debian/tmp* *~ debian/*~ debian/files debian/substvars
+ -rm -f srcdir.mk
+ -rm -f slib*.info
+ -rm -f version.txi
+ -rm -rf slib*.html
+ -rm -rf $(htmldir)
+ -rm -f .slibcat
binary-arch: checkroot
$(checkdir)
@@ -62,7 +74,7 @@ binary-indep: checkroot build
gzip -9v debian/tmp/usr/share/doc/slib/README
$(INSTALL_DATA) FAQ debian/tmp/usr/share/doc/slib
gzip -9v debian/tmp/usr/share/doc/slib/FAQ
- $(INSTALL_DATA) slib_html/*.html debian/tmp/usr/share/doc/slib
+ $(INSTALL_DATA) slib/*.html debian/tmp/usr/share/doc/slib
$(INSTALL_DIR) debian/tmp/usr/share/slib/init
$(INSTALL_DATA) *.init debian/tmp/usr/share/slib/init
diff --git a/determ.scm b/determ.scm
index 1078750..0962e4a 100644
--- a/determ.scm
+++ b/determ.scm
@@ -1,5 +1,5 @@
;;; "determ.scm" Matrix Algebra
-;Copyright 2002 Aubrey Jaffer
+;Copyright 2002, 2004 Aubrey Jaffer
;
;Permission to copy this software, to modify it, to redistribute it,
;to distribute modified versions, and to use it for any purpose is
@@ -24,30 +24,30 @@
;;@noindent
;;A Matrix can be either a list of lists (rows) or an array.
-;;As with linear-algebra texts, this package uses 1-based coordinates.
+;;Unlike linear-algebra texts, this package uses 0-based coordinates.
;;; Internal conversion routines
(define (matrix2array matrix prototype)
- (let* ((shp (list (list 1 (length matrix))
- (list 1 (length (car matrix)))))
- (mat (apply create-array '#() shp)))
- (do ((idx 1 (+ 1 idx))
+ (let* ((dim1 (length matrix))
+ (dim2 (length (car matrix)))
+ (mat (make-array '#() dim1 dim2)))
+ (do ((idx 0 (+ 1 idx))
(rows matrix (cdr rows)))
- ((> idx (cadar shp)) rows)
- (do ((jdx 1 (+ 1 jdx))
+ ((>= idx dim1) rows)
+ (do ((jdx 0 (+ 1 jdx))
(row (car rows) (cdr row)))
- ((> jdx (cadadr shp)))
+ ((>= jdx dim2))
(array-set! mat (car row) idx jdx)))
- mat))
+ mat))
(define (matrix2lists matrix)
- (let ((shp (array-shape matrix)))
- (do ((idx (cadar shp) (+ -1 idx))
- (rows '()
- (cons (do ((jdx (cadadr shp) (+ -1 jdx))
+ (let ((dims (array-dimensions matrix)))
+ (do ((idx (+ -1 (car dims)) (+ -1 idx))
+ (rows '()
+ (cons (do ((jdx (+ -1 (cadr dims)) (+ -1 jdx))
(row '() (cons (array-ref matrix idx jdx) row)))
- ((< jdx (caadr shp)) row))
+ ((< jdx 0) row))
rows)))
- ((< idx (caar shp)) rows))))
+ ((< idx 0) rows))))
(define (coerce-like-arg matrix arg)
(cond ((array? arg) (matrix2array matrix arg))
(else matrix)))
diff --git a/determ.txi b/determ.txi
index 30eef3d..1d89164 100644
--- a/determ.txi
+++ b/determ.txi
@@ -3,7 +3,7 @@
@noindent
A Matrix can be either a list of lists (rows) or an array.
-As with linear-algebra texts, this package uses 1-based coordinates.
+Unlike linear-algebra texts, this package uses 0-based coordinates.
@defun matrix->lists matrix
@@ -11,11 +11,13 @@ As with linear-algebra texts, this package uses 1-based coordinates.
Returns the list-of-lists form of @var{matrix}.
@end defun
+
@defun matrix->array matrix
Returns the (ones-based) array form of @var{matrix}.
@end defun
+
@defun determinant matrix
@var{matrix} must be a square matrix.
@@ -28,20 +30,24 @@ Returns the (ones-based) array form of @var{matrix}.
@end example
@end defun
+
@defun transpose matrix
Returns a copy of @var{matrix} flipped over the diagonal containing the 1,1
element.
@end defun
+
@defun matrix:product m1 m2
Returns the product of matrices @var{m1} and @var{m2}.
@end defun
+
@defun matrix:inverse matrix
@var{matrix} must be a square matrix.
If @var{matrix} is singlar, then @code{matrix:inverse} returns #f; otherwise @code{matrix:inverse} returns the
@code{matrix:product} inverse of @var{matrix}.
@end defun
+
diff --git a/differ.scm b/differ.scm
index 23b0e91..6acc253 100644
--- a/differ.scm
+++ b/differ.scm
@@ -1,5 +1,5 @@
;;;; "differ.scm" O(NP) Sequence Comparison Algorithm.
-;;; Copyright (C) 2001, 2002, 2003 Aubrey Jaffer
+;;; Copyright (C) 2001, 2002, 2003, 2004 Aubrey Jaffer
;
;Permission to copy this software, to modify it, to redistribute it,
;to distribute modified versions, and to use it for any purpose is
@@ -25,14 +25,14 @@
;;S. Wu, E. Myers, U. Manber, and W. Miller,
;; "An O(NP) Sequence Comparison Algorithm,"
;; Information Processing Letters 35, 6 (1990), 317-323.
-;; @url{http://www.cs.arizona.edu/people/gene/vita.html}
+;; @url{http://www.cs.arizona.edu/people/gene/PAPERS/np_diff.ps}
;;@end example
;;@end ifinfo
;;@ifset html
;;S. Wu, <A HREF="http://www.cs.arizona.edu/people/gene/vita.html">
;;E. Myers,</A> U. Manber, and W. Miller,
;;<A HREF="http://www.cs.arizona.edu/people/gene/PAPERS/np_diff.ps">
-;;"An O(NP) Sequence Comparison Algorithm,"</A>
+;;"An O(NP) Sequence Comparison Algorithm"</A>,
;;Information Processing Letters 35, 6 (1990), 317-323.
;;@end ifset
;;
@@ -41,12 +41,24 @@
;;the degree of match between two sequences.
;;
;;@noindent
-;;Surprisingly, "An O(NP) Sequence Comparison Algorithm" does not
-;;derive the edit sequence; only the sequence length. Developing this
-;;linear-space sub-quadratic-time algorithm for computing the edit
-;;sequence required hundreds of hours of work. I have submitted a
-;;paper describing the algorithm to the Journal of Computational
-;;Biology.
+;;@code{diff:edits} and @code{diff:longest-common-subsequence} combine
+;;the algorithm with the divide-and-conquer method outlined in:
+;;
+;;@ifinfo
+;;@example
+;;E. Myers and W. Miller,
+;; "Optimal alignments in linear space",
+;; Computer Application in the Biosciences (CABIOS), 4(1):11-17, 1988.
+;; @url{http://www.cs.arizona.edu/people/gene/PAPERS/linear.ps}
+;;@end example
+;;@end ifinfo
+;;@ifset html
+;;<A HREF="http://www.cs.arizona.edu/people/gene/vita.html">
+;;E. Myers,</A> and W. Miller,
+;;<A HREF="http://www.cs.arizona.edu/people/gene/PAPERS/linear.ps">
+;;"Optimal alignments in linear space"</A>,
+;;Computer Application in the Biosciences (CABIOS), 4(1):11-17, 1988.
+;;@end ifset
;;
;;@noindent
;;If the items being sequenced are text lines, then the computed
@@ -55,24 +67,23 @@
;;lesser known @dfn{spiff} program.
(require 'array)
-(require 'sort)
;;; p-lim is half the number of gratuitous edits for strings of given
;;; lengths.
;;; When passed #f CC, fp:compare returns edit-distance if successful;
;;; #f otherwise (p > p-lim). When passed CC, fp:compare returns #f.
-(define (fp:compare fp CC A M B N =? p-lim)
+(define (fp:compare fp fpoff CC A M B N p-lim)
(define Delta (- N M))
;;(if (negative? Delta) (slib:error 'fp:compare (fp:subarray A 0 M) '> (fp:subarray B 0 N)))
;;(set! compares (+ 1 compares)) ;(print 'fp:compare M N p-lim)
(let loop ((p 0))
(do ((k (- p) (+ 1 k)))
((>= k Delta))
- (fp:run fp k A M B N =? CC p))
+ (fp:run fp fpoff k A M B N CC p))
(do ((k (+ Delta p) (+ -1 k)))
((<= k Delta))
- (fp:run fp k A M B N =? CC p))
- (let ((fpval (fp:run fp Delta A M B N =? CC p)))
+ (fp:run fp fpoff k A M B N CC p))
+ (let ((fpval (fp:run fp fpoff Delta A M B N CC p)))
;; At this point, the cost to (fpval-Delta, fpval) is Delta + 2*p
(cond ((and (not CC) (<= N fpval)) (+ Delta (* 2 p)))
((and (not (negative? p-lim)) (>= p p-lim)) #f)
@@ -81,11 +92,11 @@
;;; Traces runs of matches until they end; then set fp[k]=y.
;;; If CC is supplied, set each CC[y] = min(CC[y], cost) for run.
;;; Returns furthest y reached.
-(define (fp:run fp k A M B N =? CC p)
- (define y (max (+ 1 (array-ref fp (+ -1 k))) (array-ref fp (+ 1 k))))
+(define (fp:run fp fpoff k A M B N CC p)
(define cost (+ k p p))
- (let snloop ((x (- y k))
- (y y))
+ (let snloop ((y (max (+ (array-ref fp (+ -1 k fpoff)) 1)
+ (array-ref fp (+ 1 k fpoff)))))
+ (define x (- y k))
(and CC (<= y N)
(let ((xcst (- M x)))
(cond ((negative? xcst))
@@ -94,9 +105,9 @@
y)))))
;;(set! tick (+ 1 tick))
(cond ((and (< x M) (< y N)
- (=? (array-ref A x) (array-ref B y)))
- (snloop (+ 1 x) (+ 1 y)))
- (else (array-set! fp y k)
+ (eqv? (array-ref A x) (array-ref B y)))
+ (snloop (+ 1 y)))
+ (else (array-set! fp y (+ fpoff k))
y))))
;;; Check that only 1 and -1 steps between adjacent CC entries.
@@ -126,10 +137,7 @@
;; cdx))
;; CC)
-(define (diff:mid-split M N RR CC cost)
- (define b-splt N) ;Default
- (define bestrun 0)
- (define thisrun 0)
+(define (diff:mid-split N RR CC cost)
;; RR is not longer than CC. So do for each element of RR.
(let loop ((cdx (+ 1 (quotient N 2)))
(rdx (quotient N 2)))
@@ -143,18 +151,19 @@
(define (fp:subarray RA start end)
(define n-len (abs (- end start)))
(if (< end start)
- (make-shared-array RA (lambda (idx) (list (- start 1 idx))) n-len)
+ (make-shared-array RA (lambda (idx) (list (+ -1 (- start idx)))) n-len)
(make-shared-array RA (lambda (idx) (list (+ start idx))) n-len)))
-(define (fp:init! fp fill mindx maxdx)
- (do ((idx maxdx (+ -1 idx)))
- ((< idx mindx))
+(define (fp:init! fp fpoff fill mindx maxdx)
+ (define mlim (+ fpoff mindx))
+ (do ((idx (+ fpoff maxdx) (+ -1 idx)))
+ ((< idx mlim))
(array-set! fp fill idx)))
;;; Split A[start-a..end-a] (shorter array) into smaller and smaller chunks.
;;; EDX is index into EDITS.
;;; EPO is insert/delete polarity (+1 or -1)
-(define (diff:divide-and-conquer fp CCRR A start-a end-a B start-b end-b edits edx epo =? p-lim)
+(define (diff:divide-and-conquer fp fpoff CCRR A start-a end-a B start-b end-b edits edx epo p-lim)
(define mid-a (quotient (+ start-a end-a) 2))
(define len-b (- end-b start-b))
(define len-a (- end-a start-a))
@@ -163,18 +172,20 @@
(define RR (fp:subarray CCRR (+ len-b 1) (* 2 (+ len-b 1))))
(define M2 (- end-a mid-a))
(define M1 (- mid-a start-a))
- (fp:init! CC (+ len-a len-b) 0 len-b)
- (fp:init! fp -1 (- (+ 1 p-lim)) (+ 1 p-lim (- len-b M1)))
- (fp:compare fp CC
+ (fp:init! CC 0 (+ len-a len-b) 0 len-b)
+ (fp:init! fp fpoff -1 (- (+ 1 p-lim)) (+ 1 p-lim (- len-b M1)))
+ (fp:compare fp fpoff CC
(fp:subarray A start-a mid-a) M1
- (fp:subarray B start-b end-b) len-b =? (min p-lim len-a))
- (fp:init! RR (+ len-a len-b) 0 len-b)
- (fp:init! fp -1 (- (+ 1 p-lim)) (+ 1 p-lim (- len-b M2)))
- (fp:compare fp RR
+ (fp:subarray B start-b end-b) len-b
+ (min p-lim len-a))
+ (fp:init! RR 0 (+ len-a len-b) 0 len-b)
+ (fp:init! fp fpoff -1 (- (+ 1 p-lim)) (+ 1 p-lim (- len-b M2)))
+ (fp:compare fp fpoff RR
(fp:subarray A end-a mid-a) M2
- (fp:subarray B end-b start-b) len-b =? (min p-lim len-a))
+ (fp:subarray B end-b start-b) len-b
+ (min p-lim len-a))
;;(smooth-costs CC len-b) (smooth-costs RR len-b)
- (let ((b-splt (diff:mid-split len-a len-b RR CC tcst)))
+ (let ((b-splt (diff:mid-split len-b RR CC tcst)))
(define est-c (array-ref CC b-splt))
(define est-r (array-ref RR (- len-b b-splt)))
;;(set! splts (cons (/ b-splt (max .1 len-b)) splts))
@@ -183,49 +194,49 @@
;;(print 'cc cc) (print 'rr (fp:subarray RR (+ 1 len-b) 0))
;;(print (make-string (+ 7 (* 2 b-splt)) #\-) '^ (list b-splt))
(check-cost! 'CC est-c
- (diff2et fp CCRR
+ (diff2et fp fpoff CCRR
A start-a mid-a
B start-b (+ start-b b-splt)
- edits edx epo =?
+ edits edx epo
(quotient (- est-c (- b-splt (- mid-a start-a)))
2)))
(check-cost! 'RR est-r
- (diff2et fp CCRR
+ (diff2et fp fpoff CCRR
A mid-a end-a
B (+ start-b b-splt) end-b
- edits (+ est-c edx) epo =?
+ edits (+ est-c edx) epo
(quotient (- est-r (- (- len-b b-splt)
(- end-a mid-a)))
2)))
(+ est-c est-r))))
;;; Trim; then diff sub-arrays; either one longer. Returns edit-length
-(define (diff2et fp CCRR A start-a end-a B start-b end-b edits edx epo =? p-lim)
+(define (diff2et fp fpoff CCRR A start-a end-a B start-b end-b edits edx epo p-lim)
;; (if (< (- end-a start-a) p-lim) (slib:warn 'diff2et 'len-a (- end-a start-a) 'len-b (- end-b start-b) 'p-lim p-lim))
(do ((bdx (+ -1 end-b) (+ -1 bdx))
(adx (+ -1 end-a) (+ -1 adx)))
((not (and (<= start-b bdx)
(<= start-a adx)
- (=? (array-ref A adx) (array-ref B bdx))))
+ (eqv? (array-ref A adx) (array-ref B bdx))))
(do ((bsx start-b (+ 1 bsx))
(asx start-a (+ 1 asx)))
((not (and (< bsx bdx)
(< asx adx)
- (=? (array-ref A asx) (array-ref B bsx))))
+ (eqv? (array-ref A asx) (array-ref B bsx))))
;;(print 'trim-et (- asx start-a) '+ (- end-a adx))
(let ((delta (- (- bdx bsx) (- adx asx))))
(if (negative? delta)
- (diff2ez fp CCRR B bsx (+ 1 bdx) A asx (+ 1 adx)
- edits edx (- epo) =? (+ delta p-lim))
- (diff2ez fp CCRR A asx (+ 1 adx) B bsx (+ 1 bdx)
- edits edx epo =? p-lim))))
+ (diff2ez fp fpoff CCRR B bsx (+ 1 bdx) A asx (+ 1 adx)
+ edits edx (- epo) (+ delta p-lim))
+ (diff2ez fp fpoff CCRR A asx (+ 1 adx) B bsx (+ 1 bdx)
+ edits edx epo p-lim))))
;;(set! tick (+ 1 tick))
))
;;(set! tick (+ 1 tick))
))
;;; Diff sub-arrays, A not longer than B. Returns edit-length
-(define (diff2ez fp CCRR A start-a end-a B start-b end-b edits edx epo =? p-lim)
+(define (diff2ez fp fpoff CCRR A start-a end-a B start-b end-b edits edx epo p-lim)
(define len-a (- end-a start-a))
(define len-b (- end-b start-b))
;;(if (> len-a len-b) (slib:error 'diff2ez len-a '> len-b))
@@ -241,7 +252,7 @@
(edx edx (+ 1 edx)))
((>= idx end-b) (- len-b len-a))
(array-set! edits (* epo (+ 1 idx)) edx)))
- ((=? (array-ref A adx) (array-ref B bdx))
+ ((eqv? (array-ref A adx) (array-ref B bdx))
;;(set! tick (+ 1 tick))
(loop (+ 1 adx) (+ 1 bdx) edx))
(else (array-set! edits (* epo (+ 1 bdx)) edx)
@@ -250,65 +261,39 @@
((<= len-a p-lim) ; delete all A; insert all B
;;(if (< len-a p-lim) (slib:error 'diff2ez len-a len-b 'p-lim p-lim))
(do ((idx start-a (+ 1 idx))
- (edx edx (+ 1 edx)))
- ((>= idx end-a)
- (do ((jdx start-b (+ 1 jdx))
- (edx edx (+ 1 edx)))
- ((>= jdx end-b))
- (array-set! edits (* epo (+ 1 jdx)) edx)))
- (array-set! edits (* epo (- -1 idx)) edx))
- (+ len-a len-b))
+ (jdx start-b (+ 1 jdx)))
+ ((and (>= idx end-a) (>= jdx end-b)) (+ len-a len-b))
+ (cond ((< jdx end-b)
+ (array-set! edits (* epo (+ 1 jdx)) edx)
+ (set! edx (+ 1 edx))))
+ (cond ((< idx end-a)
+ (array-set! edits (* epo (- -1 idx)) edx)
+ (set! edx (+ 1 edx))))))
(else (diff:divide-and-conquer
- fp CCRR A start-a end-a B start-b end-b
- edits edx epo =? p-lim))))
+ fp fpoff CCRR A start-a end-a B start-b end-b
+ edits edx epo p-lim))))
-;;;Return new vector of edits in correct sequence
-(define (diff:order-edits edits cost sign)
- (if (negative? sign)
- (do ((idx (+ -1 cost) (+ -1 idx)))
- ((negative? idx))
- (array-set! edits (- (array-ref edits idx)) idx)))
- (if (zero? cost)
- edits
- (let ((sedits (sort! edits <))
- (nedits (create-array (As32) cost)))
- ;; Find -/+ boundary
- (define len-a (max 0 (- (array-ref sedits 0))))
- (define len-b (array-ref sedits (+ -1 cost)))
- (do ((idx 0 (+ 1 idx)))
- ((or (>= idx cost) (positive? (array-ref sedits idx)))
- (let loop ((ddx (+ -1 idx))
- (idx idx)
- (ndx 0)
- (adx 0)
- (bdx 0))
- (define del (if (negative? ddx) 0 (array-ref sedits ddx)))
- (define ins (if (>= idx cost) 0 (array-ref sedits idx)))
- (cond ((and (>= bdx len-b) (>= adx len-a)) nedits)
- ((and (negative? del) (>= adx (- -1 del))
- (positive? ins) (>= bdx (+ -1 ins)))
- (array-set! nedits del ndx)
- (array-set! nedits ins (+ 1 ndx))
- (loop (+ -1 ddx) (+ 1 idx) (+ 2 ndx)
- (+ 1 adx) (+ 1 bdx)))
- ((and (negative? del) (>= adx (- -1 del)))
- (array-set! nedits del ndx)
- (loop (+ -1 ddx) idx (+ 1 ndx) (+ 1 adx) bdx))
- ((and (positive? ins) (>= bdx (+ -1 ins)))
- (array-set! nedits ins ndx)
- (loop ddx (+ 1 idx) (+ 1 ndx) adx (+ 1 bdx)))
- (else
- (loop ddx idx ndx (+ 1 adx) (+ 1 bdx))))))))))
+(define (check-cost! name est cost)
+ (if (not (eqv? est cost))
+ (slib:warn name "cost check failed" est '!= cost)))
+
+;;;; Routines interfacing API layer to algorithms.
+
+(define (diff:invert-edits! edits)
+ (define cost (car (array-dimensions edits)))
+ (do ((idx (+ -1 cost) (+ -1 idx)))
+ ((negative? idx))
+ (array-set! edits (- (array-ref edits idx)) idx)))
;;; len-a < len-b
-(define (edits2lcs lcs edits cost A len-a len-b)
+(define (edits2lcs! lcs edits A)
+ (define cost (car (array-dimensions edits)))
+ (define len-a (car (array-dimensions A)))
(let loop ((edx 0)
(sdx 0)
(adx 0))
- (let ((edit (if (< edx cost)
- (array-ref edits edx)
- 0)))
- (cond ((>= adx len-a) lcs)
+ (let ((edit (if (< edx cost) (array-ref edits edx) 0)))
+ (cond ((>= adx len-a))
((positive? edit)
(loop (+ 1 edx) sdx adx))
((zero? edit)
@@ -321,67 +306,56 @@
(loop edx (+ 1 sdx) (+ 1 adx)))))))
;; A not longer than B (M <= N)
-(define (diff2edits A M B N =? p-lim)
- (define maxdx (if (negative? p-lim) (+ 2 N) (+ 1 p-lim (- N M))))
- (define mindx (if (negative? p-lim) (- (+ 1 M)) (- (+ 1 p-lim))))
- ;;(if (> M N) (slib:error 'diff2edits M '> N))
- (let ((fp (create-array (As32) (list mindx maxdx)))
- (CCRR (create-array (As32) (* 2 (+ N 1)))))
- (fp:init! fp -1 mindx maxdx)
- (let ((est (fp:compare fp #f A M B N =? p-lim)))
- (and est
- (let ((edits (create-array (As32) est)))
- (check-cost! 'diff2edits
- est
- (diff2et fp CCRR A 0 M B 0 N edits 0 1 =?
- (quotient (- est (- N M)) 2)))
- edits)))))
+(define (diff2edits! edits fp CCRR A B)
+ (define N (car (array-dimensions B)))
+ (define M (car (array-dimensions A)))
+ (define est (car (array-dimensions edits)))
+ (let ((p-lim (quotient (- est (- N M)) 2)))
+ (check-cost! 'diff2edits!
+ est
+ (diff2et fp (+ 1 p-lim)
+ CCRR A 0 M B 0 N edits 0 1 p-lim))))
;; A not longer than B (M <= N)
-(define (diff2editlen A M B N =? p-lim)
- (define maxdx (if (negative? p-lim) (+ 1 N) (+ 1 p-lim (- N M))))
- (define mindx (if (negative? p-lim) (- (+ 1 M)) (- (+ 1 p-lim))))
- (let ((fp (create-array (As32) (list mindx maxdx))))
- (fp:init! fp -1 mindx maxdx)
- (fp:compare fp #f A M B N =? p-lim)))
+(define (diff2editlen fp A B p-lim)
+ (define N (car (array-dimensions B)))
+ (define M (car (array-dimensions A)))
+ (let ((maxdx (if (negative? p-lim) (+ 1 N) (+ 1 p-lim (- N M))))
+ (mindx (if (negative? p-lim) (- (+ 1 M)) (- (+ 1 p-lim)))))
+ (fp:init! fp (- mindx) -1 mindx maxdx)
+ (fp:compare fp (- mindx) #f A M B N p-lim)))
-(define (check-cost! name est cost)
- (if (not (eqv? est cost))
- (slib:warn "%s: cost check failed %d != %d\\n" name est cost)))
+;;;; API
-;;@args array1 array2 =? p-lim
-;;@args array1 array2 =?
-;;@1 and @2 are one-dimensional arrays. The procedure @3 is used
-;;to compare sequence tokens for equality.
+;;@args array1 array2 p-lim
+;;@args array1 array2
+;;@1 and @2 are one-dimensional arrays.
;;
-;;The non-negative integer @4, if provided, is maximum number of
+;;The non-negative integer @3, if provided, is maximum number of
;;deletions of the shorter sequence to allow. @0 will return @code{#f}
;;if more deletions would be necessary.
;;
;;@0 returns a one-dimensional array of length @code{(quotient (- (+
;;len1 len2) (diff:edit-length @1 @2)) 2)} holding the longest sequence
;;common to both @var{array}s.
-(define (diff:longest-common-subsequence A B =? . p-lim)
- (define len-a (car (array-dimensions a)))
- (define len-b (car (array-dimensions b)))
+(define (diff:longest-common-subsequence A B . p-lim)
+ (define M (car (array-dimensions A)))
+ (define N (car (array-dimensions B)))
(set! p-lim (if (null? p-lim) -1 (car p-lim)))
- (let ((edits (if (< len-b len-a)
- (diff2edits B len-b A len-a =? p-lim)
- (diff2edits A len-a B len-b =? p-lim))))
+ (let ((edits (if (< N M)
+ (diff:edits B A p-lim)
+ (diff:edits A B p-lim))))
(and edits
(let* ((cost (car (array-dimensions edits)))
- (sedit (diff:order-edits edits cost (if (< len-b len-a) -1 1)))
- (lcs (create-array A (/ (- (+ len-b len-a) cost) 2))))
- (if (< len-b len-a)
- (edits2lcs lcs sedit cost B len-b len-a)
- (edits2lcs lcs sedit cost A len-a len-b))))))
+ (lcs (make-array A (/ (- (+ N M) cost) 2))))
+ (edits2lcs! lcs edits (if (< N M) B A))
+ lcs))))
-;;@args array1 array2 =? p-lim
-;;@args array1 array2 =?
-;;@1 and @2 are one-dimensional arrays. The procedure @3 is used
-;;to compare sequence tokens for equality.
+;;@args array1 array2 p-lim
+;;@args array1 array2
+;;@1 and @2 are one-dimensional arrays.
;;
-;;The non-negative integer @4, if provided, is maximum number of
+;;The non-negative integer @3, if provided, is maximum number of
;;deletions of the shorter sequence to allow. @0 will return @code{#f}
;;if more deletions would be necessary.
;;
@@ -395,44 +369,57 @@
;;@item @var{k} < 0
;;Deletes @code{(array-ref @2 (- -1 @var{k}))} from the sequence.
;;@end table
-(define (diff:edits A B =? . p-lim)
- (define len-a (car (array-dimensions a)))
- (define len-b (car (array-dimensions b)))
+(define (diff:edits A B . p-lim)
+ (define M (car (array-dimensions A)))
+ (define N (car (array-dimensions B)))
(set! p-lim (if (null? p-lim) -1 (car p-lim)))
- (let ((edits (if (< len-b len-a)
- (diff2edits B len-b A len-a =? p-lim)
- (diff2edits A len-a B len-b =? p-lim))))
- (and edits (diff:order-edits edits (car (array-dimensions edits))
- (if (< len-b len-a) -1 1)))))
+ (let ((fp (make-array (A:fixZ32b) (if (negative? p-lim)
+ (+ 3 M N)
+ (+ 3 (abs (- N M)) p-lim p-lim)))))
+ (define est (if (< N M)
+ (diff2editlen fp B A p-lim)
+ (diff2editlen fp A B p-lim)))
+ (and est
+ (let ((edits (make-array (A:fixZ32b) est))
+ (CCRR (make-array (A:fixZ32b) (* 2 (+ (max M N) 1)))))
+ (cond ((< N M)
+ (diff2edits! edits fp CCRR B A)
+ (diff:invert-edits! edits))
+ (else
+ (diff2edits! edits fp CCRR A B)))
+ ;;(diff:order-edits! edits est)
+ edits))))
-;;@args array1 array2 =? p-lim
-;;@args array1 array2 =?
-;;@1 and @2 are one-dimensional arrays. The procedure @3 is used
-;;to compare sequence tokens for equality.
+;;@args array1 array2 p-lim
+;;@args array1 array2
+;;@1 and @2 are one-dimensional arrays.
;;
-;;The non-negative integer @4, if provided, is maximum number of
+;;The non-negative integer @3, if provided, is maximum number of
;;deletions of the shorter sequence to allow. @0 will return @code{#f}
;;if more deletions would be necessary.
;;
;;@0 returns the length of the shortest sequence of edits transformaing
;;@1 to @2.
-(define (diff:edit-length A B =? . p-lim)
- (define M (car (array-dimensions a)))
- (define N (car (array-dimensions b)))
+(define (diff:edit-length A B . p-lim)
+ (define M (car (array-dimensions A)))
+ (define N (car (array-dimensions B)))
(set! p-lim (if (null? p-lim) -1 (car p-lim)))
- (if (< N M)
- (diff2editlen B N A M =? p-lim)
- (diff2editlen A M B N =? p-lim)))
+ (let ((fp (make-array (A:fixZ32b) (if (negative? p-lim)
+ (+ 3 M N)
+ (+ 3 (abs (- N M)) p-lim p-lim)))))
+ (if (< N M)
+ (diff2editlen fp B A p-lim)
+ (diff2editlen fp A B p-lim))))
;;@example
-;;(diff:longest-common-subsequence "fghiejcklm" "fgehijkpqrlm" eqv?)
+;;(diff:longest-common-subsequence "fghiejcklm" "fgehijkpqrlm")
;;@result{} "fghijklm"
;;
-;;(diff:edit-length "fghiejcklm" "fgehijkpqrlm" eqv?)
+;;(diff:edit-length "fghiejcklm" "fgehijkpqrlm")
;;@result{} 6
;;
-;;(diff:edits "fghiejcklm" "fgehijkpqrlm" eqv?)
-;;@result{} #As32(3 -5 -7 8 9 10)
+;;(diff:edits "fghiejcklm" "fgehijkpqrlm")
+;;@result{} #A:fixZ32b(3 -5 -7 8 9 10)
;; ; e c h p q r
;;@end example
diff --git a/differ.txi b/differ.txi
index c46fc2a..247b3fe 100644
--- a/differ.txi
+++ b/differ.txi
@@ -6,14 +6,14 @@
S. Wu, E. Myers, U. Manber, and W. Miller,
"An O(NP) Sequence Comparison Algorithm,"
Information Processing Letters 35, 6 (1990), 317-323.
- @url{http://www.cs.arizona.edu/people/gene/vita.html}
+ @url{http://www.cs.arizona.edu/people/gene/PAPERS/np_diff.ps}
@end example
@end ifinfo
@ifset html
S. Wu, <A HREF="http://www.cs.arizona.edu/people/gene/vita.html">
E. Myers,</A> U. Manber, and W. Miller,
<A HREF="http://www.cs.arizona.edu/people/gene/PAPERS/np_diff.ps">
-"An O(NP) Sequence Comparison Algorithm,"</A>
+"An O(NP) Sequence Comparison Algorithm"</A>,
Information Processing Letters 35, 6 (1990), 317-323.
@end ifset
@@ -22,12 +22,24 @@ The values returned by @code{diff:edit-length} can be used to gauge
the degree of match between two sequences.
@noindent
-Surprisingly, "An O(NP) Sequence Comparison Algorithm" does not
-derive the edit sequence; only the sequence length. Developing this
-linear-space sub-quadratic-time algorithm for computing the edit
-sequence required hundreds of hours of work. I have submitted a
-paper describing the algorithm to the Journal of Computational
-Biology.
+@code{diff:edits} and @code{diff:longest-common-subsequence} combine
+the algorithm with the divide-and-conquer method outlined in:
+
+@ifinfo
+@example
+E. Myers and W. Miller,
+ "Optimal alignments in linear space",
+ Computer Application in the Biosciences (CABIOS), 4(1):11-17, 1988.
+ @url{http://www.cs.arizona.edu/people/gene/PAPERS/linear.ps}
+@end example
+@end ifinfo
+@ifset html
+<A HREF="http://www.cs.arizona.edu/people/gene/vita.html">
+E. Myers,</A> and W. Miller,
+<A HREF="http://www.cs.arizona.edu/people/gene/PAPERS/linear.ps">
+"Optimal alignments in linear space"</A>,
+Computer Application in the Biosciences (CABIOS), 4(1):11-17, 1988.
+@end ifset
@noindent
If the items being sequenced are text lines, then the computed
@@ -38,12 +50,11 @@ lesser known @dfn{spiff} program.
@cindex spiff
-@defun diff:longest-common-subsequence array1 array2 =? p-lim
+@defun diff:longest-common-subsequence array1 array2 p-lim
-@defunx diff:longest-common-subsequence array1 array2 =?
-@var{array1} and @var{array2} are one-dimensional arrays. The procedure @var{=?} is used
-to compare sequence tokens for equality.
+@defunx diff:longest-common-subsequence array1 array2
+@var{array1} and @var{array2} are one-dimensional arrays.
The non-negative integer @var{p-lim}, if provided, is maximum number of
deletions of the shorter sequence to allow. @code{diff:longest-common-subsequence} will return @code{#f}
@@ -54,12 +65,12 @@ len1 len2) (diff:edit-length @var{array1} @var{array2})) 2)} holding the longest
common to both @var{array}s.
@end defun
-@defun diff:edits array1 array2 =? p-lim
+
+@defun diff:edits array1 array2 p-lim
-@defunx diff:edits array1 array2 =?
-@var{array1} and @var{array2} are one-dimensional arrays. The procedure @var{=?} is used
-to compare sequence tokens for equality.
+@defunx diff:edits array1 array2
+@var{array1} and @var{array2} are one-dimensional arrays.
The non-negative integer @var{p-lim}, if provided, is maximum number of
deletions of the shorter sequence to allow. @code{diff:edits} will return @code{#f}
@@ -77,12 +88,12 @@ Deletes @code{(array-ref @var{array2} (- -1 @var{k}))} from the sequence.
@end table
@end defun
-@defun diff:edit-length array1 array2 =? p-lim
+@defun diff:edit-length array1 array2 p-lim
-@defunx diff:edit-length array1 array2 =?
-@var{array1} and @var{array2} are one-dimensional arrays. The procedure @var{=?} is used
-to compare sequence tokens for equality.
+
+@defunx diff:edit-length array1 array2
+@var{array1} and @var{array2} are one-dimensional arrays.
The non-negative integer @var{p-lim}, if provided, is maximum number of
deletions of the shorter sequence to allow. @code{diff:edit-length} will return @code{#f}
@@ -91,15 +102,16 @@ if more deletions would be necessary.
@code{diff:edit-length} returns the length of the shortest sequence of edits transformaing
@var{array1} to @var{array2}.
@end defun
+
@example
-(diff:longest-common-subsequence "fghiejcklm" "fgehijkpqrlm" eqv?)
+(diff:longest-common-subsequence "fghiejcklm" "fgehijkpqrlm")
@result{} "fghijklm"
-(diff:edit-length "fghiejcklm" "fgehijkpqrlm" eqv?)
+(diff:edit-length "fghiejcklm" "fgehijkpqrlm")
@result{} 6
-(diff:edits "fghiejcklm" "fgehijkpqrlm" eqv?)
-@result{} #As32(3 -5 -7 8 9 10)
+(diff:edits "fghiejcklm" "fgehijkpqrlm")
+@result{} #A:fixZ32b(3 -5 -7 8 9 10)
; e c h p q r
@end example
diff --git a/dirs.txi b/dirs.txi
index 65d8b24..3542374 100644
--- a/dirs.txi
+++ b/dirs.txi
@@ -11,12 +11,14 @@ cannot be obtained, #f is returned.
If @code{current-directory} cannot be supported by the platform, then #f is returned.
@end defun
+
@defun make-directory name
Creates a sub-directory @var{name} of the current-directory. If
successful, @code{make-directory} returns #t; otherwise #f.
@end defun
+
@defun directory-for-each proc directory
@var{proc} must be a procedure taking one argument.
@@ -44,3 +46,4 @@ Applies @var{proc} only to those filenames for which
"Template.scm"
@end example
@end defun
+
diff --git a/elk.init b/elk.init
index 13fde42..f495e5c 100644
--- a/elk.init
+++ b/elk.init
@@ -37,7 +37,7 @@
;;; implementation reside.
(define (implementation-vicinity)
(case (software-type)
- ((UNIX) "/usr/local/lib/elk/runtime/scm/")
+ ((UNIX) "/usr/share/elk/")
((VMS) "scheme$src:")
((MS-DOS) "C:\\scheme\\")))
@@ -70,75 +70,149 @@
home
(string-append home "/")))
(else home)))))
+;@
+(define in-vicinity string-append)
+;@
+(define (user-vicinity)
+ (case (software-type)
+ ((VMS) "[.]")
+ (else "")))
-;;; *features* should be set to a list of symbols describing features
-;;; of this implementation. Suggestions for features are:
+(define *load-pathname* #f)
+;@
+(define vicinity:suffix?
+ (let ((suffi
+ (case (software-type)
+ ((AMIGA) '(#\: #\/))
+ ((MACOS THINKC) '(#\:))
+ ((MS-DOS WINDOWS ATARIST OS/2) '(#\\ #\/))
+ ((NOSVE) '(#\: #\.))
+ ((UNIX COHERENT PLAN9) '(#\/))
+ ((VMS) '(#\: #\]))
+ (else
+ (slib:warn "require.scm" 'unknown 'software-type (software-type))
+ "/"))))
+ (lambda (chr) (and (memv chr suffi) #t))))
+;@
+(define (pathname->vicinity pathname)
+ (let loop ((i (- (string-length pathname) 1)))
+ (cond ((negative? i) "")
+ ((vicinity:suffix? (string-ref pathname i))
+ (substring pathname 0 (+ i 1)))
+ (else (loop (- i 1))))))
+(define (program-vicinity)
+ (if *load-pathname*
+ (pathname->vicinity *load-pathname*)
+ (slib:error 'program-vicinity " called; use slib:load to load")))
+;@
+(define sub-vicinity
+ (case (software-type)
+ ((VMS) (lambda
+ (vic name)
+ (let ((l (string-length vic)))
+ (if (or (zero? (string-length vic))
+ (not (char=? #\] (string-ref vic (- l 1)))))
+ (string-append vic "[" name "]")
+ (string-append (substring vic 0 (- l 1))
+ "." name "]")))))
+ (else (let ((*vicinity-suffix*
+ (case (software-type)
+ ((NOSVE) ".")
+ ((MACOS THINKC) ":")
+ ((MS-DOS WINDOWS ATARIST OS/2) "\\")
+ ((UNIX COHERENT PLAN9 AMIGA) "/"))))
+ (lambda (vic name)
+ (string-append vic name *vicinity-suffix*))))))
+;@
+(define (make-vicinity <pathname>) <pathname>)
+;@
+(define with-load-pathname
+ (let ((exchange
+ (lambda (new)
+ (let ((old *load-pathname*))
+ (set! *load-pathname* new)
+ old))))
+ (lambda (path thunk)
+ (let* ((old (exchange path))
+ (val (thunk)))
+ (exchange old)
+ val))))
+
+;;@ *FEATURES* is a list of symbols naming the (SLIB) features
+;;; initially supported by this implementation.
(define *features*
'(
source ;can load scheme source files
- ;(slib:load-source "filename")
+ ;(SLIB:LOAD-SOURCE "filename")
compiled ;can load compiled files
- ;(slib:load-compiled "filename")
+ ;(SLIB:LOAD-COMPILED "filename")
+ vicinity
+ srfi-59
;; Scheme report features
+ ;; R5RS-compliant implementations should provide all 9 features.
-; r5rs ;conforms to
-; eval ;R5RS two-argument eval
-; values ;R5RS multiple values
-; dynamic-wind ;R5RS dynamic-wind
-; macro ;R5RS high level macros
+;;; r5rs ;conforms to
+;;; eval ;R5RS two-argument eval
+;;; values ;R5RS multiple values
+;;; dynamic-wind ;R5RS dynamic-wind
+;;; macro ;R5RS high level macros
delay ;has DELAY and FORCE
multiarg-apply ;APPLY can take more than 2 args.
-; char-ready?
-; rationalize
- rev4-optional-procedures ;LIST-TAIL, STRING->LIST,
- ;LIST->STRING, STRING-COPY,
- ;STRING-FILL!, LIST->VECTOR,
- ;VECTOR->LIST, and VECTOR-FILL!
+;;; char-ready?
+ rev4-optional-procedures ;LIST-TAIL, STRING-COPY,
+ ;STRING-FILL!, and VECTOR-FILL!
+
+ ;; These four features are optional in both R4RS and R5RS
+
+ multiarg/and- ;/ and - can take more than 2 args.
+;;; rationalize
+ transcript ;TRANSCRIPT-ON and TRANSCRIPT-OFF
+;;; with-file ;has WITH-INPUT-FROM-FILE and
+ ;WITH-OUTPUT-TO-FILE
r4rs ;conforms to
ieee-p1178 ;conforms to
-; r3rs ;conforms to
+;;; r3rs ;conforms to
rev2-procedures ;SUBSTRING-MOVE-LEFT!,
;SUBSTRING-MOVE-RIGHT!,
;SUBSTRING-FILL!,
;STRING-NULL?, APPEND!, 1+,
;-1+, <?, <=?, =?, >?, >=?
-; object-hash ;has OBJECT-HASH
+;;; object-hash ;has OBJECT-HASH
- multiarg/and- ;/ and - can take more than 2 args.
-; with-file ;has WITH-INPUT-FROM-FILE and
- ;WITH-OUTPUT-TO-FILE
- transcript ;TRANSCRIPT-ON and TRANSCRIPT-OFF
-; ieee-floating-point ;conforms to IEEE Standard 754-1985
+ full-continuation ;can return multiple times
+;;; ieee-floating-point ;conforms to IEEE Standard 754-1985
;IEEE Standard for Binary
;Floating-Point Arithmetic.
- full-continuation ;can return multiple times
;; Other common features
-; srfi ;srfi-0, COND-EXPAND finds all srfi-*
+;;; srfi ;srfi-0, COND-EXPAND finds all srfi-*
sicp ;runs code from Structure and
;Interpretation of Computer
;Programs by Abelson and Sussman.
-; defmacro ;has Common Lisp DEFMACRO
-; record ;has user defined data structures
+;;; defmacro ;has Common Lisp DEFMACRO
+;;; record ;has user defined data structures
string-port ;has CALL-WITH-INPUT-STRING and
;CALL-WITH-OUTPUT-STRING
sort
-; pretty-print
-; object->string
+;;; pretty-print
+;;; object->string
format ;Common-lisp output formatting
-; trace ;has macros: TRACE and UNTRACE
-; compiler ;has (COMPILER)
-; ed ;(ED) is editor
+;;; trace ;has macros: TRACE and UNTRACE
+;;; compiler ;has (COMPILER)
+;;; ed ;(ED) is editor
system ;posix (system <string>)
getenv ;posix (getenv <string>)
program-arguments ;returns list of strings (argv)
-; current-time ;returns time in seconds since 1/1/1970
+;;; current-time ;returns time in seconds since 1/1/1970
+
+ ;; Implementation Specific features
+
))
;------------
@@ -278,18 +352,7 @@
;;; If your implementation provides R4RS macros:
;(define macro:eval slib:eval)
;(define macro:load load)
-
-(define (slib:eval-load <pathname> evl)
- (if (not (file-exists? <pathname>))
- (set! <pathname> (string-append <pathname> (scheme-file-suffix))))
- (call-with-input-file <pathname>
- (lambda (port)
- (let ((old-load-pathname *load-pathname*))
- (set! *load-pathname* <pathname>)
- (do ((o (read port) (read port)))
- ((eof-object? o))
- (evl o))
- (set! *load-pathname* old-load-pathname)))))
+;; slib:eval-load definition moved to "require.scm"
(define slib:warn
(lambda args
@@ -325,10 +388,8 @@
;(define (-1+ n) (+ n -1))
;(define 1- -1+)
-(define in-vicinity string-append)
-
;;; Define SLIB:EXIT to be the implementation procedure to exit or
-;;; return if exitting not supported.
+;;; return if exiting not supported.
(define slib:exit
(lambda args
(exit (cond ((null? args) 0)
@@ -355,7 +416,8 @@
(let ((primitive-load load))
(lambda (<pathname> . rest)
(let ((env (if (null? rest) (list (global-environment)) rest)))
- (apply primitive-load <pathname> env)))))
+ (apply primitive-load (string-append <pathname> (scheme-file-suffix))
+ env)))))
;;; (SLIB:LOAD-COMPILED "foo") should load the file that was produced
;;; by compiling "foo.scm" if this implementation can compile files.
diff --git a/eval.scm b/eval.scm
index ae716f6..1d8fb78 100644
--- a/eval.scm
+++ b/eval.scm
@@ -1,5 +1,5 @@
; "eval.scm", Eval proposed by Guillermo (Bill) J. Rozas for R5RS.
-; Copyright (c) 1997, 1998 Aubrey Jaffer
+; Copyright (C) 1997, 1998 Aubrey Jaffer
;
;Permission to copy this software, to modify it, to redistribute it,
;to distribute modified versions, and to use it for any purpose is
diff --git a/factor.txi b/factor.txi
index 38c0dd1..90569ea 100644
--- a/factor.txi
+++ b/factor.txi
@@ -22,6 +22,7 @@ Returns the value (+1, @minus{}1, or 0) of the Jacobi-Symbol of
exact non-negative integer @var{p} and exact positive odd integer @var{q}.
@end defun
+
@defvar prime:trials
@var{prime:trials} the maxinum number of iterations of Solovay-Strassen that will
@@ -35,6 +36,7 @@ There is a slight chance @code{(expt 2 (- prime:trials))} that a
composite will return @code{#t}.
@end defun
+
@defun primes< start count
Returns a list of the first @var{count} prime numbers less than
@@ -43,14 +45,17 @@ less than @var{start}, then the returned list will have fewer than
@var{start} elements.
@end defun
+
@defun primes> start count
Returns a list of the first @var{count} prime numbers greater than @var{start}.
@end defun
+
@defun factor k
Returns a list of the prime factors of @var{k}. The order of the
factors is unspecified. In order to obtain a sorted list do
@code{(sort! (factor @var{k}) <)}.
@end defun
+
diff --git a/fft.scm b/fft.scm
index 2257e30..feefec8 100644
--- a/fft.scm
+++ b/fft.scm
@@ -39,7 +39,7 @@
(slib:error 'fft "array length not power of 2" n))
(do ((k 0 (+ 1 k)))
((>= k n) new)
- (array-set! new (* (array-ref ara k) scale) (bit-reverse lgn k))))
+ (array-set! new (* (array-ref ara k) scale) (reverse-bit-field k 0 lgn))))
(define (dft! ara n dir)
(define lgn (integer-length (+ -1 n)))
@@ -66,7 +66,7 @@
;;@dfn{Discrete Fourier Transform} of @var{array}.
(define (fft ara)
(define n (car (array-dimensions ara)))
- (define new (apply create-array ara (array-dimensions ara)))
+ (define new (apply make-array ara (array-dimensions ara)))
(dft! (fft:shuffle&scale new ara n 1) n 1))
;;@args array
@@ -74,7 +74,7 @@
;;inverse Discrete Fourier Transform of @var{array}.
(define (fft-1 ara)
(define n (car (array-dimensions ara)))
- (define new (apply create-array ara (array-dimensions ara)))
+ (define new (apply make-array ara (array-dimensions ara)))
(dft! (fft:shuffle&scale new ara n (/ n)) n -1))
;;@noindent
diff --git a/fft.txi b/fft.txi
index c73f103..80c19e9 100644
--- a/fft.txi
+++ b/fft.txi
@@ -10,11 +10,13 @@ returns an array of complex numbers comprising the
@cindex Discrete Fourier Transform
@end defun
+
@defun fft-1 array
@code{fft-1} returns an array of complex numbers comprising the
inverse Discrete Fourier Transform of @var{array}.
@end defun
+
@noindent
@code{(fft-1 (fft @var{array}))} will return an array of values close to
@var{array}.
diff --git a/fluidlet.scm b/fluidlet.scm
index 06d4630..3b862c1 100644
--- a/fluidlet.scm
+++ b/fluidlet.scm
@@ -1,5 +1,5 @@
; "fluidlet.scm", FLUID-LET for Scheme
-; Copyright (c) 1998 Aubrey Jaffer
+; Copyright (C) 1998 Aubrey Jaffer
;
;Permission to copy this software, to modify it, to redistribute it,
;to distribute modified versions, and to use it for any purpose is
diff --git a/format.scm b/format.scm
index c9e1d12..19c0dc5 100644
--- a/format.scm
+++ b/format.scm
@@ -1,5 +1,6 @@
;;; "format.scm" Common LISP text output formatter for SLIB
; Written 1992-1994 by Dirk Lutzebaeck (lutzeb@cs.tu-berlin.de)
+; 2004 Aubrey Jaffer: made reentrant; call slib:error for errors.
;
; This code is in the public domain.
@@ -10,11 +11,11 @@
;
; Version 3.0
-(provide 'format)
(require 'string-case)
(require 'string-port)
(require 'multiarg/and-)
(require 'rev4-optional-procedures)
+(require-if 'compiling 'pretty-print)
;;; Configuration ------------------------------------------------------------
@@ -53,746 +54,1441 @@
"dle" "dc1" "dc2" "dc3" "dc4" "nak" "syn" "etb"
"can" "em" "sub" "esc" "fs" "gs" "rs" "us" "space"))
+(define format:fn-max 200) ; max. number of number digits
+(define format:en-max 10) ; max. number of exponent digits
+
;;; End of configuration ----------------------------------------------------
-(define format:version "3.0")
-(define format:port #f) ; curr. format output port
-(define format:output-col 0) ; curr. format output tty column
-(define format:flush-output #f) ; flush output at end of formatting
-(define format:case-conversion #f)
-(define format:error-continuation #f)
-(define format:args #f)
-(define format:pos 0) ; curr. format string parsing position
-(define format:arg-pos 0) ; curr. format argument position
- ; this is global for error presentation
-
-; format string and char output routines on format:port
-
-(define (format:out-str str)
- (if format:case-conversion
- (display (format:case-conversion str) format:port)
- (display str format:port))
- (set! format:output-col
- (+ format:output-col (string-length str))))
-
-(define (format:out-char ch)
- (if format:case-conversion
- (display (format:case-conversion (string ch)) format:port)
+(define format:version "3.1")
+
+(define format:space-ch (char->integer #\space))
+(define format:zero-ch (char->integer #\0))
+
+(define format:parameter-characters
+ '(#\0 #\1 #\2 #\3 #\4 #\5 #\6 #\7 #\8 #\9 #\- #\+ #\v #\# #\'))
+
+;; cardinals & ordinals (from dorai@cs.rice.edu)
+
+(define format:cardinal-thousand-block-list
+ '("" " thousand" " million" " billion" " trillion" " quadrillion"
+ " quintillion" " sextillion" " septillion" " octillion" " nonillion"
+ " decillion" " undecillion" " duodecillion" " tredecillion"
+ " quattuordecillion" " quindecillion" " sexdecillion" " septendecillion"
+ " octodecillion" " novemdecillion" " vigintillion"))
+
+(define format:cardinal-ones-list
+ '(#f "one" "two" "three" "four" "five"
+ "six" "seven" "eight" "nine" "ten" "eleven" "twelve" "thirteen"
+ "fourteen" "fifteen" "sixteen" "seventeen" "eighteen"
+ "nineteen"))
+
+(define format:cardinal-tens-list
+ '(#f #f "twenty" "thirty" "forty" "fifty" "sixty" "seventy" "eighty"
+ "ninety"))
+
+(define format:ordinal-ones-list
+ '(#f "first" "second" "third" "fourth" "fifth"
+ "sixth" "seventh" "eighth" "ninth" "tenth" "eleventh" "twelfth"
+ "thirteenth" "fourteenth" "fifteenth" "sixteenth" "seventeenth"
+ "eighteenth" "nineteenth"))
+
+(define format:ordinal-tens-list
+ '(#f #f "twentieth" "thirtieth" "fortieth" "fiftieth" "sixtieth"
+ "seventieth" "eightieth" "ninetieth"))
+
+;; roman numerals (from dorai@cs.rice.edu).
+
+(define format:roman-alist
+ '((1000 #\M) (500 #\D) (100 #\C) (50 #\L)
+ (10 #\X) (5 #\V) (1 #\I)))
+
+(define format:roman-boundary-values
+ '(100 100 10 10 1 1 #f))
+
+;@
+(define (format . args)
+ (define format:port #f) ; curr. format output port
+ (define format:output-col 0) ; curr. format output tty column
+ (define format:flush-output #f) ; flush output at end of formatting
+ (define format:case-conversion #f)
+ (define format:pos 0) ; curr. format string parsing position
+
+ ;; format string and char output routines on format:port
+
+ (define (format:out-str str)
+ (if format:case-conversion
+ (display (format:case-conversion str) format:port)
+ (display str format:port))
+ (set! format:output-col
+ (+ format:output-col (string-length str))))
+
+ (define (format:out-char ch)
+ (if format:case-conversion
+ (display (format:case-conversion (string ch)) format:port)
+ (write-char ch format:port))
+ (set! format:output-col
+ (if (char=? ch #\newline)
+ 0
+ (+ format:output-col 1))))
+
+ ;;(define (format:out-substr str i n) ; this allocates a new string
+ ;; (display (substring str i n) format:port)
+ ;; (set! format:output-col (+ format:output-col n)))
+
+ (define (format:out-substr str i n)
+ (do ((k i (+ k 1)))
+ ((= k n))
+ (write-char (string-ref str k) format:port))
+ (set! format:output-col (+ format:output-col n)))
+
+ ;;(define (format:out-fill n ch) ; this allocates a new string
+ ;; (format:out-str (make-string n ch)))
+
+ (define (format:out-fill n ch)
+ (do ((i 0 (+ i 1)))
+ ((= i n))
(write-char ch format:port))
- (set! format:output-col
- (if (char=? ch #\newline)
- 0
- (+ format:output-col 1))))
-
-;(define (format:out-substr str i n) ; this allocates a new string
-; (display (substring str i n) format:port)
-; (set! format:output-col (+ format:output-col n)))
-
-(define (format:out-substr str i n)
- (do ((k i (+ k 1)))
- ((= k n))
- (write-char (string-ref str k) format:port))
- (set! format:output-col (+ format:output-col n)))
-
-;(define (format:out-fill n ch) ; this allocates a new string
-; (format:out-str (make-string n ch)))
-
-(define (format:out-fill n ch)
- (do ((i 0 (+ i 1)))
- ((= i n))
- (write-char ch format:port))
- (set! format:output-col (+ format:output-col n)))
-
-; format's user error handler
-
-(define (format:error . args) ; never returns!
- (let ((error-continuation format:error-continuation)
- (format-args format:args)
- (port (current-error-port)))
- (set! format:error format:intern-error)
- (if (and (>= (length format:args) 2)
- (string? (cadr format:args)))
- (let ((format-string (cadr format-args)))
- (if (not (zero? format:arg-pos))
- (set! format:arg-pos (- format:arg-pos 1)))
- (format port "~%FORMAT: error with call: (format ~a \"~a<===~a\" ~
- ~{~a ~}===>~{~a ~})~% "
- (car format:args)
- (substring format-string 0 format:pos)
- (substring format-string format:pos
- (string-length format-string))
- (format:list-head (cddr format:args) format:arg-pos)
- (list-tail (cddr format:args) format:arg-pos)))
- (format port
- "~%FORMAT: error with call: (format~{ ~a~})~% "
- format:args))
- (apply format port args)
- (newline port)
- (set! format:error format:error-save)
- (set! format:error-continuation error-continuation)
- (format:abort)
- (format:intern-error "format:abort does not jump to toplevel!")))
-
-(define format:error-save format:error)
-
-(define (format:intern-error . args) ;if something goes wrong in format:error
- (display "FORMAT: INTERNAL ERROR IN FORMAT:ERROR!") (newline)
- (display " format args: ") (write format:args) (newline)
- (display " error args: ") (write args) (newline)
- (set! format:error format:error-save)
- (format:abort))
-
-(define (format:format . args) ; the formatter entry
- (set! format:args args)
- (set! format:arg-pos 0)
- (set! format:pos 0)
- (if (< (length args) 1)
- (format:error "not enough arguments"))
+ (set! format:output-col (+ format:output-col n)))
+
+ (define (format:out-obj-padded pad-left obj slashify pars format:read-proof)
+ (if (null? pars)
+ (format:out-str (format:obj->str obj slashify format:read-proof))
+ (let ((l (length pars)))
+ (let ((mincol (format:par pars l 0 0 "mincol"))
+ (colinc (format:par pars l 1 1 "colinc"))
+ (minpad (format:par pars l 2 0 "minpad"))
+ (padchar (integer->char
+ (format:par pars l 3 format:space-ch #f)))
+ (objstr (format:obj->str obj slashify format:read-proof)))
+ (if (not pad-left)
+ (format:out-str objstr))
+ (do ((objstr-len (string-length objstr))
+ (i minpad (+ i colinc)))
+ ((>= (+ objstr-len i) mincol)
+ (format:out-fill i padchar)))
+ (if pad-left
+ (format:out-str objstr))))))
+
+ (define (format:out-num-padded modifier number pars radix)
+ (if (not (integer? number))
+ (slib:error 'format "argument not an integer" number))
+ (let ((numstr (number->string number radix)))
+ (if (and format:radix-pref (not (= radix 10)))
+ (set! numstr (substring numstr 2 (string-length numstr))))
+ (if (and (null? pars) (not modifier))
+ (format:out-str numstr)
+ (let ((l (length pars))
+ (numstr-len (string-length numstr)))
+ (let ((mincol (format:par pars l 0 #f "mincol"))
+ (padchar (integer->char
+ (format:par pars l 1 format:space-ch #f)))
+ (commachar (integer->char
+ (format:par pars l 2 (char->integer #\,) #f)))
+ (commawidth (format:par pars l 3 3 "commawidth")))
+ (if mincol
+ (let ((numlen numstr-len)) ; calc. the output len of number
+ (if (and (memq modifier '(at colon-at)) (> number 0))
+ (set! numlen (+ numlen 1)))
+ (if (memq modifier '(colon colon-at))
+ (set! numlen (+ (quotient (- numstr-len
+ (if (< number 0) 2 1))
+ commawidth)
+ numlen)))
+ (if (> mincol numlen)
+ (format:out-fill (- mincol numlen) padchar))))
+ (if (and (memq modifier '(at colon-at))
+ (> number 0))
+ (format:out-char #\+))
+ (if (memq modifier '(colon colon-at)) ; insert comma character
+ (let ((start (remainder numstr-len commawidth))
+ (ns (if (< number 0) 1 0)))
+ (format:out-substr numstr 0 start)
+ (do ((i start (+ i commawidth)))
+ ((>= i numstr-len))
+ (if (> i ns)
+ (format:out-char commachar))
+ (format:out-substr numstr i (+ i commawidth))))
+ (format:out-str numstr)))))))
+
+ (define (format:tabulate modifier pars)
+ (let ((l (length pars)))
+ (let ((colnum (format:par pars l 0 1 "colnum"))
+ (colinc (format:par pars l 1 1 "colinc"))
+ (padch (integer->char (format:par pars l 2 format:space-ch #f))))
+ (case modifier
+ ((colon colon-at)
+ (slib:error 'format "unsupported modifier for ~~t" modifier))
+ ((at) ; relative tabulation
+ (format:out-fill
+ (if (= colinc 0)
+ colnum ; colnum = colrel
+ (do ((c 0 (+ c colinc))
+ (col (+ format:output-col colnum)))
+ ((>= c col)
+ (- c format:output-col))))
+ padch))
+ (else ; absolute tabulation
+ (format:out-fill
+ (cond
+ ((< format:output-col colnum)
+ (- colnum format:output-col))
+ ((= colinc 0)
+ 0)
+ (else
+ (do ((c colnum (+ c colinc)))
+ ((>= c format:output-col)
+ (- c format:output-col)))))
+ padch))))))
+
+
+ (define format:num->old-roman
+ (lambda (n)
+ (if (and (integer? n) (>= n 1))
+ (let loop ((n n)
+ (romans format:roman-alist)
+ (s '()))
+ (if (null? romans) (list->string (reverse s))
+ (let ((roman-val (caar romans))
+ (roman-dgt (cadar romans)))
+ (do ((q (quotient n roman-val) (- q 1))
+ (s s (cons roman-dgt s)))
+ ((= q 0)
+ (loop (remainder n roman-val)
+ (cdr romans) s))))))
+ (slib:error 'format "only positive integers can be romanized"))))
+
+ (define format:num->roman
+ (lambda (n)
+ (if (and (integer? n) (> n 0))
+ (let loop ((n n)
+ (romans format:roman-alist)
+ (boundaries format:roman-boundary-values)
+ (s '()))
+ (if (null? romans)
+ (list->string (reverse s))
+ (let ((roman-val (caar romans))
+ (roman-dgt (cadar romans))
+ (bdry (car boundaries)))
+ (let loop2 ((q (quotient n roman-val))
+ (r (remainder n roman-val))
+ (s s))
+ (if (= q 0)
+ (if (and bdry (>= r (- roman-val bdry)))
+ (loop (remainder r bdry) (cdr romans)
+ (cdr boundaries)
+ (cons roman-dgt
+ (append
+ (cdr (assv bdry romans))
+ s)))
+ (loop r (cdr romans) (cdr boundaries) s))
+ (loop2 (- q 1) r (cons roman-dgt s)))))))
+ (slib:error 'format "only positive integers can be romanized"))))
+
+ (define format:num->cardinal999
+ (lambda (n)
+ ;;this procedure is inspired by the Bruno Haible's CLisp
+ ;;function format-small-cardinal, which converts numbers
+ ;;in the range 1 to 999, and is used for converting each
+ ;;thousand-block in a larger number
+ (let* ((hundreds (quotient n 100))
+ (tens+ones (remainder n 100))
+ (tens (quotient tens+ones 10))
+ (ones (remainder tens+ones 10)))
+ (append
+ (if (> hundreds 0)
+ (append
+ (string->list
+ (list-ref format:cardinal-ones-list hundreds))
+ (string->list" hundred")
+ (if (> tens+ones 0) '(#\space) '()))
+ '())
+ (if (< tens+ones 20)
+ (if (> tens+ones 0)
+ (string->list
+ (list-ref format:cardinal-ones-list tens+ones))
+ '())
+ (append
+ (string->list
+ (list-ref format:cardinal-tens-list tens))
+ (if (> ones 0)
+ (cons #\-
+ (string->list
+ (list-ref format:cardinal-ones-list ones)))
+ '())))))))
+
+ (define format:num->cardinal
+ (lambda (n)
+ (cond ((not (integer? n))
+ (slib:error 'format
+ "only integers can be converted to English cardinals"))
+ ((= n 0) "zero")
+ ((< n 0) (string-append "minus " (format:num->cardinal (- n))))
+ (else
+ (let ((power3-word-limit
+ (length format:cardinal-thousand-block-list)))
+ (let loop ((n n)
+ (power3 0)
+ (s '()))
+ (if (= n 0)
+ (list->string s)
+ (let ((n-before-block (quotient n 1000))
+ (n-after-block (remainder n 1000)))
+ (loop n-before-block
+ (+ power3 1)
+ (if (> n-after-block 0)
+ (append
+ (if (> n-before-block 0)
+ (string->list ", ") '())
+ (format:num->cardinal999 n-after-block)
+ (if (< power3 power3-word-limit)
+ (string->list
+ (list-ref
+ format:cardinal-thousand-block-list
+ power3))
+ (append
+ (string->list " times ten to the ")
+ (string->list
+ (format:num->ordinal
+ (* power3 3)))
+ (string->list " power")))
+ s)
+ s))))))))))
+
+ (define format:num->ordinal
+ (lambda (n)
+ (cond ((not (integer? n))
+ (slib:error 'format
+ "only integers can be converted to English ordinals"))
+ ((= n 0) "zeroth")
+ ((< n 0) (string-append "minus " (format:num->ordinal (- n))))
+ (else
+ (let ((hundreds (quotient n 100))
+ (tens+ones (remainder n 100)))
+ (string-append
+ (if (> hundreds 0)
+ (string-append
+ (format:num->cardinal (* hundreds 100))
+ (if (= tens+ones 0) "th" " "))
+ "")
+ (if (= tens+ones 0) ""
+ (if (< tens+ones 20)
+ (list-ref format:ordinal-ones-list tens+ones)
+ (let ((tens (quotient tens+ones 10))
+ (ones (remainder tens+ones 10)))
+ (if (= ones 0)
+ (list-ref format:ordinal-tens-list tens)
+ (string-append
+ (list-ref format:cardinal-tens-list tens)
+ "-"
+ (list-ref format:ordinal-ones-list ones))))
+ ))))))))
+
+ ;; format fixed flonums (~F)
+
+ (define (format:out-fixed modifier number pars)
+ (if (not (or (number? number) (string? number)))
+ (slib:error 'format "argument is not a number or a number string"
+ number))
+
+ (let ((l (length pars)))
+ (let ((width (format:par pars l 0 #f "width"))
+ (digits (format:par pars l 1 #f "digits"))
+ (scale (format:par pars l 2 0 #f))
+ (overch (format:par pars l 3 #f #f))
+ (padch (format:par pars l 4 format:space-ch #f)))
+
+ (if digits
+
+ (begin ; fixed precision
+ (format:parse-float
+ (if (string? number) number (number->string number)) #t scale)
+ (if (<= (- format:fn-len format:fn-dot) digits)
+ (format:fn-zfill #f (- digits (- format:fn-len format:fn-dot)))
+ (format:fn-round digits))
+ (if width
+ (let ((numlen (+ format:fn-len 1)))
+ (if (or (not format:fn-pos?) (eq? modifier 'at))
+ (set! numlen (+ numlen 1)))
+ (if (and (= format:fn-dot 0) (> width (+ digits 1)))
+ (set! numlen (+ numlen 1)))
+ (if (< numlen width)
+ (format:out-fill (- width numlen) (integer->char padch)))
+ (if (and overch (> numlen width))
+ (format:out-fill width (integer->char overch))
+ (format:fn-out modifier (> width (+ digits 1)))))
+ (format:fn-out modifier #t)))
+
+ (begin ; free precision
+ (format:parse-float
+ (if (string? number) number (number->string number)) #t scale)
+ (format:fn-strip)
+ (if width
+ (let ((numlen (+ format:fn-len 1)))
+ (if (or (not format:fn-pos?) (eq? modifier 'at))
+ (set! numlen (+ numlen 1)))
+ (if (= format:fn-dot 0)
+ (set! numlen (+ numlen 1)))
+ (if (< numlen width)
+ (format:out-fill (- width numlen) (integer->char padch)))
+ (if (> numlen width) ; adjust precision if possible
+ (let ((dot-index (- numlen
+ (- format:fn-len format:fn-dot))))
+ (if (> dot-index width)
+ (if overch ; numstr too big for required width
+ (format:out-fill width (integer->char overch))
+ (format:fn-out modifier #t))
+ (begin
+ (format:fn-round (- width dot-index))
+ (format:fn-out modifier #t))))
+ (format:fn-out modifier #t)))
+ (format:fn-out modifier #t)))))))
+
+ ;; format exponential flonums (~E)
+
+ (define (format:out-expon modifier number pars)
+ (if (not (or (number? number) (string? number)))
+ (slib:error 'format "argument is not a number" number))
+
+ (let ((l (length pars)))
+ (let ((width (format:par pars l 0 #f "width"))
+ (digits (format:par pars l 1 #f "digits"))
+ (edigits (format:par pars l 2 #f "exponent digits"))
+ (scale (format:par pars l 3 1 #f))
+ (overch (format:par pars l 4 #f #f))
+ (padch (format:par pars l 5 format:space-ch #f))
+ (expch (format:par pars l 6 #f #f)))
+
+ (if digits ; fixed precision
+
+ (let ((digits (if (> scale 0)
+ (if (< scale (+ digits 2))
+ (+ (- digits scale) 1)
+ 0)
+ digits)))
+ (format:parse-float
+ (if (string? number) number (number->string number)) #f scale)
+ (if (<= (- format:fn-len format:fn-dot) digits)
+ (format:fn-zfill #f (- digits (- format:fn-len format:fn-dot)))
+ (format:fn-round digits))
+ (if width
+ (if (and edigits overch (> format:en-len edigits))
+ (format:out-fill width (integer->char overch))
+ (let ((numlen (+ format:fn-len 3))) ; .E+
+ (if (or (not format:fn-pos?) (eq? modifier 'at))
+ (set! numlen (+ numlen 1)))
+ (if (and (= format:fn-dot 0) (> width (+ digits 1)))
+ (set! numlen (+ numlen 1)))
+ (set! numlen
+ (+ numlen
+ (if (and edigits (>= edigits format:en-len))
+ edigits
+ format:en-len)))
+ (if (< numlen width)
+ (format:out-fill (- width numlen)
+ (integer->char padch)))
+ (if (and overch (> numlen width))
+ (format:out-fill width (integer->char overch))
+ (begin
+ (format:fn-out modifier (> width (- numlen 1)))
+ (format:en-out edigits expch)))))
+ (begin
+ (format:fn-out modifier #t)
+ (format:en-out edigits expch))))
+
+ (begin ; free precision
+ (format:parse-float
+ (if (string? number) number (number->string number)) #f scale)
+ (format:fn-strip)
+ (if width
+ (if (and edigits overch (> format:en-len edigits))
+ (format:out-fill width (integer->char overch))
+ (let ((numlen (+ format:fn-len 3))) ; .E+
+ (if (or (not format:fn-pos?) (eq? modifier 'at))
+ (set! numlen (+ numlen 1)))
+ (if (= format:fn-dot 0)
+ (set! numlen (+ numlen 1)))
+ (set! numlen
+ (+ numlen
+ (if (and edigits (>= edigits format:en-len))
+ edigits
+ format:en-len)))
+ (if (< numlen width)
+ (format:out-fill (- width numlen)
+ (integer->char padch)))
+ (if (> numlen width) ; adjust precision if possible
+ (let ((f (- format:fn-len format:fn-dot))) ; fract len
+ (if (> (- numlen f) width)
+ (if overch ; numstr too big for required width
+ (format:out-fill width
+ (integer->char overch))
+ (begin
+ (format:fn-out modifier #t)
+ (format:en-out edigits expch)))
+ (begin
+ (format:fn-round (+ (- f numlen) width))
+ (format:fn-out modifier #t)
+ (format:en-out edigits expch))))
+ (begin
+ (format:fn-out modifier #t)
+ (format:en-out edigits expch)))))
+ (begin
+ (format:fn-out modifier #t)
+ (format:en-out edigits expch))))))))
+
+ ;; format general flonums (~G)
+
+ (define (format:out-general modifier number pars)
+ (if (not (or (number? number) (string? number)))
+ (slib:error 'format "argument is not a number or a number string"
+ number))
+
+ (let ((l (length pars)))
+ (let ((width (if (> l 0) (list-ref pars 0) #f))
+ (digits (if (> l 1) (list-ref pars 1) #f))
+ (edigits (if (> l 2) (list-ref pars 2) #f))
+ (overch (if (> l 4) (list-ref pars 4) #f))
+ (padch (if (> l 5) (list-ref pars 5) #f)))
+ (format:parse-float
+ (if (string? number) number (number->string number)) #t 0)
+ (format:fn-strip)
+ (let* ((ee (if edigits (+ edigits 2) 4)) ; for the following algorithm
+ (ww (if width (- width ee) #f)) ; see Steele's CL book p.395
+ (n (if (= format:fn-dot 0) ; number less than (abs 1.0) ?
+ (- (format:fn-zlead))
+ format:fn-dot))
+ (d (if digits
+ digits
+ (max format:fn-len (min n 7)))) ; q = format:fn-len
+ (dd (- d n)))
+ (if (<= 0 dd d)
+ (begin
+ (format:out-fixed modifier number (list ww dd #f overch padch))
+ (format:out-fill ee #\space)) ;~@T not implemented yet
+ (format:out-expon modifier number pars))))))
+
+ ;; format dollar flonums (~$)
+
+ (define (format:out-dollar modifier number pars)
+ (if (not (or (number? number) (string? number)))
+ (slib:error 'format "argument is not a number or a number string"
+ number))
+
+ (let ((l (length pars)))
+ (let ((digits (format:par pars l 0 2 "digits"))
+ (mindig (format:par pars l 1 1 "mindig"))
+ (width (format:par pars l 2 0 "width"))
+ (padch (format:par pars l 3 format:space-ch #f)))
+
+ (format:parse-float
+ (if (string? number) number (number->string number)) #t 0)
+ (if (<= (- format:fn-len format:fn-dot) digits)
+ (format:fn-zfill #f (- digits (- format:fn-len format:fn-dot)))
+ (format:fn-round digits))
+ (let ((numlen (+ format:fn-len 1)))
+ (if (or (not format:fn-pos?) (memq modifier '(at colon-at)))
+ (set! numlen (+ numlen 1)))
+ (if (and mindig (> mindig format:fn-dot))
+ (set! numlen (+ numlen (- mindig format:fn-dot))))
+ (if (and (= format:fn-dot 0) (not mindig))
+ (set! numlen (+ numlen 1)))
+ (if (< numlen width)
+ (case modifier
+ ((colon)
+ (if (not format:fn-pos?)
+ (format:out-char #\-))
+ (format:out-fill (- width numlen) (integer->char padch)))
+ ((at)
+ (format:out-fill (- width numlen) (integer->char padch))
+ (format:out-char (if format:fn-pos? #\+ #\-)))
+ ((colon-at)
+ (format:out-char (if format:fn-pos? #\+ #\-))
+ (format:out-fill (- width numlen) (integer->char padch)))
+ (else
+ (format:out-fill (- width numlen) (integer->char padch))
+ (if (not format:fn-pos?)
+ (format:out-char #\-))))
+ (if format:fn-pos?
+ (if (memq modifier '(at colon-at)) (format:out-char #\+))
+ (format:out-char #\-))))
+ (if (and mindig (> mindig format:fn-dot))
+ (format:out-fill (- mindig format:fn-dot) #\0))
+ (if (and (= format:fn-dot 0) (not mindig))
+ (format:out-char #\0))
+ (format:out-substr format:fn-str 0 format:fn-dot)
+ (format:out-char #\.)
+ (format:out-substr format:fn-str format:fn-dot format:fn-len))))
+
+ ; the flonum buffers
+
+ (define format:fn-str (make-string format:fn-max)) ; number buffer
+ (define format:fn-len 0) ; digit length of number
+ (define format:fn-dot #f) ; dot position of number
+ (define format:fn-pos? #t) ; number positive?
+ (define format:en-str (make-string format:en-max)) ; exponent buffer
+ (define format:en-len 0) ; digit length of exponent
+ (define format:en-pos? #t) ; exponent positive?
+
+ (define (format:parse-float num-str fixed? scale)
+ (set! format:fn-pos? #t)
+ (set! format:fn-len 0)
+ (set! format:fn-dot #f)
+ (set! format:en-pos? #t)
+ (set! format:en-len 0)
+ (do ((i 0 (+ i 1))
+ (left-zeros 0)
+ (mantissa? #t)
+ (all-zeros? #t)
+ (num-len (string-length num-str))
+ (c #f)) ; current exam. character in num-str
+ ((= i num-len)
+ (if (not format:fn-dot)
+ (set! format:fn-dot format:fn-len))
+
+ (if all-zeros?
+ (begin
+ (set! left-zeros 0)
+ (set! format:fn-dot 0)
+ (set! format:fn-len 1)))
+
+ ;; now format the parsed values according to format's need
+
+ (if fixed?
+
+ (begin ; fixed format m.nnn or .nnn
+ (if (and (> left-zeros 0) (> format:fn-dot 0))
+ (if (> format:fn-dot left-zeros)
+ (begin ; norm 0{0}nn.mm to nn.mm
+ (format:fn-shiftleft left-zeros)
+ (set! left-zeros 0)
+ (set! format:fn-dot (- format:fn-dot left-zeros)))
+ (begin ; normalize 0{0}.nnn to .nnn
+ (format:fn-shiftleft format:fn-dot)
+ (set! left-zeros (- left-zeros format:fn-dot))
+ (set! format:fn-dot 0))))
+ (if (or (not (= scale 0)) (> format:en-len 0))
+ (let ((shift (+ scale (format:en-int))))
+ (cond
+ (all-zeros? #t)
+ ((> (+ format:fn-dot shift) format:fn-len)
+ (format:fn-zfill
+ #f (- shift (- format:fn-len format:fn-dot)))
+ (set! format:fn-dot format:fn-len))
+ ((< (+ format:fn-dot shift) 0)
+ (format:fn-zfill #t (- (- shift) format:fn-dot))
+ (set! format:fn-dot 0))
+ (else
+ (if (> left-zeros 0)
+ (if (<= left-zeros shift) ; shift always > 0 here
+ (format:fn-shiftleft shift) ; shift out 0s
+ (begin
+ (format:fn-shiftleft left-zeros)
+ (set! format:fn-dot (- shift left-zeros))))
+ (set! format:fn-dot (+ format:fn-dot shift))))))))
+
+ (let ((negexp ; expon format m.nnnEee
+ (if (> left-zeros 0)
+ (- left-zeros format:fn-dot -1)
+ (if (= format:fn-dot 0) 1 0))))
+ (if (> left-zeros 0)
+ (begin ; normalize 0{0}.nnn to n.nn
+ (format:fn-shiftleft left-zeros)
+ (set! format:fn-dot 1))
+ (if (= format:fn-dot 0)
+ (set! format:fn-dot 1)))
+ (format:en-set (- (+ (- format:fn-dot scale) (format:en-int))
+ negexp))
+ (cond
+ (all-zeros?
+ (format:en-set 0)
+ (set! format:fn-dot 1))
+ ((< scale 0) ; leading zero
+ (format:fn-zfill #t (- scale))
+ (set! format:fn-dot 0))
+ ((> scale format:fn-dot)
+ (format:fn-zfill #f (- scale format:fn-dot))
+ (set! format:fn-dot scale))
+ (else
+ (set! format:fn-dot scale)))))
+ #t)
+
+ ;; do body
+ (set! c (string-ref num-str i)) ; parse the output of number->string
+ (cond ; which can be any valid number
+ ((char-numeric? c) ; representation of R4RS except
+ (if mantissa? ; complex numbers
+ (begin
+ (if (char=? c #\0)
+ (if all-zeros?
+ (set! left-zeros (+ left-zeros 1)))
+ (begin
+ (set! all-zeros? #f)))
+ (string-set! format:fn-str format:fn-len c)
+ (set! format:fn-len (+ format:fn-len 1)))
+ (begin
+ (string-set! format:en-str format:en-len c)
+ (set! format:en-len (+ format:en-len 1)))))
+ ((or (char=? c #\-) (char=? c #\+))
+ (if mantissa?
+ (set! format:fn-pos? (char=? c #\+))
+ (set! format:en-pos? (char=? c #\+))))
+ ((char=? c #\.)
+ (set! format:fn-dot format:fn-len))
+ ((char=? c #\e)
+ (set! mantissa? #f))
+ ((char=? c #\E)
+ (set! mantissa? #f))
+ ((char-whitespace? c) #t)
+ ((char=? c #\d) #t) ; decimal radix prefix
+ ((char=? c #\#) #t)
+ (else
+ (slib:error 'format "illegal character in number->string" c)))))
+
+ (define (format:en-int) ; convert exponent string to integer
+ (if (= format:en-len 0)
+ 0
+ (do ((i 0 (+ i 1))
+ (n 0))
+ ((= i format:en-len)
+ (if format:en-pos?
+ n
+ (- n)))
+ (set! n (+ (* n 10) (- (char->integer (string-ref format:en-str i))
+ format:zero-ch))))))
+
+ (define (format:en-set en) ; set exponent string number
+ (set! format:en-len 0)
+ (set! format:en-pos? (>= en 0))
+ (let ((en-str (number->string en)))
+ (do ((i 0 (+ i 1))
+ (en-len (string-length en-str))
+ (c #f))
+ ((= i en-len))
+ (set! c (string-ref en-str i))
+ (if (char-numeric? c)
+ (begin
+ (string-set! format:en-str format:en-len c)
+ (set! format:en-len (+ format:en-len 1)))))))
+
+ (define (format:fn-zfill left? n) ; fill current number string with 0s
+ (if (> (+ n format:fn-len) format:fn-max) ; from the left or right
+ (slib:error 'format "number is too long to format (enlarge format:fn-max)"))
+ (set! format:fn-len (+ format:fn-len n))
+ (if left?
+ (do ((i format:fn-len (- i 1))) ; fill n 0s to left
+ ((< i 0))
+ (string-set! format:fn-str i
+ (if (< i n)
+ #\0
+ (string-ref format:fn-str (- i n)))))
+ (do ((i (- format:fn-len n) (+ i 1))) ; fill n 0s to the right
+ ((= i format:fn-len))
+ (string-set! format:fn-str i #\0))))
+
+ (define (format:fn-shiftleft n) ; shift left current number n positions
+ (if (> n format:fn-len)
+ (slib:error 'format "internal error in format:fn-shiftleft"
+ (list n format:fn-len)))
+ (do ((i n (+ i 1)))
+ ((= i format:fn-len)
+ (set! format:fn-len (- format:fn-len n)))
+ (string-set! format:fn-str (- i n) (string-ref format:fn-str i))))
+
+ (define (format:fn-round digits) ; round format:fn-str
+ (set! digits (+ digits format:fn-dot))
+ (do ((i digits (- i 1)) ; "099",2 -> "10"
+ (c 5)) ; "023",2 -> "02"
+ ((or (= c 0) (< i 0)) ; "999",2 -> "100"
+ (if (= c 1) ; "005",2 -> "01"
+ (begin ; carry overflow
+ (set! format:fn-len digits)
+ (format:fn-zfill #t 1) ; add a 1 before fn-str
+ (string-set! format:fn-str 0 #\1)
+ (set! format:fn-dot (+ format:fn-dot 1)))
+ (set! format:fn-len digits)))
+ (set! c (+ (- (char->integer (string-ref format:fn-str i))
+ format:zero-ch) c))
+ (string-set! format:fn-str i (integer->char
+ (if (< c 10)
+ (+ c format:zero-ch)
+ (+ (- c 10) format:zero-ch))))
+ (set! c (if (< c 10) 0 1))))
+
+ (define (format:fn-out modifier add-leading-zero?)
+ (if format:fn-pos?
+ (if (eq? modifier 'at)
+ (format:out-char #\+))
+ (format:out-char #\-))
+ (if (= format:fn-dot 0)
+ (if add-leading-zero?
+ (format:out-char #\0))
+ (format:out-substr format:fn-str 0 format:fn-dot))
+ (format:out-char #\.)
+ (format:out-substr format:fn-str format:fn-dot format:fn-len))
+
+ (define (format:en-out edigits expch)
+ (format:out-char (if expch (integer->char expch) format:expch))
+ (format:out-char (if format:en-pos? #\+ #\-))
+ (if edigits
+ (if (< format:en-len edigits)
+ (format:out-fill (- edigits format:en-len) #\0)))
+ (format:out-substr format:en-str 0 format:en-len))
+
+ (define (format:fn-strip) ; strip trailing zeros but one
+ (string-set! format:fn-str format:fn-len #\0)
+ (do ((i format:fn-len (- i 1)))
+ ((or (not (char=? (string-ref format:fn-str i) #\0))
+ (<= i format:fn-dot))
+ (set! format:fn-len (+ i 1)))))
+
+ (define (format:fn-zlead) ; count leading zeros
+ (do ((i 0 (+ i 1)))
+ ((or (= i format:fn-len)
+ (not (char=? (string-ref format:fn-str i) #\0)))
+ (if (= i format:fn-len) ; found a real zero
+ 0
+ i))))
+
+ (define (format:format-work format-string arglist) ; does the formatting work
+ (letrec
+ ((format-string-len (string-length format-string))
+ (arg-pos 0) ; argument position in arglist
+ (arg-len (length arglist)) ; number of arguments
+ (modifier #f) ; 'colon | 'at | 'colon-at | #f
+ (params '()) ; directive parameter list
+ (param-value-found #f) ; a directive parameter value found
+ (conditional-nest 0) ; conditional nesting level
+ (clause-pos 0) ; last cond. clause beginning char pos
+ (clause-default #f) ; conditional default clause string
+ (clauses '()) ; conditional clause string list
+ (conditional-type #f) ; reflects the contional modifiers
+ (conditional-arg #f) ; argument to apply the conditional
+ (iteration-nest 0) ; iteration nesting level
+ (iteration-pos 0) ; iteration string beginning char pos
+ (iteration-type #f) ; reflects the iteration modifiers
+ (max-iterations #f) ; maximum number of iterations
+ (recursive-pos-save format:pos)
+
+ (next-char ; gets the next char from format-string
+ (lambda ()
+ (let ((ch (peek-next-char)))
+ (set! format:pos (+ 1 format:pos))
+ ch)))
+
+ (peek-next-char
+ (lambda ()
+ (if (>= format:pos format-string-len)
+ (slib:error 'format "illegal format string")
+ (string-ref format-string format:pos))))
+
+ (one-positive-integer?
+ (lambda (params)
+ (cond
+ ((null? params) #f)
+ ((and (integer? (car params))
+ (>= (car params) 0)
+ (= (length params) 1)) #t)
+ (else (slib:error 'format "one positive integer parameter expected")))))
+
+ (next-arg
+ (lambda ()
+ (if (>= arg-pos arg-len)
+ (begin
+ (slib:error 'format "missing argument(s)")))
+ (add-arg-pos 1)
+ (list-ref arglist (- arg-pos 1))))
+
+ (prev-arg
+ (lambda ()
+ (add-arg-pos -1)
+ (if (negative? arg-pos)
+ (slib:error 'format "missing backward argument(s)"))
+ (list-ref arglist arg-pos)))
+
+ (rest-args
+ (lambda ()
+ (let loop ((l arglist) (k arg-pos)) ; list-tail definition
+ (if (= k 0) l (loop (cdr l) (- k 1))))))
+
+ (add-arg-pos
+ (lambda (n)
+ (set! arg-pos (+ n arg-pos))))
+
+ (anychar-dispatch ; dispatches the format-string
+ (lambda ()
+ (if (>= format:pos format-string-len)
+ arg-pos ; used for ~? continuance
+ (let ((char (next-char)))
+ (cond
+ ((char=? char #\~)
+ (set! modifier #f)
+ (set! params '())
+ (set! param-value-found #f)
+ (tilde-dispatch))
+ (else
+ (if (and (zero? conditional-nest)
+ (zero? iteration-nest))
+ (format:out-char char))
+ (anychar-dispatch)))))))
+
+ (tilde-dispatch
+ (lambda ()
+ (cond
+ ((>= format:pos format-string-len)
+ (format:out-str "~") ; tilde at end of string is just output
+ arg-pos) ; used for ~? continuance
+ ((and (or (zero? conditional-nest)
+ (memv (peek-next-char) ; find conditional directives
+ (append '(#\[ #\] #\; #\: #\@ #\^)
+ format:parameter-characters)))
+ (or (zero? iteration-nest)
+ (memv (peek-next-char) ; find iteration directives
+ (append '(#\{ #\} #\: #\@ #\^)
+ format:parameter-characters))))
+ (case (char-upcase (next-char))
+
+ ;; format directives
+
+ ((#\A) ; Any -- for humans
+ (format:out-obj-padded (memq modifier '(at colon-at))
+ (next-arg) #f params
+ (memq modifier '(colon colon-at)))
+ (anychar-dispatch))
+ ((#\S) ; Slashified -- for parsers
+ (format:out-obj-padded (memq modifier '(at colon-at))
+ (next-arg) #t params
+ (memq modifier '(colon colon-at)))
+ (anychar-dispatch))
+ ((#\D) ; Decimal
+ (format:out-num-padded modifier (next-arg) params 10)
+ (anychar-dispatch))
+ ((#\X) ; Hexadecimal
+ (format:out-num-padded modifier (next-arg) params 16)
+ (anychar-dispatch))
+ ((#\O) ; Octal
+ (format:out-num-padded modifier (next-arg) params 8)
+ (anychar-dispatch))
+ ((#\B) ; Binary
+ (format:out-num-padded modifier (next-arg) params 2)
+ (anychar-dispatch))
+ ((#\R)
+ (if (null? params)
+ (format:out-obj-padded ; Roman, cardinal, ordinal numerals
+ #f
+ ((case modifier
+ ((at) format:num->roman)
+ ((colon-at) format:num->old-roman)
+ ((colon) format:num->ordinal)
+ (else format:num->cardinal))
+ (next-arg))
+ #f params #f) ;was format:read-proof
+ (format:out-num-padded ; any Radix
+ modifier (next-arg) (cdr params) (car params)))
+ (anychar-dispatch))
+ ((#\F) ; Fixed-format floating-point
+ (if format:floats
+ (format:out-fixed modifier (next-arg) params)
+ (format:out-str (number->string (next-arg))))
+ (anychar-dispatch))
+ ((#\E) ; Exponential floating-point
+ (if format:floats
+ (format:out-expon modifier (next-arg) params)
+ (format:out-str (number->string (next-arg))))
+ (anychar-dispatch))
+ ((#\G) ; General floating-point
+ (if format:floats
+ (format:out-general modifier (next-arg) params)
+ (format:out-str (number->string (next-arg))))
+ (anychar-dispatch))
+ ((#\$) ; Dollars floating-point
+ (if format:floats
+ (format:out-dollar modifier (next-arg) params)
+ (format:out-str (number->string (next-arg))))
+ (anychar-dispatch))
+ ((#\I) ; Complex numbers
+ (if (not format:complex-numbers)
+ (slib:error 'format
+ "complex numbers not supported by this scheme system"))
+ (let ((z (next-arg)))
+ (if (not (complex? z))
+ (slib:error 'format "argument not a complex number"))
+ (format:out-fixed modifier (real-part z) params)
+ (format:out-fixed 'at (imag-part z) params)
+ (format:out-char #\i))
+ (anychar-dispatch))
+ ((#\C) ; Character
+ (let ((ch (if (one-positive-integer? params)
+ (integer->char (car params))
+ (next-arg))))
+ (if (not (char? ch)) (slib:error 'format "~~c expects a character" ch))
+ (case modifier
+ ((at)
+ (format:out-str (format:char->str ch)))
+ ((colon)
+ (let ((c (char->integer ch)))
+ (if (< c 0)
+ (set! c (+ c 256))) ; compensate complement impl.
+ (cond
+ ((< c #x20) ; assumes that control chars are < #x20
+ (format:out-char #\^)
+ (format:out-char
+ (integer->char (+ c #x40))))
+ ((>= c #x7f)
+ (format:out-str "#\\")
+ (format:out-str
+ (if format:radix-pref
+ (let ((s (number->string c 8)))
+ (substring s 2 (string-length s)))
+ (number->string c 8))))
+ (else
+ (format:out-char ch)))))
+ (else (format:out-char ch))))
+ (anychar-dispatch))
+ ((#\P) ; Plural
+ (if (memq modifier '(colon colon-at))
+ (prev-arg))
+ (let ((arg (next-arg)))
+ (if (not (number? arg))
+ (slib:error 'format "~~p expects a number argument" arg))
+ (if (= arg 1)
+ (if (memq modifier '(at colon-at))
+ (format:out-char #\y))
+ (if (memq modifier '(at colon-at))
+ (format:out-str "ies")
+ (format:out-char #\s))))
+ (anychar-dispatch))
+ ((#\~) ; Tilde
+ (if (one-positive-integer? params)
+ (format:out-fill (car params) #\~)
+ (format:out-char #\~))
+ (anychar-dispatch))
+ ((#\%) ; Newline
+ (if (one-positive-integer? params)
+ (format:out-fill (car params) #\newline)
+ (format:out-char #\newline))
+ (set! format:output-col 0)
+ (anychar-dispatch))
+ ((#\&) ; Fresh line
+ (if (one-positive-integer? params)
+ (begin
+ (if (> (car params) 0)
+ (format:out-fill (- (car params)
+ (if (> format:output-col 0) 0 1))
+ #\newline))
+ (set! format:output-col 0))
+ (if (> format:output-col 0)
+ (format:out-char #\newline)))
+ (anychar-dispatch))
+ ((#\_) ; Space character
+ (if (one-positive-integer? params)
+ (format:out-fill (car params) #\space)
+ (format:out-char #\space))
+ (anychar-dispatch))
+ ((#\/) ; Tabulator character
+ (if (one-positive-integer? params)
+ (format:out-fill (car params) slib:tab)
+ (format:out-char slib:tab))
+ (anychar-dispatch))
+ ((#\|) ; Page seperator
+ (if (one-positive-integer? params)
+ (format:out-fill (car params) slib:form-feed)
+ (format:out-char slib:form-feed))
+ (set! format:output-col 0)
+ (anychar-dispatch))
+ ((#\T) ; Tabulate
+ (format:tabulate modifier params)
+ (anychar-dispatch))
+ ((#\Y) ; Pretty-print
+ (require 'pretty-print)
+ (pretty-print (next-arg) format:port)
+ (set! format:output-col 0)
+ (anychar-dispatch))
+ ((#\? #\K) ; Indirection (is "~K" in T-Scheme)
+ (cond
+ ((memq modifier '(colon colon-at))
+ (slib:error 'format "illegal modifier in ~~?" modifier))
+ ((eq? modifier 'at)
+ (let* ((frmt (next-arg))
+ (args (rest-args)))
+ (add-arg-pos (format:format-work frmt args))))
+ (else
+ (let* ((frmt (next-arg))
+ (args (next-arg)))
+ (format:format-work frmt args))))
+ (anychar-dispatch))
+ ((#\!) ; Flush output
+ (set! format:flush-output #t)
+ (anychar-dispatch))
+ ((#\newline) ; Continuation lines
+ (if (eq? modifier 'at)
+ (format:out-char #\newline))
+ (if (< format:pos format-string-len)
+ (do ((ch (peek-next-char) (peek-next-char)))
+ ((or (not (char-whitespace? ch))
+ (= format:pos (- format-string-len 1))))
+ (if (eq? modifier 'colon)
+ (format:out-char (next-char))
+ (next-char))))
+ (anychar-dispatch))
+ ((#\*) ; Argument jumping
+ (case modifier
+ ((colon) ; jump backwards
+ (if (one-positive-integer? params)
+ (do ((i 0 (+ i 1)))
+ ((= i (car params)))
+ (prev-arg))
+ (prev-arg)))
+ ((at) ; jump absolute
+ (set! arg-pos (if (one-positive-integer? params)
+ (car params) 0)))
+ ((colon-at)
+ (slib:error 'format "illegal modifier `:@' in ~~* directive"))
+ (else ; jump forward
+ (if (one-positive-integer? params)
+ (do ((i 0 (+ i 1)))
+ ((= i (car params)))
+ (next-arg))
+ (next-arg))))
+ (anychar-dispatch))
+ ((#\() ; Case conversion begin
+ (set! format:case-conversion
+ (case modifier
+ ((at) format:string-capitalize-first)
+ ((colon) string-capitalize)
+ ((colon-at) string-upcase)
+ (else string-downcase)))
+ (anychar-dispatch))
+ ((#\)) ; Case conversion end
+ (if (not format:case-conversion)
+ (slib:error 'format "missing ~~("))
+ (set! format:case-conversion #f)
+ (anychar-dispatch))
+ ((#\[) ; Conditional begin
+ (set! conditional-nest (+ conditional-nest 1))
+ (cond
+ ((= conditional-nest 1)
+ (set! clause-pos format:pos)
+ (set! clause-default #f)
+ (set! clauses '())
+ (set! conditional-type
+ (case modifier
+ ((at) 'if-then)
+ ((colon) 'if-else-then)
+ ((colon-at) (slib:error 'format "illegal modifier in ~~["))
+ (else 'num-case)))
+ (set! conditional-arg
+ (if (one-positive-integer? params)
+ (car params)
+ (next-arg)))))
+ (anychar-dispatch))
+ ((#\;) ; Conditional separator
+ (if (zero? conditional-nest)
+ (slib:error 'format "~~; not in ~~[~~] conditional"))
+ (if (not (null? params))
+ (slib:error 'format "no parameter allowed in ~~;"))
+ (if (= conditional-nest 1)
+ (let ((clause-str
+ (cond
+ ((eq? modifier 'colon)
+ (set! clause-default #t)
+ (substring format-string clause-pos
+ (- format:pos 3)))
+ ((memq modifier '(at colon-at))
+ (slib:error 'format "illegal modifier in ~~;"))
+ (else
+ (substring format-string clause-pos
+ (- format:pos 2))))))
+ (set! clauses (append clauses (list clause-str)))
+ (set! clause-pos format:pos)))
+ (anychar-dispatch))
+ ((#\]) ; Conditional end
+ (if (zero? conditional-nest) (slib:error 'format "missing ~~["))
+ (set! conditional-nest (- conditional-nest 1))
+ (if modifier
+ (slib:error 'format "no modifier allowed in ~~]"))
+ (if (not (null? params))
+ (slib:error 'format "no parameter allowed in ~~]"))
+ (cond
+ ((zero? conditional-nest)
+ (let ((clause-str (substring format-string clause-pos
+ (- format:pos 2))))
+ (if clause-default
+ (set! clause-default clause-str)
+ (set! clauses (append clauses (list clause-str)))))
+ (case conditional-type
+ ((if-then)
+ (if conditional-arg
+ (format:format-work (car clauses)
+ (list conditional-arg))))
+ ((if-else-then)
+ (add-arg-pos
+ (format:format-work (if conditional-arg
+ (cadr clauses)
+ (car clauses))
+ (rest-args))))
+ ((num-case)
+ (if (or (not (integer? conditional-arg))
+ (< conditional-arg 0))
+ (slib:error 'format "argument not a positive integer"))
+ (if (not (and (>= conditional-arg (length clauses))
+ (not clause-default)))
+ (add-arg-pos
+ (format:format-work
+ (if (>= conditional-arg (length clauses))
+ clause-default
+ (list-ref clauses conditional-arg))
+ (rest-args))))))))
+ (anychar-dispatch))
+ ((#\{) ; Iteration begin
+ (set! iteration-nest (+ iteration-nest 1))
+ (cond
+ ((= iteration-nest 1)
+ (set! iteration-pos format:pos)
+ (set! iteration-type
+ (case modifier
+ ((at) 'rest-args)
+ ((colon) 'sublists)
+ ((colon-at) 'rest-sublists)
+ (else 'list)))
+ (set! max-iterations (if (one-positive-integer? params)
+ (car params) #f))))
+ (anychar-dispatch))
+ ((#\}) ; Iteration end
+ (if (zero? iteration-nest) (slib:error 'format "missing ~~{"))
+ (set! iteration-nest (- iteration-nest 1))
+ (case modifier
+ ((colon)
+ (if (not max-iterations) (set! max-iterations 1)))
+ ((colon-at at) (slib:error 'format "illegal modifier" modifier))
+ (else (if (not max-iterations)
+ (set! max-iterations format:max-iterations))))
+ (if (not (null? params))
+ (slib:error 'format "no parameters allowed in ~~}" params))
+ (if (zero? iteration-nest)
+ (let ((iteration-str
+ (substring format-string iteration-pos
+ (- format:pos (if modifier 3 2)))))
+ (if (string=? iteration-str "")
+ (set! iteration-str (next-arg)))
+ (case iteration-type
+ ((list)
+ (let ((args (next-arg))
+ (args-len 0))
+ (if (not (list? args))
+ (slib:error 'format "expected a list argument" args))
+ (set! args-len (length args))
+ (do ((arg-pos 0 (+ arg-pos
+ (format:format-work
+ iteration-str
+ (list-tail args arg-pos))))
+ (i 0 (+ i 1)))
+ ((or (>= arg-pos args-len)
+ (and format:iteration-bounded
+ (>= i max-iterations)))))))
+ ((sublists)
+ (let ((args (next-arg))
+ (args-len 0))
+ (if (not (list? args))
+ (slib:error 'format "expected a list argument" args))
+ (set! args-len (length args))
+ (do ((arg-pos 0 (+ arg-pos 1)))
+ ((or (>= arg-pos args-len)
+ (and format:iteration-bounded
+ (>= arg-pos max-iterations))))
+ (let ((sublist (list-ref args arg-pos)))
+ (if (not (list? sublist))
+ (slib:error 'format
+ "expected a list of lists argument" args))
+ (format:format-work iteration-str sublist)))))
+ ((rest-args)
+ (let* ((args (rest-args))
+ (args-len (length args))
+ (usedup-args
+ (do ((arg-pos 0 (+ arg-pos
+ (format:format-work
+ iteration-str
+ (list-tail
+ args arg-pos))))
+ (i 0 (+ i 1)))
+ ((or (>= arg-pos args-len)
+ (and format:iteration-bounded
+ (>= i max-iterations)))
+ arg-pos))))
+ (add-arg-pos usedup-args)))
+ ((rest-sublists)
+ (let* ((args (rest-args))
+ (args-len (length args))
+ (usedup-args
+ (do ((arg-pos 0 (+ arg-pos 1)))
+ ((or (>= arg-pos args-len)
+ (and format:iteration-bounded
+ (>= arg-pos max-iterations)))
+ arg-pos)
+ (let ((sublist (list-ref args arg-pos)))
+ (if (not (list? sublist))
+ (slib:error 'format "expected list arguments" args))
+ (format:format-work iteration-str sublist)))))
+ (add-arg-pos usedup-args)))
+ (else (slib:error 'format "internal error in ~~}")))))
+ (anychar-dispatch))
+ ((#\^) ; Up and out
+ (let* ((continue
+ (cond
+ ((not (null? params))
+ (not
+ (case (length params)
+ ((1) (zero? (car params)))
+ ((2) (= (list-ref params 0) (list-ref params 1)))
+ ((3) (<= (list-ref params 0)
+ (list-ref params 1)
+ (list-ref params 2)))
+ (else (slib:error 'format "too many parameters")))))
+ (format:case-conversion ; if conversion stop conversion
+ (set! format:case-conversion string-copy) #t)
+ ((= iteration-nest 1) #t)
+ ((= conditional-nest 1) #t)
+ ((>= arg-pos arg-len)
+ (set! format:pos format-string-len) #f)
+ (else #t))))
+ (if continue
+ (anychar-dispatch))))
+
+ ;; format directive modifiers and parameters
+
+ ((#\@) ; `@' modifier
+ (if (memq modifier '(at colon-at))
+ (slib:error 'format "double `@' modifier"))
+ (set! modifier (if (eq? modifier 'colon) 'colon-at 'at))
+ (tilde-dispatch))
+ ((#\:) ; `:' modifier
+ (if (memq modifier '(colon colon-at))
+ (slib:error 'format "double `:' modifier"))
+ (set! modifier (if (eq? modifier 'at) 'colon-at 'colon))
+ (tilde-dispatch))
+ ((#\') ; Character parameter
+ (if modifier (slib:error 'format "misplaced modifier" modifier))
+ (set! params (append params (list (char->integer (next-char)))))
+ (set! param-value-found #t)
+ (tilde-dispatch))
+ ((#\0 #\1 #\2 #\3 #\4 #\5 #\6 #\7 #\8 #\9 #\- #\+) ; num. paramtr
+ (if modifier (slib:error 'format "misplaced modifier" modifier))
+ (let ((num-str-beg (- format:pos 1))
+ (num-str-end format:pos))
+ (do ((ch (peek-next-char) (peek-next-char)))
+ ((not (char-numeric? ch)))
+ (next-char)
+ (set! num-str-end (+ 1 num-str-end)))
+ (set! params
+ (append params
+ (list (string->number
+ (substring format-string
+ num-str-beg
+ num-str-end))))))
+ (set! param-value-found #t)
+ (tilde-dispatch))
+ ((#\V) ; Variable parameter from next argum.
+ (if modifier (slib:error 'format "misplaced modifier" modifier))
+ (set! params (append params (list (next-arg))))
+ (set! param-value-found #t)
+ (tilde-dispatch))
+ ((#\#) ; Parameter is number of remaining args
+ (if modifier (slib:error 'format "misplaced modifier" modifier))
+ (set! params (append params (list (length (rest-args)))))
+ (set! param-value-found #t)
+ (tilde-dispatch))
+ ((#\,) ; Parameter separators
+ (if modifier (slib:error 'format "misplaced modifier" modifier))
+ (if (not param-value-found)
+ (set! params (append params '(#f)))) ; append empty paramtr
+ (set! param-value-found #f)
+ (tilde-dispatch))
+ ((#\Q) ; Inquiry messages
+ (if (eq? modifier 'colon)
+ (format:out-str format:version)
+ (let ((nl (string #\newline)))
+ (format:out-str
+ (string-append
+ "SLIB Common LISP format version " format:version nl
+ " This code is in the public domain." nl
+ " Please send bug reports to `lutzeb@cs.tu-berlin.de'"
+ nl))))
+ (anychar-dispatch))
+ (else ; Unknown tilde directive
+ (slib:error 'format "unknown control character"
+ (string-ref format-string (- format:pos 1))))))
+ (else (anychar-dispatch)))))) ; in case of conditional
+
+ (set! format:pos 0)
+ (anychar-dispatch) ; start the formatting
+ (set! format:pos recursive-pos-save)
+ arg-pos))
+
+ (define (format:out fmt args) ; the output handler for a port
+ ;;(set! format:case-conversion #f) ; modifier case conversion procedure
+ ;;(set! format:flush-output #f) ; ~! reset
+ (let ((arg-pos (format:format-work fmt args))
+ (arg-len (length args)))
+ (cond ((< arg-pos arg-len)
+ (set! format:pos (string-length fmt))
+ (slib:error 'format (- arg-len arg-pos) "superfluous arguments"))
+ ((> arg-pos arg-len)
+ (slib:error 'format (- arg-pos arg-len) "missing arguments")))))
+
+ ;;(set! format:pos 0)
+ (if (< (length args) 1) (slib:error 'format "not enough arguments"))
;; If the first argument is a string, then that's the format string.
;; (Scheme->C)
;; In this case, put the argument list in canonical form.
- (let ((args (if (string? (car args))
- (cons #f args)
- args)))
- ;; Use this canonicalized version when reporting errors.
- (set! format:args args)
-
+ (let ((args (if (string? (car args)) (cons #f args) args)))
(let ((destination (car args))
(arglist (cdr args)))
(cond
- ((or (and (boolean? destination) ; port output
+ ((or (and (boolean? destination) ; port output
destination)
(output-port? destination)
(number? destination))
- (format:out (cond
- ((boolean? destination) (current-output-port))
- ((output-port? destination) destination)
- ((number? destination) (current-error-port)))
- (car arglist) (cdr arglist)))
+ (let ((port (cond ((boolean? destination) (current-output-port))
+ ((output-port? destination) destination)
+ ((number? destination) (current-error-port)))))
+ (set! format:port port) ; global port for output routines
+ (set! format:output-col (format:get-port-column port))
+ (format:out (car arglist) (cdr arglist))
+ (format:set-port-column! port format:output-col)
+ (if format:flush-output (force-output format:port))
+ #t))
((and (boolean? destination) ; string output
(not destination))
(call-with-output-string
- (lambda (port) (format:out port (car arglist) (cdr arglist)))))
+ (lambda (port)
+ (set! format:port port)
+ (format:out (car arglist) (cdr arglist)))))
(else
- (format:error "illegal destination `~a'" destination))))))
-
-(define (format:out port fmt args) ; the output handler for a port
- (set! format:port port) ; global port for output routines
- (set! format:case-conversion #f) ; modifier case conversion procedure
- (set! format:flush-output #f) ; ~! reset
- (let ((arg-pos (format:format-work fmt args))
- (arg-len (length args)))
- (cond
- ((< arg-pos arg-len)
- (set! format:arg-pos (+ arg-pos 1))
- (set! format:pos (string-length fmt))
- (format:error "~a superfluous argument~:p" (- arg-len arg-pos)))
- ((> arg-pos arg-len)
- (set! format:arg-pos (+ arg-len 1))
- (display format:arg-pos)
- (format:error "~a missing argument~:p" (- arg-pos arg-len)))
- (else
- (if format:flush-output (force-output port))
- #t))))
+ (slib:error 'format "illegal destination" destination))))))
-(define format:parameter-characters
- '(#\0 #\1 #\2 #\3 #\4 #\5 #\6 #\7 #\8 #\9 #\- #\+ #\v #\# #\'))
+;; format:obj->str returns a R4RS representation as a string of an
+;; arbitrary scheme object.
-(define (format:format-work format-string arglist) ; does the formatting work
- (letrec
- ((format-string-len (string-length format-string))
- (arg-pos 0) ; argument position in arglist
- (arg-len (length arglist)) ; number of arguments
- (modifier #f) ; 'colon | 'at | 'colon-at | #f
- (params '()) ; directive parameter list
- (param-value-found #f) ; a directive parameter value found
- (conditional-nest 0) ; conditional nesting level
- (clause-pos 0) ; last cond. clause beginning char pos
- (clause-default #f) ; conditional default clause string
- (clauses '()) ; conditional clause string list
- (conditional-type #f) ; reflects the contional modifiers
- (conditional-arg #f) ; argument to apply the conditional
- (iteration-nest 0) ; iteration nesting level
- (iteration-pos 0) ; iteration string beginning char pos
- (iteration-type #f) ; reflects the iteration modifiers
- (max-iterations #f) ; maximum number of iterations
- (recursive-pos-save format:pos)
-
- (next-char ; gets the next char from format-string
- (lambda ()
- (let ((ch (peek-next-char)))
- (set! format:pos (+ 1 format:pos))
- ch)))
-
- (peek-next-char
- (lambda ()
- (if (>= format:pos format-string-len)
- (format:error "illegal format string")
- (string-ref format-string format:pos))))
-
- (one-positive-integer?
- (lambda (params)
- (cond
- ((null? params) #f)
- ((and (integer? (car params))
- (>= (car params) 0)
- (= (length params) 1)) #t)
- (else (format:error "one positive integer parameter expected")))))
-
- (next-arg
- (lambda ()
- (if (>= arg-pos arg-len)
- (begin
- (set! format:arg-pos (+ arg-len 1))
- (format:error "missing argument(s)")))
- (add-arg-pos 1)
- (list-ref arglist (- arg-pos 1))))
-
- (prev-arg
- (lambda ()
- (add-arg-pos -1)
- (if (negative? arg-pos)
- (format:error "missing backward argument(s)"))
- (list-ref arglist arg-pos)))
-
- (rest-args
- (lambda ()
- (let loop ((l arglist) (k arg-pos)) ; list-tail definition
- (if (= k 0) l (loop (cdr l) (- k 1))))))
-
- (add-arg-pos
- (lambda (n)
- (set! arg-pos (+ n arg-pos))
- (set! format:arg-pos arg-pos)))
-
- (anychar-dispatch ; dispatches the format-string
- (lambda ()
- (if (>= format:pos format-string-len)
- arg-pos ; used for ~? continuance
- (let ((char (next-char)))
- (cond
- ((char=? char #\~)
- (set! modifier #f)
- (set! params '())
- (set! param-value-found #f)
- (tilde-dispatch))
- (else
- (if (and (zero? conditional-nest)
- (zero? iteration-nest))
- (format:out-char char))
- (anychar-dispatch)))))))
-
- (tilde-dispatch
- (lambda ()
- (cond
- ((>= format:pos format-string-len)
- (format:out-str "~") ; tilde at end of string is just output
- arg-pos) ; used for ~? continuance
- ((and (or (zero? conditional-nest)
- (memv (peek-next-char) ; find conditional directives
- (append '(#\[ #\] #\; #\: #\@ #\^)
- format:parameter-characters)))
- (or (zero? iteration-nest)
- (memv (peek-next-char) ; find iteration directives
- (append '(#\{ #\} #\: #\@ #\^)
- format:parameter-characters))))
- (case (char-upcase (next-char))
-
- ;; format directives
-
- ((#\A) ; Any -- for humans
- (set! format:read-proof (memq modifier '(colon colon-at)))
- (format:out-obj-padded (memq modifier '(at colon-at))
- (next-arg) #f params)
- (anychar-dispatch))
- ((#\S) ; Slashified -- for parsers
- (set! format:read-proof (memq modifier '(colon colon-at)))
- (format:out-obj-padded (memq modifier '(at colon-at))
- (next-arg) #t params)
- (anychar-dispatch))
- ((#\D) ; Decimal
- (format:out-num-padded modifier (next-arg) params 10)
- (anychar-dispatch))
- ((#\X) ; Hexadecimal
- (format:out-num-padded modifier (next-arg) params 16)
- (anychar-dispatch))
- ((#\O) ; Octal
- (format:out-num-padded modifier (next-arg) params 8)
- (anychar-dispatch))
- ((#\B) ; Binary
- (format:out-num-padded modifier (next-arg) params 2)
- (anychar-dispatch))
- ((#\R)
- (if (null? params)
- (format:out-obj-padded ; Roman, cardinal, ordinal numerals
- #f
- ((case modifier
- ((at) format:num->roman)
- ((colon-at) format:num->old-roman)
- ((colon) format:num->ordinal)
- (else format:num->cardinal))
- (next-arg))
- #f params)
- (format:out-num-padded ; any Radix
- modifier (next-arg) (cdr params) (car params)))
- (anychar-dispatch))
- ((#\F) ; Fixed-format floating-point
- (if format:floats
- (format:out-fixed modifier (next-arg) params)
- (format:out-str (number->string (next-arg))))
- (anychar-dispatch))
- ((#\E) ; Exponential floating-point
- (if format:floats
- (format:out-expon modifier (next-arg) params)
- (format:out-str (number->string (next-arg))))
- (anychar-dispatch))
- ((#\G) ; General floating-point
- (if format:floats
- (format:out-general modifier (next-arg) params)
- (format:out-str (number->string (next-arg))))
- (anychar-dispatch))
- ((#\$) ; Dollars floating-point
- (if format:floats
- (format:out-dollar modifier (next-arg) params)
- (format:out-str (number->string (next-arg))))
- (anychar-dispatch))
- ((#\I) ; Complex numbers
- (if (not format:complex-numbers)
- (format:error
- "complex numbers not supported by this scheme system"))
- (let ((z (next-arg)))
- (if (not (complex? z))
- (format:error "argument not a complex number"))
- (format:out-fixed modifier (real-part z) params)
- (format:out-fixed 'at (imag-part z) params)
- (format:out-char #\i))
- (anychar-dispatch))
- ((#\C) ; Character
- (let ((ch (if (one-positive-integer? params)
- (integer->char (car params))
- (next-arg))))
- (if (not (char? ch)) (format:error "~~c expects a character"))
- (case modifier
- ((at)
- (format:out-str (format:char->str ch)))
- ((colon)
- (let ((c (char->integer ch)))
- (if (< c 0)
- (set! c (+ c 256))) ; compensate complement impl.
- (cond
- ((< c #x20) ; assumes that control chars are < #x20
- (format:out-char #\^)
- (format:out-char
- (integer->char (+ c #x40))))
- ((>= c #x7f)
- (format:out-str "#\\")
- (format:out-str
- (if format:radix-pref
- (let ((s (number->string c 8)))
- (substring s 2 (string-length s)))
- (number->string c 8))))
- (else
- (format:out-char ch)))))
- (else (format:out-char ch))))
- (anychar-dispatch))
- ((#\P) ; Plural
- (if (memq modifier '(colon colon-at))
- (prev-arg))
- (let ((arg (next-arg)))
- (if (not (number? arg))
- (format:error "~~p expects a number argument"))
- (if (= arg 1)
- (if (memq modifier '(at colon-at))
- (format:out-char #\y))
- (if (memq modifier '(at colon-at))
- (format:out-str "ies")
- (format:out-char #\s))))
- (anychar-dispatch))
- ((#\~) ; Tilde
- (if (one-positive-integer? params)
- (format:out-fill (car params) #\~)
- (format:out-char #\~))
- (anychar-dispatch))
- ((#\%) ; Newline
- (if (one-positive-integer? params)
- (format:out-fill (car params) #\newline)
- (format:out-char #\newline))
- (set! format:output-col 0)
- (anychar-dispatch))
- ((#\&) ; Fresh line
- (if (one-positive-integer? params)
- (begin
- (if (> (car params) 0)
- (format:out-fill (- (car params)
- (if (> format:output-col 0) 0 1))
- #\newline))
- (set! format:output-col 0))
- (if (> format:output-col 0)
- (format:out-char #\newline)))
- (anychar-dispatch))
- ((#\_) ; Space character
- (if (one-positive-integer? params)
- (format:out-fill (car params) #\space)
- (format:out-char #\space))
- (anychar-dispatch))
- ((#\/) ; Tabulator character
- (if (one-positive-integer? params)
- (format:out-fill (car params) slib:tab)
- (format:out-char slib:tab))
- (anychar-dispatch))
- ((#\|) ; Page seperator
- (if (one-positive-integer? params)
- (format:out-fill (car params) slib:form-feed)
- (format:out-char slib:form-feed))
- (set! format:output-col 0)
- (anychar-dispatch))
- ((#\T) ; Tabulate
- (format:tabulate modifier params)
- (anychar-dispatch))
- ((#\Y) ; Pretty-print
- (require 'pretty-print)
- (pretty-print (next-arg) format:port)
- (set! format:output-col 0)
- (anychar-dispatch))
- ((#\? #\K) ; Indirection (is "~K" in T-Scheme)
- (cond
- ((memq modifier '(colon colon-at))
- (format:error "illegal modifier in ~~?"))
- ((eq? modifier 'at)
- (let* ((frmt (next-arg))
- (args (rest-args)))
- (add-arg-pos (format:format-work frmt args))))
- (else
- (let* ((frmt (next-arg))
- (args (next-arg)))
- (format:format-work frmt args))))
- (anychar-dispatch))
- ((#\!) ; Flush output
- (set! format:flush-output #t)
- (anychar-dispatch))
- ((#\newline) ; Continuation lines
- (if (eq? modifier 'at)
- (format:out-char #\newline))
- (if (< format:pos format-string-len)
- (do ((ch (peek-next-char) (peek-next-char)))
- ((or (not (char-whitespace? ch))
- (= format:pos (- format-string-len 1))))
- (if (eq? modifier 'colon)
- (format:out-char (next-char))
- (next-char))))
- (anychar-dispatch))
- ((#\*) ; Argument jumping
- (case modifier
- ((colon) ; jump backwards
- (if (one-positive-integer? params)
- (do ((i 0 (+ i 1)))
- ((= i (car params)))
- (prev-arg))
- (prev-arg)))
- ((at) ; jump absolute
- (set! arg-pos (if (one-positive-integer? params)
- (car params) 0)))
- ((colon-at)
- (format:error "illegal modifier `:@' in ~~* directive"))
- (else ; jump forward
- (if (one-positive-integer? params)
- (do ((i 0 (+ i 1)))
- ((= i (car params)))
- (next-arg))
- (next-arg))))
- (anychar-dispatch))
- ((#\() ; Case conversion begin
- (set! format:case-conversion
- (case modifier
- ((at) format:string-capitalize-first)
- ((colon) string-capitalize)
- ((colon-at) string-upcase)
- (else string-downcase)))
- (anychar-dispatch))
- ((#\)) ; Case conversion end
- (if (not format:case-conversion)
- (format:error "missing ~~("))
- (set! format:case-conversion #f)
- (anychar-dispatch))
- ((#\[) ; Conditional begin
- (set! conditional-nest (+ conditional-nest 1))
- (cond
- ((= conditional-nest 1)
- (set! clause-pos format:pos)
- (set! clause-default #f)
- (set! clauses '())
- (set! conditional-type
- (case modifier
- ((at) 'if-then)
- ((colon) 'if-else-then)
- ((colon-at) (format:error "illegal modifier in ~~["))
- (else 'num-case)))
- (set! conditional-arg
- (if (one-positive-integer? params)
- (car params)
- (next-arg)))))
- (anychar-dispatch))
- ((#\;) ; Conditional separator
- (if (zero? conditional-nest)
- (format:error "~~; not in ~~[~~] conditional"))
- (if (not (null? params))
- (format:error "no parameter allowed in ~~;"))
- (if (= conditional-nest 1)
- (let ((clause-str
- (cond
- ((eq? modifier 'colon)
- (set! clause-default #t)
- (substring format-string clause-pos
- (- format:pos 3)))
- ((memq modifier '(at colon-at))
- (format:error "illegal modifier in ~~;"))
- (else
- (substring format-string clause-pos
- (- format:pos 2))))))
- (set! clauses (append clauses (list clause-str)))
- (set! clause-pos format:pos)))
- (anychar-dispatch))
- ((#\]) ; Conditional end
- (if (zero? conditional-nest) (format:error "missing ~~["))
- (set! conditional-nest (- conditional-nest 1))
- (if modifier
- (format:error "no modifier allowed in ~~]"))
- (if (not (null? params))
- (format:error "no parameter allowed in ~~]"))
- (cond
- ((zero? conditional-nest)
- (let ((clause-str (substring format-string clause-pos
- (- format:pos 2))))
- (if clause-default
- (set! clause-default clause-str)
- (set! clauses (append clauses (list clause-str)))))
- (case conditional-type
- ((if-then)
- (if conditional-arg
- (format:format-work (car clauses)
- (list conditional-arg))))
- ((if-else-then)
- (add-arg-pos
- (format:format-work (if conditional-arg
- (cadr clauses)
- (car clauses))
- (rest-args))))
- ((num-case)
- (if (or (not (integer? conditional-arg))
- (< conditional-arg 0))
- (format:error "argument not a positive integer"))
- (if (not (and (>= conditional-arg (length clauses))
- (not clause-default)))
- (add-arg-pos
- (format:format-work
- (if (>= conditional-arg (length clauses))
- clause-default
- (list-ref clauses conditional-arg))
- (rest-args))))))))
- (anychar-dispatch))
- ((#\{) ; Iteration begin
- (set! iteration-nest (+ iteration-nest 1))
- (cond
- ((= iteration-nest 1)
- (set! iteration-pos format:pos)
- (set! iteration-type
- (case modifier
- ((at) 'rest-args)
- ((colon) 'sublists)
- ((colon-at) 'rest-sublists)
- (else 'list)))
- (set! max-iterations (if (one-positive-integer? params)
- (car params) #f))))
- (anychar-dispatch))
- ((#\}) ; Iteration end
- (if (zero? iteration-nest) (format:error "missing ~~{"))
- (set! iteration-nest (- iteration-nest 1))
- (case modifier
- ((colon)
- (if (not max-iterations) (set! max-iterations 1)))
- ((colon-at at) (format:error "illegal modifier"))
- (else (if (not max-iterations)
- (set! max-iterations format:max-iterations))))
- (if (not (null? params))
- (format:error "no parameters allowed in ~~}"))
- (if (zero? iteration-nest)
- (let ((iteration-str
- (substring format-string iteration-pos
- (- format:pos (if modifier 3 2)))))
- (if (string=? iteration-str "")
- (set! iteration-str (next-arg)))
- (case iteration-type
- ((list)
- (let ((args (next-arg))
- (args-len 0))
- (if (not (list? args))
- (format:error "expected a list argument"))
- (set! args-len (length args))
- (do ((arg-pos 0 (+ arg-pos
- (format:format-work
- iteration-str
- (list-tail args arg-pos))))
- (i 0 (+ i 1)))
- ((or (>= arg-pos args-len)
- (and format:iteration-bounded
- (>= i max-iterations)))))))
- ((sublists)
- (let ((args (next-arg))
- (args-len 0))
- (if (not (list? args))
- (format:error "expected a list argument"))
- (set! args-len (length args))
- (do ((arg-pos 0 (+ arg-pos 1)))
- ((or (>= arg-pos args-len)
- (and format:iteration-bounded
- (>= arg-pos max-iterations))))
- (let ((sublist (list-ref args arg-pos)))
- (if (not (list? sublist))
- (format:error
- "expected a list of lists argument"))
- (format:format-work iteration-str sublist)))))
- ((rest-args)
- (let* ((args (rest-args))
- (args-len (length args))
- (usedup-args
- (do ((arg-pos 0 (+ arg-pos
- (format:format-work
- iteration-str
- (list-tail
- args arg-pos))))
- (i 0 (+ i 1)))
- ((or (>= arg-pos args-len)
- (and format:iteration-bounded
- (>= i max-iterations)))
- arg-pos))))
- (add-arg-pos usedup-args)))
- ((rest-sublists)
- (let* ((args (rest-args))
- (args-len (length args))
- (usedup-args
- (do ((arg-pos 0 (+ arg-pos 1)))
- ((or (>= arg-pos args-len)
- (and format:iteration-bounded
- (>= arg-pos max-iterations)))
- arg-pos)
- (let ((sublist (list-ref args arg-pos)))
- (if (not (list? sublist))
- (format:error "expected list arguments"))
- (format:format-work iteration-str sublist)))))
- (add-arg-pos usedup-args)))
- (else (format:error "internal error in ~~}")))))
- (anychar-dispatch))
- ((#\^) ; Up and out
- (let* ((continue
- (cond
- ((not (null? params))
- (not
- (case (length params)
- ((1) (zero? (car params)))
- ((2) (= (list-ref params 0) (list-ref params 1)))
- ((3) (<= (list-ref params 0)
- (list-ref params 1)
- (list-ref params 2)))
- (else (format:error "too much parameters")))))
- (format:case-conversion ; if conversion stop conversion
- (set! format:case-conversion string-copy) #t)
- ((= iteration-nest 1) #t)
- ((= conditional-nest 1) #t)
- ((>= arg-pos arg-len)
- (set! format:pos format-string-len) #f)
- (else #t))))
- (if continue
- (anychar-dispatch))))
-
- ;; format directive modifiers and parameters
-
- ((#\@) ; `@' modifier
- (if (memq modifier '(at colon-at))
- (format:error "double `@' modifier"))
- (set! modifier (if (eq? modifier 'colon) 'colon-at 'at))
- (tilde-dispatch))
- ((#\:) ; `:' modifier
- (if (memq modifier '(colon colon-at))
- (format:error "double `:' modifier"))
- (set! modifier (if (eq? modifier 'at) 'colon-at 'colon))
- (tilde-dispatch))
- ((#\') ; Character parameter
- (if modifier (format:error "misplaced modifier"))
- (set! params (append params (list (char->integer (next-char)))))
- (set! param-value-found #t)
- (tilde-dispatch))
- ((#\0 #\1 #\2 #\3 #\4 #\5 #\6 #\7 #\8 #\9 #\- #\+) ; num. paramtr
- (if modifier (format:error "misplaced modifier"))
- (let ((num-str-beg (- format:pos 1))
- (num-str-end format:pos))
- (do ((ch (peek-next-char) (peek-next-char)))
- ((not (char-numeric? ch)))
- (next-char)
- (set! num-str-end (+ 1 num-str-end)))
- (set! params
- (append params
- (list (string->number
- (substring format-string
- num-str-beg
- num-str-end))))))
- (set! param-value-found #t)
- (tilde-dispatch))
- ((#\V) ; Variable parameter from next argum.
- (if modifier (format:error "misplaced modifier"))
- (set! params (append params (list (next-arg))))
- (set! param-value-found #t)
- (tilde-dispatch))
- ((#\#) ; Parameter is number of remaining args
- (if modifier (format:error "misplaced modifier"))
- (set! params (append params (list (length (rest-args)))))
- (set! param-value-found #t)
- (tilde-dispatch))
- ((#\,) ; Parameter separators
- (if modifier (format:error "misplaced modifier"))
- (if (not param-value-found)
- (set! params (append params '(#f)))) ; append empty paramtr
- (set! param-value-found #f)
- (tilde-dispatch))
- ((#\Q) ; Inquiry messages
- (if (eq? modifier 'colon)
- (format:out-str format:version)
- (let ((nl (string #\newline)))
- (format:out-str
- (string-append
- "SLIB Common LISP format version " format:version nl
- " (C) copyright 1992-1994 by Dirk Lutzebaeck" nl
- " please send bug reports to `lutzeb@cs.tu-berlin.de'"
- nl))))
- (anychar-dispatch))
- (else ; Unknown tilde directive
- (format:error "unknown control character `~c'"
- (string-ref format-string (- format:pos 1))))))
- (else (anychar-dispatch)))))) ; in case of conditional
-
- (set! format:pos 0)
- (set! format:arg-pos 0)
- (anychar-dispatch) ; start the formatting
- (set! format:pos recursive-pos-save)
- arg-pos)) ; return the position in the arg. list
-
-;; format:obj->str returns a R4RS representation as a string of an arbitrary
-;; scheme object.
-;; First parameter is the object, second parameter is a boolean if the
-;; representation should be slashified as `write' does.
-;; It uses format:char->str which converts a character into
-;; a slashified string as `write' does and which is implementation dependent.
-;; It uses format:iobj->str to print out internal objects as
-;; quoted strings so that the output can always be processed by (read)
-
-(define (format:obj->str obj slashify)
+;; First parameter is the object, second parameter is a boolean if
+;; the representation should be slashified as `write' does.
+
+;; It uses format:char->str which converts a character into a
+;; slashified string as `write' does and which is implementation
+;; dependent.
+
+;; It uses format:iobj->str to print out internal objects as quoted
+;; strings so that the output can always be processed by (read)
+
+;; If format:read-proof is set to #t the resulting string is
+;; additionally set into string quotes.
+
+(define (format:obj->str obj slashify format:read-proof)
(cond
((string? obj)
(if slashify
(let ((obj-len (string-length obj)))
(string-append
"\""
- (let loop ((i 0) (j 0)) ; taken from Marc Feeley's pp.scm
+ (let loop ((i 0) (j 0)) ; taken from Marc Feeley's pp.scm
(if (= j obj-len)
(string-append (substring obj i j) "\"")
(let ((c (string-ref obj j)))
@@ -820,43 +1516,44 @@
((null? obj) "()")
((input-port? obj)
- (format:iobj->str obj))
+ (format:iobj->str obj format:read-proof))
((output-port? obj)
- (format:iobj->str obj))
+ (format:iobj->str obj format:read-proof))
((list? obj)
(string-append "("
(let loop ((obj-list obj))
(if (null? (cdr obj-list))
- (format:obj->str (car obj-list) #t)
+ (format:obj->str (car obj-list) #t format:read-proof)
(string-append
- (format:obj->str (car obj-list) #t)
+ (format:obj->str (car obj-list) #t format:read-proof)
" "
(loop (cdr obj-list)))))
")"))
((pair? obj)
(string-append "("
- (format:obj->str (car obj) #t)
+ (format:obj->str (car obj) #t format:read-proof)
" . "
- (format:obj->str (cdr obj) #t)
+ (format:obj->str (cdr obj) #t format:read-proof)
")"))
((vector? obj)
- (string-append "#" (format:obj->str (vector->list obj) #t)))
+ (string-append "#" (format:obj->str (vector->list obj) #t format:read-proof)))
(else ; only objects with an #<...>
- (format:iobj->str obj)))) ; representation should fall in here
+ (format:iobj->str obj format:read-proof))))
+ ; representation should fall in here
-;; format:iobj->str reveals the implementation dependent representation of
-;; #<...> objects with the use of display and call-with-output-string.
-;; If format:read-proof is set to #t the resulting string is additionally
-;; set into string quotes.
+;; format:iobj->str reveals the implementation dependent
+;; representation of #<...> objects with the use of display and
+;; call-with-output-string.
-(define format:read-proof #f)
+;; If format:read-proof is set to #t the resulting string is
+;; additionally set into string quotes.
-(define (format:iobj->str iobj)
+(define (format:iobj->str iobj format:read-proof)
(if (or format:read-proof
format:iobj-case-conv)
(string-append
@@ -868,11 +1565,22 @@
(if format:read-proof "\"" ""))
(call-with-output-string (lambda (p) (display iobj p)))))
+(define (format:par pars length index default name)
+ (if (> length index)
+ (let ((par (list-ref pars index)))
+ (if par
+ (if name
+ (if (< par 0)
+ (slib:error name "parameter must be a positive integer")
+ par)
+ par)
+ default))
+ default))
;; format:char->str converts a character into a slashified string as
;; done by `write'. The procedure is dependent on the integer
-;; representation of characters and assumes a character number according to
-;; the ASCII character set.
+;; representation of characters and assumes a character number
+;; according to the ASCII character set.
(define (format:char->str ch)
(let ((int-rep (char->integer ch)))
@@ -885,763 +1593,29 @@
((and (>= int-rep 0) (<= int-rep 32))
(vector-ref format:ascii-non-printable-charnames int-rep))
((= int-rep 127) "del")
- ((>= int-rep 128) ; octal representation
+ ((>= int-rep 128) ; octal representation
(if format:radix-pref
(let ((s (number->string int-rep 8)))
(substring s 2 (string-length s)))
(number->string int-rep 8)))
(else (string ch))))))
-(define format:space-ch (char->integer #\space))
-(define format:zero-ch (char->integer #\0))
-
-(define (format:par pars length index default name)
- (if (> length index)
- (let ((par (list-ref pars index)))
- (if par
- (if name
- (if (< par 0)
- (format:error
- "~s parameter must be a positive integer" name)
- par)
- par)
- default))
- default))
-
-(define (format:out-obj-padded pad-left obj slashify pars)
- (if (null? pars)
- (format:out-str (format:obj->str obj slashify))
- (let ((l (length pars)))
- (let ((mincol (format:par pars l 0 0 "mincol"))
- (colinc (format:par pars l 1 1 "colinc"))
- (minpad (format:par pars l 2 0 "minpad"))
- (padchar (integer->char
- (format:par pars l 3 format:space-ch #f)))
- (objstr (format:obj->str obj slashify)))
- (if (not pad-left)
- (format:out-str objstr))
- (do ((objstr-len (string-length objstr))
- (i minpad (+ i colinc)))
- ((>= (+ objstr-len i) mincol)
- (format:out-fill i padchar)))
- (if pad-left
- (format:out-str objstr))))))
-
-(define (format:out-num-padded modifier number pars radix)
- (if (not (integer? number)) (format:error "argument not an integer"))
- (let ((numstr (number->string number radix)))
- (if (and format:radix-pref (not (= radix 10)))
- (set! numstr (substring numstr 2 (string-length numstr))))
- (if (and (null? pars) (not modifier))
- (format:out-str numstr)
- (let ((l (length pars))
- (numstr-len (string-length numstr)))
- (let ((mincol (format:par pars l 0 #f "mincol"))
- (padchar (integer->char
- (format:par pars l 1 format:space-ch #f)))
- (commachar (integer->char
- (format:par pars l 2 (char->integer #\,) #f)))
- (commawidth (format:par pars l 3 3 "commawidth")))
- (if mincol
- (let ((numlen numstr-len)) ; calc. the output len of number
- (if (and (memq modifier '(at colon-at)) (> number 0))
- (set! numlen (+ numlen 1)))
- (if (memq modifier '(colon colon-at))
- (set! numlen (+ (quotient (- numstr-len
- (if (< number 0) 2 1))
- commawidth)
- numlen)))
- (if (> mincol numlen)
- (format:out-fill (- mincol numlen) padchar))))
- (if (and (memq modifier '(at colon-at))
- (> number 0))
- (format:out-char #\+))
- (if (memq modifier '(colon colon-at)) ; insert comma character
- (let ((start (remainder numstr-len commawidth))
- (ns (if (< number 0) 1 0)))
- (format:out-substr numstr 0 start)
- (do ((i start (+ i commawidth)))
- ((>= i numstr-len))
- (if (> i ns)
- (format:out-char commachar))
- (format:out-substr numstr i (+ i commawidth))))
- (format:out-str numstr)))))))
-
-(define (format:tabulate modifier pars)
- (let ((l (length pars)))
- (let ((colnum (format:par pars l 0 1 "colnum"))
- (colinc (format:par pars l 1 1 "colinc"))
- (padch (integer->char (format:par pars l 2 format:space-ch #f))))
- (case modifier
- ((colon colon-at)
- (format:error "unsupported modifier for ~~t"))
- ((at) ; relative tabulation
- (format:out-fill
- (if (= colinc 0)
- colnum ; colnum = colrel
- (do ((c 0 (+ c colinc))
- (col (+ format:output-col colnum)))
- ((>= c col)
- (- c format:output-col))))
- padch))
- (else ; absolute tabulation
- (format:out-fill
- (cond
- ((< format:output-col colnum)
- (- colnum format:output-col))
- ((= colinc 0)
- 0)
- (else
- (do ((c colnum (+ c colinc)))
- ((>= c format:output-col)
- (- c format:output-col)))))
- padch))))))
-
-
-;; roman numerals (from dorai@cs.rice.edu).
-
-(define format:roman-alist
- '((1000 #\M) (500 #\D) (100 #\C) (50 #\L)
- (10 #\X) (5 #\V) (1 #\I)))
-
-(define format:roman-boundary-values
- '(100 100 10 10 1 1 #f))
-
-(define format:num->old-roman
- (lambda (n)
- (if (and (integer? n) (>= n 1))
- (let loop ((n n)
- (romans format:roman-alist)
- (s '()))
- (if (null? romans) (list->string (reverse s))
- (let ((roman-val (caar romans))
- (roman-dgt (cadar romans)))
- (do ((q (quotient n roman-val) (- q 1))
- (s s (cons roman-dgt s)))
- ((= q 0)
- (loop (remainder n roman-val)
- (cdr romans) s))))))
- (format:error "only positive integers can be romanized"))))
-
-(define format:num->roman
- (lambda (n)
- (if (and (integer? n) (> n 0))
- (let loop ((n n)
- (romans format:roman-alist)
- (boundaries format:roman-boundary-values)
- (s '()))
- (if (null? romans)
- (list->string (reverse s))
- (let ((roman-val (caar romans))
- (roman-dgt (cadar romans))
- (bdry (car boundaries)))
- (let loop2 ((q (quotient n roman-val))
- (r (remainder n roman-val))
- (s s))
- (if (= q 0)
- (if (and bdry (>= r (- roman-val bdry)))
- (loop (remainder r bdry) (cdr romans)
- (cdr boundaries)
- (cons roman-dgt
- (append
- (cdr (assv bdry romans))
- s)))
- (loop r (cdr romans) (cdr boundaries) s))
- (loop2 (- q 1) r (cons roman-dgt s)))))))
- (format:error "only positive integers can be romanized"))))
-
-;; cardinals & ordinals (from dorai@cs.rice.edu)
-
-(define format:cardinal-ones-list
- '(#f "one" "two" "three" "four" "five"
- "six" "seven" "eight" "nine" "ten" "eleven" "twelve" "thirteen"
- "fourteen" "fifteen" "sixteen" "seventeen" "eighteen"
- "nineteen"))
-
-(define format:cardinal-tens-list
- '(#f #f "twenty" "thirty" "forty" "fifty" "sixty" "seventy" "eighty"
- "ninety"))
-
-(define format:num->cardinal999
- (lambda (n)
- ;this procedure is inspired by the Bruno Haible's CLisp
- ;function format-small-cardinal, which converts numbers
- ;in the range 1 to 999, and is used for converting each
- ;thousand-block in a larger number
- (let* ((hundreds (quotient n 100))
- (tens+ones (remainder n 100))
- (tens (quotient tens+ones 10))
- (ones (remainder tens+ones 10)))
- (append
- (if (> hundreds 0)
- (append
- (string->list
- (list-ref format:cardinal-ones-list hundreds))
- (string->list" hundred")
- (if (> tens+ones 0) '(#\space) '()))
- '())
- (if (< tens+ones 20)
- (if (> tens+ones 0)
- (string->list
- (list-ref format:cardinal-ones-list tens+ones))
- '())
- (append
- (string->list
- (list-ref format:cardinal-tens-list tens))
- (if (> ones 0)
- (cons #\-
- (string->list
- (list-ref format:cardinal-ones-list ones)))
- '())))))))
-
-(define format:cardinal-thousand-block-list
- '("" " thousand" " million" " billion" " trillion" " quadrillion"
- " quintillion" " sextillion" " septillion" " octillion" " nonillion"
- " decillion" " undecillion" " duodecillion" " tredecillion"
- " quattuordecillion" " quindecillion" " sexdecillion" " septendecillion"
- " octodecillion" " novemdecillion" " vigintillion"))
-
-(define format:num->cardinal
- (lambda (n)
- (cond ((not (integer? n))
- (format:error
- "only integers can be converted to English cardinals"))
- ((= n 0) "zero")
- ((< n 0) (string-append "minus " (format:num->cardinal (- n))))
- (else
- (let ((power3-word-limit
- (length format:cardinal-thousand-block-list)))
- (let loop ((n n)
- (power3 0)
- (s '()))
- (if (= n 0)
- (list->string s)
- (let ((n-before-block (quotient n 1000))
- (n-after-block (remainder n 1000)))
- (loop n-before-block
- (+ power3 1)
- (if (> n-after-block 0)
- (append
- (if (> n-before-block 0)
- (string->list ", ") '())
- (format:num->cardinal999 n-after-block)
- (if (< power3 power3-word-limit)
- (string->list
- (list-ref
- format:cardinal-thousand-block-list
- power3))
- (append
- (string->list " times ten to the ")
- (string->list
- (format:num->ordinal
- (* power3 3)))
- (string->list " power")))
- s)
- s))))))))))
-
-(define format:ordinal-ones-list
- '(#f "first" "second" "third" "fourth" "fifth"
- "sixth" "seventh" "eighth" "ninth" "tenth" "eleventh" "twelfth"
- "thirteenth" "fourteenth" "fifteenth" "sixteenth" "seventeenth"
- "eighteenth" "nineteenth"))
-
-(define format:ordinal-tens-list
- '(#f #f "twentieth" "thirtieth" "fortieth" "fiftieth" "sixtieth"
- "seventieth" "eightieth" "ninetieth"))
-
-(define format:num->ordinal
- (lambda (n)
- (cond ((not (integer? n))
- (format:error
- "only integers can be converted to English ordinals"))
- ((= n 0) "zeroth")
- ((< n 0) (string-append "minus " (format:num->ordinal (- n))))
- (else
- (let ((hundreds (quotient n 100))
- (tens+ones (remainder n 100)))
- (string-append
- (if (> hundreds 0)
- (string-append
- (format:num->cardinal (* hundreds 100))
- (if (= tens+ones 0) "th" " "))
- "")
- (if (= tens+ones 0) ""
- (if (< tens+ones 20)
- (list-ref format:ordinal-ones-list tens+ones)
- (let ((tens (quotient tens+ones 10))
- (ones (remainder tens+ones 10)))
- (if (= ones 0)
- (list-ref format:ordinal-tens-list tens)
- (string-append
- (list-ref format:cardinal-tens-list tens)
- "-"
- (list-ref format:ordinal-ones-list ones))))
- ))))))))
-
-;; format fixed flonums (~F)
-
-(define (format:out-fixed modifier number pars)
- (if (not (or (number? number) (string? number)))
- (format:error "argument is not a number or a number string"))
-
- (let ((l (length pars)))
- (let ((width (format:par pars l 0 #f "width"))
- (digits (format:par pars l 1 #f "digits"))
- (scale (format:par pars l 2 0 #f))
- (overch (format:par pars l 3 #f #f))
- (padch (format:par pars l 4 format:space-ch #f)))
-
- (if digits
-
- (begin ; fixed precision
- (format:parse-float
- (if (string? number) number (number->string number)) #t scale)
- (if (<= (- format:fn-len format:fn-dot) digits)
- (format:fn-zfill #f (- digits (- format:fn-len format:fn-dot)))
- (format:fn-round digits))
- (if width
- (let ((numlen (+ format:fn-len 1)))
- (if (or (not format:fn-pos?) (eq? modifier 'at))
- (set! numlen (+ numlen 1)))
- (if (and (= format:fn-dot 0) (> width (+ digits 1)))
- (set! numlen (+ numlen 1)))
- (if (< numlen width)
- (format:out-fill (- width numlen) (integer->char padch)))
- (if (and overch (> numlen width))
- (format:out-fill width (integer->char overch))
- (format:fn-out modifier (> width (+ digits 1)))))
- (format:fn-out modifier #t)))
-
- (begin ; free precision
- (format:parse-float
- (if (string? number) number (number->string number)) #t scale)
- (format:fn-strip)
- (if width
- (let ((numlen (+ format:fn-len 1)))
- (if (or (not format:fn-pos?) (eq? modifier 'at))
- (set! numlen (+ numlen 1)))
- (if (= format:fn-dot 0)
- (set! numlen (+ numlen 1)))
- (if (< numlen width)
- (format:out-fill (- width numlen) (integer->char padch)))
- (if (> numlen width) ; adjust precision if possible
- (let ((dot-index (- numlen
- (- format:fn-len format:fn-dot))))
- (if (> dot-index width)
- (if overch ; numstr too big for required width
- (format:out-fill width (integer->char overch))
- (format:fn-out modifier #t))
- (begin
- (format:fn-round (- width dot-index))
- (format:fn-out modifier #t))))
- (format:fn-out modifier #t)))
- (format:fn-out modifier #t)))))))
-
-;; format exponential flonums (~E)
-
-(define (format:out-expon modifier number pars)
- (if (not (or (number? number) (string? number)))
- (format:error "argument is not a number"))
-
- (let ((l (length pars)))
- (let ((width (format:par pars l 0 #f "width"))
- (digits (format:par pars l 1 #f "digits"))
- (edigits (format:par pars l 2 #f "exponent digits"))
- (scale (format:par pars l 3 1 #f))
- (overch (format:par pars l 4 #f #f))
- (padch (format:par pars l 5 format:space-ch #f))
- (expch (format:par pars l 6 #f #f)))
-
- (if digits ; fixed precision
-
- (let ((digits (if (> scale 0)
- (if (< scale (+ digits 2))
- (+ (- digits scale) 1)
- 0)
- digits)))
- (format:parse-float
- (if (string? number) number (number->string number)) #f scale)
- (if (<= (- format:fn-len format:fn-dot) digits)
- (format:fn-zfill #f (- digits (- format:fn-len format:fn-dot)))
- (format:fn-round digits))
- (if width
- (if (and edigits overch (> format:en-len edigits))
- (format:out-fill width (integer->char overch))
- (let ((numlen (+ format:fn-len 3))) ; .E+
- (if (or (not format:fn-pos?) (eq? modifier 'at))
- (set! numlen (+ numlen 1)))
- (if (and (= format:fn-dot 0) (> width (+ digits 1)))
- (set! numlen (+ numlen 1)))
- (set! numlen
- (+ numlen
- (if (and edigits (>= edigits format:en-len))
- edigits
- format:en-len)))
- (if (< numlen width)
- (format:out-fill (- width numlen)
- (integer->char padch)))
- (if (and overch (> numlen width))
- (format:out-fill width (integer->char overch))
- (begin
- (format:fn-out modifier (> width (- numlen 1)))
- (format:en-out edigits expch)))))
- (begin
- (format:fn-out modifier #t)
- (format:en-out edigits expch))))
-
- (begin ; free precision
- (format:parse-float
- (if (string? number) number (number->string number)) #f scale)
- (format:fn-strip)
- (if width
- (if (and edigits overch (> format:en-len edigits))
- (format:out-fill width (integer->char overch))
- (let ((numlen (+ format:fn-len 3))) ; .E+
- (if (or (not format:fn-pos?) (eq? modifier 'at))
- (set! numlen (+ numlen 1)))
- (if (= format:fn-dot 0)
- (set! numlen (+ numlen 1)))
- (set! numlen
- (+ numlen
- (if (and edigits (>= edigits format:en-len))
- edigits
- format:en-len)))
- (if (< numlen width)
- (format:out-fill (- width numlen)
- (integer->char padch)))
- (if (> numlen width) ; adjust precision if possible
- (let ((f (- format:fn-len format:fn-dot))) ; fract len
- (if (> (- numlen f) width)
- (if overch ; numstr too big for required width
- (format:out-fill width
- (integer->char overch))
- (begin
- (format:fn-out modifier #t)
- (format:en-out edigits expch)))
- (begin
- (format:fn-round (+ (- f numlen) width))
- (format:fn-out modifier #t)
- (format:en-out edigits expch))))
- (begin
- (format:fn-out modifier #t)
- (format:en-out edigits expch)))))
- (begin
- (format:fn-out modifier #t)
- (format:en-out edigits expch))))))))
-
-;; format general flonums (~G)
-
-(define (format:out-general modifier number pars)
- (if (not (or (number? number) (string? number)))
- (format:error "argument is not a number or a number string"))
-
- (let ((l (length pars)))
- (let ((width (if (> l 0) (list-ref pars 0) #f))
- (digits (if (> l 1) (list-ref pars 1) #f))
- (edigits (if (> l 2) (list-ref pars 2) #f))
- (overch (if (> l 4) (list-ref pars 4) #f))
- (padch (if (> l 5) (list-ref pars 5) #f)))
- (format:parse-float
- (if (string? number) number (number->string number)) #t 0)
- (format:fn-strip)
- (let* ((ee (if edigits (+ edigits 2) 4)) ; for the following algorithm
- (ww (if width (- width ee) #f)) ; see Steele's CL book p.395
- (n (if (= format:fn-dot 0) ; number less than (abs 1.0) ?
- (- (format:fn-zlead))
- format:fn-dot))
- (d (if digits
- digits
- (max format:fn-len (min n 7)))) ; q = format:fn-len
- (dd (- d n)))
- (if (<= 0 dd d)
- (begin
- (format:out-fixed modifier number (list ww dd #f overch padch))
- (format:out-fill ee #\space)) ;~@T not implemented yet
- (format:out-expon modifier number pars))))))
-
-;; format dollar flonums (~$)
-
-(define (format:out-dollar modifier number pars)
- (if (not (or (number? number) (string? number)))
- (format:error "argument is not a number or a number string"))
-
- (let ((l (length pars)))
- (let ((digits (format:par pars l 0 2 "digits"))
- (mindig (format:par pars l 1 1 "mindig"))
- (width (format:par pars l 2 0 "width"))
- (padch (format:par pars l 3 format:space-ch #f)))
-
- (format:parse-float
- (if (string? number) number (number->string number)) #t 0)
- (if (<= (- format:fn-len format:fn-dot) digits)
- (format:fn-zfill #f (- digits (- format:fn-len format:fn-dot)))
- (format:fn-round digits))
- (let ((numlen (+ format:fn-len 1)))
- (if (or (not format:fn-pos?) (memq modifier '(at colon-at)))
- (set! numlen (+ numlen 1)))
- (if (and mindig (> mindig format:fn-dot))
- (set! numlen (+ numlen (- mindig format:fn-dot))))
- (if (and (= format:fn-dot 0) (not mindig))
- (set! numlen (+ numlen 1)))
- (if (< numlen width)
- (case modifier
- ((colon)
- (if (not format:fn-pos?)
- (format:out-char #\-))
- (format:out-fill (- width numlen) (integer->char padch)))
- ((at)
- (format:out-fill (- width numlen) (integer->char padch))
- (format:out-char (if format:fn-pos? #\+ #\-)))
- ((colon-at)
- (format:out-char (if format:fn-pos? #\+ #\-))
- (format:out-fill (- width numlen) (integer->char padch)))
- (else
- (format:out-fill (- width numlen) (integer->char padch))
- (if (not format:fn-pos?)
- (format:out-char #\-))))
- (if format:fn-pos?
- (if (memq modifier '(at colon-at)) (format:out-char #\+))
- (format:out-char #\-))))
- (if (and mindig (> mindig format:fn-dot))
- (format:out-fill (- mindig format:fn-dot) #\0))
- (if (and (= format:fn-dot 0) (not mindig))
- (format:out-char #\0))
- (format:out-substr format:fn-str 0 format:fn-dot)
- (format:out-char #\.)
- (format:out-substr format:fn-str format:fn-dot format:fn-len))))
-
-; the flonum buffers
-
-(define format:fn-max 200) ; max. number of number digits
-(define format:fn-str (make-string format:fn-max)) ; number buffer
-(define format:fn-len 0) ; digit length of number
-(define format:fn-dot #f) ; dot position of number
-(define format:fn-pos? #t) ; number positive?
-(define format:en-max 10) ; max. number of exponent digits
-(define format:en-str (make-string format:en-max)) ; exponent buffer
-(define format:en-len 0) ; digit length of exponent
-(define format:en-pos? #t) ; exponent positive?
-
-(define (format:parse-float num-str fixed? scale)
- (set! format:fn-pos? #t)
- (set! format:fn-len 0)
- (set! format:fn-dot #f)
- (set! format:en-pos? #t)
- (set! format:en-len 0)
- (do ((i 0 (+ i 1))
- (left-zeros 0)
- (mantissa? #t)
- (all-zeros? #t)
- (num-len (string-length num-str))
- (c #f)) ; current exam. character in num-str
- ((= i num-len)
- (if (not format:fn-dot)
- (set! format:fn-dot format:fn-len))
-
- (if all-zeros?
- (begin
- (set! left-zeros 0)
- (set! format:fn-dot 0)
- (set! format:fn-len 1)))
-
- ;; now format the parsed values according to format's need
-
- (if fixed?
-
- (begin ; fixed format m.nnn or .nnn
- (if (and (> left-zeros 0) (> format:fn-dot 0))
- (if (> format:fn-dot left-zeros)
- (begin ; norm 0{0}nn.mm to nn.mm
- (format:fn-shiftleft left-zeros)
- (set! left-zeros 0)
- (set! format:fn-dot (- format:fn-dot left-zeros)))
- (begin ; normalize 0{0}.nnn to .nnn
- (format:fn-shiftleft format:fn-dot)
- (set! left-zeros (- left-zeros format:fn-dot))
- (set! format:fn-dot 0))))
- (if (or (not (= scale 0)) (> format:en-len 0))
- (let ((shift (+ scale (format:en-int))))
- (cond
- (all-zeros? #t)
- ((> (+ format:fn-dot shift) format:fn-len)
- (format:fn-zfill
- #f (- shift (- format:fn-len format:fn-dot)))
- (set! format:fn-dot format:fn-len))
- ((< (+ format:fn-dot shift) 0)
- (format:fn-zfill #t (- (- shift) format:fn-dot))
- (set! format:fn-dot 0))
- (else
- (if (> left-zeros 0)
- (if (<= left-zeros shift) ; shift always > 0 here
- (format:fn-shiftleft shift) ; shift out 0s
- (begin
- (format:fn-shiftleft left-zeros)
- (set! format:fn-dot (- shift left-zeros))))
- (set! format:fn-dot (+ format:fn-dot shift))))))))
-
- (let ((negexp ; expon format m.nnnEee
- (if (> left-zeros 0)
- (- left-zeros format:fn-dot -1)
- (if (= format:fn-dot 0) 1 0))))
- (if (> left-zeros 0)
- (begin ; normalize 0{0}.nnn to n.nn
- (format:fn-shiftleft left-zeros)
- (set! format:fn-dot 1))
- (if (= format:fn-dot 0)
- (set! format:fn-dot 1)))
- (format:en-set (- (+ (- format:fn-dot scale) (format:en-int))
- negexp))
- (cond
- (all-zeros?
- (format:en-set 0)
- (set! format:fn-dot 1))
- ((< scale 0) ; leading zero
- (format:fn-zfill #t (- scale))
- (set! format:fn-dot 0))
- ((> scale format:fn-dot)
- (format:fn-zfill #f (- scale format:fn-dot))
- (set! format:fn-dot scale))
- (else
- (set! format:fn-dot scale)))))
- #t)
-
- ;; do body
- (set! c (string-ref num-str i)) ; parse the output of number->string
- (cond ; which can be any valid number
- ((char-numeric? c) ; representation of R4RS except
- (if mantissa? ; complex numbers
- (begin
- (if (char=? c #\0)
- (if all-zeros?
- (set! left-zeros (+ left-zeros 1)))
- (begin
- (set! all-zeros? #f)))
- (string-set! format:fn-str format:fn-len c)
- (set! format:fn-len (+ format:fn-len 1)))
- (begin
- (string-set! format:en-str format:en-len c)
- (set! format:en-len (+ format:en-len 1)))))
- ((or (char=? c #\-) (char=? c #\+))
- (if mantissa?
- (set! format:fn-pos? (char=? c #\+))
- (set! format:en-pos? (char=? c #\+))))
- ((char=? c #\.)
- (set! format:fn-dot format:fn-len))
- ((char=? c #\e)
- (set! mantissa? #f))
- ((char=? c #\E)
- (set! mantissa? #f))
- ((char-whitespace? c) #t)
- ((char=? c #\d) #t) ; decimal radix prefix
- ((char=? c #\#) #t)
- (else
- (format:error "illegal character `~c' in number->string" c)))))
-
-(define (format:en-int) ; convert exponent string to integer
- (if (= format:en-len 0)
- 0
- (do ((i 0 (+ i 1))
- (n 0))
- ((= i format:en-len)
- (if format:en-pos?
- n
- (- n)))
- (set! n (+ (* n 10) (- (char->integer (string-ref format:en-str i))
- format:zero-ch))))))
-
-(define (format:en-set en) ; set exponent string number
- (set! format:en-len 0)
- (set! format:en-pos? (>= en 0))
- (let ((en-str (number->string en)))
- (do ((i 0 (+ i 1))
- (en-len (string-length en-str))
- (c #f))
- ((= i en-len))
- (set! c (string-ref en-str i))
- (if (char-numeric? c)
- (begin
- (string-set! format:en-str format:en-len c)
- (set! format:en-len (+ format:en-len 1)))))))
-
-(define (format:fn-zfill left? n) ; fill current number string with 0s
- (if (> (+ n format:fn-len) format:fn-max) ; from the left or right
- (format:error "number is too long to format (enlarge format:fn-max)"))
- (set! format:fn-len (+ format:fn-len n))
- (if left?
- (do ((i format:fn-len (- i 1))) ; fill n 0s to left
- ((< i 0))
- (string-set! format:fn-str i
- (if (< i n)
- #\0
- (string-ref format:fn-str (- i n)))))
- (do ((i (- format:fn-len n) (+ i 1))) ; fill n 0s to the right
- ((= i format:fn-len))
- (string-set! format:fn-str i #\0))))
-
-(define (format:fn-shiftleft n) ; shift left current number n positions
- (if (> n format:fn-len)
- (format:error "internal error in format:fn-shiftleft (~d,~d)"
- n format:fn-len))
- (do ((i n (+ i 1)))
- ((= i format:fn-len)
- (set! format:fn-len (- format:fn-len n)))
- (string-set! format:fn-str (- i n) (string-ref format:fn-str i))))
-
-(define (format:fn-round digits) ; round format:fn-str
- (set! digits (+ digits format:fn-dot))
- (do ((i digits (- i 1)) ; "099",2 -> "10"
- (c 5)) ; "023",2 -> "02"
- ((or (= c 0) (< i 0)) ; "999",2 -> "100"
- (if (= c 1) ; "005",2 -> "01"
- (begin ; carry overflow
- (set! format:fn-len digits)
- (format:fn-zfill #t 1) ; add a 1 before fn-str
- (string-set! format:fn-str 0 #\1)
- (set! format:fn-dot (+ format:fn-dot 1)))
- (set! format:fn-len digits)))
- (set! c (+ (- (char->integer (string-ref format:fn-str i))
- format:zero-ch) c))
- (string-set! format:fn-str i (integer->char
- (if (< c 10)
- (+ c format:zero-ch)
- (+ (- c 10) format:zero-ch))))
- (set! c (if (< c 10) 0 1))))
-
-(define (format:fn-out modifier add-leading-zero?)
- (if format:fn-pos?
- (if (eq? modifier 'at)
- (format:out-char #\+))
- (format:out-char #\-))
- (if (= format:fn-dot 0)
- (if add-leading-zero?
- (format:out-char #\0))
- (format:out-substr format:fn-str 0 format:fn-dot))
- (format:out-char #\.)
- (format:out-substr format:fn-str format:fn-dot format:fn-len))
-
-(define (format:en-out edigits expch)
- (format:out-char (if expch (integer->char expch) format:expch))
- (format:out-char (if format:en-pos? #\+ #\-))
- (if edigits
- (if (< format:en-len edigits)
- (format:out-fill (- edigits format:en-len) #\0)))
- (format:out-substr format:en-str 0 format:en-len))
-
-(define (format:fn-strip) ; strip trailing zeros but one
- (string-set! format:fn-str format:fn-len #\0)
- (do ((i format:fn-len (- i 1)))
- ((or (not (char=? (string-ref format:fn-str i) #\0))
- (<= i format:fn-dot))
- (set! format:fn-len (+ i 1)))))
-
-(define (format:fn-zlead) ; count leading zeros
- (do ((i 0 (+ i 1)))
- ((or (= i format:fn-len)
- (not (char=? (string-ref format:fn-str i) #\0)))
- (if (= i format:fn-len) ; found a real zero
- 0
- i))))
-
+;;; We should keep separate track of columns for each port, but
+;;; keeping pointers to ports will foil GC. Instead, keep
+;;; associations indexed by the DISPLAYed representation of the ports.
+(define *port-columns* '())
+(define (format:get-port-column port)
+ (define pair (assoc (call-with-output-string
+ (lambda (sport) (display port sport)))
+ *port-columns*))
+ (if pair (cdr pair) 0))
+(define (format:set-port-column! port col)
+ (define pname (call-with-output-string
+ (lambda (sport) (display port sport))))
+ (let ((pair (assoc pname *port-columns*)))
+ (if pair
+ (set-cdr! pair col)
+ (set! *port-columns* (cons (cons pname col) *port-columns*)))))
;;; some global functions not found in SLIB
@@ -1658,31 +1632,3 @@
(begin
(set! non-first-alpha #t)
(string-set! cap-str i (char-upcase c)))))))))
-
-(define (format:list-head l k)
- (if (= k 0)
- '()
- (cons (car l) (format:list-head (cdr l) (- k 1)))))
-
-
-;; Aborts the program when a formatting error occures. This is a null
-;; argument closure to jump to the interpreters toplevel continuation.
-
-(define format:abort (lambda () (slib:error "error in format")))
-
-(define format format:format)
-
-;; If this is not possible then a continuation is used to recover
-;; properly from a format error. In this case format returns #f.
-
-;(define format:abort
-; (lambda () (format:error-continuation #f)))
-
-;(define format
-; (lambda args ; wraps format:format with an error
-; (call-with-current-continuation ; continuation
-; (lambda (cont)
-; (set! format:error-continuation cont)
-; (apply format:format args)))))
-
-;eof
diff --git a/format.texi b/format.texi
new file mode 100644
index 0000000..34d5e0a
--- /dev/null
+++ b/format.texi
@@ -0,0 +1,451 @@
+
+@menu
+* Format Interface::
+* Format Specification::
+@end menu
+
+@node Format Interface, Format Specification, Format, Format
+@subsection Format Interface
+
+@defun format destination format-string . arguments
+An almost complete implementation of Common LISP format description
+according to the CL reference book @cite{Common LISP} from Guy L.
+Steele, Digital Press. Backward compatible to most of the available
+Scheme format implementations.
+
+Returns @code{#t}, @code{#f} or a string; has side effect of printing
+according to @var{format-string}. If @var{destination} is @code{#t},
+the output is to the current output port and @code{#t} is returned. If
+@var{destination} is @code{#f}, a formatted string is returned as the
+result of the call. NEW: If @var{destination} is a string,
+@var{destination} is regarded as the format string; @var{format-string} is
+then the first argument and the output is returned as a string. If
+@var{destination} is a number, the output is to the current error port
+if available by the implementation. Otherwise @var{destination} must be
+an output port and @code{#t} is returned.@refill
+
+@var{format-string} must be a string. In case of a formatting error
+format returns @code{#f} and prints a message on the current output or
+error port. Characters are output as if the string were output by the
+@code{display} function with the exception of those prefixed by a tilde
+(~). For a detailed description of the @var{format-string} syntax
+please consult a Common LISP format reference manual. For a test suite
+to verify this format implementation load @file{formatst.scm}. Please
+send bug reports to @code{lutzeb@@cs.tu-berlin.de}.
+
+Note: @code{format} is not reentrant, i.e. only one @code{format}-call
+may be executed at a time.
+
+@end defun
+
+@node Format Specification, , Format Interface, Format
+@subsection Format Specification (Format version 3.1)
+
+Please consult a Common LISP format reference manual for a detailed
+description of the format string syntax. For a demonstration of the
+implemented directives see @file{formatst.scm}.@refill
+
+This implementation supports directive parameters and modifiers
+(@code{:} and @code{@@} characters). Multiple parameters must be
+separated by a comma (@code{,}). Parameters can be numerical parameters
+(positive or negative), character parameters (prefixed by a quote
+character (@code{'}), variable parameters (@code{v}), number of rest
+arguments parameter (@code{#}), empty and default parameters. Directive
+characters are case independent. The general form of a directive
+is:@refill
+
+@noindent
+@var{directive} ::= ~@{@var{directive-parameter},@}[:][@@]@var{directive-character}
+
+@noindent
+@var{directive-parameter} ::= [ [-|+]@{0-9@}+ | '@var{character} | v | # ]
+
+
+@subsubsection Implemented CL Format Control Directives
+
+Documentation syntax: Uppercase characters represent the corresponding
+control directive characters. Lowercase characters represent control
+directive parameter descriptions.
+
+@table @asis
+@item @code{~A}
+Any (print as @code{display} does).
+@table @asis
+@item @code{~@@A}
+left pad.
+@item @code{~@var{mincol},@var{colinc},@var{minpad},@var{padchar}A}
+full padding.
+@end table
+@item @code{~S}
+S-expression (print as @code{write} does).
+@table @asis
+@item @code{~@@S}
+left pad.
+@item @code{~@var{mincol},@var{colinc},@var{minpad},@var{padchar}S}
+full padding.
+@end table
+@item @code{~D}
+Decimal.
+@table @asis
+@item @code{~@@D}
+print number sign always.
+@item @code{~:D}
+print comma separated.
+@item @code{~@var{mincol},@var{padchar},@var{commachar}D}
+padding.
+@end table
+@item @code{~X}
+Hexadecimal.
+@table @asis
+@item @code{~@@X}
+print number sign always.
+@item @code{~:X}
+print comma separated.
+@item @code{~@var{mincol},@var{padchar},@var{commachar}X}
+padding.
+@end table
+@item @code{~O}
+Octal.
+@table @asis
+@item @code{~@@O}
+print number sign always.
+@item @code{~:O}
+print comma separated.
+@item @code{~@var{mincol},@var{padchar},@var{commachar}O}
+padding.
+@end table
+@item @code{~B}
+Binary.
+@table @asis
+@item @code{~@@B}
+print number sign always.
+@item @code{~:B}
+print comma separated.
+@item @code{~@var{mincol},@var{padchar},@var{commachar}B}
+padding.
+@end table
+@item @code{~@var{n}R}
+Radix @var{n}.
+@table @asis
+@item @code{~@var{n},@var{mincol},@var{padchar},@var{commachar}R}
+padding.
+@end table
+@item @code{~@@R}
+print a number as a Roman numeral.
+@item @code{~:@@R}
+print a number as an ``old fashioned'' Roman numeral.
+@item @code{~:R}
+print a number as an ordinal English number.
+@item @code{~R}
+print a number as a cardinal English number.
+@item @code{~P}
+Plural.
+@table @asis
+@item @code{~@@P}
+prints @code{y} and @code{ies}.
+@item @code{~:P}
+as @code{~P but jumps 1 argument backward.}
+@item @code{~:@@P}
+as @code{~@@P but jumps 1 argument backward.}
+@end table
+@item @code{~C}
+Character.
+@table @asis
+@item @code{~@@C}
+prints a character as the reader can understand it (i.e. @code{#\} prefixing).
+@item @code{~:C}
+prints a character as emacs does (eg. @code{^C} for ASCII 03).
+@end table
+@item @code{~F}
+Fixed-format floating-point (prints a flonum like @var{mmm.nnn}).
+@table @asis
+@item @code{~@var{width},@var{digits},@var{scale},@var{overflowchar},@var{padchar}F}
+@item @code{~@@F}
+If the number is positive a plus sign is printed.
+@end table
+@item @code{~E}
+Exponential floating-point (prints a flonum like @var{mmm.nnn}@code{E}@var{ee}).
+@table @asis
+@item @code{~@var{width},@var{digits},@var{exponentdigits},@var{scale},@var{overflowchar},@var{padchar},@var{exponentchar}E}
+@item @code{~@@E}
+If the number is positive a plus sign is printed.
+@end table
+@item @code{~G}
+General floating-point (prints a flonum either fixed or exponential).
+@table @asis
+@item @code{~@var{width},@var{digits},@var{exponentdigits},@var{scale},@var{overflowchar},@var{padchar},@var{exponentchar}G}
+@item @code{~@@G}
+If the number is positive a plus sign is printed.
+@end table
+@item @code{~$}
+Dollars floating-point (prints a flonum in fixed with signs separated).
+@table @asis
+@item @code{~@var{digits},@var{scale},@var{width},@var{padchar}$}
+@item @code{~@@$}
+If the number is positive a plus sign is printed.
+@item @code{~:@@$}
+A sign is always printed and appears before the padding.
+@item @code{~:$}
+The sign appears before the padding.
+@end table
+@item @code{~%}
+Newline.
+@table @asis
+@item @code{~@var{n}%}
+print @var{n} newlines.
+@end table
+@item @code{~&}
+print newline if not at the beginning of the output line.
+@table @asis
+@item @code{~@var{n}&}
+prints @code{~&} and then @var{n-1} newlines.
+@end table
+@item @code{~|}
+Page Separator.
+@table @asis
+@item @code{~@var{n}|}
+print @var{n} page separators.
+@end table
+@item @code{~~}
+Tilde.
+@table @asis
+@item @code{~@var{n}~}
+print @var{n} tildes.
+@end table
+@item @code{~}<newline>
+Continuation Line.
+@table @asis
+@item @code{~:}<newline>
+newline is ignored, white space left.
+@item @code{~@@}<newline>
+newline is left, white space ignored.
+@end table
+@item @code{~T}
+Tabulation.
+@table @asis
+@item @code{~@@T}
+relative tabulation.
+@item @code{~@var{colnum,colinc}T}
+full tabulation.
+@end table
+@item @code{~?}
+Indirection (expects indirect arguments as a list).
+@table @asis
+@item @code{~@@?}
+extracts indirect arguments from format arguments.
+@end table
+@item @code{~(@var{str}~)}
+Case conversion (converts by @code{string-downcase}).
+@table @asis
+@item @code{~:(@var{str}~)}
+converts by @code{string-capitalize}.
+@item @code{~@@(@var{str}~)}
+converts by @code{string-capitalize-first}.
+@item @code{~:@@(@var{str}~)}
+converts by @code{string-upcase}.
+@end table
+@item @code{~*}
+Argument Jumping (jumps 1 argument forward).
+@table @asis
+@item @code{~@var{n}*}
+jumps @var{n} arguments forward.
+@item @code{~:*}
+jumps 1 argument backward.
+@item @code{~@var{n}:*}
+jumps @var{n} arguments backward.
+@item @code{~@@*}
+jumps to the 0th argument.
+@item @code{~@var{n}@@*}
+jumps to the @var{n}th argument (beginning from 0)
+@end table
+@item @code{~[@var{str0}~;@var{str1}~;...~;@var{strn}~]}
+Conditional Expression (numerical clause conditional).
+@table @asis
+@item @code{~@var{n}[}
+take argument from @var{n}.
+@item @code{~@@[}
+true test conditional.
+@item @code{~:[}
+if-else-then conditional.
+@item @code{~;}
+clause separator.
+@item @code{~:;}
+default clause follows.
+@end table
+@item @code{~@{@var{str}~@}}
+Iteration (args come from the next argument (a list)). Iteration
+bounding is controlled by configuration variables
+@var{format:iteration-bounded} and @var{format:max-iterations}.
+With both variables default, a maximum of 100 iterations will be
+performed.
+@table @asis
+@item @code{~@var{n}@{}
+at most @var{n} iterations.
+@item @code{~:@{}
+args from next arg (a list of lists).
+@item @code{~@@@{}
+args from the rest of arguments.
+@item @code{~:@@@{}
+args from the rest args (lists).
+@end table
+@item @code{~^}
+Up and out.
+@table @asis
+@item @code{~@var{n}^}
+aborts if @var{n} = 0
+@item @code{~@var{n},@var{m}^}
+aborts if @var{n} = @var{m}
+@item @code{~@var{n},@var{m},@var{k}^}
+aborts if @var{n} <= @var{m} <= @var{k}
+@end table
+@end table
+
+
+@subsubsection Not Implemented CL Format Control Directives
+
+@table @asis
+@item @code{~:A}
+print @code{#f} as an empty list (see below).
+@item @code{~:S}
+print @code{#f} as an empty list (see below).
+@item @code{~<~>}
+Justification.
+@item @code{~:^}
+(sorry I don't understand its semantics completely)
+@end table
+
+
+@subsubsection Extended, Replaced and Additional Control Directives
+
+@table @asis
+@item @code{~@var{mincol},@var{padchar},@var{commachar},@var{commawidth}D}
+@item @code{~@var{mincol},@var{padchar},@var{commachar},@var{commawidth}X}
+@item @code{~@var{mincol},@var{padchar},@var{commachar},@var{commawidth}O}
+@item @code{~@var{mincol},@var{padchar},@var{commachar},@var{commawidth}B}
+@item @code{~@var{n},@var{mincol},@var{padchar},@var{commachar},@var{commawidth}R}
+@var{commawidth} is the number of characters between two comma characters.
+@end table
+
+@table @asis
+@item @code{~I}
+print a R4RS complex number as @code{~F~@@Fi} with passed parameters for
+@code{~F}.
+@item @code{~Y}
+Pretty print formatting of an argument for scheme code lists.
+@item @code{~K}
+Same as @code{~?.}
+@item @code{~!}
+Flushes the output if format @var{destination} is a port.
+@item @code{~_}
+Print a @code{#\space} character
+@table @asis
+@item @code{~@var{n}_}
+print @var{n} @code{#\space} characters.
+@end table
+@item @code{~/}
+Print a @code{#\tab} character
+@table @asis
+@item @code{~@var{n}/}
+print @var{n} @code{#\tab} characters.
+@end table
+@item @code{~@var{n}C}
+Takes @var{n} as an integer representation for a character. No arguments
+are consumed. @var{n} is converted to a character by
+@code{integer->char}. @var{n} must be a positive decimal number.@refill
+@item @code{~:S}
+Print out readproof. Prints out internal objects represented as
+@code{#<...>} as strings @code{"#<...>"} so that the format output can always
+be processed by @code{read}.
+@refill
+@item @code{~:A}
+Print out readproof. Prints out internal objects represented as
+@code{#<...>} as strings @code{"#<...>"} so that the format output can always
+be processed by @code{read}.
+@item @code{~Q}
+Prints information and a copyright notice on the format implementation.
+@table @asis
+@item @code{~:Q}
+prints format version.
+@end table
+@refill
+@item @code{~F, ~E, ~G, ~$}
+may also print number strings, i.e. passing a number as a string and
+format it accordingly.
+@end table
+
+@subsubsection Configuration Variables
+
+Format has some configuration variables at the beginning of
+@file{format.scm} to suit the systems and users needs. There should be
+no modification necessary for the configuration that comes with SLIB.
+If modification is desired the variable should be set after the format
+code is loaded. Format detects automatically if the running scheme
+system implements floating point numbers and complex numbers.
+
+@table @asis
+
+@item @var{format:symbol-case-conv}
+Symbols are converted by @code{symbol->string} so the case type of the
+printed symbols is implementation dependent.
+@code{format:symbol-case-conv} is a one arg closure which is either
+@code{#f} (no conversion), @code{string-upcase}, @code{string-downcase}
+or @code{string-capitalize}. (default @code{#f})
+
+@item @var{format:iobj-case-conv}
+As @var{format:symbol-case-conv} but applies for the representation of
+implementation internal objects. (default @code{#f})
+
+@item @var{format:expch}
+The character prefixing the exponent value in @code{~E} printing. (default
+@code{#\E})
+
+@item @var{format:iteration-bounded}
+When @code{#t}, a @code{~@{...~@}} control will iterate no more than the
+number of times specified by @var{format:max-iterations} regardless of
+the number of iterations implied by modifiers and arguments.
+When @code{#f}, a @code{~@{...~@}} control will iterate the number of
+times implied by modifiers and arguments, unless termination is forced
+by language or system limitations. (default @code{#t})
+
+@item @var{format:max-iterations}
+The maximum number of iterations performed by a @code{~@{...~@}} control.
+Has effect only when @var{format:iteration-bounded} is @code{#t}.
+(default 100)
+
+@end table
+
+@subsubsection Compatibility With Other Format Implementations
+
+@table @asis
+@item SLIB format 2.x:
+See @file{format.doc}.
+
+@item SLIB format 1.4:
+Downward compatible except for padding support and @code{~A}, @code{~S},
+@code{~P}, @code{~X} uppercase printing. SLIB format 1.4 uses C-style
+@code{printf} padding support which is completely replaced by the CL
+@code{format} padding style.
+
+@item MIT C-Scheme 7.1:
+Downward compatible except for @code{~}, which is not documented
+(ignores all characters inside the format string up to a newline
+character). (7.1 implements @code{~a}, @code{~s},
+~@var{newline}, @code{~~}, @code{~%}, numerical and variable
+parameters and @code{:/@@} modifiers in the CL sense).@refill
+
+@item Elk 1.5/2.0:
+Downward compatible except for @code{~A} and @code{~S} which print in
+uppercase. (Elk implements @code{~a}, @code{~s}, @code{~~}, and
+@code{~%} (no directive parameters or modifiers)).@refill
+
+@item Scheme->C 01nov91:
+Downward compatible except for an optional destination parameter: S2C
+accepts a format call without a destination which returns a formatted
+string. This is equivalent to a #f destination in S2C. (S2C implements
+@code{~a}, @code{~s}, @code{~c}, @code{~%}, and @code{~~} (no directive
+parameters or modifiers)).@refill
+
+@end table
+
+This implementation of format is solely useful in the SLIB context
+because it requires other components provided by SLIB.@refill
diff --git a/formatst.scm b/formatst.scm
index 77a46c4..28d656a 100644
--- a/formatst.scm
+++ b/formatst.scm
@@ -19,7 +19,8 @@
; to string-downcase.
(require 'format)
-(if (not (string=? format:version "3.0"))
+
+(if (not (string=? format:version "3.1"))
(begin
(display "You have format version ")
(display format:version)
@@ -63,11 +64,10 @@
; ensure format default configuration
-(set! format:symbol-case-conv #f)
-(set! format:iobj-case-conv #f)
-(set! format:read-proof #f)
-(set! format:iteration-bounded #t)
-(set! format:max-iterations 100)
+;;(set! format:symbol-case-conv #f)
+;;(set! format:iobj-case-conv #f)
+;;(set! format:iteration-bounded #t)
+;;(set! format:max-iterations 100)
(format #t "~q")
@@ -91,9 +91,9 @@
(test '("~a" (a (b c) d)) "(a (b c) d)")
(test '("~a" (a . b)) "(a . b)")
(test '("~a" (a (b c . d))) "(a (b . (c . d)))") ; this is ugly
-(test `("~a" ,display) (format:iobj->str display))
-(test `("~a" ,(current-input-port)) (format:iobj->str (current-input-port)))
-(test `("~a" ,(current-output-port)) (format:iobj->str (current-output-port)))
+(test `("~a" ,display) (format:iobj->str display #f))
+(test `("~a" ,(current-input-port)) (format:iobj->str (current-input-port) #f))
+(test `("~a" ,(current-output-port)) (format:iobj->str (current-output-port) #f))
; # argument test
@@ -313,29 +313,19 @@ def")
; read proof test
-(test `("~:s" ,display)
- (begin
- (set! format:read-proof #t)
- (format:iobj->str display)))
-(test `("~:a" ,display)
- (begin
- (set! format:read-proof #t)
- (format:iobj->str display)))
-(test `("~:a" (1 2 ,display))
- (begin
- (set! format:read-proof #t)
- (string-append "(1 2 " (format:iobj->str display) ")")))
+(test `("~:s" ,display) (format:iobj->str display #t))
+(test `("~:a" ,display) (format:iobj->str display #t))
+(test `("~:a" (1 2 ,display)) (string-append "(1 2 " (format:iobj->str display #t) ")"))
(test '("~:a" "abc") "abc")
-(set! format:read-proof #f)
; internal object case type force test
(set! format:iobj-case-conv string-upcase)
-(test `("~a" ,display) (string-upcase (format:iobj->str display)))
+(test `("~a" ,display) (string-upcase (format:iobj->str display #f)))
(set! format:iobj-case-conv string-downcase)
-(test `("~s" ,display) (string-downcase (format:iobj->str display)))
+(test `("~s" ,display) (string-downcase (format:iobj->str display #f)))
(set! format:iobj-case-conv string-capitalize)
-(test `("~s" ,display) (string-capitalize (format:iobj->str display)))
+(test `("~s" ,display) (string-capitalize (format:iobj->str display #f)))
(set! format:iobj-case-conv #f)
; continuation line test
@@ -366,7 +356,7 @@ def")
(test '("~:@(~a~)" (a b c)) "(A B C)")
(test '("~:@(~x~)" 255) "FF")
(test '("~:@(~p~)" 2) "S")
-(test `("~:@(~a~)" ,display) (string-upcase (format:iobj->str display)))
+(test `("~:@(~a~)" ,display) (string-upcase (format:iobj->str display #f)))
(test '("~:(~a ~a ~a~) ~a" "abc" "xyz" "123" "world") "Abc Xyz 123 world")
; variable parameter
@@ -662,5 +652,3 @@ def")
(if (not test-verbose) (display "done."))
(format #t "~%~a Test~:p completed. (~a failure~:p)~2%" total fails)
-
-; eof
diff --git a/gambit.init b/gambit.init
index 2e8a10d..d50edae 100644
--- a/gambit.init
+++ b/gambit.init
@@ -3,14 +3,16 @@
;;;
;;; This code is in the public domain.
-;;; Ignore case when reading symbols (per R5RS).
-(set-case-conversion! #t)
-
;;; Updated 1992 February 1 for Gambit v1.71 -- by Ken Dickey
;;; Date: Wed, 12 Jan 1994 15:03:12 -0500
;;; From: barnett@armadillo.urich.edu (Lewis Barnett)
;;; Relative pathnames for Slib in MacGambit
;;; Hacked yet again for Gambit v2.4, Jan 1997, by Mike Pope
+;;; Updated for Gambit v3.0, 2001-01 AGJ.
+
+;;; gsi should be invoked with -:s option to Ignore case when reading
+;;; symbols (per R5RS).
+
(define (software-type) 'MACOS) ; for MacGambit.
(define (software-type) 'UNIX) ; for Unix platforms.
@@ -22,13 +24,11 @@
(define (scheme-implementation-home-page)
"http://www.iro.umontreal.ca/~gambit/index.html")
-(define (scheme-implementation-version) "3.0")
-;;; Jefferson R. Lowrey reports that in Gambit Version 3.0
-;;; (argv) returns '("").
-(define argv
- (if (equal? '("") (argv)) ;Fix only if it is broken.
- (lambda () '("Lowrey HD:Development:MacGambit 3.0:Interpreter"))
- argv))
+(define (scheme-implementation-version) (system-version-string))
+
+(define getenv
+ (let ((ge getenv))
+ (lambda (str) (ge str #f))))
;;; (implementation-vicinity) should be defined to be the pathname of
;;; the directory where any auxillary files to your Scheme
@@ -55,85 +55,196 @@
;;; called slib in the same directory as the MacGambit Interpreter.
(define library-vicinity
(let ((library-path
- (case (software-type)
- ((UNIX) "/usr/local/lib/slib/")
- ((MACOS) (string-append (implementation-vicinity) "slib:"))
- ((AMIGA) "dh0:scm/Library/")
- ((VMS) "lib$scheme:")
- ((WINDOWS MS-DOS) "C:\\SLIB\\")
- (else ""))))
+ (or
+ ;; Use this getenv if your implementation supports it.
+ (getenv "SCHEME_LIBRARY_PATH")
+ ;; Use this path if your scheme does not support GETENV
+ ;; or if SCHEME_LIBRARY_PATH is not set.
+ (case (software-type)
+ ((UNIX) "/usr/local/lib/slib/")
+ ((MACOS) (string-append (implementation-vicinity) "slib:"))
+ ((AMIGA) "dh0:scm/Library/")
+ ((VMS) "lib$scheme:")
+ ((WINDOWS MS-DOS) "C:\\SLIB\\")
+ (else "")))))
(lambda () library-path)))
;;; (home-vicinity) should return the vicinity of the user's HOME
;;; directory, the directory which typically contains files which
;;; customize a computer environment for a user.
-(define home-vicinity
+(define (home-vicinity)
+ (let ((home (getenv "HOME")))
+ (if home
+ (case (software-type)
+ ((UNIX COHERENT MS-DOS) ;V7 unix has a / on HOME
+ (if (eqv? #\/ (string-ref home (+ -1 (string-length home))))
+ home
+ (string-append home "/")))
+ (else home))
+ (case (software-type)
+ ((VMS) "~:")
+ ((WINDOWS) "~/")
+ ((MACOS) "~:")
+ (else #f)))))
+;@
+(define in-vicinity string-append)
+;@
+(define (user-vicinity)
(case (software-type)
- ((UNIX) (lambda () "~/"))
- ((VMS) (lambda () "~:"))
- ((MS-DOS) (lambda () "~\\"))
- ((WINDOWS) (lambda () "~/"))
- ((MACOS) (lambda () "~:"))))
-
-;;; *FEATURES* should be set to a list of symbols describing features
-;;; of this implementation. Suggestions for features are:
+ ((VMS) "[.]")
+ (else "")))
+
+(define *load-pathname* #f)
+;@
+(define vicinity:suffix?
+ (let ((suffi
+ (case (software-type)
+ ((AMIGA) '(#\: #\/))
+ ((MACOS THINKC) '(#\:))
+ ((MS-DOS WINDOWS ATARIST OS/2) '(#\\ #\/))
+ ((NOSVE) '(#\: #\.))
+ ((UNIX COHERENT PLAN9) '(#\/))
+ ((VMS) '(#\: #\]))
+ (else
+ (slib:warn "require.scm" 'unknown 'software-type (software-type))
+ "/"))))
+ (lambda (chr) (and (memv chr suffi) #t))))
+;@
+(define (pathname->vicinity pathname)
+ (let loop ((i (- (string-length pathname) 1)))
+ (cond ((negative? i) "")
+ ((vicinity:suffix? (string-ref pathname i))
+ (substring pathname 0 (+ i 1)))
+ (else (loop (- i 1))))))
+(define (program-vicinity)
+ (if *load-pathname*
+ (pathname->vicinity *load-pathname*)
+ (slib:error 'program-vicinity " called; use slib:load to load")))
+;@
+(define sub-vicinity
+ (case (software-type)
+ ((VMS) (lambda
+ (vic name)
+ (let ((l (string-length vic)))
+ (if (or (zero? (string-length vic))
+ (not (char=? #\] (string-ref vic (- l 1)))))
+ (string-append vic "[" name "]")
+ (string-append (substring vic 0 (- l 1))
+ "." name "]")))))
+ (else (let ((*vicinity-suffix*
+ (case (software-type)
+ ((NOSVE) ".")
+ ((MACOS THINKC) ":")
+ ((MS-DOS WINDOWS ATARIST OS/2) "\\")
+ ((UNIX COHERENT PLAN9 AMIGA) "/"))))
+ (lambda (vic name)
+ (string-append vic name *vicinity-suffix*))))))
+;@
+(define (make-vicinity <pathname>) <pathname>)
+;@
+(define with-load-pathname
+ (let ((exchange
+ (lambda (new)
+ (let ((old *load-pathname*))
+ (set! *load-pathname* new)
+ old))))
+ (lambda (path thunk)
+ (let ((old #f))
+ (dynamic-wind
+ (lambda () (set! old (exchange path)))
+ thunk
+ (lambda () (exchange old)))))))
+
+;;@ *FEATURES* is a list of symbols naming the (SLIB) features
+;;; initially supported by this implementation.
(define *features*
'(
source ;can load scheme source files
- ;(slib:load-source "filename")
+ ;(SLIB:LOAD-SOURCE "filename")
compiled ;can load compiled files
- ;(slib:load-compiled "filename")
+ ;(SLIB:LOAD-COMPILED "filename")
+ vicinity
+ srfi-59
+
+ ;; Scheme report features
+ ;; R5RS-compliant implementations should provide all 9 features.
+
+;;; r5rs ;conforms to
+;;; eval ;R5RS two-argument eval
+ values ;R5RS multiple values
+ dynamic-wind ;R5RS dynamic-wind
+;;; macro ;R5RS high level macros
+ delay ;has DELAY and FORCE
+ multiarg-apply ;APPLY can take more than 2 args.
+ char-ready?
+ rev4-optional-procedures ;LIST-TAIL, STRING-COPY,
+ ;STRING-FILL!, and VECTOR-FILL!
+
+ ;; These four features are optional in both R4RS and R5RS
+
+ multiarg/and- ;/ and - can take more than 2 args.
+ rationalize
+ transcript ;TRANSCRIPT-ON and TRANSCRIPT-OFF
+ with-file ;has WITH-INPUT-FROM-FILE and
+ ;WITH-OUTPUT-TO-FILE
+
r4rs ;conforms to
-; r3rs ;conforms to
+
ieee-p1178 ;conforms to
-; srfi ;srfi-0, COND-EXPAND finds all srfi-*
- sicp ;runs code from Structure and
- ;Interpretation of Computer
- ;Programs by Abelson and Sussman.
- rev4-optional-procedures ;LIST-TAIL, STRING->LIST,
- ;LIST->STRING, STRING-COPY,
- ;STRING-FILL!, LIST->VECTOR,
- ;VECTOR->LIST, and VECTOR-FILL!
-; rev2-procedures ;SUBSTRING-MOVE-LEFT!,
+
+;;; r3rs ;conforms to
+
+;;; rev2-procedures ;SUBSTRING-MOVE-LEFT!,
;SUBSTRING-MOVE-RIGHT!,
;SUBSTRING-FILL!,
;STRING-NULL?, APPEND!, 1+,
;-1+, <?, <=?, =?, >?, >=?
- multiarg/and- ;/ and - can take more than 2 args.
- multiarg-apply ;APPLY can take more than 2 args.
- rationalize
- delay ;has DELAY and FORCE
- with-file ;has WITH-INPUT-FROM-FILE and
- ;WITH-OUTPUT-TO-FILE
- string-port ;has CALL-WITH-INPUT-STRING and
- ;CALL-WITH-OUTPUT-STRING
- transcript ;TRANSCRIPT-ON and TRANSCRIPT-OFF
- char-ready?
-; macro ;has R4RS high level macros
- defmacro ;has Common Lisp DEFMACRO
-; record ;has user defined data structures
-; values ;proposed multiple values
-; dynamic-wind ;proposed dynamic-wind
- ieee-floating-point ;conforms to
+;;; object-hash ;has OBJECT-HASH
+
full-continuation ;can return multiple times
-; object-hash ;has OBJECT-HASH
+ ieee-floating-point ;conforms to IEEE Standard 754-1985
+ ;IEEE Standard for Binary
+ ;Floating-Point Arithmetic.
-; sort
+ ;; Other common features
+
+ srfi ;srfi-0, COND-EXPAND finds all srfi-*
+ sicp ;runs code from Structure and
+ ;Interpretation of Computer
+ ;Programs by Abelson and Sussman.
+ defmacro ;has Common Lisp DEFMACRO
+;;; record ;has user defined data structures
+ structure ;DEFINE-STRUCTURE macro
+ string-port ;has CALL-WITH-INPUT-STRING and
+ ;CALL-WITH-OUTPUT-STRING
+;;; sort
pretty-print
-; object->string
-; format
+ object->string
+;;; format
trace ;has macros: TRACE and UNTRACE
- break
-; compiler ;has (COMPILER)
-; ed ;(ED) is editor
+;;; compiler ;has (COMPILER)
+;;; ed ;(ED) is editor
system ;posix (system <string>)
-; getenv ;posix (getenv <string>)
- program-arguments ;returns list of strings (argv)
-; current-time ;returns time in seconds since 1/1/1970
- ))
+ getenv ;posix (getenv <string>)
+;;; program-arguments ;returns list of strings (argv)
+ current-time ;returns time in seconds since 1/1/1970
+
+ ;; Implementation Specific features
+
+ break
+
+ ))
+
+(define object->limited-string object->string)
+
+(define (difftime caltime1 caltime0)
+ (- (time->seconds caltime1)
+ (if (number? caltime0) caltime0 (time->seconds caltime0))))
+(define (offset-time caltime offset)
+ (seconds->time (+ (time->seconds caltime) offset)))
;;; (OUTPUT-PORT-WIDTH <port>)
-(define (output-port-width . arg) 79)
+;; (define (output-port-width . arg) 79)
;;; (OUTPUT-PORT-HEIGHT <port>)
(define (output-port-height . arg) 24)
@@ -151,27 +262,22 @@
;;; Gambit supports SYSTEM as an "Unstable Addition"; Watch for changes.
(define system ##shell-command)
-;;; (FILE-EXISTS? <string>)
-;(define (file-exists? f) #f)
-
-;;; (DELETE-FILE <string>)
-(define (delete-file f) #f)
-
-;;; FORCE-OUTPUT flushes any pending output on optional arg output port
-;;; use this definition if your system doesn't have such a procedure.
-(define force-output flush-output)
-
-;;; CALL-WITH-INPUT-STRING and CALL-WITH-OUTPUT-STRING are the string
-;;; port versions of CALL-WITH-*PUT-FILE.
+;;; CALL-WITH-INPUT-STRING is good as is. Gambit's
+;;; CALL-WITH-OUTPUT-STRING lengthens the string first argument.
+(define call-with-output-string
+ (let ((cwos call-with-output-string))
+ (lambda (proc) (cwos "" proc))))
(define (make-exchanger obj)
(lambda (rep) (let ((old obj)) (set! obj rep) old)))
-(define (open-file filename modes)
- (case modes
- ((r rb) (open-input-file filename))
- ((w wb) (open-output-file filename))
- (else (slib:error 'open-file 'mode? modes))))
-(define (port? obj) (or (input-port? port) (output-port? port)))
+(define open-file
+ (let ((open-both open-file))
+ (lambda (filename modes)
+ (case modes
+ ((r rb) (open-input-file filename))
+ ((w wb) (open-output-file filename))
+ ((rw rwb) (open-both filename))
+ (else (slib:error 'open-file 'mode? modes))))))
(define (call-with-open-ports . ports)
(define proc (car ports))
(cond ((procedure? proc) (set! ports (cdr ports)))
@@ -181,12 +287,6 @@
(let ((ans (apply proc ports)))
(for-each close-port ports)
ans))
-(define (close-port port)
- (cond ((input-port? port)
- (close-input-port port)
- (if (output-port? port) (close-output-port port)))
- ((output-port? port) (close-output-port port))
- (else (slib:error 'close-port 'port? port))))
(define (browse-url url)
(define (try cmd) (eqv? 0 (system (sprintf #f cmd url))))
@@ -215,9 +315,6 @@
;;; SLIB:EVAL is single argument eval using the top-level (user) environment.
(define slib:eval eval)
-; Define program-arguments as argv
-(define program-arguments argv)
-
;;; If your implementation provides R4RS macros:
;(define macro:eval slib:eval)
;(define macro:load load)
@@ -256,18 +353,7 @@
(define (defmacro:load <pathname>)
(slib:eval-load <pathname> defmacro:eval))
-
-(define (slib:eval-load <pathname> evl)
- (if (not (file-exists? <pathname>))
- (set! <pathname> (string-append <pathname> (scheme-file-suffix))))
- (call-with-input-file <pathname>
- (lambda (port)
- (let ((old-load-pathname *load-pathname*))
- (set! *load-pathname* <pathname>)
- (do ((o (read port) (read port)))
- ((eof-object? o))
- (evl o))
- (set! *load-pathname* old-load-pathname)))))
+;; slib:eval-load definition moved to "require.scm"
(define print-call-stack identity) ;noop
@@ -298,10 +384,8 @@
(define (-1+ n) (- n 1))
(define 1- -1+)
-(define in-vicinity string-append)
-
;;; Define SLIB:EXIT to be the implementation procedure to exit or
-;;; return if exitting not supported.
+;;; return if exiting not supported.
(define slib:exit (lambda args (exit)))
;;; Here for backward compatability
diff --git a/getparam.scm b/getparam.scm
index 1e7b7c0..da8ce04 100644
--- a/getparam.scm
+++ b/getparam.scm
@@ -20,6 +20,7 @@
(require 'getopt)
(require 'coerce)
(require 'parameters)
+(require 'rev4-optional-procedures) ; string-copy
(require-if 'compiling 'printf)
(require-if 'compiling 'common-list-functions)
diff --git a/getparam.txi b/getparam.txi
index 3d2594c..58acbaf 100644
--- a/getparam.txi
+++ b/getparam.txi
@@ -29,6 +29,7 @@ In all cases, if unclaimed arguments remain after processing, a warning
is signaled and #f is returned.
@end defun
+
@defun getopt->arglist optnames positions arities types defaulters checks aliases desc @dots{}
Like @code{getopt->parameter-list}, but converts @var{*argv*} to an
@@ -37,6 +38,7 @@ argument-list as specified by @var{optnames}, @var{positions},
@var{aliases}. If the options supplied violate the @var{arities} or
@var{checks} constraints, then a warning is signaled and #f is returned.
@end defun
+
@noindent
These @code{getopt} functions can be used with SLIB relational
databases. For an example, @xref{Using Databases, make-command-server}.
diff --git a/glob.txi b/glob.txi
index d83b66b..c2a27bb 100644
--- a/glob.txi
+++ b/glob.txi
@@ -32,6 +32,7 @@ matched by including it as the first or last character in the set.
@end table
@end defun
+
@defun filename:substitute?? pattern template
@defunx filename:substitute-ci?? pattern template
@@ -53,6 +54,7 @@ the case of a match the result of applying @var{template} to a list
of the substrings matched by wildcard specifications will be returned,
otherwise @var{template} will not be called and @code{#f} will be returned.
@end defun
+
@example
((filename:substitute?? "scm_[0-9]*.html" "scm5c4_??.htm")
"scm_10.html")
@@ -74,6 +76,7 @@ otherwise @var{template} will not be called and @code{#f} will be returned.
removed and the suffix string @var{new} appended. If the end of
@var{str} does not match @var{old}, an error is signaled.
@end defun
+
@example
(replace-suffix "/usr/local/lib/slib/batch.scm" ".scm" ".c")
@result{} "/usr/local/lib/slib/batch.c"
@@ -98,3 +101,4 @@ If @var{proc} returns, then any files named by the arguments to @var{proc} are
deleted automatically and the value(s) yielded by the @var{proc} is(are)
returned.
@end defun
+
diff --git a/grapheps.ps b/grapheps.ps
index 87658dd..95f200e 100644
--- a/grapheps.ps
+++ b/grapheps.ps
@@ -1,7 +1,9 @@
-%%EndComments
/plotdict 100 dict def
plotdict begin
+% Get dimensions the preamble left on the stack.
+4 array astore /whole-page exch def
+
% Definitions so that internal assignments are bound before setting.
/DATA 0 def
/DEN 0 def
@@ -68,8 +70,11 @@ plotdict begin
{lineto}
{currentpoint pop topedge lineto closepath fill}] bind def
% Render lines from x-axis to points
-/impulse [{} {moveto currentpoint pop 0 lineto} {}] bind def
-/bargraph [{} {exch GR sub exch 0 exch GD exch rectstroke} {}] bind def
+/impulse [{} {moveto XRNG 0 get 0 gtrans exch pop
+ currentpoint pop exch lineto} {}] bind def
+/bargraph [{} {exch GR sub exch dup
+ XRNG 0 get 0 gtrans exch pop % y=0
+ exch sub GD exch rectstroke} {}] bind def
% Solid round dot.
/disc [{GD setlinewidth 1 setlinecap}
@@ -97,14 +102,14 @@ plotdict begin
{}] bind def
% Triangle pointing upward
/triup [{}
- {2 copy GR 1.12 mul add moveto GR neg GR -1.62 mul rlineto
- GR 2 mul 0 rlineto GR neg GR 1.62 mul rlineto
+ {GR 1.12 mul add moveto GR neg GR -1.62 mul rlineto
+ GR 2 mul 0 rlineto GR neg GR 1.62 mul rlineto
closepath}
{}] bind def
% Triangle pointing downward
/tridown [{}
- {2 copy GR 1.12 mul sub moveto GR neg GR 1.62 mul rlineto
- GR 2 mul 0 rlineto GR neg GR -1.62 mul rlineto
+ {GR 1.12 mul sub moveto GR neg GR 1.62 mul rlineto
+ GR 2 mul 0 rlineto GR neg GR -1.62 mul rlineto
closepath}
{}] bind def
/pentagon [{}
@@ -148,9 +153,6 @@ plotdict begin
grestore
} bind def
-/whole-page
-{clippath pathbbox 2 index sub exch 3 index sub exch 4 array astore} bind def
-
/partition-page
{ /YPARTS exch def /XPARTS exch def /WPAGE exch def
/XWID WPAGE 2 get XPARTS div def /YHIT WPAGE 3 get YPARTS div def
@@ -172,8 +174,8 @@ plotdict begin
{ /YRNG exch def /XRNG exch def /graphrect exch def
/PLOT-bmargin pointsize 2.4 mul def
/PLOT-tmargin pointsize 2.4 mul def
- /PLOT-lmargin (-.0123456789) stringwidth pop pointsize 1.2 mul add def
- /PLOT-rmargin (-.0123456789) stringwidth pop pointsize 1.2 mul add def
+ /PLOT-lmargin lmargin-template stringwidth pop pointsize 1.2 mul add def
+ /PLOT-rmargin rmargin-template stringwidth pop pointsize 1.2 mul add def
/plotrect [ graphrect 0 get PLOT-lmargin add
graphrect 1 get PLOT-bmargin add
graphrect 2 get PLOT-lmargin sub PLOT-rmargin sub
@@ -186,7 +188,7 @@ plotdict begin
/YTSCL plotrect 3 get YRNG aload pop exch sub find-tick-scale def
/YSTEP YTSCL 0 get 3 mod 0 eq {6} {8} ifelse 5 mul yuntrans def
/XTSCL plotrect 2 get XRNG aload pop exch sub find-tick-scale def
- /XSTEP XTSCL 0 get 3 mod 0 eq {6} {8} ifelse 10 mul xuntrans def
+ /XSTEP XTSCL 0 get 3 mod 0 eq {12} {10} ifelse 5 mul xuntrans def
/YSTEPH YSTEP 2 div def
/XSTEPH XSTEP 2 div def
} bind def
@@ -329,8 +331,16 @@ bind def
/fill-rect {aload pop rectfill} bind def
/clip-to-rect {aload pop rectclip} bind def
+/gstack [] def
+/gpush {gsave /gstack [ gstack pointsize glyphsize ] def} bind def
+/gpop {/gstack gstack aload pop /glyphsize exch def /pointsize exch def def grestore} bind def
+
% Default parameters
+% The legend-templates are strings used to reserve horizontal space
+/lmargin-template (-.0123456789) def
+/rmargin-template (-.0123456789) def
+
% glyphsize is the graphic-glyph size; GR, graphic radius, is
% glyphsize/2. Line width, set by "setlinewidth", must be much less
% than glyphsize for readable glyphs.
diff --git a/grapheps.scm b/grapheps.scm
index 0f11a6d..677ae34 100644
--- a/grapheps.scm
+++ b/grapheps.scm
@@ -30,7 +30,7 @@
;;@noindent
;;This is a graphing package creating encapsulated-PostScript files.
;;Its motivations and design choice are described in
-;;@url{http://swissnet.ai.mit.edu/~jaffer/Docupage/grapheps}
+;;@url{http://swiss.csail.mit.edu/~jaffer/Docupage/grapheps}
;;
;;@noindent
;;A dataset to be plotted is taken from a 2-dimensional array.
@@ -91,6 +91,8 @@
(write-line "%!PS-Adobe-3.0 EPSF-3.0" oprt)
(write-line (scheme->ps "%%BoundingBox: 0 0 " xsize " " ysize) oprt)
(write-line (scheme->ps "%%Title: " (or *plot-title* filename)) oprt)
+ (write-line (scheme->ps "%%EndComments: ") oprt)
+ (write-line (scheme->ps "0 0 " xsize " " ysize) oprt)
(call-with-input-file (in-vicinity (library-vicinity) "grapheps.ps")
(lambda (iprt)
(do ((line (read-line iprt) (read-line iprt)))
@@ -107,7 +109,7 @@
(set! *plot-arrays* '())))
(define (write-array-def name array oprt)
- (define row-length (+ 1 (cadadr (array-shape array))))
+ (define row-length (cadr (array-dimensions array)))
(define idx 0)
(set! idx row-length)
(write-line (scheme->ps "/" name) oprt)
@@ -145,10 +147,10 @@
(define (whole-page) 'whole-page)
;;@menu
-;;* Column Ranges::
-;;* Drawing the Graph::
-;;* Graphics Context::
-;;* Rectangles::
+;;* Column Ranges::
+;;* Drawing the Graph::
+;;* Graphics Context::
+;;* Rectangles::
;;* Legending::
;;* Legacy Plotting::
;;* Example Graph::
@@ -264,9 +266,7 @@
;;Saves the current graphics state, executes @1, then restores
;;to saved graphics state.
(define (in-graphic-context . args)
- (append '("gsave pointsize glyphsize")
- args
- '("/glyphsize exch def /pointsize exch def grestore")))
+ (append '("gpush") args '("gpop")))
;;@args color
;;@1 should be a string naming a Resene color, a saturate color, or a
@@ -301,7 +301,7 @@
;;@0 Changes the current PostScript font to @1 with height equal to
;;@2. The default font is Helvetica (12pt).
(define (set-font name fontheight)
- (scheme->ps "/pointsize " fontheight " def /" name " pointsize selectfont"))
+ (scheme->ps "/fontsize " fontheight " def /" name " fontsize selectfont"))
;;@noindent
;;The base set of PostScript fonts is:
@@ -420,6 +420,14 @@
(define rightedge 'rightedge)
;;@body
+;;The margin-templates are strings whose displayed width is used to
+;;reserve space for the left and right side numerical legends.
+;;The default values are "-.0123456789".
+(define (set-margin-templates left right)
+ (scheme->ps "/lmargin-template (" left ") def "
+ "/rmargin-template (" right ") def"))
+
+;;@body
;;Draws a vertical ruler with X coordinate @1 and labeled with string
;;@2. If @3 is positive, then the ticks are @3 long on the right side
;;of @1; and @2 and numeric legends are on the left. If @3 is
@@ -459,7 +467,7 @@
(set! histogram? (if (null? histogram?) #f (car histogram?)))
(if (list? data)
(let ((len (length data))
- (nra (create-array (Ar64) (length data) 2)))
+ (nra (make-array (A:floR64b) (length data) 2)))
(do ((idx 0 (+ 1 idx))
(lst data (cdr lst)))
((>= idx len)
@@ -478,7 +486,7 @@
(define (graph:plot-function tmp func vlo vhi . npts)
(set! npts (if (null? npts) 200 (car npts)))
- (let ((dats (create-array (Ar64) npts 2)))
+ (let ((dats (make-array (A:floR64b) npts 2)))
(array-index-map! (make-shared-array dats (lambda (idx) (list idx 0)) npts)
(lambda (idx)
(+ vlo (* (- vhi vlo) (/ idx (+ -1 npts))))))
@@ -570,7 +578,7 @@
;; (define lines '())
;; (do ((line (read-line iprt) (read-line iprt)))
;; ((eof-object? line)
-;; (let ((nra (create-array (Ar64)
+;; (let ((nra (make-array (A:floR64b)
;; (length lines)
;; (length (car lines)))))
;; (do ((lns lines (cdr lns))
diff --git a/grapheps.txi b/grapheps.txi
index d587107..b0acc81 100644
--- a/grapheps.txi
+++ b/grapheps.txi
@@ -3,7 +3,7 @@
@noindent
This is a graphing package creating encapsulated-PostScript files.
Its motivations and design choice are described in
-@url{http://swissnet.ai.mit.edu/~jaffer/Docupage/grapheps}
+@url{http://swiss.csail.mit.edu/~jaffer/Docupage/grapheps}
@noindent
A dataset to be plotted is taken from a 2-dimensional array.
@@ -26,6 +26,7 @@ of two integers, they specify the width and height. If one integer,
then that integer is the width and the height is 3/4 of the width.
If #f, the graph will be 800 by 600.
@end defun
+
@noindent
These graphing procedures should be called as arguments to
@code{create-postscript-graph}. The order of these arguments is
@@ -39,11 +40,12 @@ Pushes a rectangle for the whole encapsulated page onto the
PostScript stack. This pushed rectangle is an implicit argument to
@code{partition-page} or @code{setup-plot}.
@end defun
+
@menu
-* Column Ranges::
-* Drawing the Graph::
-* Graphics Context::
-* Rectangles::
+* Column Ranges::
+* Drawing the Graph::
+* Graphics Context::
+* Rectangles::
* Legending::
* Legacy Plotting::
* Example Graph::
@@ -65,21 +67,25 @@ Ranges can be given explicity or computed in PostScript by
Returns the range of values in 2-dimensional @var{array} column @var{k}.
@end defun
+
@defun pad-range range p
Expands @var{range} by @var{p}/100 on each end.
@end defun
+
@defun snap-range range
Expands @var{range} to round number of ticks.
@end defun
+
@defun combine-ranges range1 range2 @dots{}
Returns the minimal range covering all @var{range1}, @var{range2}, ...
@end defun
+
@defun setup-plot x-range y-range pagerect
@@ -100,6 +106,7 @@ The region where data points will be plotted.
The @var{pagerect} argument to @code{setup-plot}. Includes plotrect, legends, etc.
@end table
@end defun
+
@node Drawing the Graph, Graphics Context, Column Ranges, PostScript Graphing
@subsubsection Drawing the Graph
@@ -110,6 +117,7 @@ Plots points with x coordinate in @var{x-column} of @var{array} and y coordinate
@var{array}. The symbol @var{proc3s} specifies the type of glyph or drawing style for
presenting these coordinates.
@end defun
+
@noindent
The glyphs and drawing styles available are:
@@ -156,6 +164,7 @@ Saves the current graphics state, executes @var{args}, then restores
to saved graphics state.
@end defun
+
@defun set-color color
@var{color} should be a string naming a Resene color, a saturate color, or a
@@ -165,6 +174,7 @@ number between 0 and 100.
grey value between black (0) and white (100).
@end defun
+
@defun set-font name fontheight
@var{name} should be a (case-sensitive) string naming a PostScript font.
@@ -173,6 +183,7 @@ grey value between black (0) and white (100).
@code{set-font} Changes the current PostScript font to @var{name} with height equal to
@var{fontheight}. The default font is Helvetica (12pt).
@end defun
+
@noindent
The base set of PostScript fonts is:
@@ -194,6 +205,7 @@ as skinny as possible. Linewidth must be much smaller than
glyphsize for readable glyphs.
@end defun
+
@defun set-linedash j k
Lines are drawn @var{j}-on @var{k}-off.
@@ -205,11 +217,13 @@ Lines are drawn @var{j}-on @var{j}-off.
Turns off dashing.
@end defun
+
@defun set-glyphsize w
Sets the (PostScript) variable glyphsize to @var{w}. The default
glyphsize is 6.
@end defun
+
@noindent
The effects of @code{clip-to-rect} are also part of the graphic
context.
@@ -231,6 +245,7 @@ PostScript stack. This pushed rectangle is an implicit argument to
@code{partition-page} or @code{setup-plot}.
@end defun
+
@defun partition-page xparts yparts
Pops the rectangle currently on top of the stack and pushes @var{xparts} * @var{yparts}
@@ -238,6 +253,7 @@ sub-rectangles onto the stack in decreasing y and increasing x order.
If you are drawing just one graph, then you don't need @code{partition-page}.
@end defun
+
@defvar plotrect
The rectangle where data points should be plotted. @var{plotrect} is set by
@@ -255,17 +271,20 @@ The @var{pagerect} argument of the most recent call to
fills @var{rect} with the current color.
@end defun
+
@defun outline-rect rect
Draws the perimiter of @var{rect} in the current color.
@end defun
+
@defun clip-to-rect rect
Modifies the current graphics-state so that nothing will be drawn
outside of the rectangle @var{rect}. Use @code{in-graphic-context} to limit
the extent of @code{clip-to-rect}.
@end defun
+
@node Legending, Legacy Plotting, Rectangles, PostScript Graphing
@subsubsection Legending
@@ -277,6 +296,7 @@ the extent of @code{clip-to-rect}.
Puts a @var{title} line and an optional @var{subtitle} line above the @code{graphrect}.
@end defun
+
@defun title-bottom title subtitle
@@ -284,6 +304,7 @@ Puts a @var{title} line and an optional @var{subtitle} line above the @code{grap
Puts a @var{title} line and an optional @var{subtitle} line below the @code{graphrect}.
@end defun
+
@defvar topedge
@defvarx bottomedge
@@ -298,6 +319,14 @@ These edge coordinates of @code{graphrect} are suitable for passing
as the first argument to @code{rule-vertical}.
@end defvar
+@defun set-margin-templates left right
+
+The margin-templates are strings whose displayed width is used to
+reserve space for the left and right side numerical legends.
+The default values are "-.0123456789".
+@end defun
+
+
@defun rule-vertical x-coord text tick-width
Draws a vertical ruler with X coordinate @var{x-coord} and labeled with string
@@ -307,6 +336,7 @@ negative, then the ticks are -@var{tick-width} long on the left side of @var{x-c
and numeric legends are on the right.
@end defun
+
@defun rule-horizontal x-coord text tick-height
Draws a horizontal ruler with X coordinate @var{x-coord} and labeled with
@@ -316,27 +346,32 @@ is negative, then the ticks are -@var{tick-height} long on the left side of @var
@var{text} and numeric legends are on the right.
@end defun
+
@defun y-axis
Draws the y-axis.
@end defun
+
@defun x-axis
Draws the x-axis.
@end defun
+
@defun grid-verticals
Draws vertical lines through @code{graphrect} at each tick on the
vertical ruler.
@end defun
+
@defun grid-horizontals
Draws horizontal lines through @code{graphrect} at each tick on the
horizontal ruler.
@end defun
+
@node Legacy Plotting, Example Graph, Legending, PostScript Graphing
@subsubsection Legacy Plotting
@@ -361,6 +396,7 @@ supplied, it specifies the number of points to evaluate @var{func} at.
coordinates. @var{x-label} and @var{y-label} are strings with which
to label the x and y axes.
@end defun
+
@node Example Graph, , Legacy Plotting, PostScript Graphing
@subsubsection Example Graph
@@ -418,7 +454,7 @@ disambiguate the scales.
(define lines '())
(do ((line (read-line iprt) (read-line iprt)))
((eof-object? line)
- (let ((nra (create-array (Ar64)
+ (let ((nra (make-array (A:floR64b)
(length lines)
(length (car lines)))))
(do ((lns lines (cdr lns))
diff --git a/guile.init b/guile.init
index 6b54fea..a488998 100644
--- a/guile.init
+++ b/guile.init
@@ -22,7 +22,10 @@
;;; (software-type) should be set to the generic operating system type.
;;; UNIX, VMS, MACOS, AMIGA and MS-DOS are supported.
-(define (software-type) 'unix)
+(define software-type
+ (if (string<? (version) "1.6")
+ (lambda () 'UNIX)
+ (lambda () 'unix)))
;;; (scheme-implementation-type) should return the name of the scheme
;;; implementation loading this file.
@@ -38,8 +41,6 @@
;;; the version the scheme implementation loading this file.
(define scheme-implementation-version version)
-(define in-vicinity string-append)
-
;;; (implementation-vicinity) should be defined to be the pathname of
;;; the directory where any auxillary files to your Scheme
;;; implementation reside.
@@ -73,72 +74,155 @@
home
(string-append home "/")))
(else home)))))
-
-;;; *FEATURES* should be set to a list of symbols describing features
-;;; of this implementation. Suggestions for features are:
+;@
+(define in-vicinity string-append)
+;@
+(define (user-vicinity)
+ (case (software-type)
+ ((VMS) "[.]")
+ (else "")))
+;@
+(define vicinity:suffix?
+ (let ((suffi
+ (case (software-type)
+ ((amiga) '(#\: #\/))
+ ((macos thinkc) '(#\:))
+ ((ms-dos windows atarist os/2) '(#\\ #\/))
+ ((nosve) '(#\: #\.))
+ ((unix coherent plan9) '(#\/))
+ ((vms) '(#\: #\]))
+ (else
+ (warn "require.scm" 'unknown 'software-type (software-type))
+ "/"))))
+ (lambda (chr) (and (memv chr suffi) #t))))
+;@
+(define (pathname->vicinity pathname)
+ (let loop ((i (- (string-length pathname) 1)))
+ (cond ((negative? i) "")
+ ((vicinity:suffix? (string-ref pathname i))
+ (substring pathname 0 (+ i 1)))
+ (else (loop (- i 1))))))
+;@
+(define (program-vicinity)
+ (define clp (current-load-port))
+ (if clp
+ (pathname->vicinity (port-filename clp))
+ (slib:error 'program-vicinity " called; use slib:load to load")))
+;@
+(define sub-vicinity
+ (case (software-type)
+ ((VMS) (lambda
+ (vic name)
+ (let ((l (string-length vic)))
+ (if (or (zero? (string-length vic))
+ (not (char=? #\] (string-ref vic (- l 1)))))
+ (string-append vic "[" name "]")
+ (string-append (substring vic 0 (- l 1))
+ "." name "]")))))
+ (else (let ((*vicinity-suffix*
+ (case (software-type)
+ ((NOSVE) ".")
+ ((MACOS THINKC) ":")
+ ((MS-DOS WINDOWS ATARIST OS/2) "\\")
+ ((UNIX COHERENT PLAN9 AMIGA) "/"))))
+ (lambda (vic name)
+ (string-append vic name *vicinity-suffix*))))))
+;@
+(define (make-vicinity <pathname>) <pathname>)
+;@
+(define with-load-pathname
+ (let ((exchange
+ (lambda (new)
+ (let ((old program-vicinity))
+ (set! program-vicinity new)
+ old))))
+ (lambda (path thunk)
+ (define old #f)
+ (define vic (pathname->vicinity path))
+ (dynamic-wind
+ (lambda () (set! old (exchange (lambda () vic))))
+ thunk
+ (lambda () (exchange old))))))
+
+;;@ *FEATURES* is a list of symbols naming the (SLIB) features
+;;; initially supported by this implementation.
(define *features*
(append
'(
source ;can load scheme source files
- ;(slib:load-source "filename")
-; compiled ;can load compiled files
- ;(slib:load-compiled "filename")
+ ;(SLIB:LOAD-SOURCE "filename")
+;;; compiled ;can load compiled files
+ ;(SLIB:LOAD-COMPILED "filename")
+ vicinity
+ srfi-59
;; Scheme report features
+ ;; R5RS-compliant implementations should provide all 9 features.
-; r5rs ;conforms to
+;;; r5rs ;conforms to
eval ;R5RS two-argument eval
-; values ;R5RS multiple values
+ values ;R5RS multiple values
dynamic-wind ;R5RS dynamic-wind
-; macro ;R5RS high level macros
+;;; macro ;R5RS high level macros
delay ;has DELAY and FORCE
multiarg-apply ;APPLY can take more than 2 args.
-; rationalize
- rev4-optional-procedures ;LIST-TAIL, STRING->LIST,
- ;LIST->STRING, STRING-COPY,
- ;STRING-FILL!, LIST->VECTOR,
- ;VECTOR->LIST, and VECTOR-FILL!
+;;; char-ready?
+ rev4-optional-procedures ;LIST-TAIL, STRING-COPY,
+ ;STRING-FILL!, and VECTOR-FILL!
-; r4rs ;conforms to
+ ;; These four features are optional in both R4RS and R5RS
-; ieee-p1178 ;conforms to
+ multiarg/and- ;/ and - can take more than 2 args.
+;;; rationalize
+;;; transcript ;TRANSCRIPT-ON and TRANSCRIPT-OFF
+ with-file ;has WITH-INPUT-FROM-FILE and
+ ;WITH-OUTPUT-TO-FILE
+
+;;; r4rs ;conforms to
-; r3rs ;conforms to
+;;; ieee-p1178 ;conforms to
+
+;;; r3rs ;conforms to
rev2-procedures ;SUBSTRING-MOVE-LEFT!,
;SUBSTRING-MOVE-RIGHT!,
;SUBSTRING-FILL!,
;STRING-NULL?, APPEND!, 1+,
;-1+, <?, <=?, =?, >?, >=?
-; object-hash ;has OBJECT-HASH
+;;; object-hash ;has OBJECT-HASH
- multiarg/and- ;/ and - can take more than 2 args.
- with-file ;has WITH-INPUT-FROM-FILE and
- ;WITH-OUTPUT-TO-FILE
-; transcript ;TRANSCRIPT-ON and TRANSCRIPT-OFF
-; ieee-floating-point ;conforms to IEEE Standard 754-1985
+ full-continuation ;can return multiple times
+;;; ieee-floating-point ;conforms to IEEE Standard 754-1985
;IEEE Standard for Binary
;Floating-Point Arithmetic.
- full-continuation ;can return multiple times
;; Other common features
-; srfi ;srfi-0, COND-EXPAND finds all srfi-*
-; sicp ;runs code from Structure and
+;;; srfi ;srfi-0, COND-EXPAND finds all srfi-*
+;;; sicp ;runs code from Structure and
;Interpretation of Computer
;Programs by Abelson and Sussman.
defmacro ;has Common Lisp DEFMACRO
-; record ;has user defined data structures
+;;; record ;has user defined data structures
string-port ;has CALL-WITH-INPUT-STRING and
;CALL-WITH-OUTPUT-STRING
-; sort
-; pretty-print
-; object->string
-; format ;Common-lisp output formatting
-; trace ;has macros: TRACE and UNTRACE
-; compiler ;has (COMPILER)
-; ed ;(ED) is editor
- random
+;;; sort
+;;; pretty-print
+;;; object->string
+;;; format ;Common-lisp output formatting
+;;; trace ;has macros: TRACE and UNTRACE
+;;; compiler ;has (COMPILER)
+;;; ed ;(ED) is editor
+;;; system ;posix (system <string>)
+;;; getenv ;posix (getenv <string>)
+;;; program-arguments ;returns list of strings (argv)
+;;; current-time ;returns time in seconds since 1/1/1970
+
+ ;; Implementation Specific features
+
+ logical
+ random ;Random numbers
+
)
(if (defined? 'getenv)
@@ -178,6 +262,21 @@
;; (let ((port (current-output-port)))
;; (lambda () port)))
+;; If the program is killed by a signal, /bin/sh normally gives an
+;; exit code of 128+signum. If /bin/sh itself is killed by a signal
+;; then we do the same 128+signum here.
+;;
+;; "status:stop-sig" shouldn't arise here, since system shouldn't be
+;; calling waitpid with WUNTRACED, but allow for it anyway, just in
+;; case.
+(define system
+ (let ((guile-core-system system))
+ (lambda (str)
+ (define st (guile-core-system str))
+ (or (status:exit-val st)
+ (+ 128 (or (status:term-sig st)
+ (status:stop-sig st)))))))
+
;;; (TMPNAM) makes a temporary file name.
;;(define tmpnam (let ((cntr 100))
;; (lambda () (set! cntr (+ 1 cntr))
@@ -188,6 +287,12 @@
;;; (DELETE-FILE <string>)
;;(define (delete-file f) #f)
+(define delete-file
+ (let ((guile-core-delete-file delete-file))
+ (lambda (filename)
+ (catch 'system-error
+ (lambda () (guile-core-delete-file filename) #t)
+ (lambda args #f)))))
;;; FORCE-OUTPUT flushes any pending output on optional arg output port
;;; use this definition if your system doesn't have such a procedure.
@@ -198,7 +303,13 @@
(define (make-exchanger obj)
(lambda (rep) (let ((old obj)) (set! obj rep) old)))
-
+(define open-file
+ (let ((guile-core-open-file open-file))
+ (lambda (filename modes)
+ (guile-core-open-file filename
+ (if (symbol? modes)
+ (symbol->string modes)
+ modes)))))
(define (port? obj) (or (input-port? obj) (output-port? obj)))
(define (call-with-open-ports . ports)
(define proc (car ports))
@@ -234,9 +345,10 @@
(let ((ie (interaction-environment)))
(lambda (expression)
(eval expression ie)))))
+;; slib:eval-load definition moved to "require.scm"
;;; Define SLIB:EXIT to be the implementation procedure to exit or
-;;; return if exitting not supported.
+;;; return if exiting not supported.
(define slib:exit quit)
;;; Here for backward compatability
@@ -246,18 +358,6 @@
;; (else ".scm"))))
;; (lambda () suffix)))
-(define (slib:eval-load <pathname> evl)
- (if (not (file-exists? <pathname>))
- (set! <pathname> (string-append <pathname> (scheme-file-suffix))))
- (call-with-input-file <pathname>
- (lambda (port)
- (let ((old-load-pathname *load-pathname*))
- (set! *load-pathname* <pathname>)
- (do ((o (read port) (read port)))
- ((eof-object? o))
- (evl o))
- (set! *load-pathname* old-load-pathname)))))
-
(define (guile:wrap-case-insensitive proc)
(lambda args
(save-module-excursion
@@ -307,75 +407,97 @@
(define offset-time +)
;;; Early version of 'logical is built-in
-(define logical:logand logand)
-(define logical:logior logior)
-;;(define logical:logxor logxor)
-;;(define logical:lognot lognot)
-;;(define logical:logtest logtest)
-;;(define logical:logbit? logbit?)
(define (copy-bit index to bool)
(if bool
- (logical:logior to (logical:ash 1 index))
- (logical:logand to (logical:lognot (logical:ash 1 index)))))
-;;(define copy-bit logical:copy-bit)
-;;(define logical:ash ash)
-;;(define logical:logcount logcount)
-;;(define logical:integer-length integer-length)
-(define (logical:bit-field n start end)
- (logical:logand (- (logical:integer-expt 2 (- end start)) 1)
- (logical:ash n (- start))))
-;;(define bit-field logical:bit-field)
+ (logior to (arithmetic-shift 1 index))
+ (logand to (lognot (arithmetic-shift 1 index)))))
+(define (bit-field n start end)
+ (logand (- (expt 2 (- end start)) 1)
+ (arithmetic-shift n (- start))))
(define (bitwise-if mask n0 n1)
- (logical:logior (logical:logand mask n0)
- (logical:logand (logical:lognot mask) n1)))
-(define logical:bitwise-if bitwise-if)
-;;(define logical:bit-extract bit-extract)
-(define (copy-bit-field to start end from)
- (logical:bitwise-if
- (logical:ash (- (logical:integer-expt 2 (- end start)) 1) start)
- (logical:ash from start)
- to))
-;;(define copy-bit-field logical:copy-bit-field)
-(define logical:integer-expt integer-expt)
-;;(define logical:ipow-by-squaring ipow-by-squaring)
-
-;;guile> (expt 2 -1)
-;;ERROR: In procedure integer-expt:
-;;ERROR: Argument out of range: -1
-;;ABORT: (out-of-range)
-(define expt
- (let ((integer-expt integer-expt))
- (lambda (z1 z2)
- (cond ((zero? z1) (if (zero? z2) 1 0))
- ((and (exact? z2) (not (negative? z2)))
- (integer-expt z1 z2))
- ((and (real? z2) (real? z1) (>= z1 0))
- ($expt z1 z2))
- (else
- (exp (* z2 (log z1))))))))
+ (logior (logand mask n0)
+ (logand (lognot mask) n1)))
+(define (copy-bit-field to from start end)
+ (bitwise-if (arithmetic-shift (lognot (ash -1 (- end start))) start)
+ (arithmetic-shift from start)
+ to))
+(define (rotate-bit-field n count start end)
+ (define width (- end start))
+ (set! count (modulo count width))
+ (let ((mask (lognot (ash -1 width))))
+ (define azn (logand mask (arithmetic-shift n (- start))))
+ (logior (arithmetic-shift
+ (logior (logand mask (arithmetic-shift azn count))
+ (arithmetic-shift azn (- count width)))
+ start)
+ (logand (lognot (ash mask start)) n))))
+(define (log2-binary-factors n)
+ (+ -1 (integer-length (logand n (- n)))))
+(define (bit-reverse k n)
+ (do ((m (if (negative? n) (lognot n) n) (arithmetic-shift m -1))
+ (k (+ -1 k) (+ -1 k))
+ (rvs 0 (logior (arithmetic-shift rvs 1) (logand 1 m))))
+ ((negative? k) (if (negative? n) (lognot rvs) rvs))))
+(define (reverse-bit-field n start end)
+ (define width (- end start))
+ (let ((mask (lognot (ash -1 width))))
+ (define zn (logand mask (arithmetic-shift n (- start))))
+ (logior (arithmetic-shift (bit-reverse width zn) start)
+ (logand (lognot (ash mask start)) n))))
+
+(define (integer->list k . len)
+ (if (null? len)
+ (do ((k k (arithmetic-shift k -1))
+ (lst '() (cons (odd? k) lst)))
+ ((<= k 0) lst))
+ (do ((idx (+ -1 (car len)) (+ -1 idx))
+ (k k (arithmetic-shift k -1))
+ (lst '() (cons (odd? k) lst)))
+ ((negative? idx) lst))))
+(define (list->integer bools)
+ (do ((bs bools (cdr bs))
+ (acc 0 (+ acc acc (if (car bs) 1 0))))
+ ((null? bs) acc)))
+(define (booleans->integer . bools)
+ (list->integer bools))
+
+;;;; SRFI-60 aliases
+(define arithmetic-shift ash)
+(define bitwise-ior logior)
+(define bitwise-xor logxor)
+(define bitwise-and logand)
+(define bitwise-not lognot)
+(define bit-count logcount)
+(define bit-set? logbit?)
+(define any-bits-set? logtest)
+(define first-set-bit log2-binary-factors)
+(define bitwise-merge bitwise-if)
;;; array-for-each
(define (array-indexes ra)
- (let ((ra0 (apply create-array '#() (array-shape ra))))
+ (let ((ra0 (apply make-array '#() (array-shape ra))))
(array-index-map! ra0 list)
ra0))
-(define (array-copy! source dest)
+(define (array:copy! dest source)
(array-map! dest identity source))
(define (array-null? array)
(zero? (apply * (map (lambda (bnd) (- 1 (apply - bnd)))
(array-shape array)))))
-(define (create-array prot . args)
+;; DIMENSIONS->UNIFORM-ARRAY and list->uniform-array in Guile-1.6.4
+;; cannot make empty arrays.
+(define (make-array prot . args)
(if (array-null? prot)
(dimensions->uniform-array args (array-prototype prot))
(dimensions->uniform-array args (array-prototype prot)
(apply array-ref prot
(map car (array-shape prot))))))
+(define create-array make-array)
(define (make-uniform-wrapper prot)
(if (string? prot) (set! prot (string->number prot)))
(if prot
(lambda opt (if (null? opt)
- (list->uniform-array 1 prot '())
- (list->uniform-array 1 prot opt)))
+ (list->uniform-array 1 prot (list prot))
+ (list->uniform-array 0 prot opt)))
vector))
(define ac64 (make-uniform-wrapper "+i"))
(define ac32 ac64)
@@ -391,6 +513,56 @@
(define au8 au32)
(define at1 (make-uniform-wrapper #t))
+;;; New SRFI-58 names
+;; flonums
+(define A:floC128b ac64)
+(define A:floC64b ac64)
+(define A:floC32b ac32)
+(define A:floC16b ac32)
+(define A:floR128b ar64)
+(define A:floR64b ar64)
+(define A:floR32b ar32)
+(define A:floR16b ar32)
+;; decimal flonums
+(define A:flor128d ar64)
+(define A:flor64d ar64)
+(define A:flor32d ar32)
+;; fixnums
+(define A:fixZ64b as64)
+(define A:fixZ32b as32)
+(define A:fixZ16b as16)
+(define A:fixZ8b as8)
+(define A:fixN64b au64)
+(define A:fixN32b au32)
+(define A:fixN16b au16)
+(define A:fixN8b au8)
+(define A:bool at1)
+
+;;; And case-insensitive versions
+;; flonums
+(define a:floc128b ac64)
+(define a:floc64b ac64)
+(define a:floc32b ac32)
+(define a:floc16b ac32)
+(define a:flor128b ar64)
+(define a:flor64b ar64)
+(define a:flor32b ar32)
+(define a:flor16b ar32)
+;; decimal flonums
+(define a:flor128d ar64)
+(define a:flor64d ar64)
+(define a:flor32d ar32)
+;; fixnums
+(define a:fixz64b as64)
+(define a:fixz32b as32)
+(define a:fixz16b as16)
+(define a:fixz8b as8)
+(define a:fixn64b au64)
+(define a:fixn32b au32)
+(define a:fixn16b au16)
+(define a:fixn8b au8)
+(define a:bool at1)
+
;;; {Random numbers}
(define (make-random-state . args)
(let ((seed (if (null? args) *random-state* (car args))))
@@ -400,19 +572,27 @@
(require 'object->string)
(set! seed (object->limited-string seed 50)))))
(seed->random-state seed)))
+(if (not (defined? 'random:chunk))
+ (define (random:chunk sta) (random 256 sta)))
;;; Support for older versions of Scheme. Not enough code for its own file.
;;(define (last-pair l) (if (pair? (cdr l)) (last-pair (cdr l)) l))
;;; Guile has nil and t as self-sets
-;;(define t #t)
-;;(define nil #f)
+(define t #t)
+(define nil #f)
;;; Define these if your implementation's syntax can support it and if
;;; they are not already defined.
-
-;;(define (1+ n) (+ n 1))
-;;(define (-1+ n) (+ n -1))
-;;(define 1- -1+)
+(define (1+ n) (+ n 1))
+(define (-1+ n) (+ n -1))
+(define 1- -1+)
+
+;;; rev2-procedures
+(define <? <)
+(define <=? <=)
+(define =? =)
+(define >? >)
+(define >=? >=)
(slib:load (in-vicinity (library-vicinity) "require"))
diff --git a/guile.init.local b/guile.init.local
deleted file mode 100644
index 551a7a2..0000000
--- a/guile.init.local
+++ /dev/null
@@ -1,416 +0,0 @@
-;"guile.init" Configuration file for SLIB for GUILE -*-scheme-*-
-;;; Author: Aubrey Jaffer
-;;;
-;;; This code is in the public domain.
-
-(if (string<? (version) "1.6")
- (define-module (ice-9 slib))) ; :no-backtrace
-(define slib-module (current-module))
-(define (defined? symbol) (module-defined? slib-module symbol))
-
-(define base:define define)
-(define define
- (procedure->memoizing-macro
- (lambda (exp env)
- (cons (if (= 1 (length env)) 'define-public 'base:define) (cdr exp)))))
-
-;;; Hack to make syncase macros work in the slib module
-(if (nested-ref the-root-module '(app modules ice-9 syncase))
- (set-object-property! (module-local-variable (current-module) 'define)
- '*sc-expander*
- '(define)))
-
-;;; (software-type) should be set to the generic operating system type.
-;;; UNIX, VMS, MACOS, AMIGA and MS-DOS are supported.
-(define (software-type) 'unix)
-
-;;; (scheme-implementation-type) should return the name of the scheme
-;;; implementation loading this file.
-(define (scheme-implementation-type) 'guile)
-
-;;; (scheme-implementation-home-page) should return a (string) URI
-;;; (Uniform Resource Identifier) for this scheme implementation's home
-;;; page; or false if there isn't one.
-(define (scheme-implementation-home-page)
- "http://www.gnu.org/software/guile/guile.html")
-
-;;; (scheme-implementation-version) should return a string describing
-;;; the version the scheme implementation loading this file.
-(define scheme-implementation-version version)
-
-(define in-vicinity string-append)
-
-;;; (implementation-vicinity) should be defined to be the pathname of
-;;; the directory where any auxillary files to your Scheme
-;;; implementation reside.
-(define implementation-vicinity
- (let ((path '"."))
- (lambda () path)))
-
-;;; (library-vicinity) should be defined to be the pathname of the
-;;; directory where files of Scheme library functions reside.
-(define library-vicinity
- (let ((library-path
- (or
- ;; Use this getenv if your implementation supports it.
- (and (defined? 'getenv) (getenv "SCHEME_LIBRARY_PATH"))
- ;; Use this path if your scheme does not support GETENV
- ;; or if SCHEME_LIBRARY_PATH is not set.
- (in-vicinity (implementation-vicinity) "slib/"))))
- (lambda () library-path)))
-
-;;; (home-vicinity) should return the vicinity of the user's HOME
-;;; directory, the directory which typically contains files which
-;;; customize a computer environment for a user.
-(define (home-vicinity)
- (let ((home (getenv "HOME")))
- (and home
- (case (software-type)
- ((unix coherent ms-dos) ;V7 unix has a / on HOME
- (if (eqv? #\/ (string-ref home (+ -1 (string-length home))))
- home
- (string-append home "/")))
- (else home)))))
-
-;;; *FEATURES* should be set to a list of symbols describing features
-;;; of this implementation. Suggestions for features are:
-(define *features*
- (append
- '(
- source ;can load scheme source files
- ;(slib:load-source "filename")
-; compiled ;can load compiled files
- ;(slib:load-compiled "filename")
-
- ;; Scheme report features
-
-; r5rs ;conforms to
- eval ;R5RS two-argument eval
-; values ;R5RS multiple values
- dynamic-wind ;R5RS dynamic-wind
-; macro ;R5RS high level macros
- delay ;has DELAY and FORCE
- multiarg-apply ;APPLY can take more than 2 args.
-; rationalize
- rev4-optional-procedures ;LIST-TAIL, STRING->LIST,
- ;LIST->STRING, STRING-COPY,
- ;STRING-FILL!, LIST->VECTOR,
- ;VECTOR->LIST, and VECTOR-FILL!
-
-; r4rs ;conforms to
-
-; ieee-p1178 ;conforms to
-
-; r3rs ;conforms to
-
- rev2-procedures ;SUBSTRING-MOVE-LEFT!,
- ;SUBSTRING-MOVE-RIGHT!,
- ;SUBSTRING-FILL!,
- ;STRING-NULL?, APPEND!, 1+,
- ;-1+, <?, <=?, =?, >?, >=?
-; object-hash ;has OBJECT-HASH
-
- multiarg/and- ;/ and - can take more than 2 args.
- with-file ;has WITH-INPUT-FROM-FILE and
- ;WITH-OUTPUT-TO-FILE
-; transcript ;TRANSCRIPT-ON and TRANSCRIPT-OFF
-; ieee-floating-point ;conforms to IEEE Standard 754-1985
- ;IEEE Standard for Binary
- ;Floating-Point Arithmetic.
- full-continuation ;can return multiple times
-
- ;; Other common features
-
-; srfi ;srfi-0, COND-EXPAND finds all srfi-*
-; sicp ;runs code from Structure and
- ;Interpretation of Computer
- ;Programs by Abelson and Sussman.
- defmacro ;has Common Lisp DEFMACRO
-; record ;has user defined data structures
- string-port ;has CALL-WITH-INPUT-STRING and
- ;CALL-WITH-OUTPUT-STRING
-; sort
-; pretty-print
-; object->string
-; format ;Common-lisp output formatting
-; trace ;has macros: TRACE and UNTRACE
-; compiler ;has (COMPILER)
-; ed ;(ED) is editor
- random
- )
-
- (if (defined? 'getenv)
- '(getenv)
- '())
-
- (if (defined? 'current-time)
- '(current-time)
- '())
-
- (if (defined? 'system)
- '(system)
- '())
-
- (if (defined? 'array?)
- '(array)
- '())
-
- (if (defined? 'char-ready?)
- '(char-ready?)
- '())
-
- (if (defined? 'array-for-each)
- '(array-for-each)
- '())
-
- *features*))
-
-;;; (OUTPUT-PORT-WIDTH <port>)
-(define (output-port-width . arg) 79)
-
-;;; (OUTPUT-PORT-HEIGHT <port>)
-(define (output-port-height . arg) 24)
-
-;;; (CURRENT-ERROR-PORT)
-;;(define current-error-port
-;; (let ((port (current-output-port)))
-;; (lambda () port)))
-
-;;; (TMPNAM) makes a temporary file name.
-;;(define tmpnam (let ((cntr 100))
-;; (lambda () (set! cntr (+ 1 cntr))
-;; (string-append "slib_" (number->string cntr)))))
-
-;;; (FILE-EXISTS? <string>)
-;;(define (file-exists? f) #f)
-
-;;; (DELETE-FILE <string>)
-;;(define (delete-file f) #f)
-
-;;; FORCE-OUTPUT flushes any pending output on optional arg output port
-;;; use this definition if your system doesn't have such a procedure.
-;;(define (force-output . arg) #t)
-
-;;; CALL-WITH-INPUT-STRING and CALL-WITH-OUTPUT-STRING are the string
-;;; port versions of CALL-WITH-*PUT-FILE.
-
-(define (make-exchanger obj)
- (lambda (rep) (let ((old obj)) (set! obj rep) old)))
-
-(define (port? obj) (or (input-port? obj) (output-port? obj)))
-(define (call-with-open-ports . ports)
- (define proc (car ports))
- (cond ((procedure? proc) (set! ports (cdr ports)))
- (else (set! ports (reverse ports))
- (set! proc (car ports))
- (set! ports (reverse (cdr ports)))))
- (let ((ans (apply proc ports)))
- (for-each close-port ports)
- ans))
-
-;;; "rationalize" adjunct procedures.
-;;(define (find-ratio x e)
-;; (let ((rat (rationalize x e)))
-;; (list (numerator rat) (denominator rat))))
-;;(define (find-ratio-between x y)
-;; (find-ratio (/ (+ x y) 2) (/ (- x y) 2)))
-
-;;; CHAR-CODE-LIMIT is one greater than the largest integer which can
-;;; be returned by CHAR->INTEGER.
-;;(define char-code-limit 256)
-
-;;; MOST-POSITIVE-FIXNUM is used in modular.scm
-;;(define most-positive-fixnum #x0FFFFFFF)
-
-;;; Return argument
-(define (identity x) x)
-
-;;; SLIB:EVAL is single argument eval using the top-level (user) environment.
-(define slib:eval
- (if (string<? (scheme-implementation-version) "1.5")
- eval
- (let ((ie (interaction-environment)))
- (lambda (expression)
- (eval expression ie)))))
-
-;;; Define SLIB:EXIT to be the implementation procedure to exit or
-;;; return if exitting not supported.
-(define slib:exit quit)
-
-;;; Here for backward compatability
-;;(define scheme-file-suffix
-;; (let ((suffix (case (software-type)
-;; ((NOSVE) "_scm")
-;; (else ".scm"))))
-;; (lambda () suffix)))
-
-(define (slib:eval-load <pathname> evl)
- (if (not (file-exists? <pathname>))
- (set! <pathname> (string-append <pathname> (scheme-file-suffix))))
- (call-with-input-file <pathname>
- (lambda (port)
- (let ((old-load-pathname *load-pathname*))
- (set! *load-pathname* <pathname>)
- (do ((o (read port) (read port)))
- ((eof-object? o))
- (evl o))
- (set! *load-pathname* old-load-pathname)))))
-
-(define (guile:wrap-case-insensitive proc)
- (lambda args
- (save-module-excursion
- (lambda ()
- (set-current-module slib-module)
- (let ((old (read-options)))
- (dynamic-wind
- (lambda () (read-enable 'case-insensitive))
- (lambda () (apply proc args))
- (lambda () (read-options old))))))))
-
-(define read (guile:wrap-case-insensitive read))
-
-;;; (SLIB:LOAD-SOURCE "foo") should load "foo.scm" or with whatever
-;;; suffix all the module files in SLIB have. See feature 'SOURCE.
-(define slib:load
- (let ((load-file (guile:wrap-case-insensitive load)))
- (lambda (<pathname>)
- (load-file (string-append <pathname> (scheme-file-suffix))))))
-
-(define slib:load-source slib:load)
-
-;;; (SLIB:LOAD-COMPILED "foo") should load the file that was produced
-;;; by compiling "foo.scm" if this implementation can compile files.
-;;; See feature 'COMPILED.
-(define slib:load-compiled slib:load)
-
-(define defmacro:eval slib:eval)
-(define defmacro:load slib:load)
-
-(define (defmacro:expand* x)
- (require 'defmacroexpand) (apply defmacro:expand* x '()))
-
-;;; If your implementation provides R4RS macros:
-(define macro:eval slib:eval)
-(define macro:load slib:load)
-
-(define slib:warn warn)
-(define slib:error error)
-
-;;; define these as appropriate for your system.
-(define slib:tab #\tab)
-(define slib:form-feed #\page)
-
-;;; {Time}
-(define difftime -)
-(define offset-time +)
-
-;;; Early version of 'logical is built-in
-(define logical:logand logand)
-(define logical:logior logior)
-;;(define logical:logxor logxor)
-;;(define logical:lognot lognot)
-;;(define logical:logtest logtest)
-;;(define logical:logbit? logbit?)
-(define (copy-bit index to bool)
- (if bool
- (logical:logior to (logical:ash 1 index))
- (logical:logand to (logical:lognot (logical:ash 1 index)))))
-;;(define copy-bit logical:copy-bit)
-;;(define logical:ash ash)
-;;(define logical:logcount logcount)
-;;(define logical:integer-length integer-length)
-(define (logical:bit-field n start end)
- (logical:logand (- (logical:integer-expt 2 (- end start)) 1)
- (logical:ash n (- start))))
-;;(define bit-field logical:bit-field)
-(define (bitwise-if mask n0 n1)
- (logical:logior (logical:logand mask n0)
- (logical:logand (logical:lognot mask) n1)))
-(define logical:bitwise-if bitwise-if)
-;;(define logical:bit-extract bit-extract)
-(define (copy-bit-field to start end from)
- (logical:bitwise-if
- (logical:ash (- (logical:integer-expt 2 (- end start)) 1) start)
- (logical:ash from start)
- to))
-;;(define copy-bit-field logical:copy-bit-field)
-(define logical:integer-expt integer-expt)
-;;(define logical:ipow-by-squaring ipow-by-squaring)
-
-;;guile> (expt 2 -1)
-;;ERROR: In procedure integer-expt:
-;;ERROR: Argument out of range: -1
-;;ABORT: (out-of-range)
-(define expt
- (let ((integer-expt integer-expt))
- (lambda (z1 z2)
- (cond ((zero? z1) (if (zero? z2) 1 0))
- ((and (exact? z2) (not (negative? z2)))
- (integer-expt z1 z2))
- ((and (real? z2) (real? z1) (>= z1 0))
- ($expt z1 z2))
- (else
- (exp (* z2 (log z1))))))))
-
-;;; array-for-each
-(define (array-indexes ra)
- (let ((ra0 (apply create-array '#() (array-shape ra))))
- (array-index-map! ra0 list)
- ra0))
-(define (array-copy! source dest)
- (array-map! dest identity source))
-(define (array-null? array)
- (zero? (apply * (map (lambda (bnd) (- 1 (apply - bnd)))
- (array-shape array)))))
-(define (create-array prot . args)
- (if (array-null? prot)
- (dimensions->uniform-array args (array-prototype prot))
- (dimensions->uniform-array args (array-prototype prot)
- (apply array-ref prot
- (map car (array-shape prot))))))
-(define (make-uniform-wrapper prot)
- (if (string? prot) (set! prot (string->number prot)))
- (if prot
- (lambda opt (if (null? opt)
- (list->uniform-array 1 prot '())
- (list->uniform-array 1 prot opt)))
- vector))
-(define ac64 (make-uniform-wrapper "+i"))
-(define ac32 ac64)
-(define ar64 (make-uniform-wrapper "1/3"))
-(define ar32 (make-uniform-wrapper "1."))
-(define as64 vector)
-(define as32 (make-uniform-wrapper -32))
-(define as16 as32)
-(define as8 as32)
-(define au64 vector)
-(define au32 (make-uniform-wrapper 32))
-(define au16 au32)
-(define au8 au32)
-(define at1 (make-uniform-wrapper #t))
-
-;;; {Random numbers}
-(define (make-random-state . args)
- (let ((seed (if (null? args) *random-state* (car args))))
- (cond ((string? seed))
- ((number? seed) (set! seed (number->string seed)))
- (else (let ()
- (require 'object->string)
- (set! seed (object->limited-string seed 50)))))
- (seed->random-state seed)))
-
-;;; Support for older versions of Scheme. Not enough code for its own file.
-;;(define (last-pair l) (if (pair? (cdr l)) (last-pair (cdr l)) l))
-
-;;; Guile has nil and t as self-sets
-;;(define t #t)
-;;(define nil #f)
-
-;;; Define these if your implementation's syntax can support it and if
-;;; they are not already defined.
-
-;;(define (1+ n) (+ n 1))
-;;(define (-1+ n) (+ n -1))
-;;(define 1- -1+)
-
-(slib:load (in-vicinity (library-vicinity) "require"))
diff --git a/hash.scm b/hash.scm
index ec2718a..fbee264 100644
--- a/hash.scm
+++ b/hash.scm
@@ -1,5 +1,5 @@
; "hash.scm", hashing functions for Scheme.
-; Copyright (c) 1992, 1993, 1995, 2003 Aubrey Jaffer
+; Copyright (C) 1992, 1993, 1995, 2003 Aubrey Jaffer
;
;Permission to copy this software, to modify it, to redistribute it,
;to distribute modified versions, and to use it for any purpose is
@@ -96,52 +96,20 @@
((input-port? obj) 260)
((output-port? obj) 261)
((procedure? obj) 262)
- ((and (provided? 'RECORD) (record? obj))
- (let* ((rtd (record-type-descriptor obj))
- (fns (record-type-field-names rtd))
- (len (length fns)))
- (if (> len 5)
- (let lp ((h (modulo 266 n)) (i (quotient d 2)))
- (if (positive? i)
- (lp (modulo
- (+ (* h 256)
- (hs 2 ((record-accessor
- rtd (list-ref fns (modulo h len)))
- obj)))
- n)
- (- i 1))
- h))
- (let loop ((h (- n 1)) (i (- len 1)))
- (if (>= i 0)
- (loop (modulo
- (+ (* h 256)
- (hs (quotient d len)
- ((record-accessor
- rtd (list-ref fns (modulo h len)))
- obj)))
- n)
- (- i 1))
- h)))))
(else 263))
n)))))
(define hash:hash hash)
;;; Object-hash is somewhat expensive on copying GC systems (like
-;;; PC-Scheme and MITScheme). We use it only on strings, pairs,
-;;; vectors, and records. This also allows us to use it for both
-;;; hashq and hashv.
+;;; PC-Scheme and MITScheme). We use it only on strings, pairs, and
+;;; vectors. This also allows us to use it for both hashq and hashv.
;@
(define hashv
(if (provided? 'object-hash)
- (if (provided? 'record)
- (lambda (obj k)
- (if (or (string? obj) (pair? obj) (vector? obj) (record? obj))
- (modulo (object-hash obj) k)
- (hash:hash obj k)))
- (lambda (obj k)
- (if (or (string? obj) (pair? obj) (vector? obj))
- (modulo (object-hash obj) k)
- (hash:hash obj k))))
+ (lambda (obj k)
+ (if (or (string? obj) (pair? obj) (vector? obj))
+ (modulo (object-hash obj) k)
+ (hash:hash obj k)))
hash))
(define hashq hashv)
diff --git a/hashtab.scm b/hashtab.scm
index 6656ca4..a42e473 100644
--- a/hashtab.scm
+++ b/hashtab.scm
@@ -1,5 +1,5 @@
; "hashtab.scm", hash tables for Scheme.
-; Copyright (c) 1992, 1993, 2003 Aubrey Jaffer
+; Copyright (C) 1992, 1993, 2003 Aubrey Jaffer
;
;Permission to copy this software, to modify it, to redistribute it,
;to distribute modified versions, and to use it for any purpose is
diff --git a/hashtab.txi b/hashtab.txi
index b2a7a0e..572b452 100644
--- a/hashtab.txi
+++ b/hashtab.txi
@@ -10,6 +10,7 @@ Returns a hash function (like @code{hashq}, @code{hashv}, or
@code{char=?}, @code{char-ci=?}, @code{string=?}, or
@code{string-ci=?}.
@end defun
+
@noindent
A hash table is a vector of association lists.
@@ -18,6 +19,7 @@ A hash table is a vector of association lists.
Returns a vector of @var{k} empty (association) lists.
@end defun
+
@noindent
Hash table functions provide utilities for an associative database.
These functions take an equality predicate, @var{pred}, as an argument.
@@ -35,6 +37,7 @@ argument or @code{#f} if no key in @var{hashtab} is @var{pred}-equal to
the first argument.
@end defun
+
@defun hash-inquirer pred
Returns a procedure of 2 arguments, @var{hashtab} and @var{key}, which
@@ -42,6 +45,7 @@ returns the value associated with @var{key} in @var{hashtab} or
@code{#f} if @var{key} does not appear in @var{hashtab}.
@end defun
+
@defun hash-associator pred
Returns a procedure of 3 arguments, @var{hashtab}, @var{key}, and
@@ -50,6 +54,7 @@ Returns a procedure of 3 arguments, @var{hashtab}, @var{key}, and
will be lost.
@end defun
+
@defun hash-remover pred
Returns a procedure of 2 arguments, @var{hashtab} and @var{key}, which
@@ -57,6 +62,7 @@ modifies @var{hashtab} so that the association whose key is @var{key} is
removed.
@end defun
+
@defun hash-map proc hash-table
Returns a new hash table formed by mapping @var{proc} over the
@@ -64,6 +70,7 @@ keys and values of @var{hash-table}. @var{proc} must be a function of 2
arguments which returns the new value part.
@end defun
+
@defun hash-for-each proc hash-table
Applies @var{proc} to each pair of keys and values of @var{hash-table}.
@@ -71,6 +78,7 @@ Applies @var{proc} to each pair of keys and values of @var{hash-table}.
unspecified.
@end defun
+
@defun hash-rehasher pred
@code{hash-rehasher} accepts a hash table predicate and returns a function of two
@@ -82,3 +90,4 @@ This function is used for nondestrutively resizing a hash table.
is the size of a new hash table to be returned. The new hash table
will have all of the associations of the old hash table.
@end defun
+
diff --git a/html4each.scm b/html4each.scm
index 02e666e..f115616 100644
--- a/html4each.scm
+++ b/html4each.scm
@@ -225,16 +225,28 @@
(reverse fields))
((eqv? #\> chr) (cons element (reverse fields)))
((char-whitespace? chr) (read-char port) (loop (peek-char port)))
- ((case (fscanf port "%[a-zA-Z0-9]%[=]%[-.a-zA-Z0-9]" name junk value)
+ ((case (fscanf port "%[a-zA-Z0-9]%[=]%[-.a-zA-Z0-9]"
+ name junk value)
((3 1) #t)
((2)
(case (peek-char port)
- ((#\") (eqv? 1 (fscanf port "\"%[^\"]\"" value)))
- ((#\') (eqv? 1 (fscanf port "'%[^']'" value)))
+ ((#\") (cond ((eqv? 1 (fscanf port "\"%[^\"]\"" value)))
+ ((eqv? #\" (peek-char port))
+ (read-char port)
+ (set! value ""))
+ (else #f)))
+ ((#\') (cond ((eqv? 1 (fscanf port "'%[^']'" value)))
+ ((eqv? #\' (peek-char port))
+ (read-char port)
+ (set! value ""))
+ (else #f)))
(else #f)))
(else #f))
(set! fields (cons (cons (string-ci->symbol name)
- (or (string->number value) value))
+ (if (string? value)
+ (or (string->number value) value)
+ value))
fields))
(loop (peek-char port)))
- (else (slib:warn 'htm-fields 'bad 'field htm) (reverse fields))))))))
+ (else (slib:warn 'htm-fields 'bad 'field htm)
+ (reverse fields))))))))
diff --git a/html4each.txi b/html4each.txi
index d331b25..0c47227 100644
--- a/html4each.txi
+++ b/html4each.txi
@@ -42,6 +42,7 @@ markup or comment}.
@code{html-for-each} returns an unspecified value.
@end defun
+
@defun html:read-title file limit
@@ -58,6 +59,7 @@ character read from @var{file} is not @samp{#\<}, or if the end of title is
not found within the first (approximately) @var{limit} words.
@end defun
+
@defun htm-fields htm
@var{htm} is a hypertext markup string.
@@ -68,3 +70,4 @@ Otherwise @code{htm-fields} returns the hypertext element symbol (created by
attribute name-symbols and values. Each value is a number or
string; or #t if the name had no value assigned within the markup.
@end defun
+
diff --git a/htmlform.scm b/htmlform.scm
index d659aeb..143eccc 100644
--- a/htmlform.scm
+++ b/htmlform.scm
@@ -80,11 +80,11 @@
;;displaying the page with this tag, Netscape or IE browsers will fetch
;;and display @2. Otherwise, @1 seconds after displaying the page with
;;this tag, Netscape or IE browsers will fetch and redisplay this page.
-(define (html:meta-refresh delay . uri)
+(define (html:meta-refresh dly . uri)
(if (null? uri)
- (sprintf #f "\\n<META HTTP-EQUIV=\"Refresh\" CONTENT=\"%d\">" delay)
+ (sprintf #f "\\n<META HTTP-EQUIV=\"Refresh\" CONTENT=\"%d\">" dly)
(sprintf #f "\\n<META HTTP-EQUIV=\"Refresh\" CONTENT=\"%d;URL=%s\">"
- delay (car uri))))
+ dly (car uri))))
;;@args title backlink tags ...
;;@args title backlink
@@ -102,7 +102,7 @@
(sprintf #f "<HTML>\\n")
(sprintf #f "%s"
(html:comment "HTML by SLIB"
- "http://swissnet.ai.mit.edu/~jaffer/SLIB"))
+ "http://swiss.csail.mit.edu/~jaffer/SLIB"))
(sprintf #f " <HEAD>\\n <TITLE>%s</TITLE>\\n %s\\n </HEAD>\\n"
(html:plain title) (apply string-append args))
(if (and backlink (substring-ci? "<H1>" backlink))
diff --git a/htmlform.txi b/htmlform.txi
index e960984..77704ff 100644
--- a/htmlform.txi
+++ b/htmlform.txi
@@ -8,12 +8,14 @@ send @var{txt} as an @dfn{attribute-value}.
@cindex attribute-value
@end defun
+
@defun html:plain txt
Returns a string with character substitutions appropriate to
send @var{txt} as an @dfn{plain-text}.
@cindex plain-text
@end defun
+
@defun html:meta name content
Returns a tag of meta-information suitable for passing as the
third argument to @code{html:head}. The tag produced is @samp{<META
@@ -22,6 +24,7 @@ NAME="@var{name}" CONTENT="@var{content}">}. The string or symbol @var{name} ca
@samp{date}, @samp{robots}, @dots{}.
@end defun
+
@defun html:http-equiv name content
Returns a tag of HTTP information suitable for passing as the
third argument to @code{html:head}. The tag produced is @samp{<META
@@ -30,6 +33,7 @@ HTTP-EQUIV="@var{name}" CONTENT="@var{content}">}. The string or symbol @var{na
@samp{Refresh}, @dots{}.
@end defun
+
@defun html:meta-refresh delay uri
@@ -42,6 +46,7 @@ and display @var{uri}. Otherwise, @var{delay} seconds after displaying the page
this tag, Netscape or IE browsers will fetch and redisplay this page.
@end defun
+
@defun html:head title backlink tags @dots{}
@@ -55,10 +60,12 @@ used. If string arguments @var{tags} ... are supplied, then they are
included verbatim within the @t{<HEAD>} section.
@end defun
+
@defun html:body body @dots{}
Returns HTML string to end a page.
@end defun
+
@defun html:pre line1 line @dots{}
Returns the strings @var{line1}, @var{lines} as @dfn{PRE}formmated plain text
@cindex PRE
@@ -66,9 +73,11 @@ Returns the strings @var{line1}, @var{lines} as @dfn{PRE}formmated plain text
@var{lines}. HTML tags (@samp{<tag>}) within @var{lines} will be visible verbatim.
@end defun
+
@defun html:comment line1 line @dots{}
Returns the strings @var{line1} as HTML comments.
@end defun
+
@section HTML Forms
@@ -79,30 +88,37 @@ form. @code{html:form} returns the HTML @dfn{form}.
@cindex form
@end defun
+
@defun html:hidden name value
Returns HTML string which will cause @var{name}=@var{value} in form.
@end defun
+
@defun html:checkbox pname default
Returns HTML string for check box.
@end defun
+
@defun html:text pname default size @dots{}
Returns HTML string for one-line text box.
@end defun
+
@defun html:text-area pname default-list
Returns HTML string for multi-line text box.
@end defun
+
@defun html:select pname arity default-list foreign-values
Returns HTML string for pull-down menu selector.
@end defun
+
@defun html:buttons pname arity default-list foreign-values
Returns HTML string for any-of selector.
@end defun
+
@defun form:submit submit-label command
@@ -114,15 +130,18 @@ and @code{*button*=@var{submit-label}} are set in the query. Otherwise,
@code{*command*=@var{submit-label}} is set in the query.
@end defun
+
@defun form:image submit-label image-src
The @var{image-src} appears on the button which submits the form.
@end defun
+
@defun form:reset
Returns a string which generates a @dfn{reset} button.
@cindex reset
@end defun
+
@defun form:element pname arity default-list foreign-values
Returns a string which generates an INPUT element for the field
named @var{pname}. The element appears in the created form with its
@@ -160,6 +179,7 @@ text area
@end table
@end defun
+
@defun form:delimited pname doc aliat arity default-list foreign-values
@@ -168,15 +188,18 @@ delimited list. Apply map @code{form:delimited} to the list returned by
@code{command->p-specs}.
@end defun
+
@defun html:delimited-list row @dots{}
Wraps its arguments with delimited-list (@samp{DL} command.
@end defun
+
@defun get-foreign-choices tab
Returns a list of the @samp{visible-name} or first fields of
table @var{tab}.
@end defun
+
@defun command->p-specs rdb command-table command
@@ -212,3 +235,4 @@ command.
port)))
@end example
@end defun
+
diff --git a/http-cgi.scm b/http-cgi.scm
index 097da06..1dd1c07 100644
--- a/http-cgi.scm
+++ b/http-cgi.scm
@@ -47,7 +47,7 @@
(set! http:crlf (string (string-ref line 0) #\newline)))
(if (eof-object? line) line alist))
(let ((len (string-length line))
- (idx (strsrch:string-index line #\:)))
+ (idx (string-index line #\:)))
(if (char-whitespace? (string-ref line (+ -1 len)))
(set! len (+ -1 len)))
(and idx (do ((idx2 (+ idx 1) (+ idx2 1)))
@@ -68,9 +68,9 @@
(let* ((request-uri (cadr request-line))
(len (string-length request-uri)))
(and (> len 3)
- (strsrch:string-index request-uri #\?)
+ (string-index request-uri #\?)
(substring request-uri
- (+ 1 (strsrch:string-index request-uri #\?))
+ (+ 1 (string-index request-uri #\?))
(if (eqv? #\/ (string-ref request-uri (+ -1 len)))
(+ -1 len)
len)))))
@@ -125,7 +125,7 @@
*http:byline*
(sprintf
#f
- "<A HREF=http://swissnet.ai.mit.edu/~jaffer/SLIB.html>SLIB</A> %s server"
+ "<A HREF=http://swiss.csail.mit.edu/~jaffer/SLIB.html>SLIB</A> %s server"
(if (getenv "SERVER_PROTOCOL") "CGI/1.1" "HTTP/1.1"))))
(string-append (http:status-line status-code reason-phrase)
(http:content
@@ -143,9 +143,9 @@
;;@3 after @2 seconds. The returned page (string) contains any @4
;;@dots{} followed by a manual link to @3, in case the browser does not
;;forward automatically.
-(define (http:forwarding-page title delay uri . html-strings)
+(define (http:forwarding-page title dly uri . html-strings)
(string-append
- (html:head title #f (html:meta-refresh delay uri))
+ (html:head title #f (html:meta-refresh dly uri))
(apply html:body
(append html-strings
(list (sprintf #f "\\n\\n<HR>\\nReturn to %s.\\n"
diff --git a/http-cgi.txi b/http-cgi.txi
index 67be216..0e57933 100644
--- a/http-cgi.txi
+++ b/http-cgi.txi
@@ -8,11 +8,13 @@ Returns a string containing lines for each element of @var{alist}; the
@code{car} of which is followed by @samp{: }, then the @code{cdr}.
@end defun
+
@defun http:content alist body @dots{}
Returns the concatenation of strings @var{body} with the
@code{(http:header @var{alist})} and the @samp{Content-Length} prepended.
@end defun
+
@defvar *http:byline*
String appearing at the bottom of error pages.
@end defvar
@@ -24,17 +26,19 @@ and any additional @var{html-strings} @dots{}; with @var{*http:byline*} or SLIB'
default at the bottom.
@end defun
-@defun http:forwarding-page title delay uri html-string @dots{}
-The string or symbol @var{title} is the page title. @var{delay} is a non-negative
+
+@defun http:forwarding-page title dly uri html-string @dots{}
+The string or symbol @var{title} is the page title. @var{dly} is a non-negative
integer. The @var{html-strings} @dots{} are typically used to explain to the user why
this page is being forwarded.
@code{http:forwarding-page} returns an HTML string for a page which automatically forwards to
-@var{uri} after @var{delay} seconds. The returned page (string) contains any @var{html-strings}
+@var{uri} after @var{dly} seconds. The returned page (string) contains any @var{html-strings}
@dots{} followed by a manual link to @var{uri}, in case the browser does not
forward automatically.
@end defun
+
@defun http:serve-query serve-proc input-port output-port
reads the @dfn{URI} and @dfn{query-string} from @var{input-port}. If the
@cindex URI
@@ -53,6 +57,7 @@ problem.
@end defun
+
This example services HTTP queries from @var{port-number}:
@example
@@ -93,6 +98,7 @@ Otherwise, @code{cgi:serve-query} replies (to @code{(current-input-port)}) with
appropriate HTML describing the problem.
@end defun
+
@defun make-query-alist-command-server rdb command-table
@@ -110,3 +116,4 @@ If optional third argument is non-false, then the command is called
with just the parameter-list; otherwise, command is called with the
arguments described in its table.
@end defun
+
diff --git a/indexes.texi b/indexes.texi
new file mode 100644
index 0000000..8733a05
--- /dev/null
+++ b/indexes.texi
@@ -0,0 +1,55 @@
+
+@ifhtml
+@node Index, Procedure and Macro Index, About SLIB, Top
+@unnumbered Index
+@end ifhtml
+
+@ifnotinfo
+@menu
+* Procedure and Macro Index::
+* Variable Index::
+* Concept Index::
+@ifhtml
+* SLIB:: Full Table of Contents
+@end ifhtml
+@end menu
+@end ifnotinfo
+
+@ifnotinfo
+@node Procedure and Macro Index, Variable Index, Index, Index
+@end ifnotinfo
+@unnumbered Procedure and Macro Index
+
+This is an alphabetical list of all the procedures and macros in SLIB.
+
+@printindex fn
+
+@ifnotinfo
+@node Variable Index, Concept Index, Procedure and Macro Index, Index
+@end ifnotinfo
+@unnumbered Variable Index
+
+This is an alphabetical list of all the global variables in SLIB.
+
+@printindex vr
+
+@ifnotinfo
+@node Concept Index, , Variable Index, Index
+@end ifnotinfo
+@unnumbered Concept and Feature Index
+
+@printindex cp
+
+@ifhtml
+@node SLIB, , , Index
+@unnumbered SLIB
+@noindent
+@dfn{SLIB} is a portable library for the programming language
+@dfn{Scheme}. It provides a platform independent framework for using
+@dfn{packages} of Scheme procedures and syntax. As distributed, SLIB
+contains useful packages for all Scheme implementations. Its catalog
+can be transparently extended to accomodate packages specific to a site,
+implementation, user, or directory.
+@end ifhtml
+
+@contents
diff --git a/jscheme.init b/jscheme.init
new file mode 100644
index 0000000..88c1623
--- /dev/null
+++ b/jscheme.init
@@ -0,0 +1,478 @@
+;;; "jscheme.init" SLIB Initialization for JScheme -*-scheme-*-
+;;; Author: Aubrey Jaffer
+;;; Additions by Ken Anderson.
+;;; This code is in the public domain.
+
+;;; JScheme support of for the SLIB Scheme library.
+
+;;; The easiest way to get things going is to download the slib.zip to
+;;; the lib directory and invoke JScheme with a script like this (UNIX):
+
+;;; java -classpath "lib/jscheme.jar:lib/slib.zip" jscheme.REPL slib/jscheme.init "$@"
+
+;;; AGJ: This line works on my RedHat-9.0 system:
+;;; java -cp src:/usr/local/share/java/jscheme.jar:/usr/local/lib/slib jscheme.REPL jscheme.init
+
+;;; Alternatively, set the location of the slib directory using the
+;;; -D SCHEME_LIBRARY_PATH=... system property.
+
+;;; Let me know, if there is a problem with a module you'd like to use
+;;; (kanderson@bbn.com).
+
+;;@ (software-type) should be set to the generic operating system type.
+;;; UNIX, VMS, MACOS, AMIGA and MS-DOS are supported.
+;; (define (software-type) 'UNIX)
+(define (software-type)
+ (if (.startsWith (System.getProperty "os.name") "Windows")
+ 'MS-DOS
+ 'UNIX))
+
+;;@ (scheme-implementation-type) should return the name of the scheme
+;;; implementation loading this file.
+(define (scheme-implementation-type) 'JScheme)
+
+;;@ (scheme-implementation-home-page) should return a (string) URI
+;;; (Uniform Resource Identifier) for this scheme implementation's home
+;;; page; or false if there isn't one.
+(define (scheme-implementation-home-page) "http://jscheme.sourceforge.net")
+
+;;@ (scheme-implementation-version) should return a string describing
+;;; the version the scheme implementation loading this file.
+(define (scheme-implementation-version) "6.2")
+
+;;@ (implementation-vicinity) should be defined to be the pathname of
+;;; the directory where any auxillary files to your Scheme
+;;; implementation reside.
+(define implementation-vicinity
+ (let ((implvic (case (software-type)
+ ((MS-DOS) "C:\\TEMP\\")
+ (else "/tmp/"))))
+ (lambda () implvic)))
+
+(define (getenv path)
+ (define prop (System.getProperty path))
+ (and (not (eq? prop #null)) prop))
+
+(define (slib.zip-on-classpath?)
+ (let loop ((urls (vector->list (.getURLs (Import.getClassLoader)))))
+ (if (null? urls) #f
+ (or (.endsWith (.getFile (car urls)) "slib.zip")
+ (loop (cdr urls))))))
+
+;;@ (library-vicinity) should be defined to be the pathname of the
+;;; directory where files of Scheme library functions reside.
+(define library-vicinity
+ (let ((library-path
+ (or
+ ;; Use this getenv if your implementation supports it.
+ (getenv "SCHEME_LIBRARY_PATH")
+ (and (or (slib.zip-on-classpath?)
+ (not (eq? #null (Scheme.openResource "slib/require.scm"))))
+ "slib/")
+ ;; Use this path if your scheme does not support GETENV
+ ;; or if SCHEME_LIBRARY_PATH is not set.
+ (case (software-type)
+ ((UNIX) "/usr/local/lib/slib/")
+ ((VMS) "lib$scheme:")
+ ((MS-DOS) "C:\\SLIB\\")
+ (else "")))))
+ (lambda () library-path)))
+
+;;@ (home-vicinity) should return the vicinity of the user's HOME
+;;; directory, the directory which typically contains files which
+;;; customize a computer environment for a user.
+(define (home-vicinity)
+ (define home (or (getenv "HOME") (getenv "user.home")))
+ (and home
+ (case (software-type)
+ ((UNIX COHERENT MS-DOS) ;V7 unix has a / on HOME
+ (if (eqv? #\/ (string-ref home (+ -1 (string-length home))))
+ home
+ (string-append home "/")))
+ (else home))))
+;@
+(define in-vicinity string-append)
+;@
+(define (user-vicinity)
+ (case (software-type)
+ ((VMS) "[.]")
+ (else "")))
+
+(define *load-pathname* #f)
+;@
+(define vicinity:suffix?
+ (let ((suffi
+ (case (software-type)
+ ((AMIGA) '(#\: #\/))
+ ((MACOS THINKC) '(#\:))
+ ((MS-DOS WINDOWS ATARIST OS/2) '(#\\ #\/))
+ ((NOSVE) '(#\: #\.))
+ ((UNIX COHERENT PLAN9) '(#\/))
+ ((VMS) '(#\: #\]))
+ (else
+ (slib:warn "require.scm" 'unknown 'software-type (software-type))
+ "/"))))
+ (lambda (chr) (and (memv chr suffi) #t))))
+;@
+(define (pathname->vicinity pathname)
+ (let loop ((i (- (string-length pathname) 1)))
+ (cond ((negative? i) "")
+ ((vicinity:suffix? (string-ref pathname i))
+ (substring pathname 0 (+ i 1)))
+ (else (loop (- i 1))))))
+(define (program-vicinity)
+ (if *load-pathname*
+ (pathname->vicinity *load-pathname*)
+ (slib:error 'program-vicinity " called; use slib:load to load")))
+;@
+(define sub-vicinity
+ (case (software-type)
+ ((VMS) (lambda
+ (vic name)
+ (let ((l (string-length vic)))
+ (if (or (zero? (string-length vic))
+ (not (char=? #\] (string-ref vic (- l 1)))))
+ (string-append vic "[" name "]")
+ (string-append (substring vic 0 (- l 1))
+ "." name "]")))))
+ (else (let ((*vicinity-suffix*
+ (case (software-type)
+ ((NOSVE) ".")
+ ((MACOS THINKC) ":")
+ ((MS-DOS WINDOWS ATARIST OS/2) "\\")
+ ((UNIX COHERENT PLAN9 AMIGA) "/"))))
+ (lambda (vic name)
+ (string-append vic name *vicinity-suffix*))))))
+;@
+(define (make-vicinity <pathname>) <pathname>)
+;@
+(define with-load-pathname
+ (let ((exchange
+ (lambda (new)
+ (let ((old *load-pathname*))
+ (set! *load-pathname* new)
+ old))))
+ (lambda (path thunk)
+ (let* ((old (exchange path))
+ (val (thunk)))
+ (exchange old)
+ val))))
+
+;;@ *FEATURES* should be set to a list of symbols describing features
+;;; of this implementation. Suggestions for features are:
+(define *features*
+ '(
+ source ;can load scheme source files
+ ;(SLIB:LOAD-SOURCE "filename")
+;;; compiled ;can load compiled files
+ ;(SLIB:LOAD-COMPILED "filename")
+ vicinity
+ srfi-59
+
+ ;; Scheme report features
+ ;; R5RS-compliant implementations should provide all 9 features.
+
+;;; r5rs ;conforms to
+ eval ;R5RS two-argument eval
+ values ;R5RS multiple values
+;;; dynamic-wind ;R5RS dynamic-wind
+;;; macro ;R5RS high level macros
+ delay ;has DELAY and FORCE
+ multiarg-apply ;APPLY can take more than 2 args.
+;;; char-ready?
+;;; KRA 23DEC03: JScheme is missing: vector-fill! string-copy string-fill!
+;;; rev4-optional-procedures ;LIST-TAIL, STRING-COPY,
+ ;STRING-FILL!, and VECTOR-FILL!
+
+ ;; These four features are optional in both R4RS and R5RS
+
+;;; multiarg/and- ;/ and - can take more than 2 args.
+;;; rationalize
+;;; transcript ;TRANSCRIPT-ON and TRANSCRIPT-OFF
+;;; with-file ;has WITH-INPUT-FROM-FILE and
+ ;WITH-OUTPUT-TO-FILE
+
+ r4rs ;conforms to
+
+;;; ieee-p1178 ;conforms to
+
+;;; r3rs ;conforms to
+
+;;; rev2-procedures ;SUBSTRING-MOVE-LEFT!,
+ ;SUBSTRING-MOVE-RIGHT!,
+ ;SUBSTRING-FILL!,
+ ;STRING-NULL?, APPEND!, 1+,
+ ;-1+, <?, <=?, =?, >?, >=?
+;;; object-hash ;has OBJECT-HASH
+
+;;; full-continuation ;can return multiple times
+ ieee-floating-point ;conforms to IEEE Standard 754-1985
+ ;IEEE Standard for Binary
+ ;Floating-Point Arithmetic.
+
+ ;; Other common features
+
+;;; srfi ;srfi-0, COND-EXPAND finds all srfi-*
+;;; sicp ;runs code from Structure and
+ ;Interpretation of Computer
+ ;Programs by Abelson and Sussman.
+ defmacro ;has Common Lisp DEFMACRO
+;;; record ;has user defined data structures
+;;; string-port ;has CALL-WITH-INPUT-STRING and
+ ;CALL-WITH-OUTPUT-STRING
+;;; sort
+;;; pretty-print
+;;; object->string
+;;; format ;Common-lisp output formatting
+;;; trace ;has macros: TRACE and UNTRACE
+;;; compiler ;has (COMPILER)
+;;; ed ;(ED) is editor
+;;; system ;posix (system <string>)
+ getenv ;posix (getenv <string>)
+;;; program-arguments ;returns list of strings (argv)
+ current-time ;returns time in seconds since 1/1/1970
+
+ ;; Implementation Specific features
+
+ ))
+
+;;@ (OUTPUT-PORT-WIDTH <port>)
+(define (output-port-width . arg) 79)
+
+;;@ (OUTPUT-PORT-HEIGHT <port>)
+(define (output-port-height . arg) 24)
+
+;;@ (CURRENT-ERROR-PORT)
+(define current-error-port
+ (let ((port (current-output-port)))
+ (lambda () port)))
+
+;;@ (TMPNAM) makes a temporary file name.
+(define tmpnam (let ((cntr 100))
+ (lambda () (set! cntr (+ 1 cntr))
+ (string-append "slib_" (number->string cntr)))))
+
+;;@ (FILE-EXISTS? <string>)
+;;; KRA 24DEC03: This allows load to find a file, resource or URL, but
+;;; the rest of SLIB assumes f names a file.
+(define (file-exists? f) (not (eq? (Scheme.open f) #null)))
+;;;(define (file-exists? f) (.exists (java.io.File. f)))
+
+;;@ (DELETE-FILE <string>)
+(define (delete-file f) (.delete (java.io.File. f)))
+
+;;@ FORCE-OUTPUT flushes any pending output on optional arg output port
+;;; use this definition if your system doesn't have such a procedure.
+(define (force-output . arg)
+ (.flush (if (pair? arg) (car args)
+ (current-output-port))))
+
+;;; CALL-WITH-INPUT-STRING and CALL-WITH-OUTPUT-STRING are the string
+;;; port versions of CALL-WITH-*PUT-FILE.
+
+;;@ "rationalize" adjunct procedures.
+;;(define (find-ratio x e)
+;; (let ((rat (rationalize x e)))
+;; (list (numerator rat) (denominator rat))))
+;;(define (find-ratio-between x y)
+;; (find-ratio (/ (+ x y) 2) (/ (- x y) 2)))
+
+;;@ CHAR-CODE-LIMIT is one greater than the largest integer which can
+;;; be returned by CHAR->INTEGER.
+(define char-code-limit (char->integer Character.MAX_VALUE$))
+
+;;@ MOST-POSITIVE-FIXNUM is used in modular.scm
+(define most-positive-fixnum Integer.MAX_VALUE$)
+
+;;@ Return argument
+(define (identity x) x)
+
+;;@ SLIB:EVAL is single argument eval using the top-level (user) environment.
+(define slib:eval eval)
+
+;; If your implementation provides R4RS macros:
+;(define macro:eval slib:eval)
+;(define macro:load load)
+
+(define (constant? exp)
+ (if (pair? exp) (eq? (car exp) 'quote) (not (symbol? exp))))
+
+(define (combine-skeletons left right exp)
+ (cond
+ ((and (constant? left) (constant? right))
+ (if (and (eqv? (eval left) (car exp))
+ (eqv? (eval right) (cdr exp)))
+ (list 'quote exp)
+ (list 'quote (cons (eval left) (eval right)))))
+ ((null? right) (list 'list left))
+ ((and (pair? right) (eq? (car right) 'list))
+ (cons 'list (cons left (cdr right))))
+ (else (list 'cons left right))))
+
+(define (expand-quasiquote exp nesting)
+ (cond
+ ((vector? exp)
+ (list 'apply 'vector (expand-quasiquote (vector->list exp) nesting)))
+ ((not (pair? exp))
+ (if (constant? exp) exp (list 'quote exp)))
+ ((and (eq? (car exp) 'unquote) (= (length exp) 2))
+ (if (= nesting 0)
+ (second exp)
+ (combine-skeletons ''unquote
+ (expand-quasiquote (cdr exp) (- nesting 1))
+ exp)))
+ ((and (eq? (car exp) 'quasiquote) (= (length exp) 2))
+ (combine-skeletons ''quasiquote
+ (expand-quasiquote (cdr exp) (+ nesting 1))
+ exp))
+ ((and (pair? (car exp))
+ (eq? (caar exp) 'unquote-splicing)
+ (= (length (car exp)) 2))
+ (if (= nesting 0)
+ (list 'append (second (first exp))
+ (expand-quasiquote (cdr exp) nesting))
+ (combine-skeletons (expand-quasiquote (car exp) (- nesting 1))
+ (expand-quasiquote (cdr exp) nesting)
+ exp)))
+ (else (combine-skeletons (expand-quasiquote (car exp) nesting)
+ (expand-quasiquote (cdr exp) nesting)
+ exp))))
+
+(define quasiquote
+ (set-procedure-name!
+ (macro (x)
+ (expand-quasiquote x 0))
+ 'quasiquote))
+
+(define-macro (defmacro name args . body)
+ `(define-macro ,(cons name args) ,@body))
+;@
+(define (defmacro? m)
+ (and (.isDefined m) (eq? (.getClass (eval m)) Macro.class)))
+;@
+
+(tryCatch ; once-only
+ macroexpand-1
+ (lambda (e) (set! macroexpand-1 macroexpand)))
+
+;@
+(define (macroexpand e)
+ (if (pair? e)
+ (let ((a (car e)))
+ (cond ((and (symbol? a) (defmacro? a))
+ (macroexpand (macroexpand-1 e)))
+ (else e)))
+ e))
+;@
+(define gentemp
+ (let ((*gensym-counter* -1))
+ (lambda ()
+ (set! *gensym-counter* (+ *gensym-counter* 1))
+ (string->symbol
+ (string-append "slib:G" (number->string *gensym-counter*))))))
+
+(define base:eval slib:eval)
+;@
+;;; (define (defmacro:eval x) (base:eval (defmacro:expand* x)))
+(define defmacro:eval base:eval)
+
+(define (defmacro:expand* x)
+ (require 'defmacroexpand) (apply defmacro:expand* x '()))
+;@
+(define (defmacro:load <pathname>)
+ (slib:eval-load <pathname> defmacro:eval))
+;; slib:eval-load definition moved to "require.scm"
+
+;@
+(define slib:warn
+ (lambda args
+ (let ((cep (current-error-port)))
+ (if (provided? 'trace) (print-call-stack cep))
+ (display "Warn: " cep)
+ (for-each (lambda (x) (display #\ cep) (write x cep)) args))))
+
+;;@ define an error procedure for the library
+(define (slib:error . args)
+ (if (provided? 'trace) (print-call-stack (current-error-port)))
+ (apply error args))
+;@
+(define (make-exchanger obj)
+ (lambda (rep) (let ((old obj)) (set! obj rep) old)))
+(define (open-file filename modes)
+ (case modes
+ ((r rb) (open-input-file filename))
+ ((w wb) (open-output-file filename))
+ (else (slib:error 'open-file 'mode? modes))))
+(define (port? obj) (or (input-port? port) (output-port? port)))
+(define (call-with-open-ports . ports)
+ (define proc (car ports))
+ (cond ((procedure? proc) (set! ports (cdr ports)))
+ (else (set! ports (reverse ports))
+ (set! proc (car ports))
+ (set! ports (reverse (cdr ports)))))
+ (let ((ans (apply proc ports)))
+ (for-each close-port ports)
+ ans))
+(define (close-port port)
+ (cond ((input-port? port)
+ (close-input-port port)
+ (if (output-port? port) (close-output-port port)))
+ ((output-port? port) (close-output-port port))
+ (else (slib:error 'close-port 'port? port))))
+;@
+(define (browse-url url)
+ (define (try cmd end) (zero? (system (string-append cmd url end))))
+ (or (try "netscape-remote -remote 'openURL(" ")'")
+ (try "netscape -remote 'openURL(" ")'")
+ (try "netscape '" "'&")
+ (try "netscape '" "'")))
+
+;;@ define these as appropriate for your system.
+(define slib:tab (integer->char 9))
+(define slib:form-feed (integer->char 12))
+
+;;@ Support for older versions of Scheme. Not enough code for its own file.
+(define (last-pair l) (if (pair? (cdr l)) (last-pair (cdr l)) l))
+(define t #t)
+(define nil #f)
+
+;;@ Define these if your implementation's syntax can support it and if
+;;; they are not already defined.
+(define (1+ n) (+ n 1))
+(define (-1+ n) (+ n -1))
+(define 1- -1+)
+
+;;@ Define SLIB:EXIT to be the implementation procedure to exit or
+;;; return if exiting not supported.
+(define (slib:exit) (System.exit 0))
+
+;;@ Here for backward compatability
+(define (scheme-file-suffix) ".scm")
+
+
+;;@ (SLIB:LOAD-SOURCE "foo") should load "foo.scm" or with whatever
+;;; suffix all the module files in SLIB have. See feature 'SOURCE.
+(define (slib:load-source f) (load (string-append f ".scm")))
+
+;;@ (SLIB:LOAD-COMPILED "foo") should load the file that was produced
+;;; by compiling "foo.scm" if this implementation can compile files.
+;;; See feature 'COMPILED.
+(define slib:load-compiled load)
+
+;;@ At this point SLIB:LOAD must be able to load SLIB files.
+(define slib:load slib:load-source)
+
+(slib:load (in-vicinity (library-vicinity) "require"))
+
+(define (current-time) (/ (System.currentTimeMillis) 1000))
+
+(if (not (.isDefined 'old-require))
+ (begin
+ (set! old-require require)
+ (set! require
+ (lambda (feature)
+ (let ((jsyntax U.useJavaSyntax$))
+ (set! U.useJavaSyntax$ #f)
+ (Procedure.tryFinally
+ (lambda () (old-require feature))
+ (lambda () (set! U.useJavaSyntax$ jsyntax))))))))
diff --git a/lineio.scm b/lineio.scm
index cfffd33..9b5d641 100644
--- a/lineio.scm
+++ b/lineio.scm
@@ -1,5 +1,5 @@
; "lineio.scm", line oriented input/output functions for Scheme.
-; Copyright (c) 1992, 1993 Aubrey Jaffer
+; Copyright (C) 1992, 1993 Aubrey Jaffer
;
;Permission to copy this software, to modify it, to redistribute it,
;to distribute modified versions, and to use it for any purpose is
diff --git a/lineio.txi b/lineio.txi
index 22a1774..52d17b8 100644
--- a/lineio.txi
+++ b/lineio.txi
@@ -11,6 +11,7 @@ omitted, in which case it defaults to the value returned by
@code{current-input-port}.
@end defun
+
@deffn {Procedure} read-line! string
@@ -25,6 +26,7 @@ omitted, in which case it defaults to the value returned by
@code{current-input-port}.
@end deffn
+
@defun write-line string
@@ -35,6 +37,7 @@ which case it defaults to the value returned by
@code{current-input-port}.
@end defun
+
@defun system->line command tmp
@@ -44,3 +47,4 @@ a temporary file. @code{system->line} calls @code{system} with @var{command} as
redirecting stdout to file @var{tmp}. @code{system->line} returns a string containing the
first line of output from @var{tmp}.
@end defun
+
diff --git a/logical.scm b/logical.scm
index 90808e6..5ea47f5 100644
--- a/logical.scm
+++ b/logical.scm
@@ -1,5 +1,5 @@
;;;; "logical.scm", bit access and operations for integers for Scheme
-;;; Copyright (C) 1991, 1993, 2001, 2003 Aubrey Jaffer
+;;; Copyright (C) 1991, 1993, 2001, 2003, 2005 Aubrey Jaffer
;
;Permission to copy this software, to modify it, to redistribute it,
;to distribute modified versions, and to use it for any purpose is
@@ -17,20 +17,6 @@
;promotional, or sales literature without prior written consent in
;each case.
-;@
-(define integer-expt
- (if (provided? 'inexact)
- expt
- (lambda (n k)
- (do ((x n (* x x))
- (j k (quotient j 2))
- (acc 1 (if (even? j) acc (* x acc))))
- ((<= j 1)
- (case j
- ((0) acc)
- ((1) (* x acc))
- (else (slib:error 'integer-expt n k))))))))
-
(define logical:boole-xor
'#(#(0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15)
#(1 0 3 2 5 4 7 6 9 8 11 10 13 12 15 14)
@@ -71,6 +57,13 @@
(if (negative? x)
(+ -1 (quotient (+ 1 x) 16))
(quotient x 16)))
+
+(define (logical:reduce op4 ident)
+ (lambda args
+ (do ((res ident (op4 res (car rgs) 1 0))
+ (rgs args (cdr rgs)))
+ ((null? rgs) res))))
+
;@
(define logand
(letrec
@@ -87,7 +80,7 @@
(modulo n2 16))
scl)
acc)))))))
- (lambda (n1 n2) (lgand n2 n1 1 0))))
+ (logical:reduce lgand -1)))
;@
(define logior
(letrec
@@ -105,7 +98,7 @@
(- 15 (modulo n2 16))))
scl)
acc)))))))
- (lambda (n1 n2) (lgior n2 n1 1 0))))
+ (logical:reduce lgior 0)))
;@
(define logxor
(letrec
@@ -122,46 +115,52 @@
(modulo n2 16))
scl)
acc)))))))
- (lambda (n1 n2) (lgxor n2 n1 1 0))))
+ (logical:reduce lgxor 0)))
;@
(define (lognot n) (- -1 n))
;@
(define (logtest n1 n2)
- (not (zero? (logical:logand n1 n2))))
+ (not (zero? (logand n1 n2))))
;@
(define (logbit? index n)
- (logical:logtest (logical:integer-expt 2 index) n))
+ (logtest (expt 2 index) n))
;@
(define (copy-bit index to bool)
(if bool
- (logical:logior to (logical:ash 1 index))
- (logical:logand to (logical:lognot (logical:ash 1 index)))))
-
-;;@ This procedure is careful not to use more than DEG bits in
-;; computing (- (expt 2 DEG) 1)
-(define (logical:ones deg)
- (if (zero? deg) 0 (+ (* 2 (+ -1 (logical:integer-expt 2 (- deg 1)))) 1)))
-;@
-(define (bit-field n start end)
- (logical:logand (logical:ones (- end start))
- (logical:ash n (- start))))
+ (logior to (arithmetic-shift 1 index))
+ (logand to (lognot (arithmetic-shift 1 index)))))
;@
(define (bitwise-if mask n0 n1)
- (logical:logior (logical:logand mask n0)
- (logical:logand (logical:lognot mask) n1)))
-;@
-(define (copy-bit-field to start end from)
- (logical:bitwise-if (logical:ash (logical:ones (- end start)) start)
- (logical:ash from start)
- to))
+ (logior (logand mask n0)
+ (logand (lognot mask) n1)))
;@
-(define (ash n count)
+(define (bit-field n start end)
+ (logand (lognot (ash -1 (- end start)))
+ (arithmetic-shift n (- start))))
+;@
+(define (copy-bit-field to from start end)
+ (bitwise-if (arithmetic-shift (lognot (ash -1 (- end start))) start)
+ (arithmetic-shift from start)
+ to))
+;@
+(define (rotate-bit-field n count start end)
+ (define width (- end start))
+ (set! count (modulo count width))
+ (let ((mask (lognot (ash -1 width))))
+ (define zn (logand mask (arithmetic-shift n (- start))))
+ (logior (arithmetic-shift
+ (logior (logand mask (arithmetic-shift zn count))
+ (arithmetic-shift zn (- count width)))
+ start)
+ (logand (lognot (ash mask start)) n))))
+;@
+(define (arithmetic-shift n count)
(if (negative? count)
- (let ((k (logical:integer-expt 2 (- count))))
+ (let ((k (expt 2 (- count))))
(if (negative? n)
(+ -1 (quotient (+ 1 n) k))
(quotient n k)))
- (* (logical:integer-expt 2 count) n)))
+ (* (expt 2 count) n)))
;@
(define integer-length
(letrec ((intlen (lambda (n tot)
@@ -183,30 +182,33 @@
(modulo n 16))
tot))))))
(lambda (n)
- (cond ((negative? n) (logcnt (logical:lognot n) 0))
+ (cond ((negative? n) (logcnt (lognot n) 0))
((positive? n) (logcnt n 0))
(else 0)))))
-
-;;;; Bit order and lamination
-;@
-(define (logical:rotate k count len)
- (set! count (modulo count len))
- (logical:logior (logical:logand (ash k count) (logical:ones len))
- (logical:ash k (- count len))))
;@
+(define (log2-binary-factors n)
+ (+ -1 (integer-length (logand n (- n)))))
+
(define (bit-reverse k n)
- (do ((m (if (negative? n) (lognot n) n) (ash m -1))
+ (do ((m (if (negative? n) (lognot n) n) (arithmetic-shift m -1))
(k (+ -1 k) (+ -1 k))
- (rvs 0 (logior (ash rvs 1) (logand 1 m))))
+ (rvs 0 (logior (arithmetic-shift rvs 1) (logand 1 m))))
((negative? k) (if (negative? n) (lognot rvs) rvs))))
;@
+(define (reverse-bit-field n start end)
+ (define width (- end start))
+ (let ((mask (lognot (ash -1 width))))
+ (define zn (logand mask (arithmetic-shift n (- start))))
+ (logior (arithmetic-shift (bit-reverse width zn) start)
+ (logand (lognot (ash mask start)) n))))
+;@
(define (integer->list k . len)
(if (null? len)
- (do ((k k (ash k -1))
+ (do ((k k (arithmetic-shift k -1))
(lst '() (cons (odd? k) lst)))
((<= k 0) lst))
(do ((idx (+ -1 (car len)) (+ -1 idx))
- (k k (ash k -1))
+ (k k (arithmetic-shift k -1))
(lst '() (cons (odd? k) lst)))
((negative? idx) lst))))
;@
@@ -216,66 +218,21 @@
((null? bs) acc)))
(define (booleans->integer . bools)
(list->integer bools))
-;@
-(define (bitwise:laminate . ks)
- (define nks (length ks))
- (define nbs (apply max (map integer-length ks)))
- (do ((kdx (+ -1 nbs) (+ -1 kdx))
- (ibs 0 (+ (list->integer (map (lambda (k) (logbit? kdx k)) ks))
- (ash ibs nks))))
- ((negative? kdx) ibs)))
-;@
-(define (bitwise:delaminate count k)
- (define nbs (* count (+ 1 (quotient (integer-length k) count))))
- (do ((kdx (- nbs count) (- kdx count))
- (lst (vector->list (make-vector count 0))
- (map (lambda (k bool) (+ (if bool 1 0) (ash k 1)))
- lst
- (integer->list (ash k (- kdx)) count))))
- ((negative? kdx) lst)))
-;;;; Gray-code
-;@
-(define (integer->gray-code k)
- (logxor k (ash k -1)))
-;@
-(define (gray-code->integer k)
- (if (negative? k)
- (slib:error 'gray-code->integer 'negative? k)
- (let ((kln (integer-length k)))
- (do ((d 1 (* d 2))
- (ans (logxor k (ash k -1)) ; == (integer->gray-code k)
- (logxor ans (ash ans (* d -2)))))
- ((>= (* 2 d) kln) ans)))))
-
-(define (grayter k1 k2)
- (define kl1 (integer-length k1))
- (define kl2 (integer-length k2))
- (if (eqv? kl1 kl2)
- (> (gray-code->integer k1) (gray-code->integer k2))
- (> kl1 kl2)))
-;@
-(define (gray-code<? k1 k2)
- (not (or (eqv? k1 k2) (grayter k1 k2))))
-(define (gray-code<=? k1 k2)
- (or (eqv? k1 k2) (not (grayter k1 k2))))
-(define (gray-code>? k1 k2)
- (and (not (eqv? k1 k2)) (grayter k1 k2)))
-(define (gray-code>=? k1 k2)
- (or (eqv? k1 k2) (grayter k1 k2)))
+;;;;@ SRFI-60 aliases
+(define ash arithmetic-shift)
+(define bitwise-ior logior)
+(define bitwise-xor logxor)
+(define bitwise-and logand)
+(define bitwise-not lognot)
+(define bit-count logcount)
+(define bit-set? logbit?)
+(define any-bits-set? logtest)
+(define first-set-bit log2-binary-factors)
+(define bitwise-merge bitwise-if)
+(provide 'srfi-60)
-(define logical:logand logand)
-(define logical:logior logior)
-;;(define logical:logxor logxor)
-(define logical:lognot lognot)
-(define logical:logtest logtest)
-;;(define logical:logbit? logbit?)
-;;(define logical:copy-bit copy-bit)
-(define logical:ash ash)
-;;(define logical:logcount logcount)
-;;(define logical:integer-length integer-length)
-;;(define logical:bit-field bit-field)
-;;(define bit-extract bit-field)
-(define logical:bitwise-if bitwise-if)
-;;(define logical:copy-bit-field copy-bit-field)
-(define logical:integer-expt integer-expt)
+;;; Legacy
+;;(define (logical:rotate k count len) (rotate-bit-field k count 0 len))
+;;(define (logical:ones deg) (lognot (ash -1 deg)))
+;;(define integer-expt expt) ; legacy name
diff --git a/macscheme.init b/macscheme.init
index 152d456..60ee387 100644
--- a/macscheme.init
+++ b/macscheme.init
@@ -35,31 +35,106 @@
;;; directory, the directory which typically contains files which
;;; customize a computer environment for a user.
(define (home-vicinity) #f)
-
-;;; *FEATURES* should be set to a list of symbols describing features
-;;; of this implementation. Suggestions for features are:
+;@
+(define in-vicinity string-append)
+;@
+(define (user-vicinity)
+ (case (software-type)
+ ((VMS) "[.]")
+ (else "")))
+
+(define *load-pathname* #f)
+;@
+(define vicinity:suffix?
+ (let ((suffi
+ (case (software-type)
+ ((AMIGA) '(#\: #\/))
+ ((MACOS THINKC) '(#\:))
+ ((MS-DOS WINDOWS ATARIST OS/2) '(#\\ #\/))
+ ((NOSVE) '(#\: #\.))
+ ((UNIX COHERENT PLAN9) '(#\/))
+ ((VMS) '(#\: #\]))
+ (else
+ (slib:warn "require.scm" 'unknown 'software-type (software-type))
+ "/"))))
+ (lambda (chr) (and (memv chr suffi) #t))))
+;@
+(define (pathname->vicinity pathname)
+ (let loop ((i (- (string-length pathname) 1)))
+ (cond ((negative? i) "")
+ ((vicinity:suffix? (string-ref pathname i))
+ (substring pathname 0 (+ i 1)))
+ (else (loop (- i 1))))))
+(define (program-vicinity)
+ (if *load-pathname*
+ (pathname->vicinity *load-pathname*)
+ (slib:error 'program-vicinity " called; use slib:load to load")))
+;@
+(define sub-vicinity
+ (case (software-type)
+ ((VMS) (lambda
+ (vic name)
+ (let ((l (string-length vic)))
+ (if (or (zero? (string-length vic))
+ (not (char=? #\] (string-ref vic (- l 1)))))
+ (string-append vic "[" name "]")
+ (string-append (substring vic 0 (- l 1))
+ "." name "]")))))
+ (else (let ((*vicinity-suffix*
+ (case (software-type)
+ ((NOSVE) ".")
+ ((MACOS THINKC) ":")
+ ((MS-DOS WINDOWS ATARIST OS/2) "\\")
+ ((UNIX COHERENT PLAN9 AMIGA) "/"))))
+ (lambda (vic name)
+ (string-append vic name *vicinity-suffix*))))))
+;@
+(define (make-vicinity <pathname>) <pathname>)
+;@
+(define with-load-pathname
+ (let ((exchange
+ (lambda (new)
+ (let ((old *load-pathname*))
+ (set! *load-pathname* new)
+ old))))
+ (lambda (path thunk)
+ (let* ((old (exchange path))
+ (val (thunk)))
+ (exchange old)
+ val))))
+
+;;@ *FEATURES* is a list of symbols naming the (SLIB) features
+;;; initially supported by this implementation.
(define *features*
'(
source ;can load scheme source files
- ;(slib:load-source "filename")
+ ;(SLIB:LOAD-SOURCE "filename")
compiled ;can load compiled files
- ;(slib:load-compiled "filename")
+ ;(SLIB:LOAD-COMPILED "filename")
+ vicinity
+ srfi-59
;; Scheme report features
+ ;; R5RS-compliant implementations should provide all 9 features.
-; r5rs ;conforms to
-; eval ;R5RS two-argument eval
-; values ;R5RS multiple values
-; dynamic-wind ;R5RS dynamic-wind
-; macro ;R5RS high level macros
+;;; r5rs ;conforms to
+;;; eval ;R5RS two-argument eval
+;;; values ;R5RS multiple values
+;;; dynamic-wind ;R5RS dynamic-wind
+;;; macro ;R5RS high level macros
delay ;has DELAY and FORCE
multiarg-apply ;APPLY can take more than 2 args.
-; char-ready?
+;;; char-ready?
+ rev4-optional-procedures ;LIST-TAIL, STRING-COPY,
+ ;STRING-FILL!, and VECTOR-FILL!
+
+ ;; These four features are optional in both R4RS and R5RS
+
+ multiarg/and- ;/ and - can take more than 2 args.
rationalize
- rev4-optional-procedures ;LIST-TAIL, STRING->LIST,
- ;LIST->STRING, STRING-COPY,
- ;STRING-FILL!, LIST->VECTOR,
- ;VECTOR->LIST, and VECTOR-FILL!
+;;; transcript ;TRANSCRIPT-ON and TRANSCRIPT-OFF
+ with-file ;has WITH-INPUT-FROM-FILE and
+ ;WITH-OUTPUT-TO-FILE
r4rs ;conforms to
@@ -67,43 +142,39 @@
r3rs ;conforms to
-; rev2-procedures ;SUBSTRING-MOVE-LEFT!,
+;;; rev2-procedures ;SUBSTRING-MOVE-LEFT!,
;SUBSTRING-MOVE-RIGHT!,
;SUBSTRING-FILL!,
;STRING-NULL?, APPEND!, 1+,
;-1+, <?, <=?, =?, >?, >=?
-; object-hash ;has OBJECT-HASH
+;;; object-hash ;has OBJECT-HASH
- multiarg/and- ;/ and - can take more than 2 args.
- with-file ;has WITH-INPUT-FROM-FILE and
- ;WITH-OUTPUT-TO-FILE
-; transcript ;TRANSCRIPT-ON and TRANSCRIPT-OFF
+ full-continuation ;can return multiple times
ieee-floating-point ;conforms to IEEE Standard 754-1985
;IEEE Standard for Binary
;Floating-Point Arithmetic.
- full-continuation ;can return multiple times
;; Other common features
-; srfi ;srfi-0, COND-EXPAND finds all srfi-*
-; sicp ;runs code from Structure and
+;;; srfi ;srfi-0, COND-EXPAND finds all srfi-*
+;;; sicp ;runs code from Structure and
;Interpretation of Computer
;Programs by Abelson and Sussman.
-; defmacro ;has Common Lisp DEFMACRO
-; record ;has user defined data structures
+;;; defmacro ;has Common Lisp DEFMACRO
+;;; record ;has user defined data structures
string-port ;has CALL-WITH-INPUT-STRING and
;CALL-WITH-OUTPUT-STRING
-; sort
+;;; sort
pretty-print
-; object->string
-; format ;Common-lisp output formatting
-; trace ;has macros: TRACE and UNTRACE
+;;; object->string
+;;; format ;Common-lisp output formatting
+;;; trace ;has macros: TRACE and UNTRACE
compiler ;has (COMPILER)
-; ed ;(ED) is editor
-; system ;posix (system <string>)
-; getenv ;posix (getenv <string>)
-; program-arguments ;returns list of strings (argv)
-; current-time ;returns time in seconds since 1/1/1970
+;;; ed ;(ED) is editor
+;;; system ;posix (system <string>)
+;;; getenv ;posix (getenv <string>)
+;;; program-arguments ;returns list of strings (argv)
+;;; current-time ;returns time in seconds since 1/1/1970
;; Implementation Specific features
@@ -237,18 +308,7 @@
(define (defmacro:load <pathname>)
(slib:eval-load <pathname> defmacro:eval))
-
-(define (slib:eval-load <pathname> evl)
- (if (not (file-exists? <pathname>))
- (set! <pathname> (string-append <pathname> (scheme-file-suffix))))
- (call-with-input-file <pathname>
- (lambda (port)
- (let ((old-load-pathname *load-pathname*))
- (set! *load-pathname* <pathname>)
- (do ((o (read port) (read port)))
- ((eof-object? o))
- (evl o))
- (set! *load-pathname* old-load-pathname)))))
+;; slib:eval-load definition moved to "require.scm"
(define slib:warn
(lambda args
@@ -274,10 +334,8 @@
;(define (-1+ n) (+ n -1))
;(define 1- -1+)
-(define in-vicinity string-append)
-
;;; Define SLIB:EXIT to be the implementation procedure to exit or
-;;; return if exitting not supported.
+;;; return if exiting not supported.
; MacScheme does not return a value when it exits,
; so simply invoke system procedure exit with 0 args.
(define slib:exit (lambda args (exit)))
diff --git a/manifest.scm b/manifest.scm
index 77d6f1b..be55ea7 100644
--- a/manifest.scm
+++ b/manifest.scm
@@ -39,15 +39,15 @@
(lambda (port)
(define requires '())
(define (add-require feature)
- (if (and (not (provided? (cadr feature)))
- (not (assq (cadr feature) catalog)))
- (slib:warn file 'unknown 'feature feature))
+;;; (if (and (not (provided? (cadr feature)))
+;;; (not (assq (cadr feature) catalog)))
+;;; (slib:warn file 'unknown 'feature feature))
(if (not (memq (cadr feature) requires))
(set! requires (cons (cadr feature) requires))))
+ (if (eqv? #\# (peek-char port)) (read-line port))
(let loop ((sexp (read port)))
- (cond ((or (eof-object? sexp) (not (pair? sexp)) (not (list? sexp)))
- (reverse requires))
- (else
+ (cond ((eof-object? sexp) (reverse requires))
+ ((pair? sexp)
(case (car sexp)
((require)
(cond ((not (= 2 (length sexp)))
@@ -72,7 +72,8 @@
(else #f))))))
(add-require (caddr sexp))))
(loop (read port)))
- (else (reverse requires)))))))))
+ (else (reverse requires))))
+ (else (loop (read port))))))))
;;@example
;;(define (provided+? . features)
;; (lambda (feature)
@@ -95,10 +96,9 @@
(file->requires (string-append path (scheme-file-suffix))
provided? catalog))
(cond ((not path) #f)
- ((string? path)
- (return path))
- ((not (pair? path))
- (slib:error feature 'path? path))
+ ((string? path) (return path))
+ ((symbol? path) (f2r path))
+ ((not (pair? path)) (slib:error feature 'path? path))
(else (case (car path)
((source defmacro macro-by-example macro macros-that-work
syntax-case syntactic-closures)
@@ -124,6 +124,33 @@
;; pretty-print common-list-functions)
;;@end example
+(define (features->requires* features provided? catalog)
+ (and
+ features
+ (let loop ((new features)
+ (done '()))
+ (cond
+ ((null? new) done)
+ ((memq (car new) done) (loop (cdr new) done))
+ (else
+ (loop (append (or (feature->requires (car new) provided? catalog) '())
+ (cdr new))
+ (cons (car new) done)))))))
+
+;;@body
+;;Returns a list of the features transitively @code{require}d by @1
+;;assuming the predicate @2 and association-list @3.
+(define (feature->requires* feature provided? catalog)
+ (features->requires* (or (feature->requires feature provided? catalog) '())
+ provided? catalog))
+
+;;@body
+;;Returns a list of the features transitively @code{require}d by @1
+;;assuming the predicate @2 and association-list @3.
+(define (file->requires* file provided? catalog)
+ (features->requires* (file->requires file provided? catalog)
+ provided? catalog))
+
;;@body
;;Returns a list of strings naming existing files loaded (load
;;slib:load slib:load-source macro:load defmacro:load syncase:load
@@ -147,11 +174,11 @@
(sxp (read port))))
((eq? 'begin (car o)) (for-each sxp (cdr o)))
(else (sxp (read port)))))
- (let ((old-load-pathname *load-pathname*))
- (set! *load-pathname* file)
- (sxp (read port))
- (set! *load-pathname* old-load-pathname)
- loads))))
+ (with-load-pathname file
+ (lambda ()
+ (if (eqv? #\# (peek-char port)) (read-line port))
+ (sxp (read port))
+ loads)))))
(f2l file))
;;@example
;;(file->loads (in-vicinity (library-vicinity) "scainit.scm"))
@@ -192,8 +219,13 @@
;;@body
;;Returns a list of the identifier symbols defined by SLIB (or
-;;SLIB-style) file @1.
-(define (file->definitions file)
+;;SLIB-style) file @1. The optional arguments @2 should be symbols
+;;signifying a defining form. If none are supplied, then the symbols
+;;@code{define-operation}, @code{define}, @code{define-syntax}, and
+;;@code{defmacro} are captured.
+(define (file->definitions file . definers)
+ (if (null? definers)
+ (set! definers '(define-operation define define-syntax defmacro)))
(call-with-input-file file
(lambda (port)
(define defs '())
@@ -203,19 +235,18 @@
((< (length o) 2))
((eq? 'begin (car o)) (for-each sxp (cdr o)))
((< (length o) 3))
- ((not (memq (car o)
- '(define-operation define define-syntax defmacro))))
+ ((not (memq (car o) definers)))
((symbol? (cadr o)) (set! defs (cons (cadr o) defs)))
((not (pair? (cadr o))))
((not (symbol? (caadr o))))
(else (set! defs (cons (caadr o) defs))))
(cond ((eof-object? o) defs)
(else (sxp (read port)))))
- (let ((old-load-pathname *load-pathname*))
- (set! *load-pathname* file)
- (sxp (read port))
- (set! *load-pathname* old-load-pathname)
- defs))))
+ (with-load-pathname file
+ (lambda ()
+ (if (eqv? #\# (peek-char port)) (read-line port))
+ (sxp (read port))
+ defs)))))
;;@example
;;(file->definitions "random.scm")
;; @result{} (*random-state* make-random-state
@@ -225,8 +256,13 @@
;;@body
;;Returns a list of the identifier symbols exported (advertised) by
-;;SLIB (or SLIB-style) file @1.
-(define (file->exports file)
+;;SLIB (or SLIB-style) file @1. The optional arguments @2 should be
+;;symbols signifying a defining form. If none are supplied, then the
+;;symbols @code{define-operation}, @code{define},
+;;@code{define-syntax}, and @code{defmacro} are captured.
+(define (file->exports file . definers)
+ (if (null? definers)
+ (set! definers '(define-operation define define-syntax defmacro)))
(call-with-input-file file
(lambda (port)
(define exports '())
@@ -267,16 +303,16 @@
((< (length o) 2))
((eq? 'begin (car o)) (for-each sxp (cdr o)))
((< (length o) 3))
- ((not (memq (car o) '(define define-syntax defmacro))))
+ ((not (memq (car o) definers)))
((symbol? (cadr o)) (set! exports (cons (cadr o) exports)))
((not (pair? (cadr o))))
((not (symbol? (caadr o))))
(else (set! exports (cons (caadr o) exports)))))
- (let ((old-load-pathname *load-pathname*))
- (set! *load-pathname* file)
- (top)
- (set! *load-pathname* old-load-pathname)
- exports))))
+ (with-load-pathname file
+ (lambda ()
+ (if (eqv? #\# (peek-char port)) (read-line port))
+ (top)
+ exports)))))
;;@example
;;(file->exports "random.scm")
;; @result{} (make-random-state seed->random-state
diff --git a/manifest.txi b/manifest.txi
index e9fe3ee..daa776d 100644
--- a/manifest.txi
+++ b/manifest.txi
@@ -16,6 +16,7 @@ entries. It would be defined by:
Returns a list of the features @code{require}d by @var{file} assuming the
predicate @var{provided?} and association-list @var{catalog}.
@end defun
+
@example
(define (provided+? . features)
(lambda (feature)
@@ -34,6 +35,7 @@ predicate @var{provided?} and association-list @var{catalog}.
Returns a list of the features @code{require}d by @var{feature} assuming the
predicate @var{provided?} and association-list @var{catalog}.
@end defun
+
@example
(feature->requires 'batch (provided+? 'compiling) *catalog*)
@result{} (tree line-i/o databases parameters string-port
@@ -49,12 +51,27 @@ predicate @var{provided?} and association-list @var{catalog}.
@end example
+@defun feature->requires* feature provided? catalog
+
+Returns a list of the features transitively @code{require}d by @var{feature}
+assuming the predicate @var{provided?} and association-list @var{catalog}.
+@end defun
+
+
+@defun file->requires* file provided? catalog
+
+Returns a list of the features transitively @code{require}d by @var{file}
+assuming the predicate @var{provided?} and association-list @var{catalog}.
+@end defun
+
+
@defun file->loads file
Returns a list of strings naming existing files loaded (load
slib:load slib:load-source macro:load defmacro:load syncase:load
synclo:load macwork:load) by @var{file} or any of the files it loads.
@end defun
+
@example
(file->loads (in-vicinity (library-vicinity) "scainit.scm"))
@result{} ("/usr/local/lib/slib/scaexpp.scm"
@@ -69,17 +86,22 @@ Given a @code{(load '<expr>)}, where <expr> is a string or vicinity
stuff), @code{(load->path <expr>)} figures a path to the file.
@code{load->path} returns that path if it names an existing file; otherwise #f.
@end defun
+
@example
(load->path '(in-vicinity (library-vicinity) "mklibcat"))
@result{} "/usr/local/lib/slib/mklibcat.scm"
@end example
-@defun file->definitions file
+@defun file->definitions file definer @dots{}
Returns a list of the identifier symbols defined by SLIB (or
-SLIB-style) file @var{file}.
+SLIB-style) file @var{file}. The optional arguments @var{definers} should be symbols
+signifying a defining form. If none are supplied, then the symbols
+@code{define-operation}, @code{define}, @code{define-syntax}, and
+@code{defmacro} are captured.
@end defun
+
@example
(file->definitions "random.scm")
@result{} (*random-state* make-random-state
@@ -88,11 +110,15 @@ SLIB-style) file @var{file}.
@end example
-@defun file->exports file
+@defun file->exports file definer @dots{}
Returns a list of the identifier symbols exported (advertised) by
-SLIB (or SLIB-style) file @var{file}.
+SLIB (or SLIB-style) file @var{file}. The optional arguments @var{definers} should be
+symbols signifying a defining form. If none are supplied, then the
+symbols @code{define-operation}, @code{define},
+@code{define-syntax}, and @code{defmacro} are captured.
@end defun
+
@example
(file->exports "random.scm")
@result{} (make-random-state seed->random-state
@@ -112,10 +138,12 @@ implementing @var{feature}, and the identifier symbols exported (advertised) by
SLIB (or SLIB-style) feature @var{feature}, in @var{catalog}.
@end defun
+
@defun feature->exports feature catalog
Returns a list of all exports of @var{feature}.
@end defun
+
@noindent
In the case of @code{aggregate} features, more than one file may
have export lists to report:
diff --git a/matfile.scm b/matfile.scm
index 2e3ff15..a7a96a6 100644
--- a/matfile.scm
+++ b/matfile.scm
@@ -1,5 +1,5 @@
; "matfile.scm", Read MAT-File Format version 4 (MATLAB)
-; Copyright (c) 2001, 2002, 2003 Aubrey Jaffer
+; Copyright (C) 2001, 2002, 2003 Aubrey Jaffer
;
;Permission to copy this software, to modify it, to redistribute it,
;to distribute modified versions, and to use it for any purpose is
@@ -22,6 +22,15 @@
(require 'byte-number)
(require-if 'compiling 'string-case) ; string-ci->symbol used by matfile:load
+(define (unwritten-stubber name)
+ (lambda (arg) (slib:error 'name 'not 'written "matfile.scm")))
+(define bytes->vax-d-double (unwritten-stubber 'bytes->vax-d-double))
+(define bytes->vax-g-double (unwritten-stubber 'bytes->vax-g-double))
+(define bytes->cray-double (unwritten-stubber 'bytes->cray-double))
+(define bytes->vax-d-float (unwritten-stubber 'bytes->vax-d-float))
+(define bytes->vax-g-float (unwritten-stubber 'bytes->vax-g-float))
+(define bytes->cray-float (unwritten-stubber 'bytes->cray-float))
+
;;@code{(require 'matfile)}
;;@ftindex matfile
;;@ftindex matlab
@@ -102,17 +111,17 @@
(set! imagf (case imagf ((0) #f) ((1) #t)))
(let ((namstr (make-string namlen))
(mat (case m-type
- ((numeric) (create-array
+ ((numeric) (make-array
(case d-prot
- ((0) ((if imagf Ac64 Ar64)))
- ((1) ((if imagf Ac32 Ar32)))
- ((2) (As32))
- ((3) (As16))
- ((4) (Au16))
- ((5) (Au8))
+ ((0) ((if imagf A:floC64b A:floR64b)))
+ ((1) ((if imagf A:floC32b A:floR32b)))
+ ((2) (A:fixZ32b))
+ ((3) (A:fixZ16b))
+ ((4) (A:fixN16b))
+ ((5) (A:fixN8b))
(else (slib:error 'p 'type d-prot)))
mrows ncols))
- ((text) (create-array "." mrows ncols))
+ ((text) (make-array "." mrows ncols))
((sparse) (slib:error 'sparse '?)))))
(do ((idx 0 (+ 1 idx)))
((>= idx namlen))
diff --git a/matfile.txi b/matfile.txi
index 394ddbd..a4f2e53 100644
--- a/matfile.txi
+++ b/matfile.txi
@@ -23,9 +23,11 @@ file and returns a list of the results; a list of the name string and
array for each matrix.
@end defun
+
@defun matfile:load filename
@var{filename} should be a string naming an existing file containing a
MATLAB Version 4 MAT-File. The @code{matfile:load} procedure reads matrices from the
file and defines the @code{string-ci->symbol} for each matrix to its
corresponding array. @code{matfile:load} returns a list of the symbols defined.
@end defun
+
diff --git a/minimize.txi b/minimize.txi
index 785be35..3e1a8a6 100644
--- a/minimize.txi
+++ b/minimize.txi
@@ -46,3 +46,4 @@ Analytically, the minimum of x^3-2x-5 is 0.816497.
==> (816.4965933140557e-3 . -6.088662107903635)
@end example
@end defun
+
diff --git a/mitscheme.init b/mitscheme.init
index 934de62..9768155 100644
--- a/mitscheme.init
+++ b/mitscheme.init
@@ -19,7 +19,7 @@
;;; (Uniform Resource Identifier) for this scheme implementation's home
;;; page; or false if there isn't one.
(define (scheme-implementation-home-page)
- "http://www.swiss.ai.mit.edu/projects/scheme/")
+ "http://swiss.csail.mit.edu/projects/scheme/")
;;; (scheme-implementation-version) should return a string describing
;;; the version the scheme implementation loading this file.
@@ -66,42 +66,116 @@
;;; customize a computer environment for a user.
(define (home-vicinity)
(->namestring (user-homedir-pathname)))
-
-;;; *features* should be set to a list of symbols describing features
-;;; of this implementation. See Template.scm for the list of feature
-;;; names.
+;@
+(define (in-vicinity vicinity file-name)
+ (->namestring (merge-pathnames file-name vicinity)))
+;@
+(define (user-vicinity)
+ (case (software-type)
+ ((VMS) "[.]")
+ (else "")))
+
+(define *load-pathname* #f)
+;@
+(define vicinity:suffix?
+ (let ((suffi
+ (case (software-type)
+ ((AMIGA) '(#\: #\/))
+ ((MACOS THINKC) '(#\:))
+ ((MS-DOS WINDOWS ATARIST OS/2) '(#\\ #\/))
+ ((NOSVE) '(#\: #\.))
+ ((UNIX COHERENT PLAN9) '(#\/))
+ ((VMS) '(#\: #\]))
+ (else
+ (slib:warn "require.scm" 'unknown 'software-type (software-type))
+ "/"))))
+ (lambda (chr) (and (memv chr suffi) #t))))
+;@
+(define (pathname->vicinity pathname)
+ (let loop ((i (- (string-length pathname) 1)))
+ (cond ((negative? i) "")
+ ((vicinity:suffix? (string-ref pathname i))
+ (substring pathname 0 (+ i 1)))
+ (else (loop (- i 1))))))
+(define (program-vicinity)
+ (if *load-pathname*
+ (pathname->vicinity *load-pathname*)
+ (slib:error 'program-vicinity " called; use slib:load to load")))
+;@
+(define sub-vicinity
+ (case (software-type)
+ ((VMS) (lambda
+ (vic name)
+ (let ((l (string-length vic)))
+ (if (or (zero? (string-length vic))
+ (not (char=? #\] (string-ref vic (- l 1)))))
+ (string-append vic "[" name "]")
+ (string-append (substring vic 0 (- l 1))
+ "." name "]")))))
+ (else (let ((*vicinity-suffix*
+ (case (software-type)
+ ((NOSVE) ".")
+ ((MACOS THINKC) ":")
+ ((MS-DOS WINDOWS ATARIST OS/2) "\\")
+ ((UNIX COHERENT PLAN9 AMIGA) "/"))))
+ (lambda (vic name)
+ (string-append vic name *vicinity-suffix*))))))
+;@
+(define (make-vicinity <pathname>) <pathname>)
+;@
+(define with-load-pathname
+ (let ((exchange
+ (lambda (new)
+ (let ((old *load-pathname*))
+ (set! *load-pathname* new)
+ old))))
+ (lambda (path thunk)
+ (let ((old #f))
+ (dynamic-wind
+ (lambda () (set! old (exchange path)))
+ thunk
+ (lambda () (exchange old)))))))
+
+;;@ *FEATURES* is a list of symbols naming the (SLIB) features
+;;; initially supported by this implementation.
(define *features*
'(
source ;can load scheme source files
- ;(slib:load-source "filename")
+ ;(SLIB:LOAD-SOURCE "filename")
compiled ;can load compiled files
- ;(slib:load-compiled "filename")
+ ;(SLIB:LOAD-COMPILED "filename")
+ vicinity
+ srfi-59
;; Scheme report features
; **** no, for several reasons
-; r5rs ;conforms to
+;;; r5rs ;conforms to
; **** no -- special arguments not supported
-; eval ;R5RS two-argument eval
+;;; eval ;R5RS two-argument eval
; **** sort of -- not integrated with continuations
values ;R5RS multiple values
dynamic-wind ;R5RS dynamic-wind
- fluid-let
+;;; macro ;R5RS high level macros
delay ;has DELAY and FORCE
multiarg-apply ;APPLY can take more than 2 args.
char-ready?
+ rev4-optional-procedures ;LIST-TAIL, STRING-COPY,
+ ;STRING-FILL!, and VECTOR-FILL!
+
+ ;; These four features are optional in both R4RS and R5RS
+
+ multiarg/and- ;/ and - can take more than 2 args.
rationalize
- rev4-optional-procedures ;LIST-TAIL, STRING->LIST,
- ;LIST->STRING, STRING-COPY,
- ;STRING-FILL!, LIST->VECTOR,
- ;VECTOR->LIST, and VECTOR-FILL!
+ transcript ;TRANSCRIPT-ON and TRANSCRIPT-OFF
+ with-file ;has WITH-INPUT-FROM-FILE and
+ ;WITH-OUTPUT-TO-FILE
r4rs ;conforms to
-
; **** no -- #F and '() are identical
-; ieee-p1178 ;conforms to
+;;; ieee-p1178 ;conforms to
-; r3rs ;conforms to
+;;; r3rs ;conforms to
rev2-procedures ;SUBSTRING-MOVE-LEFT!,
;SUBSTRING-MOVE-RIGHT!,
@@ -110,18 +184,17 @@
;-1+, <?, <=?, =?, >?, >=?
object-hash ;has OBJECT-HASH
- multiarg/and- ;/ and - can take more than 2 args.
- with-file ;has WITH-INPUT-FROM-FILE and
- ;WITH-OUTPUT-TO-FILE
- transcript ;TRANSCRIPT-ON and TRANSCRIPT-OFF
+ full-continuation ;can return multiple times
ieee-floating-point ;conforms to IEEE Standard 754-1985
;IEEE Standard for Binary
;Floating-Point Arithmetic.
- full-continuation ;can return multiple times
;; Other common features
-; srfi ;srfi-0, COND-EXPAND finds all srfi-*
+;;; srfi ;srfi-0, COND-EXPAND finds all srfi-*
+;;; sicp ;runs code from Structure and
+ ;Interpretation of Computer
+ ;Programs by Abelson and Sussman.
defmacro ;has Common Lisp DEFMACRO
record ;has user defined data structures
string-port ;has CALL-WITH-INPUT-STRING and
@@ -130,17 +203,18 @@
pretty-print
object->string
; **** limited subset with (load-option 'format)
-; format ;Common-lisp output formatting
+;;; format ;Common-lisp output formatting
trace ;has macros: TRACE and UNTRACE
compiler ;has (COMPILER)
-; ed ;(ED) is editor
+;;; ed ;(ED) is editor
system ;posix (system <string>)
getenv ;posix (getenv <string>)
-; program-arguments ;returns list of strings (argv)
+;;; program-arguments ;returns list of strings (argv)
current-time ;returns time in seconds since 1/1/1970
;; Implementation Specific features
+ fluid-let
queue
Xwindows
))
@@ -328,17 +402,7 @@
(begin
(environment-define (the-environment) 'macro:eval slib:eval)
(environment-define (the-environment) 'macro:load load)))
-
-(define (slib:eval-load <pathname> evl)
- (if (not (file-exists? <pathname>))
- (set! <pathname> (string-append <pathname> (scheme-file-suffix))))
- (call-with-input-file <pathname>
- (lambda (port)
- (let ((old-load-pathname *load-pathname*))
- (fluid-let ((*load-pathname* <pathname>))
- (do ((o (read port) (read port)))
- ((eof-object? o))
- (evl o)))))))
+;; slib:eval-load definition moved to "require.scm"
;; Older implementations need this definition.
(if (lexical-unreferenceable? (the-environment) 'record-modifier)
@@ -349,19 +413,19 @@
(apply warn args))
;; define an error procedure for the library
-(define (slib:error . args)
+(define (slib:error first . args)
(if (provided? 'trace) (print-call-stack (current-error-port)))
- (apply error args))
+ (case first
+ ((wrong-type-argument) (apply error:wrong-type-argument args))
+ ((bad-range-argument) (apply error:bad-range-argument args))
+ (else (apply error first args))))
;; define these as appropriate for your system.
(define slib:tab (name->char "tab"))
(define slib:form-feed (name->char "page"))
-(define (in-vicinity vicinity file-name)
- (->namestring (merge-pathnames file-name vicinity)))
-
;;; Define SLIB:EXIT to be the implementation procedure to exit or
-;;; return if exitting not supported.
+;;; return if exiting not supported.
(define slib:exit
(lambda args
(cond ((null? args) (exit))
diff --git a/mkclrnam.scm b/mkclrnam.scm
index 7377f37..3e0c553 100644
--- a/mkclrnam.scm
+++ b/mkclrnam.scm
@@ -198,7 +198,7 @@
(define *rcs-header* (read-line port))
(do ((line (read-line port) (read-line port)))
((eof-object? line)
- (display "Inserted ") (display *idx*) (display "colors") (newline)
+ (display "Inserted ") (display *idx*) (display " colors") (newline)
*rcs-header*)
(let ((colin (parse-rgb-line line)))
(cond ((equal? "" line))
@@ -222,7 +222,7 @@
;;This section has detailed the procedures for creating and loading
;;color dictionaries. So where are the dictionaries to load?
;;
-;;@uref{http://swissnet.ai.mit.edu/~jaffer/Color/Dictionaries.html}
+;;@uref{http://swiss.csail.mit.edu/~jaffer/Color/Dictionaries.html}
;;
;;@noindent
;;Describes and evaluates several color-name dictionaries on the web.
@@ -234,13 +234,14 @@
;;containing the @dfn{Resene} and @dfn{saturate} color-name
;;dictionaries.
;;
-;;If the files @file{resenecolours.txt} and @file{saturate.txt} exist in
-;;the @r{library-vicinity}, then they used as the source of color-name
-;;data. Otherwise, @0 calls url->color-dictionary with the URLs of
-;;appropriate source files.
+;;If the files @file{resenecolours.txt}, @file{nbs-iscc.txt}, and
+;;@file{saturate.txt} exist in the @r{library-vicinity}, then they
+;;used as the source of color-name data. Otherwise, @0 calls
+;;url->color-dictionary with the URLs of appropriate source files.
(define (make-slib-color-name-db)
(define cndb (create-database (in-vicinity (library-vicinity) "clrnamdb.scm")
'alist-table))
+ (or cndb (slib:error 'cannot 'create 'database "clrnamdb.scm"))
(for-each
(lambda (lst)
(apply
@@ -250,10 +251,13 @@
(file->color-dictionary filename name cndb)
(url->color-dictionary url name cndb)))
lst))
- '(("http://swissnet.ai.mit.edu/~jaffer/Color/saturate.txt"
+ '(("http://swiss.csail.mit.edu/~jaffer/Color/saturate.txt"
"saturate.txt"
saturate)
- ("http://swissnet.ai.mit.edu/~jaffer/Color/resenecolours.txt"
+ ("http://swiss.csail.mit.edu/~jaffer/Color/resenecolours.txt"
"resenecolours.txt"
- resene)))
+ resene)
+ ("http://swiss.csail.mit.edu/~jaffer/Color/nbs-iscc.txt"
+ "nbs-iscc.txt"
+ nbs-iscc)))
(close-database cndb))
diff --git a/mkclrnam.txi b/mkclrnam.txi
index 3eeb892..f2a0c14 100644
--- a/mkclrnam.txi
+++ b/mkclrnam.txi
@@ -16,6 +16,7 @@ values. @code{file->color-dictionary} creates a table @var{table-name} in @var{
in @var{file} into it.
@end defun
+
@defun url->color-dictionary url table-name rdb base-table-type
@@ -27,11 +28,12 @@ string @var{url} using the @dfn{wget} program; then calls
@cindex wget
@code{file->color-dictionary} to enter its associations in @var{table-name} in @var{url}.
@end defun
+
@noindent
This section has detailed the procedures for creating and loading
color dictionaries. So where are the dictionaries to load?
-@uref{http://swissnet.ai.mit.edu/~jaffer/Color/Dictionaries.html}
+@uref{http://swiss.csail.mit.edu/~jaffer/Color/Dictionaries.html}
@noindent
Describes and evaluates several color-name dictionaries on the web.
@@ -47,8 +49,9 @@ containing the @dfn{Resene} and @dfn{saturate} color-name
@cindex saturate
dictionaries.
-If the files @file{resenecolours.txt} and @file{saturate.txt} exist in
-the @r{library-vicinity}, then they used as the source of color-name
-data. Otherwise, @code{make-slib-color-name-db} calls url->color-dictionary with the URLs of
-appropriate source files.
+If the files @file{resenecolours.txt}, @file{nbs-iscc.txt}, and
+@file{saturate.txt} exist in the @r{library-vicinity}, then they
+used as the source of color-name data. Otherwise, @code{make-slib-color-name-db} calls
+url->color-dictionary with the URLs of appropriate source files.
@end defun
+
diff --git a/mklibcat.scm b/mklibcat.scm
index d41e2e6..2047f86 100644
--- a/mklibcat.scm
+++ b/mklibcat.scm
@@ -71,6 +71,7 @@
(hash "hash")
(sierpinski "sierpinski")
(hilbert-fill "phil-spc")
+ (peano-fill "peanosfc")
(soundex "soundex")
(hash-table "hashtab")
(logical "logical")
@@ -137,6 +138,7 @@
(chapter-order "chap")
(posix-time "psxtime")
(common-lisp-time "cltime")
+ (time-core "timecore")
(time-zone defmacro "timezone")
(relational-database "rdms")
(databases "dbutil")
@@ -188,6 +190,7 @@
(color-database defmacro "mkclrnam")
(resene color-names "clrnamdb.scm")
(saturate color-names "clrnamdb.scm")
+ (nbs-iscc color-names "clrnamdb.scm")
(daylight "daylight")
(matfile "matfile")
(mat-file matfile)
@@ -208,6 +211,9 @@
(srfi-2 defmacro "srfi-2")
(srfi-8 macro "srfi-8")
(srfi-9 macro "srfi-9")
+ (srfi-47 array)
+ (srfi-63 array)
+ (srfi-60 logical)
(new-catalog "mklibcat")
))))
(let* ((req (in-vicinity (library-vicinity)
diff --git a/modular.scm b/modular.scm
index e836100..052bf92 100644
--- a/modular.scm
+++ b/modular.scm
@@ -245,20 +245,18 @@
;;@args modulus n2 n3
;;Returns (@var{n2} ^ @var{n3}) mod @var{modulus}.
-(define modular:expt
- (let ((integer-expt (and (provided? 'inexact) expt)))
- (lambda (m n xpn)
- (cond ((= n 1) 1)
- ((= n (- m 1)) (if (odd? xpn) n 1))
- ((and (zero? m) integer-expt) (integer-expt n xpn))
- ((negative? xpn)
- (modular:expt m (modular:invert m n) (- xpn)))
- ((zero? n) 0)
- (else
- (do ((x n (modular:* m x x))
- (j xpn (quotient j 2))
- (acc 1 (if (even? j) acc (modular:* m x acc))))
- ((<= j 1)
- (case j
- ((0) acc)
- ((1) (modular:* m x acc))))))))))
+(define (modular:expt m n xpn)
+ (cond ((= n 1) 1)
+ ((= n (- m 1)) (if (odd? xpn) n 1))
+ ((zero? m) (expt n xpn))
+ ((negative? xpn)
+ (modular:expt m (modular:invert m n) (- xpn)))
+ ((zero? n) 0)
+ (else
+ (do ((x n (modular:* m x x))
+ (j xpn (quotient j 2))
+ (acc 1 (if (even? j) acc (modular:* m x acc))))
+ ((<= j 1)
+ (case j
+ ((0) acc)
+ ((1) (modular:* m x acc))))))))
diff --git a/modular.txi b/modular.txi
index d947b35..bf2cd52 100644
--- a/modular.txi
+++ b/modular.txi
@@ -26,28 +26,33 @@ If @var{x1} and @var{x2} are integers, then @code{mod} behaves like
@end format
@end defun
+
@defun extended-euclid n1 n2
Returns a list of 3 integers @code{(d x y)} such that d = gcd(@var{n1},
@var{n2}) = @var{n1} * x + @var{n2} * y.
@end defun
+
@defun symmetric:modulus n
Returns @code{(quotient (+ -1 n) -2)} for positive odd integer @var{n}.
@end defun
+
@defun modulus->integer modulus
Returns the non-negative integer characteristic of the ring formed when
@var{modulus} is used with @code{modular:} procedures.
@end defun
+
@defun modular:normalize modulus n
Returns the integer @code{(modulo @var{n} (modulus->integer
@var{modulus}))} in the representation specified by @var{modulus}.
@end defun
+
@noindent
The rest of these functions assume normalized arguments; That is, the
arguments are constrained by the following table:
@@ -79,27 +84,32 @@ Returns @code{#t} if there exists an integer n such that @var{k} * n
@equiv{} 1 mod @var{modulus}, and @code{#f} otherwise.
@end defun
+
@defun modular:invert modulus n2
Returns an integer n such that 1 = (n * @var{n2}) mod @var{modulus}. If
@var{n2} has no inverse mod @var{modulus} an error is signaled.
@end defun
+
@defun modular:negate modulus n2
Returns (@minus{}@var{n2}) mod @var{modulus}.
@end defun
+
@defun modular:+ modulus n2 n3
Returns (@var{n2} + @var{n3}) mod @var{modulus}.
@end defun
+
@defun modular:- modulus n2 n3
Returns (@var{n2} @minus{} @var{n3}) mod @var{modulus}.
@end defun
+
@defun modular:* modulus n2 n3
Returns (@var{n2} * @var{n3}) mod @var{modulus}.
@@ -108,7 +118,9 @@ The Scheme code for @code{modular:*} with negative @var{modulus} is
not completed for fixnum-only implementations.
@end defun
+
@defun modular:expt modulus n2 n3
Returns (@var{n2} ^ @var{n3}) mod @var{modulus}.
@end defun
+
diff --git a/nbs-iscc.txt b/nbs-iscc.txt
new file mode 100644
index 0000000..a02368e
--- /dev/null
+++ b/nbs-iscc.txt
@@ -0,0 +1,295 @@
+; http://tx4.us/nbs-iscc.htm
+; NBS/ISCC Color System
+;
+;Copyright © 2003 Voluntocracy. Permission is granted to copy and
+;distribute modified or unmodified versions of this color dictionary
+;provided the copyright notice and this permission notice are preserved
+;on all copies and the entire such work is distributed under the terms
+;of a permission notice identical to this one.
+;
+;"Pink" and "brown" are used instead of the more logical "pale red" and
+;"dark orange".
+;
+;http://www.anthus.com/Colors/Cent.html by David A. Mundie, converted
+;the NBS Centroid colors from Munsell to CIE XYZ, then converted to Mac
+;QuickDraw RGB. The colors were visibly biased towards pink and had
+;duplications.
+;
+;John Foster reconverted supplied Munsell values via Munsell software
+;downloaded from www.gretagmacbeth.com <http://www.gretagmacbeth.com>
+;directly to RGB, and tried to resolve some duplicates. Some of these
+;don't even look right, because some of the bright colors are on the
+;dark fringes with less chroma and are not centered and high up on the
+;hue curves. Many of the original Munsell values (noted) are outside
+;the RGB gamut, and have been adjusted to the closest brightest RGB
+;value by changing chroma until 0 or 255 is reached in one out of
+;bounds RGB component. Guesses were made in a few cases (noted) where
+;the color was still illogical compared to the name.
+
+"Vivid Pink" sRGB:FFB5BA
+"Strong Pink" sRGB:EA9399
+"Deep Pink" sRGB:E4717A
+"Light Pink" sRGB:F9CCCA
+"Moderate Pink" sRGB:DEA5A4
+"Dark Pink" sRGB:C08081
+"Pale Pink" sRGB:EAD8D7
+"Grayish Pink" sRGB:C4AEAD
+"Pinkish White" sRGB:EAE3E1
+"Pinkish Gray" sRGB:C1B6B3
+"Vivid Red" sRGB:BE0032
+"Strong Red" sRGB:BC3F4A
+"Deep Red" sRGB:841B2D
+"Very Deep Red" sRGB:5C0923
+"Moderate Red" sRGB:AB4E52
+"Dark Red" sRGB:722F37
+"Very Dark Red" sRGB:3F1728
+"Light Grayish Red" sRGB:AD8884
+"Grayish Red" sRGB:905D5D
+"Dark Grayish Red" sRGB:543D3F
+"Blackish Red" sRGB:2E1D21
+"Reddish Gray" sRGB:8F817F
+"Dark Reddish Gray" sRGB:5C504F
+"Reddish Black" sRGB:282022
+"Vivid Yellowish Pink" sRGB:FFB7A5
+"Strong Yellowish Pink" sRGB:F99379
+"Deep Yellowish Pink" sRGB:E66721
+"Light Yellowish Pink" sRGB:F4C2C2
+"Moderate Yellowish Pink" sRGB:D9A6A9
+"Dark Yellowish Pink" sRGB:C48379
+"Pale Yellowish Pink" sRGB:ECD5C5
+"Grayish Yellowish Pink" sRGB:C7ADA3
+"Brownish Pink" sRGB:C2AC99
+"Vivid Reddish Orange" sRGB:E25822
+"Strong Reddish Orange" sRGB:D9603B
+"Deep Reddish Orange" sRGB:AA381E
+"Moderate Reddish Orange" sRGB:CB6D51
+"Dark Reddish Orange" sRGB:9E4732
+"Grayish Reddish Orange" sRGB:B4745E
+"Strong Reddish Brown" sRGB:882D17
+"Deep Reddish Brown" sRGB:56070C
+"Light Reddish Brown" sRGB:A87C6D
+"Moderate Reddish Brown" sRGB:79443B
+"Dark Reddish Brown" sRGB:3E1D1E
+"Light Grayish Reddish Brown" sRGB:977F73
+"Grayish Reddish Brown" sRGB:674C47
+"Dark Grayish Reddish Brown" sRGB:43302E
+"Vivid Orange" sRGB:F38400
+"Brilliant Orange" sRGB:FD943F
+"Strong Orange" sRGB:ED872D
+"Deep Orange" sRGB:BE6516
+"Light Orange" sRGB:FAB57F
+"Moderate Orange" sRGB:D99058
+"Brownish Orange" sRGB:AE6938
+"Strong Brown" sRGB:80461B
+"Deep Brown" sRGB:593319
+"Light Brown" sRGB:A67B5B
+"Moderate Brown" sRGB:6F4E37
+"Dark Brown" sRGB:422518
+"Light Grayish Brown" sRGB:958070
+"Grayish Brown" sRGB:635147
+"Dark Grayish Brown" sRGB:3E322C
+"Light Brownish Gray" sRGB:8E8279
+"Brownish Gray" sRGB:5B504F
+"Brownish Black" sRGB:28201C
+"Vivid Orange Yellow" sRGB:F6A600
+"Brilliant Orange Yellow" sRGB:FFC14F
+"Strong Orange Yellow" sRGB:EAA221
+"Deep Orange Yellow" sRGB:C98500
+"Light Orange Yellow" sRGB:FBC97F
+"Moderate Orange Yellow" sRGB:E3A857
+"Dark Orange Yellow" sRGB:BE8A3D
+"Pale Orange Yellow" sRGB:FAD6A5
+"Strong Yellowish Brown" sRGB:996515
+"Deep Yellowish Brown" sRGB:654522
+"Light Yellowish Brown" sRGB:C19A6B
+"Moderate Yellowish Brown" sRGB:826644
+"Dark Yellowish Brown" sRGB:4B3621
+"Light Grayish Yellowish Brown" sRGB:AE9B82
+"Grayish Yellowish Brown" sRGB:7E6D5A
+"Dark Grayish Yellowish Brown" sRGB:483C32
+"Vivid Yellow" sRGB:F3C300
+"Brilliant Yellow" sRGB:FADA5E
+"Strong Yellow" sRGB:D4AF37
+"Deep Yellow" sRGB:AF8D13
+"Light Yellow" sRGB:F8DE7E
+"Moderate Yellow" sRGB:C9AE5D
+"Dark Yellow" sRGB:AB9144
+"Pale Yellow" sRGB:F3E5AB
+"Grayish Yellow" sRGB:C2B280
+"Dark Grayish Yellow" sRGB:A18F60
+"Yellowish White" sRGB:F0EAD6
+"Yellowish Gray" sRGB:BFB8A5
+"Light Olive Brown" sRGB:967117
+"Moderate Olive Brown" sRGB:6C541E
+"Dark Olive Brown" sRGB:3B3121
+"Vivid Greenish Yellow" sRGB:DCD300
+"Brilliant Greenish Yellow" sRGB:E9E450
+"Strong Greenish Yellow" sRGB:BEB72E
+"Deep Greenish Yellow" sRGB:9B9400
+"Light Greenish Yellow" sRGB:EAE679
+"Moderate Greenish Yellow" sRGB:B9B459
+"Dark Greenish Yellow" sRGB:98943E
+"Pale Greenish Yellow" sRGB:EBE8A4
+"Grayish Greenish Yellow" sRGB:B9B57D
+"Light Olive" sRGB:867E36
+"Moderate Olive" sRGB:665D1E
+"Dark Olive" sRGB:403D21
+"Light Grayish Olive" sRGB:8C8767
+"Grayish Olive" sRGB:5B5842
+"Dark Grayish Olive" sRGB:363527
+"Light Olive Gray" sRGB:8A8776
+"Olive Gray" sRGB:57554C
+"Olive Black" sRGB:25241D
+"Vivid Yellow Green" sRGB:8DB600
+"Brilliant Yellow Green" sRGB:BDDA57
+"Strong Yellow Green" sRGB:7E9F2E
+"Deep Yellow Green" sRGB:467129
+"Light Yellow Green" sRGB:C9DC89
+"Moderate Yellow Green" sRGB:8A9A5B
+"Pale Yellow Green" sRGB:DADFB7
+"Grayish Yellow Green" sRGB:8F9779
+"Strong Olive Green" sRGB:404F00
+"Deep Olive Green" sRGB:232F00
+"Moderate Olive Green" sRGB:4A5D23
+"Dark Olive Green" sRGB:2B3D26
+"Grayish Olive Green" sRGB:515744
+"Dark Grayish Olive Green" sRGB:31362B
+"Vivid Yellowish Green" sRGB:27A64C
+"Brilliant Yellowish Green" sRGB:83D37D
+"Strong Yellowish Green" sRGB:44944A
+"Deep Yellowish Green" sRGB:00622D
+"Very Deep Yellowish Green" sRGB:003118
+"Very Light Yellowish Green" sRGB:B6E5AF
+"Light Yellowish Green" sRGB:93C592
+"Moderate Yellowish Green" sRGB:679267
+"Dark Yellowish Green" sRGB:355E3B
+"Very Dark Yellowish Green" sRGB:173620
+"Vivid Green" sRGB:008856
+"Brilliant Green" sRGB:3EB489
+"Strong Green" sRGB:007959
+"Deep Green" sRGB:00543D
+"Very Light Green" sRGB:8ED1B2
+"Light Green" sRGB:6AAB8E
+"Moderate Green" sRGB:3B7861
+"Dark Green" sRGB:1B4D3E
+"Very Dark Green" sRGB:1C352D
+"Very Pale Green" sRGB:C7E6D7
+"Pale Green" sRGB:8DA399
+"Grayish Green" sRGB:5E716A
+"Dark Grayish Green" sRGB:3A4B47
+"Blackish Green" sRGB:1A2421
+"Greenish White" sRGB:DFEDE8
+"Light Greenish Gray" sRGB:B2BEB5
+"Greenish Gray" sRGB:7D8984
+"Dark Greenish Gray" sRGB:4E5755
+"Greenish Black" sRGB:1E2321
+"Vivid Bluish Green" sRGB:008882
+"Brilliant Bluish Green" sRGB:00A693
+"Strong Bluish Green" sRGB:007A74
+"Deep Bluish Green" sRGB:00443F
+"Very Light Bluish Green" sRGB:96DED1
+"Light Bluish Green" sRGB:66ADA4
+"Moderate Bluish Green" sRGB:317873
+"Dark Bluish Green" sRGB:004B49
+"Very Dark Bluish Green" sRGB:002A29
+"Vivid Greenish Blue" sRGB:0085A1
+"Brilliant Greenish Blue" sRGB:239EBA
+"Strong Greenish Blue" sRGB:007791
+"Deep Greenish Blue" sRGB:2E8495
+"Very Light Greenish Blue" sRGB:9CD1DC
+"Light Greenish Blue" sRGB:66AABC
+"Moderate Greenish Blue" sRGB:367588
+"Dark Greenish Blue" sRGB:004958
+"Very Dark Greenish Blue" sRGB:002E3B
+"Vivid Blue" sRGB:00A1C2
+"Brilliant Blue" sRGB:4997D0
+"Strong Blue" sRGB:0067A5
+"Deep Blue" sRGB:00416A
+"Very Light Blue" sRGB:A1CAF1
+"Light Blue" sRGB:70A3CC
+"Moderate Blue" sRGB:436B95
+"Dark Blue" sRGB:00304E
+"Very Pale Blue" sRGB:BCD4E6
+"Pale Blue" sRGB:91A3B0
+"Grayish Blue" sRGB:536878
+"Dark Grayish Blue" sRGB:36454F
+"Blackish Blue" sRGB:202830
+"Bluish White" sRGB:E9E9ED
+"Light Bluish Gray" sRGB:B4BCC0
+"Bluish Gray" sRGB:81878B
+"Dark Bluish Gray" sRGB:51585E
+"Bluish Black" sRGB:202428
+"Vivid Purplish Blue" sRGB:30267A
+"Brilliant Purplish Blue" sRGB:6C79B8
+"Strong Purplish Blue" sRGB:545AA7
+"Deep Purplish Blue" sRGB:272458
+"Very Light Purplish Blue" sRGB:B3BCE2
+"Light Purplish Blue" sRGB:8791BF
+"Moderate Purplish Blue" sRGB:4E5180
+"Dark Purplish Blue" sRGB:252440
+"Very Pale Purplish Blue" sRGB:C0C8E1
+"Pale Purplish Blue" sRGB:8C92AC
+"Grayish Purplish Blue" sRGB:4C516D
+"Vivid Violet" sRGB:9065CA
+"Brilliant Violet" sRGB:7E73B8
+"Strong Violet" sRGB:604E97
+"Deep Violet" sRGB:32174D
+"Very Light Violet" sRGB:DCD0FF
+"Light Violet" sRGB:8C82B6
+"Moderate Violet" sRGB:604E81
+"Dark Violet" sRGB:2F2140
+"Very Pale Violet" sRGB:C4C3DD
+"Pale Violet" sRGB:9690AB
+"Grayish Violet" sRGB:554C69
+"Vivid Purple" sRGB:9A4EAE
+"Brilliant Purple" sRGB:D399E6
+"Strong Purple" sRGB:875692
+"Deep Purple" sRGB:602F6B
+"Very Deep Purple" sRGB:401A4C
+"Very Light Purple" sRGB:D5BADB
+"Light Purple" sRGB:B695C0
+"Moderate Purple" sRGB:86608E
+"Dark Purple" sRGB:563C5C
+"Very Dark Purple" sRGB:301934
+"Very Pale Purple" sRGB:D6CADD
+"Pale Purple" sRGB:AA98A9
+"Grayish Purple" sRGB:796878
+"Dark Grayish Purple" sRGB:50404D
+"Blackish Purple" sRGB:291E29
+"Purplish White" sRGB:E8E3E5
+"Light Purplish Gray" sRGB:BFB9BD
+"Purplish Gray" sRGB:8B8589
+"Dark Purplish Gray" sRGB:5D555B
+"Purplish Black" sRGB:242124
+"Vivid Reddish Purple" sRGB:870074
+"Strong Reddish Purple" sRGB:9E4F88
+"Deep Reddish Purple" sRGB:702963
+"Very Deep Reddish Purple" sRGB:54194E
+"Light Reddish Purple" sRGB:B784A7
+"Moderate Reddish Purple" sRGB:915C83
+"Dark Reddish Purple" sRGB:5D3954
+"Very Dark Reddish Purple" sRGB:341731
+"Pale Reddish Purple" sRGB:AA8A9E
+"Grayish Reddish Purple" sRGB:836479
+"Brilliant Purplish Pink" sRGB:FFC8D6
+"Strong Purplish Pink" sRGB:E68FAC
+"Deep Purplish Pink" sRGB:DE6FA1
+"Light Purplish Pink" sRGB:EFBBCC
+"Moderate Purplish Pink" sRGB:D597AE
+"Dark Purplish Pink" sRGB:C17E91
+"Pale Purplish Pink" sRGB:E8CCD7
+"Grayish Purplish Pink" sRGB:C3A6B1
+"Vivid Purplish Red" sRGB:CE4676
+"Strong Purplish Red" sRGB:B3446C
+"Deep Purplish Red" sRGB:78184A
+"Very Deep Purplish Red" sRGB:54133B
+"Moderate Purplish Red" sRGB:A8516E
+"Dark Purplish Red" sRGB:673147
+"Very Dark Purplish Red" sRGB:38152C
+"Light Grayish Purplish Red" sRGB:AF868E
+"Grayish Purplish Red" sRGB:915F6D
+"White" sRGB:F2F3F4
+"Light Gray" sRGB:B9B8B5
+"Medium Gray" sRGB:848482
+"Dark Gray" sRGB:555555
+"Black" sRGB:222222
diff --git a/ncbi-dna.txi b/ncbi-dna.txi
index 9a5babc..160b9ee 100644
--- a/ncbi-dna.txi
+++ b/ncbi-dna.txi
@@ -5,17 +5,20 @@ Reads the NCBI-format DNA sequence following the word @samp{ORIGIN}
from @var{port}.
@end defun
+
@defun ncbi:read-file file
Reads the NCBI-format DNA sequence following the word @samp{ORIGIN}
from @var{file}.
@end defun
+
@defun mrna<-cdna str
Replaces @samp{T} with @samp{U} in @var{str}
@end defun
+
@defun codons<-cdna cdna
Returns a list of three-letter symbol codons comprising the protein
@@ -23,12 +26,14 @@ sequence encoded by @var{cdna} starting with its first occurence of
@samp{atg}.
@end defun
+
@defun protein<-cdna cdna
Returns a list of three-letter symbols for the protein sequence
encoded by @var{cdna} starting with its first occurence of @samp{atg}.
@end defun
+
@defun p<-cdna cdna
Returns a string of one-letter amino acid codes for the protein
@@ -36,6 +41,7 @@ sequence encoded by @var{cdna} starting with its first occurence of
@samp{atg}.
@end defun
+
These cDNA count routines provide a means to check the nucleotide
sequence with the @samp{BASE COUNT} line preceding the sequence from
NCBI.
@@ -47,8 +53,10 @@ Returns a list of counts of @samp{a}, @samp{c}, @samp{g}, and
@samp{t} occurrencing in @var{cdna}.
@end defun
+
@defun cdna:report-base-count cdna
Prints the counts of @samp{a}, @samp{c}, @samp{g}, and @samp{t}
occurrencing in @var{cdna}.
@end defun
+
diff --git a/obj2str.txi b/obj2str.txi
index 83e8b1b..9b19f46 100644
--- a/obj2str.txi
+++ b/obj2str.txi
@@ -3,7 +3,9 @@
Returns the textual representation of @var{obj} as a string.
@end defun
+
@defun object->limited-string obj limit
Returns the textual representation of @var{obj} as a string of length
at most @var{limit}.
@end defun
+
diff --git a/peanosfc.scm b/peanosfc.scm
new file mode 100644
index 0000000..4a4039a
--- /dev/null
+++ b/peanosfc.scm
@@ -0,0 +1,109 @@
+; "peanospc.scm": Peano space filling mapping
+; Copyright (C) 2005 Aubrey Jaffer
+;
+;Permission to copy this software, to modify it, to redistribute it,
+;to distribute modified versions, and to use it for any purpose is
+;granted, subject to the following restrictions and understandings.
+;
+;1. Any copy made of this software must include this copyright notice
+;in full.
+;
+;2. I have made no warranty or representation that the operation of
+;this software will be error-free, and I am under no obligation to
+;provide any services, by way of maintenance, update, or otherwise.
+;
+;3. In conjunction with products arising from the use of this
+;material, there shall be no use of my name in any advertising,
+;promotional, or sales literature without prior written consent in
+;each case.
+
+(require 'array)
+
+;;; A. R. Butz.
+;;; Space filling curves and mathematical programming.
+;;; Information and Control, 12:314-330, 1968.
+
+(define (integer->tet-array scalar rank)
+ (do ((tets '() (cons (modulo scl 3) tets))
+ (scl scalar (quotient scl 3)))
+ ((zero? scl)
+ (let* ((len (length tets))
+ (depth (quotient (+ len rank -1) rank)))
+ (define tra (make-array (A:fixN8b 0) rank depth))
+ (set! tets (reverse tets))
+ (do ((idx (+ -1 depth) (+ -1 idx)))
+ ((negative? idx))
+ (do ((rdx 0 (+ 1 rdx)))
+ ((>= rdx rank))
+ (cond ((null? tets))
+ (else (array-set! tra (car tets) rdx idx)
+ (set! tets (cdr tets))))))
+ tra))))
+
+(define (tet-array->integer tra)
+ (define rank (car (array-dimensions tra)))
+ (define depth (cadr (array-dimensions tra)))
+ (define val 0)
+ (do ((idx 0 (+ 1 idx)))
+ ((>= idx depth) val)
+ (do ((rdx (+ -1 rank) (+ -1 rdx)))
+ ((negative? rdx))
+ (set! val (+ (array-ref tra rdx idx) (* 3 val))))))
+
+(define (tet-array->coordinates tra)
+ (define rank (car (array-dimensions tra)))
+ (define depth (cadr (array-dimensions tra)))
+ (do ((rdx (+ -1 rank) (+ -1 rdx))
+ (lst '() (cons (do ((idx 0 (+ 1 idx))
+ (val 0 (+ (array-ref tra rdx idx) (* 3 val))))
+ ((>= idx depth) val))
+ lst)))
+ ((negative? rdx) lst)))
+
+(define (coordinates->tet-array coords)
+ (define depth (do ((scl (apply max coords) (quotient scl 3))
+ (dpt 0 (+ 1 dpt)))
+ ((zero? scl) dpt)))
+ (define rank (length coords))
+ (let ((tra (make-array (A:fixN8b 0) rank depth)))
+ (do ((rdx 0 (+ 1 rdx))
+ (cds coords (cdr cds)))
+ ((null? cds))
+ (do ((idx (+ -1 depth) (+ -1 idx))
+ (scl (car cds) (quotient scl 3)))
+ ((negative? idx))
+ (array-set! tra (modulo scl 3) rdx idx)))
+ tra))
+
+(define (peano-flip! tra)
+ (define parity 0)
+ (define rank (car (array-dimensions tra)))
+ (define depth (cadr (array-dimensions tra)))
+ (do ((idx 0 (+ 1 idx)))
+ ((>= idx depth))
+ (do ((rdx (+ -1 rank) (+ -1 rdx)))
+ ((negative? rdx))
+ (let ((v_ij (array-ref tra rdx idx))
+ (tpar parity))
+ (do ((idx (+ -1 idx) (+ -1 idx)))
+ ((negative? idx))
+ (set! tpar (+ (array-ref tra rdx idx) tpar)))
+ (array-set! tra (if (odd? tpar) (- 2 v_ij) v_ij) rdx idx)
+ (set! parity (modulo (+ parity v_ij) 2))))))
+
+;;@body
+;;Returns a list of @2 nonnegative integer coordinates corresponding
+;;to exact nonnegative integer @1. The lists returned by @0 for @1
+;;arguments 0 and 1 will differ in the first element.
+(define (integer->peano-coordinates scalar rank)
+ (define tra (integer->tet-array scalar rank))
+ (peano-flip! tra)
+ (tet-array->coordinates tra))
+
+;;@body
+;;Returns an exact nonnegative integer corresponding to @1, a list of
+;;nonnegative integer coordinates.
+(define (peano-coordinates->integer coords)
+ (define tra (coordinates->tet-array coords))
+ (peano-flip! tra)
+ (tet-array->integer tra))
diff --git a/peanosfc.txi b/peanosfc.txi
new file mode 100644
index 0000000..10cc256
--- /dev/null
+++ b/peanosfc.txi
@@ -0,0 +1,15 @@
+
+@defun integer->peano-coordinates scalar rank
+
+Returns a list of @var{rank} nonnegative integer coordinates corresponding
+to exact nonnegative integer @var{scalar}. The lists returned by @code{integer->peano-coordinates} for @var{scalar}
+arguments 0 and 1 will differ in the first element.
+@end defun
+
+
+@defun peano-coordinates->integer coords
+
+Returns an exact nonnegative integer corresponding to @var{coords}, a list of
+nonnegative integer coordinates.
+@end defun
+
diff --git a/phil-spc.scm b/phil-spc.scm
index 3372ce6..65863da 100644
--- a/phil-spc.scm
+++ b/phil-spc.scm
@@ -1,5 +1,5 @@
-; "phil-spc.scm": Peano-Hilbert space filling mapping
-; Copyright (c) 2003 Aubrey Jaffer
+; "phil-spc.scm": Hilbert space filling mapping
+; Copyright (C) 2003 Aubrey Jaffer
;
;Permission to copy this software, to modify it, to redistribute it,
;to distribute modified versions, and to use it for any purpose is
@@ -23,11 +23,12 @@
;;@ftindex hilbert-fill
;;
;;@noindent
-;;@cindex Peano
;;@cindex Hilbert
;;@cindex Space-Filling
-;;The @dfn{Peano-Hilbert Space-Filling Curve} is a one-to-one mapping
+;;The @dfn{Hilbert Space-Filling Curve} is a one-to-one mapping
;;between a unit line segment and an @var{n}-dimensional unit cube.
+;;This implementation treats the nonnegative integers either as
+;;fractional bits of a given width or as nonnegative integers.
;;
;;@noindent
;;The integer procedures map the non-negative integers to an
@@ -35,60 +36,211 @@
;;origin and all coordinates are non-negative.
;;
;;@noindent
-;;For any exact nonnegative integers @var{scalar} and @var{rank},
+;;For any exact nonnegative integer @var{scalar} and exact integer
+;;@var{rank} > 2,
;;
;;@example
;;(= @var{scalar} (hilbert-coordinates->integer
;; (integer->hilbert-coordinates @var{scalar} @var{rank})))
;; @result{} #t
;;@end example
+;;
+;;When treating integers as @var{k} fractional bits,
+;;
+;;@example
+;;(= @var{scalar} (hilbert-coordinates->integer
+;; (integer->hilbert-coordinates @var{scalar} @var{rank} @var{k})) @var{k})
+;; @result{} #t
+;;@end example
-;;@body
+
+
+;;@args scalar rank
;;Returns a list of @2 integer coordinates corresponding to exact
;;non-negative integer @1. The lists returned by @0 for @1 arguments
;;0 and 1 will differ in the first element.
-(define (integer->hilbert-coordinates scalar rank)
- (define ndones (logical:ones rank))
+;;
+;;@args scalar rank k
+;;
+;;@1 must be a nonnegative integer of no more than
+;;@code{@2*@var{k}} bits.
+;;
+;;@0 Returns a list of @2 @var{k}-bit nonnegative integer
+;;coordinates corresponding to exact non-negative integer @1. The
+;;curves generated by @0 have the same alignment independent of
+;;@var{k}.
+(define (integer->hilbert-coordinates scalar rank . nbits)
+ (define igry (integer->gray-code scalar))
+ (define rnkmsk (lognot (ash -1 rank)))
+ (define rnkhib (ash 1 (+ -1 rank)))
(define rank*nbits
- (let ((rank^2 (* rank rank)))
- (* (quotient (+ -1 rank^2 (integer-length scalar)) rank^2)
- rank^2)))
- (let ((nthbits (quotient (logical:ones rank*nbits) ndones)))
- (define igry (logxor (integer->gray-code scalar) (ash nthbits -1)))
- (do ((bdxn (- rank rank*nbits) (+ rank bdxn))
- (chnk (logand (ash igry (- rank rank*nbits)) ndones)
- (logand (ash igry (+ rank bdxn)) ndones))
- (rotation 0 (modulo (+ (integer-length (logand (- chnk) chnk))
- 1 rotation)
- rank))
- (flipbit 0 (ash 1 rotation))
- (bignum 0 (+ (logxor flipbit (logical:rotate chnk rotation rank))
- (ash bignum rank))))
- ((positive? bdxn)
- (map gray-code->integer (bitwise:delaminate rank bignum))))))
+ (if (null? nbits)
+ (let ((rank^2 (* rank rank)))
+ (* (quotient (+ -1 rank^2 (integer-length scalar)) rank^2)
+ rank^2))
+ (* rank (car nbits))))
+ (do ((bdxn (- rank rank*nbits) (+ rank bdxn))
+ (chnk (ash igry (- rank rank*nbits))
+ (logxor rnkhib (logand (ash igry (+ rank bdxn)) rnkmsk)))
+ (rotation 0 (modulo (+ (log2-binary-factors chnk) 2 rotation) rank))
+ (flipbit 0 (ash 1 rotation))
+ (lst '() (cons (logxor flipbit (rotate-bit-field chnk rotation 0 rank))
+ lst)))
+ ((positive? bdxn)
+ (map gray-code->integer (delaminate-list rank (reverse lst))))))
-;;@body
+;;@args coords
+;;@args coords k
;;Returns an exact non-negative integer corresponding to @1, a list
;;of non-negative integer coordinates.
-(define (hilbert-coordinates->integer coords)
+(define (hilbert-coordinates->integer coords . nbits)
(define rank (length coords))
- (define bignum (apply bitwise:laminate (map integer->gray-code coords)))
- (let ((rank*nbits
- (* (quotient (+ -1 rank (integer-length (apply max coords))) rank)
- rank rank))
- (ndones (logical:ones rank)))
- (define nthbits (quotient (logical:ones rank*nbits) ndones))
- (define (loop bdxn rotation flipbit scalar)
- (if (positive? bdxn)
- (gray-code->integer (logxor scalar (ash nthbits -1)))
- (let ((chnk (logical:rotate
- (logxor flipbit (logand ndones (ash bignum bdxn)))
- (- rotation)
- rank)))
- (loop (+ rank bdxn)
- (modulo (+ (integer-length (logand (- chnk) chnk))
- 1 rotation)
- rank)
+ (let ((lst (delaminate-list rank (map integer->gray-code coords)))
+ (rnkhib (ash 1 (+ -1 rank))))
+ (define (loop lst rotation flipbit scalar)
+ (if (null? lst)
+ (gray-code->integer scalar)
+ (let ((chnk (rotate-bit-field (logxor flipbit (car lst))
+ (- rotation) 0 rank)))
+ (loop (cdr lst)
+ (modulo (+ (log2-binary-factors chnk) 2 rotation) rank)
(ash 1 rotation)
- (+ chnk (ash scalar rank))))))
- (loop (- rank rank*nbits) 0 0 0)))
+ (logior (logxor rnkhib chnk) (ash scalar rank))))))
+ (loop (cdr lst)
+ (modulo (+ (log2-binary-factors (car lst)) 2) rank)
+ 1
+ (car lst))))
+
+;;@subsubsection Gray code
+;;
+;;@cindex Gray code
+;;@noindent
+;;A @dfn{Gray code} is an ordering of non-negative integers in which
+;;exactly one bit differs between each pair of successive elements. There
+;;are multiple Gray codings. An n-bit Gray code corresponds to a
+;;Hamiltonian cycle on an n-dimensional hypercube.
+;;
+;;@noindent
+;;Gray codes find use communicating incrementally changing values between
+;;asynchronous agents. De-laminated Gray codes comprise the coordinates
+;;of Hilbert space-filling curves.
+;;
+;;
+;;@defun integer->gray-code k
+;;Converts @var{k} to a Gray code of the same @code{integer-length} as
+;;@var{k}.
+;;
+;;@defunx gray-code->integer k
+;;Converts the Gray code @var{k} to an integer of the same
+;;@code{integer-length} as @var{k}.
+;;
+;;For any non-negative integer @var{k},
+;;@example
+;;(eqv? k (gray-code->integer (integer->gray-code k)))
+;;@end example
+;;@end defun
+(define (integer->gray-code k)
+ (logxor k (arithmetic-shift k -1)))
+(define (gray-code->integer k)
+ (if (negative? k)
+ (slib:error 'gray-code->integer 'negative? k)
+ (let ((kln (integer-length k)))
+ (do ((d 1 (* d 2))
+ (ans (logxor k (arithmetic-shift k -1)) ; == (integer->gray-code k)
+ (logxor ans (arithmetic-shift ans (* d -2)))))
+ ((>= (* 2 d) kln) ans)))))
+
+(define (grayter k1 k2)
+ (define kl1 (integer-length k1))
+ (define kl2 (integer-length k2))
+ (if (eqv? kl1 kl2)
+ (> (gray-code->integer k1) (gray-code->integer k2))
+ (> kl1 kl2)))
+
+;;@defun = k1 k2
+;;@defunx gray-code<? k1 k2
+;;@defunx gray-code>? k1 k2
+;;@defunx gray-code<=? k1 k2
+;;@defunx gray-code>=? k1 k2
+;;These procedures return #t if their Gray code arguments are
+;;(respectively): equal, monotonically increasing, monotonically
+;;decreasing, monotonically nondecreasing, or monotonically nonincreasing.
+;;
+;;For any non-negative integers @var{k1} and @var{k2}, the Gray code
+;;predicate of @code{(integer->gray-code k1)} and
+;;@code{(integer->gray-code k2)} will return the same value as the
+;;corresponding predicate of @var{k1} and @var{k2}.
+;;@end defun
+(define (gray-code<? k1 k2)
+ (not (or (eqv? k1 k2) (grayter k1 k2))))
+(define (gray-code<=? k1 k2)
+ (or (eqv? k1 k2) (not (grayter k1 k2))))
+(define (gray-code>? k1 k2)
+ (and (not (eqv? k1 k2)) (grayter k1 k2)))
+(define (gray-code>=? k1 k2)
+ (or (eqv? k1 k2) (grayter k1 k2)))
+
+;;@subsubsection Bitwise Lamination
+;;@cindex lamination
+
+;;@args k1 @dots{}
+;;Returns an integer composed of the bits of @var{k1} @dots{} interlaced
+;;in argument order. Given @var{k1}, @dots{} @var{kn}, the n low-order
+;;bits of the returned value will be the lowest-order bit of each
+;;argument.
+;;
+;;@args count k
+;;Returns a list of @var{count} integers comprised of every @var{count}h
+;;bit of the integer @var{k}.
+;;
+;;@example
+;;(map (lambda (k) (number->string k 2))
+;; (bitwise-delaminate 4 #x7654))
+;; @result{} ("0" "1111" "1100" "1010")
+;;(number->string (bitwise-laminate 0 #b1111 #b1100 #b1010) 16)
+;; @result{} "7654"
+;@end example
+;;
+;;For any non-negative integers @var{k} and @var{count}:
+;;@example
+;;(eqv? k (bitwise-laminate (bitwise-delaminate count k)))
+;;@end example
+(define (bitwise-laminate . ks)
+ (define nks (length ks))
+ (define nbs (apply max (map integer-length ks)))
+ (do ((kdx (+ -1 nbs) (+ -1 kdx))
+ (ibs 0 (+ (list->integer (map (lambda (k) (logbit? kdx k)) ks))
+ (arithmetic-shift ibs nks))))
+ ((negative? kdx) ibs)))
+(define (bitwise-delaminate count k)
+ (define nbs (* count (+ 1 (quotient (integer-length k) count))))
+ (do ((kdx (- nbs count) (- kdx count))
+ (lst (vector->list (make-vector count 0))
+ (map (lambda (k bool) (+ (if bool 1 0) (arithmetic-shift k 1)))
+ lst
+ (integer->list (arithmetic-shift k (- kdx)) count))))
+ ((negative? kdx) lst)))
+
+;;@body
+;;
+;;Returns a list of @var{count} integers comprised of the @var{j}th
+;;bit of the integers @var{ks} where @var{j} ranges from @var{count}-1
+;;to 0.
+;;
+;;@example
+;;(map (lambda (k) (number->string k 2))
+;; (delaminate-list 4 '(7 6 5 4 0 0 0 0)))
+;; @result{} ("0" "11110000" "11000000" "10100000")
+;;@end example
+;;
+;;@0 is its own inverse:
+;;@example
+;;(delaminate-list 8 (delaminate-list 4 '(7 6 5 4 0 0 0 0)))
+;; @result{} (7 6 5 4 0 0 0 0)
+;;@end example
+(define (delaminate-list count ks)
+ (define nks (length ks))
+ (do ((kdx 0 (+ 1 kdx))
+ (lst '() (cons (list->integer (map (lambda (k) (logbit? kdx k)) ks))
+ lst)))
+ ((>= kdx count) lst)))
diff --git a/phil-spc.txi b/phil-spc.txi
index 1193c6c..ac1743c 100644
--- a/phil-spc.txi
+++ b/phil-spc.txi
@@ -2,12 +2,13 @@
@ftindex hilbert-fill
@noindent
-@cindex Peano
@cindex Hilbert
@cindex Space-Filling
-The @dfn{Peano-Hilbert Space-Filling Curve} is a one-to-one mapping
-@cindex Peano-Hilbert Space-Filling Curve
+The @dfn{Hilbert Space-Filling Curve} is a one-to-one mapping
+@cindex Hilbert Space-Filling Curve
between a unit line segment and an @var{n}-dimensional unit cube.
+This implementation treats the nonnegative integers either as
+fractional bits of a given width or as nonnegative integers.
@noindent
The integer procedures map the non-negative integers to an
@@ -15,7 +16,8 @@ arbitrarily large @var{n}-dimensional cube with its corner at the
origin and all coordinates are non-negative.
@noindent
-For any exact nonnegative integers @var{scalar} and @var{rank},
+For any exact nonnegative integer @var{scalar} and exact integer
+@var{rank} > 2,
@example
(= @var{scalar} (hilbert-coordinates->integer
@@ -23,16 +25,136 @@ For any exact nonnegative integers @var{scalar} and @var{rank},
@result{} #t
@end example
+When treating integers as @var{k} fractional bits,
+
+@example
+(= @var{scalar} (hilbert-coordinates->integer
+ (integer->hilbert-coordinates @var{scalar} @var{rank} @var{k})) @var{k})
+ @result{} #t
+@end example
+
@defun integer->hilbert-coordinates scalar rank
Returns a list of @var{rank} integer coordinates corresponding to exact
non-negative integer @var{scalar}. The lists returned by @code{integer->hilbert-coordinates} for @var{scalar} arguments
0 and 1 will differ in the first element.
+
+
+@defunx integer->hilbert-coordinates scalar rank k
+
+@var{scalar} must be a nonnegative integer of no more than
+@code{@var{rank}*@var{k}} bits.
+
+@code{integer->hilbert-coordinates} Returns a list of @var{rank} @var{k}-bit nonnegative integer
+coordinates corresponding to exact non-negative integer @var{scalar}. The
+curves generated by @code{integer->hilbert-coordinates} have the same alignment independent of
+@var{k}.
@end defun
+
@defun hilbert-coordinates->integer coords
+
+@defunx hilbert-coordinates->integer coords k
Returns an exact non-negative integer corresponding to @var{coords}, a list
of non-negative integer coordinates.
@end defun
+
+@subsubsection Gray code
+
+@cindex Gray code
+@noindent
+A @dfn{Gray code} is an ordering of non-negative integers in which
+@cindex Gray code
+exactly one bit differs between each pair of successive elements. There
+are multiple Gray codings. An n-bit Gray code corresponds to a
+Hamiltonian cycle on an n-dimensional hypercube.
+
+@noindent
+Gray codes find use communicating incrementally changing values between
+asynchronous agents. De-laminated Gray codes comprise the coordinates
+of Hilbert space-filling curves.
+
+
+@defun integer->gray-code k
+Converts @var{k} to a Gray code of the same @code{integer-length} as
+@var{k}.
+
+@defunx gray-code->integer k
+Converts the Gray code @var{k} to an integer of the same
+@code{integer-length} as @var{k}.
+
+For any non-negative integer @var{k},
+@example
+(eqv? k (gray-code->integer (integer->gray-code k)))
+@end example
+@end defun
+
+@defun = k1 k2
+@defunx gray-code<? k1 k2
+@defunx gray-code>? k1 k2
+@defunx gray-code<=? k1 k2
+@defunx gray-code>=? k1 k2
+These procedures return #t if their Gray code arguments are
+(respectively): equal, monotonically increasing, monotonically
+decreasing, monotonically nondecreasing, or monotonically nonincreasing.
+
+For any non-negative integers @var{k1} and @var{k2}, the Gray code
+predicate of @code{(integer->gray-code k1)} and
+@code{(integer->gray-code k2)} will return the same value as the
+corresponding predicate of @var{k1} and @var{k2}.
+@end defun
+
+@subsubsection Bitwise Lamination
+@cindex lamination
+
+
+@defun bitwise-laminate k1 @dots{}
+@defunx bitwise-delaminate count k
+
+Returns an integer composed of the bits of @var{k1} @dots{} interlaced
+in argument order. Given @var{k1}, @dots{} @var{kn}, the n low-order
+bits of the returned value will be the lowest-order bit of each
+argument.
+
+
+@defunx bitwise-laminate count k
+Returns a list of @var{count} integers comprised of every @var{count}h
+bit of the integer @var{k}.
+
+@example
+(map (lambda (k) (number->string k 2))
+ (bitwise-delaminate 4 #x7654))
+ @result{} ("0" "1111" "1100" "1010")
+(number->string (bitwise-laminate 0 #b1111 #b1100 #b1010) 16)
+ @result{} "7654"
+@end example
+
+For any non-negative integers @var{k} and @var{count}:
+@example
+(eqv? k (bitwise-laminate (bitwise-delaminate count k)))
+@end example
+@end defun
+
+
+@defun delaminate-list count ks
+
+
+Returns a list of @var{count} integers comprised of the @var{j}th
+bit of the integers @var{ks} where @var{j} ranges from @var{count}-1
+to 0.
+
+@example
+(map (lambda (k) (number->string k 2))
+ (delaminate-list 4 '(7 6 5 4 0 0 0 0)))
+ @result{} ("0" "11110000" "11000000" "10100000")
+@end example
+
+@code{delaminate-list} is its own inverse:
+@example
+(delaminate-list 8 (delaminate-list 4 '(7 6 5 4 0 0 0 0)))
+ @result{} (7 6 5 4 0 0 0 0)
+@end example
+@end defun
+
diff --git a/pnm.scm b/pnm.scm
index 96961f7..2bfa4ae 100644
--- a/pnm.scm
+++ b/pnm.scm
@@ -40,6 +40,21 @@
(loop (read-char port))
(slib:error chr 'unexpected 'character))))))
+;; Comments beginning with "#" and ending with newline are permitted in
+;; the header of a pnm file.
+(define (pnm:read-value port)
+ (let loop ()
+ (let ((chr (peek-char port)))
+ (cond ((eof-object? chr)
+ (slib:error 'unexpected 'eof port))
+ ((char-whitespace? chr)
+ (read-char port)
+ (loop))
+ ((char=? chr #\#)
+ (read-line port)
+ (loop))
+ (else (read port))))))
+
;;@args path
;;The string @1 must name a @dfn{portable bitmap graphics} file.
;;@0 returns a list of 4 items:
@@ -84,22 +99,44 @@
(char-numeric? c2)
(char-whitespace? (peek-char port)))
(let* ((format (string->symbol (string #\p c2)))
- (width (read port))
- (height (read port))
+ (width (pnm:read-value port))
+ (height (pnm:read-value port))
(ret
(case format
((p1) (list 'pbm width height 1))
((p4) (list 'pbm-raw width height 1))
- ((p2) (list 'pgm width height (read port)))
- ((p5) (list 'pgm-raw width height (read port)))
- ((p3) (list 'ppm width height (read port)))
- ((p6) (list 'ppm-raw width height (read port)))
+ ((p2) (list 'pgm width height (pnm:read-value port)))
+ ((p5) (list 'pgm-raw width height (pnm:read-value port)))
+ ((p3) (list 'ppm width height (pnm:read-value port)))
+ ((p6) (list 'ppm-raw width height (pnm:read-value port)))
(else #f))))
(and (char-whitespace? (read-char port)) ret)))
(else #f)))
(call-with-open-ports (open-file port 'rb) pnm:type-dimensions)))
-(define (pnm:read-bit-vector! array port)
+(define (pnm:write-bits array port)
+ (define dims (array-dimensions array))
+ (let* ((height (car (array-dimensions array)))
+ (width (cadr (array-dimensions array)))
+ (wid8 (logand -8 width)))
+ (do ((jdx 0 (+ 1 jdx)))
+ ((>= jdx height))
+ (let ((row (subarray array jdx)))
+ (do ((idx 0 (+ 8 idx)))
+ ((>= idx wid8)
+ (if (< idx width)
+ (do ((idx idx (+ 1 idx))
+ (bdx 7 (+ -1 bdx))
+ (bts 0 (+ bts (ash (if (array-ref row idx) 1 0) bdx))))
+ ((>= idx width)
+ (write-byte bts port)))))
+ (do ((idx idx (+ 1 idx))
+ (bdx 7 (+ -1 bdx))
+ (bts 0 (+ bts bts (if (array-ref row idx) 1 0))))
+ ((negative? bdx)
+ (write-byte bts port))))))))
+
+(define (pnm:read-bits! array port)
(define dims (array-dimensions array))
(let* ((height (car (array-dimensions array)))
(width (cadr (array-dimensions array)))
@@ -147,7 +184,11 @@
(lambda (port)
(apply (lambda (type width height max-pixel)
(define (read-binary)
- (array-map! array (lambda () (read-byte port)))
+ (array-map! array
+ (if (<= max-pixel 256)
+ (lambda () (read-byte port))
+ (lambda () (define hib (read-byte port))
+ (+ (* 256 hib) (read-byte port)))))
(if (eof-object? (peek-char port)) array
(slib:error type 'not 'at 'file 'end)))
(define (read-text)
@@ -163,36 +204,34 @@
(case type
((pbm)
(or array
- (set! array (create-array (At1) height width)))
+ (set! array (make-array (A:bool) height width)))
(read-pbm))
((pgm)
(or array
- (set! array (create-array
- ((if (<= max-pixel 256) Au8 Au16))
+ (set! array (make-array
+ ((if (<= max-pixel 256) A:fixN8b A:fixN16b))
height width)))
(read-text))
((ppm)
(or array
- (set! array (create-array
- ((if (<= max-pixel 256) Au8 Au16))
+ (set! array (make-array
+ ((if (<= max-pixel 256) A:fixN8b A:fixN16b))
height width 3)))
(read-text))
((pbm-raw)
(or array
- (set! array (create-array (At1) height width)))
- (pnm:read-bit-vector! array port))
+ (set! array (make-array (A:bool) height width)))
+ (pnm:read-bits! array port))
((pgm-raw)
(or array
- (set! array (create-array (Au8) height width)))
+ (set! array (make-array (A:fixN8b) height width)))
(read-binary))
((ppm-raw)
(or array
- (set! array (create-array (Au8) height width 3)))
+ (set! array (make-array (A:fixN8b) height width 3)))
(read-binary))))
(pnm:type-dimensions port)))))
-;; ARRAY is required to be zero-based.
-
;;@args type array maxval path comment @dots{}
;;
;;Writes the contents of @2 to a @1 image file named @4. The file
@@ -225,12 +264,15 @@
(newline port)
(if (not (boolean? (array-ref array 0 0)))
(slib:error 'pnm:array-write "expected bit-array" array))
- (uniform-array-write array port))
+ (pnm:write-bits array port))
((pgm-raw ppm-raw)
(newline port)
- ;;(uniform-array-write array port)
- (array-for-each (lambda (byt) (write-byte byt port)) array)
- )
+ (array-for-each (if (<= maxval 256)
+ (lambda (byt) (write-byte byt port))
+ (lambda (byt)
+ (write-byte (quotient byt 256) port)
+ (write-byte (modulo byt 256) port)))
+ array))
((pbm)
(do ((i 0 (+ i 1)))
((>= i height))
diff --git a/pnm.txi b/pnm.txi
index 67105ad..2f7ae88 100644
--- a/pnm.txi
+++ b/pnm.txi
@@ -40,6 +40,7 @@ are from 0 to @var{maxval}
@end table
@end defun
+
@defun pnm:image-file->array path array
@@ -56,6 +57,7 @@ Reads the @dfn{portable bitmap graphics} file named by @var{path} into
@cindex portable bitmap graphics
@end defun
+
@defun pnm:array-write type array maxval path comment @dots{}
@@ -64,3 +66,4 @@ will have pixel values between 0 and @var{maxval}, which must be compatible
with @var{type}. For @samp{pbm} files, @var{maxval} must be @samp{1}.
@var{comment}s are included in the file header.
@end defun
+
diff --git a/ppfile.scm b/ppfile.scm
index 342e0fc..6c419dd 100644
--- a/ppfile.scm
+++ b/ppfile.scm
@@ -33,8 +33,7 @@
(fun outport)
(call-with-output-file outport fun))))
(lambda (export)
- (let ((old-load-pathname *load-pathname*))
- (set! *load-pathname* inport)
+ (with-load-pathname inport
(letrec ((lp (lambda (c)
(cond ((eof-object? c))
((char-whitespace? c)
@@ -62,8 +61,8 @@
(read-char port)
(set! c (peek-char port))))
(lp c))))))))
- (lp (peek-char port)))
- (set! *load-pathname* old-load-pathname)))))))
+ (lambda ()
+ (lp (peek-char port))))))))))
;@
(define (pprint-file ifile . optarg)
(pprint-filter-file ifile
diff --git a/printf.scm b/printf.scm
index 54d583e..28bca59 100644
--- a/printf.scm
+++ b/printf.scm
@@ -393,7 +393,7 @@
((#\f #\F) (f digs exp #f))
((#\g #\G) (g digs exp))
((#\k) (k digs exp ""))
- ((#\K) (k digs exp " "))))
+ ((#\K) (k digs exp "."))))
(append (format-real signed? sgn digs exp)
(apply format-real #t rest)
'("i"))))
diff --git a/priorque.txi b/priorque.txi
index a1cd195..9306a89 100644
--- a/priorque.txi
+++ b/priorque.txi
@@ -14,20 +14,24 @@ Returns a binary heap suitable which can be used for priority queue
operations.
@end defun
+
@defun heap-length heap
Returns the number of elements in @var{heap}.
@end defun
+
@deffn {Procedure} heap-insert! heap item
Inserts @var{item} into @var{heap}. @var{item} can be inserted multiple
times. The value returned is unspecified.
@end deffn
+
@deffn {Procedure} heap-extract-max! heap
Returns the item which is larger than all others according to the
@var{pred<?} argument to @code{make-heap}. If there are no items in
@var{heap}, an error is signaled.
@end deffn
+
diff --git a/pscheme.init b/pscheme.init
index b791df6..a4012d2 100644
--- a/pscheme.init
+++ b/pscheme.init
@@ -18,9 +18,6 @@
(number->string (caddr v)))))
(define (scheme-implementation-home-page) "http://www.mazama.net/scheme/pscheme.htm")
-
-(define in-vicinity string-append)
-
(define (implementation-vicinity) "\\Program Files\\Pocket Scheme\\")
(define (library-vicinity) (in-vicinity (implementation-vicinity) "slib\\"))
(define (home-vicinity) "\\My Documents\\")
@@ -28,74 +25,148 @@
;(define (implementation-vicinity) "D:\\SRC\\PSCHEME\\BUILD\\TARGET\\X86\\NT\\DBG\\")
;(define (library-vicinity) "D:\\SRC\\SLIB\\")
;(define (home-vicinity) "D:\\SRC\\PSCHEME\\")
-
+;@
+(define in-vicinity string-append)
+;@
+(define (user-vicinity)
+ (case (software-type)
+ ((VMS) "[.]")
+ (else "")))
+
+(define *load-pathname* #f)
+;@
+(define vicinity:suffix?
+ (let ((suffi
+ (case (software-type)
+ ((AMIGA) '(#\: #\/))
+ ((MACOS THINKC) '(#\:))
+ ((MS-DOS WINDOWS ATARIST OS/2) '(#\\ #\/))
+ ((NOSVE) '(#\: #\.))
+ ((UNIX COHERENT PLAN9) '(#\/))
+ ((VMS) '(#\: #\]))
+ (else
+ (slib:warn "require.scm" 'unknown 'software-type (software-type))
+ "/"))))
+ (lambda (chr) (and (memv chr suffi) #t))))
+;@
+(define (pathname->vicinity pathname)
+ (let loop ((i (- (string-length pathname) 1)))
+ (cond ((negative? i) "")
+ ((vicinity:suffix? (string-ref pathname i))
+ (substring pathname 0 (+ i 1)))
+ (else (loop (- i 1))))))
+(define (program-vicinity)
+ (if *load-pathname*
+ (pathname->vicinity *load-pathname*)
+ (slib:error 'program-vicinity " called; use slib:load to load")))
+;@
+(define sub-vicinity
+ (case (software-type)
+ ((VMS) (lambda
+ (vic name)
+ (let ((l (string-length vic)))
+ (if (or (zero? (string-length vic))
+ (not (char=? #\] (string-ref vic (- l 1)))))
+ (string-append vic "[" name "]")
+ (string-append (substring vic 0 (- l 1))
+ "." name "]")))))
+ (else (let ((*vicinity-suffix*
+ (case (software-type)
+ ((NOSVE) ".")
+ ((MACOS THINKC) ":")
+ ((MS-DOS WINDOWS ATARIST OS/2) "\\")
+ ((UNIX COHERENT PLAN9 AMIGA) "/"))))
+ (lambda (vic name)
+ (string-append vic name *vicinity-suffix*))))))
+;@
+(define (make-vicinity <pathname>) <pathname>)
+;@
+(define with-load-pathname
+ (let ((exchange
+ (lambda (new)
+ (let ((old *load-pathname*))
+ (set! *load-pathname* new)
+ old))))
+ (lambda (path thunk)
+ (let ((old #f))
+ (dynamic-wind
+ (lambda () (set! old (exchange path)))
+ thunk
+ (lambda () (exchange old)))))))
+
+;;@ *FEATURES* is a list of symbols naming the (SLIB) features
+;;; initially supported by this implementation.
(define *features*
'(
source ;can load scheme source files
- ;(slib:load-source "filename")
-; compiled ;can load compiled files
- ;(slib:load-compiled "filename")
+ ;(SLIB:LOAD-SOURCE "filename")
+;;; compiled ;can load compiled files
+ ;(SLIB:LOAD-COMPILED "filename")
+ vicinity
+ srfi-59
;; Scheme report features
+ ;; R5RS-compliant implementations should provide all 9 features.
-; r5rs ;conforms to
+;;; r5rs ;conforms to
eval ;R5RS two-argument eval
-; values ;R5RS multiple values
+;;; values ;R5RS multiple values
dynamic-wind ;R5RS dynamic-wind
-; macro ;R5RS high level macros
+;;; macro ;R5RS high level macros
delay ;has DELAY and FORCE
multiarg-apply ;APPLY can take more than 2 args.
char-ready?
+ rev4-optional-procedures ;LIST-TAIL, STRING-COPY,
+ ;STRING-FILL!, and VECTOR-FILL!
+
+ ;; These four features are optional in both R4RS and R5RS
+
+ multiarg/and- ;/ and - can take more than 2 args.
rationalize
- rev4-optional-procedures ;LIST-TAIL, STRING->LIST,
- ;LIST->STRING, STRING-COPY,
- ;STRING-FILL!, LIST->VECTOR,
- ;VECTOR->LIST, and VECTOR-FILL!
+;;; transcript ;TRANSCRIPT-ON and TRANSCRIPT-OFF
+ with-file ;has WITH-INPUT-FROM-FILE and
+ ;WITH-OUTPUT-TO-FILE
r4rs ;conforms to
ieee-p1178 ;conforms to
-; r3rs ;conforms to
+;;; r3rs ;conforms to
-; rev2-procedures ;SUBSTRING-MOVE-LEFT!,
+;;; rev2-procedures ;SUBSTRING-MOVE-LEFT!,
;SUBSTRING-MOVE-RIGHT!,
;SUBSTRING-FILL!,
;STRING-NULL?, APPEND!, 1+,
;-1+, <?, <=?, =?, >?, >=?
-; object-hash ;has OBJECT-HASH
+;;; object-hash ;has OBJECT-HASH
- multiarg/and- ;/ and - can take more than 2 args.
- with-file ;has WITH-INPUT-FROM-FILE and
- ;WITH-OUTPUT-TO-FILE
-; transcript ;TRANSCRIPT-ON and TRANSCRIPT-OFF
-; ieee-floating-point ;conforms to IEEE Standard 754-1985
+ full-continuation ;can return multiple times
+;;; ieee-floating-point ;conforms to IEEE Standard 754-1985
;IEEE Standard for Binary
;Floating-Point Arithmetic.
- full-continuation ;can return multiple times
;; Other common features
-; srfi ;srfi-0, COND-EXPAND finds all srfi-*
-; sicp ;runs code from Structure and
+;;; srfi ;srfi-0, COND-EXPAND finds all srfi-*
+;;; sicp ;runs code from Structure and
;Interpretation of Computer
;Programs by Abelson and Sussman.
defmacro ;has Common Lisp DEFMACRO
-; record ;has user defined data structures
+;;; record ;has user defined data structures
string-port ;has CALL-WITH-INPUT-STRING and
;CALL-WITH-OUTPUT-STRING
-; sort
-; pretty-print
-; object->string
-; format ;Common-lisp output formatting
+;;; sort
+;;; pretty-print
+;;; object->string
+;;; format ;Common-lisp output formatting
; Undef this to get the SLIB TRACE macros
-; trace ;has macros: TRACE and UNTRACE
-; compiler ;has (COMPILER)
-; ed ;(ED) is editor
+;;; trace ;has macros: TRACE and UNTRACE
+;;; compiler ;has (COMPILER)
+;;; ed ;(ED) is editor
system ;posix (system <string>)
-; getenv ;posix (getenv <string>)
-; program-arguments ;returns list of strings (argv)
-; current-time ;returns time in seconds since 1/1/1970
+;;; getenv ;posix (getenv <string>)
+;;; program-arguments ;returns list of strings (argv)
+;;; current-time ;returns time in seconds since 1/1/1970
;; Implementation Specific features
@@ -194,18 +265,7 @@
(define base:eval slib:eval)
(define defmacro:eval slib:eval)
-
-(define (slib:eval-load <pathname> evl)
- (if (not (file-exists? <pathname>))
- (set! <pathname> (string-append <pathname> (scheme-file-suffix))))
- (call-with-input-file <pathname>
- (lambda (port)
- (let ((old-load-pathname *load-pathname*))
- (set! *load-pathname* <pathname>)
- (do ((o (read port) (read port)))
- ((eof-object? o))
- (evl o))
- (set! *load-pathname* old-load-pathname)))))
+;; slib:eval-load definition moved to "require.scm"
(define (defmacro:load <pathname>)
(slib:eval-load <pathname> defmacro:eval))
@@ -250,7 +310,7 @@
(define 1- -1+)
;;; Define SLIB:EXIT to be the implementation procedure to exit or
-;;; return if exitting not supported.
+;;; return if exiting not supported.
(define slib:exit exit)
;;; Here for backward compatability
diff --git a/psxtime.scm b/psxtime.scm
index 753e81f..fed0707 100644
--- a/psxtime.scm
+++ b/psxtime.scm
@@ -19,106 +19,32 @@
;;; No, it doesn't do leap seconds.
+(require 'time-core)
(require-if 'compiling 'time-zone)
-
-(define time:days/month
- '#(#(31 28 31 30 31 30 31 31 30 31 30 31) ; Normal years.
- #(31 29 31 30 31 30 31 31 30 31 30 31)))
-(define (leap-year? year)
- (and (zero? (remainder year 4))
- (or (not (zero? (remainder year 100)))
- (zero? (remainder year 400))))) ; Leap years.
-
-;;; Returns the `struct tm' representation of T,
-;;; offset TM_GMTOFF seconds east of UCT.
-(define (time:split t tm_isdst tm_gmtoff tm_zone)
- (set! t (difftime t tm_gmtoff))
- (let* ((secs (modulo t 86400)) ; SECS/DAY
- (days (+ (quotient t 86400) ; SECS/DAY
- (if (and (negative? t) (positive? secs)) -1 0))))
- (let ((tm_hour (quotient secs 3600))
- (secs (remainder secs 3600))
- (tm_wday (modulo (+ 4 days) 7))) ; January 1, 1970 was a Thursday.
- (let loop ((tm_year 1970)
- (tm_yday days))
- (let ((diy (if (leap-year? tm_year) 366 365)))
- (cond
- ((negative? tm_yday) (loop (+ -1 tm_year) (+ tm_yday diy)))
- ((>= tm_yday diy) (loop (+ 1 tm_year) (- tm_yday diy)))
- (else
- (let* ((mv (vector-ref time:days/month (- diy 365))))
- (do ((tm_mon 0 (+ 1 tm_mon))
- (tm_mday tm_yday (- tm_mday (vector-ref mv tm_mon))))
- ((< tm_mday (vector-ref mv tm_mon))
- (vector
- (remainder secs 60) ; Seconds. [0-61] (2 leap seconds)
- (quotient secs 60) ; Minutes. [0-59]
- tm_hour ; Hours. [0-23]
- (+ tm_mday 1) ; Day. [1-31]
- tm_mon ; Month. [0-11]
- (- tm_year 1900) ; Year - 1900.
- tm_wday ; Day of week. [0-6]
- tm_yday ; Days in year. [0-365]
- tm_isdst ; DST. [-1/0/1]
- tm_gmtoff ; Seconds west of UTC.
- tm_zone ; Timezone abbreviation.
- )))))))))))
;@
-(define (gmtime t)
- (time:split t 0 0 "GMT"))
+(define (tz:std-offset zone)
+ (case (vector-ref zone 0)
+ ((tz:fixed) (vector-ref zone 3))
+ ((tz:rule) (vector-ref zone 4))
+ ((tz:file)
+ (let ((mode-table (vector-ref zone 2)))
+ (do ((type-idx 0 (+ 1 type-idx)))
+ ((or (>= type-idx (vector-length mode-table))
+ (not (vector-ref (vector-ref mode-table type-idx) 2)))
+ (if (>= type-idx (vector-length mode-table))
+ (vector-ref (vector-ref mode-table 0) 1)
+ (- (vector-ref (vector-ref mode-table type-idx) 1)))))))
+ (else (slib:error 'tz:std-offset "unknown timezone type" zone))))
;@
(define (localtime caltime . tz)
(require 'time-zone)
(set! tz (if (null? tz) (tzset) (car tz)))
(apply time:split caltime (tz:params caltime tz)))
-
-(define time:year-70
- (let* ((t (current-time)))
- (offset-time (offset-time t (- (difftime t 0))) (* -70 32140800))))
-
-(define (time:invert decoder target)
- (let* ((times '#(1 60 3600 86400 2678400 32140800))
- (trough ; rough time for target
- (do ((i 5 (+ i -1))
- (trough time:year-70
- (offset-time trough (* (vector-ref target i)
- (vector-ref times i)))))
- ((negative? i) trough))))
-;;; (print 'trough trough 'target target)
- (let loop ((guess trough)
- (j 0)
- (guess-tm (decoder trough)))
-;;; (print 'guess guess 'guess-tm guess-tm)
- (do ((i 5 (+ i -1))
- (rough time:year-70
- (offset-time rough (* (vector-ref guess-tm i)
- (vector-ref times i))))
- (sign (let ((d (- (vector-ref target 5)
- (vector-ref guess-tm 5))))
- (and (not (zero? d)) d))
- (or sign
- (let ((d (- (vector-ref target i)
- (vector-ref guess-tm i))))
- (and (not (zero? d)) d)))))
- ((negative? i)
- (let* ((distance (abs (- trough rough))))
- (cond ((and (zero? distance) sign)
-;;; (print "trying to jump")
- (set! distance (if (negative? sign) -86400 86400)))
- ((and sign (negative? sign)) (set! distance (- distance))))
- (set! guess (offset-time guess distance))
-;;; (print 'distance distance 'sign sign)
- (cond ((zero? distance) guess)
- ((> j 5) #f) ;to prevent inf loops.
- (else
- (loop guess
- (+ 1 j)
- (decoder guess))))))))))
;@
(define (mktime univtime . tz)
(require 'time-zone)
(set! tz (if (null? tz) (tzset) (car tz)))
- (+ (gmktime univtime) (tz:std-offset tz)))
+ (offset-time (gmktime univtime) (tz:std-offset tz)))
;@
(define (gmktime univtime)
(time:invert time:gmtime univtime))
@@ -150,8 +76,65 @@
(time:asctime (time:gmtime time)))
;;; GMT Local -- take optional 2nd TZ arg
-(define time:gmtime gmtime) (define time:localtime localtime)
+;;@
+(define gmtime time:gmtime)
+
+(define time:localtime localtime)
;;(define time:gmktime gmktime) (define time:mktime mktime)
;;(define time:gtime gtime) (define time:ctime ctime)
(define time:asctime asctime)
+
+;@
+(define daylight? #f)
+(define *timezone* 0)
+(define tzname '#("UTC" "???"))
+
+(define tz:default #f)
+
+;;;@ Interpret the TZ envariable.
+(define (tzset . opt-tz)
+ (define tz (if (null? opt-tz)
+ (getenv "TZ")
+ (car opt-tz)))
+ (if (or (not tz:default)
+ (and (string? tz) (not (string-ci=? tz (vector-ref tz:default 1)))))
+ (let ()
+ (require 'time-zone)
+ (set! tz:default (or (time-zone tz) '#(tz:fixed "UTC" "GMT" 0)))))
+ (case (vector-ref tz:default 0)
+ ((tz:fixed)
+ (set! tzname (vector (vector-ref tz:default 2) "???"))
+ (set! daylight? #f)
+ (set! *timezone* (vector-ref tz:default 3)))
+ ((tz:rule)
+ (set! tzname (vector (vector-ref tz:default 2)
+ (vector-ref tz:default 3)))
+ (set! daylight? #t)
+ (set! *timezone* (vector-ref tz:default 4)))
+ ((tz:file)
+ (let ((mode-table (vector-ref tz:default 2))
+ (transition-types (vector-ref tz:default 5)))
+ (set! daylight? #f)
+ (set! *timezone* (vector-ref (vector-ref mode-table 0) 1))
+ (set! tzname (make-vector 2 #f))
+ (do ((type-idx 0 (+ 1 type-idx)))
+ ((>= type-idx (vector-length mode-table)))
+ (let ((rec (vector-ref mode-table type-idx)))
+ (if (vector-ref rec 2)
+ (set! daylight? #t)
+ (set! *timezone* (- (vector-ref rec 1))))))
+
+ (do ((transition-idx (+ -1 (vector-length transition-types))
+ (+ -1 transition-idx)))
+ ((or (negative? transition-idx)
+ (and (vector-ref tzname 0) (vector-ref tzname 1))))
+ (let ((rec (vector-ref mode-table
+ (vector-ref transition-types transition-idx))))
+ (if (vector-ref rec 2)
+ (if (not (vector-ref tzname 1))
+ (vector-set! tzname 1 (vector-ref rec 0)))
+ (if (not (vector-ref tzname 0))
+ (vector-set! tzname 0 (vector-ref rec 0))))))))
+ (else (slib:error 'tzset "unknown timezone type" tz)))
+ tz:default)
diff --git a/qp.scm b/qp.scm
index 0bfbef2..1dedf66 100644
--- a/qp.scm
+++ b/qp.scm
@@ -80,14 +80,17 @@
(qp-string
(lambda (str room)
+ (define len (string-length str))
+ (define mid (quotient (- room 3) 2))
(cond
- ((>= (string-length str) room 3)
- (display (substring str 0 (- room 3)))
+ ((>= len room 3)
+ (display (substring str 0 (- room 3 mid)))
(display "...")
+ (display (substring str (- len mid) len))
room)
(else
(display str)
- (string-length str)))))
+ len))))
(qp-obj
(lambda (obj room)
diff --git a/queue.txi b/queue.txi
index 4590f34..efa6411 100644
--- a/queue.txi
+++ b/queue.txi
@@ -13,26 +13,31 @@ called @dfn{dequeues}). A queue may also be used like a stack.
Returns a new, empty queue.
@end defun
+
@defun queue? obj
Returns @code{#t} if @var{obj} is a queue.
@end defun
+
@defun queue-empty? q
Returns @code{#t} if the queue @var{q} is empty.
@end defun
+
@deffn {Procedure} queue-push! q datum
Adds @var{datum} to the front of queue @var{q}.
@end deffn
+
@deffn {Procedure} enqueue! q datum
Adds @var{datum} to the rear of queue @var{q}.
@end deffn
+
@deffn {Procedure} dequeue! q
@deffnx {Procedure} queue-pop! q
@@ -40,6 +45,7 @@ Both of these procedures remove and return the datum at the front of
the queue. @code{queue-pop!} is used to suggest that the queue is
being used like a stack.
@end deffn
+
All of the following functions raise an error if the queue @var{q}
is empty.
@@ -49,12 +55,15 @@ is empty.
Removes and returns (the list) of all contents of queue @var{q}.
@end deffn
+
@defun queue-front q
Returns the datum at the front of the queue @var{q}.
@end defun
+
@defun queue-rear q
Returns the datum at the rear of the queue @var{q}.
@end defun
+
diff --git a/randinex.txi b/randinex.txi
index b73f983..88dff74 100644
--- a/randinex.txi
+++ b/randinex.txi
@@ -10,6 +10,7 @@ Returns an uniformly distributed inexact real random number in the
range between 0 and 1.
@end defun
+
@defun random:exp
@@ -19,6 +20,7 @@ an exponential distribution with mean @var{u} use
@w{@code{(* @var{u} (random:exp))}}.
@end defun
+
@defun random:normal
@@ -29,6 +31,7 @@ standard deviation @var{d} use
@w{@code{(+ @var{m} (* @var{d} (random:normal)))}}.
@end defun
+
@deffn {Procedure} random:normal-vector! vect
@@ -37,6 +40,7 @@ Fills @var{vect} with inexact real random numbers which are independent
and standard normally distributed (i.e., with mean 0 and variance 1).
@end deffn
+
@deffn {Procedure} random:hollow-sphere! vect
@@ -47,6 +51,7 @@ of dimension n = @code{(vector-length @var{vect})}, the coordinates are
uniformly distributed over the surface of the unit n-shere.
@end deffn
+
@deffn {Procedure} random:solid-sphere! vect
@@ -57,3 +62,4 @@ space of dimension @var{n} = @code{(vector-length @var{vect})}, the
coordinates are uniformly distributed within the unit @var{n}-shere.
The sum of the squares of the numbers is returned.
@end deffn
+
diff --git a/random.scm b/random.scm
index ac66357..a6259f6 100644
--- a/random.scm
+++ b/random.scm
@@ -62,10 +62,10 @@
(define bitlen (integer-length (+ -1 modu)))
(define (rnd)
(do ((bln bitlen (+ -8 bln))
- (rbs 0 (+ (ash rbs 8) (random:chunk state))))
+ (rbs 0 (+ (arithmetic-shift rbs 8) (random:chunk state))))
((<= bln 7)
(if (positive? bln)
- (set! rbs (logxor (ash rbs bln)
+ (set! rbs (logxor (arithmetic-shift rbs bln)
(random:chunk state))))
(if (< rbs modu) rbs (rnd)))))
(rnd))
diff --git a/random.txi b/random.txi
index ba86c84..3e53905 100644
--- a/random.txi
+++ b/random.txi
@@ -19,6 +19,7 @@ defaults to the value of the variable @code{*random-state*}. This
object is used to maintain the state of the pseudo-random-number
generator and is altered as a side effect of calls to @code{random}.
@end defun
+
@defvar *random-state*
Holds a data structure that encodes the internal state of the
random-number generator that @code{random} uses by default. The nature
@@ -37,6 +38,7 @@ Returns a new copy of argument @var{state}.
Returns a new copy of @code{*random-state*}.
@end defun
+
@defun seed->random-state seed
Returns a new object of type suitable for use as the value of the
@@ -48,6 +50,7 @@ Calling @code{seed->random-state} with unequal arguments will nearly
always return unequal states.
@end defun
+
@defun make-random-state
@@ -61,3 +64,4 @@ is used as the seed.
@end defun
+
diff --git a/ratize.txi b/ratize.txi
index 63b5917..9f6d25a 100644
--- a/ratize.txi
+++ b/ratize.txi
@@ -10,6 +10,7 @@ and produces a reasonable answer for inexact arguments when inexact
arithmetic is implemented using floating-point.
@end defun
+
@code{Rationalize} has limited use in implementations lacking exact
(non-integer) rational numbers. The following procedures return a list
of the numerator and denominator.
@@ -28,6 +29,7 @@ than @var{e}.
@end format
@end defun
+
@defun find-ratio-between x y
@code{find-ratio-between} returns the list of the @emph{simplest}
@@ -39,3 +41,4 @@ numerator and denominator between @var{x} and @var{y}.
}
@end format
@end defun
+
diff --git a/rdms.scm b/rdms.scm
index eb74494..09506bc 100644
--- a/rdms.scm
+++ b/rdms.scm
@@ -17,6 +17,8 @@
;promotional, or sales literature without prior written consent in
;each case.
+(require 'rev4-optional-procedures) ;list-tail
+
(define rdms:catalog-name '*catalog-data*)
(define rdms:domains-name '*domains-data*)
(define rdms:columns-name '*columns*)
@@ -493,7 +495,6 @@
(let ((translate-column
(lambda (column)
- ;;(print 'translate-column column column-name-alist)
(let ((colp (assq column column-name-alist)))
(cond (colp (cdr colp))
((and (integer? column)
@@ -540,7 +541,7 @@
(norm-mkeys mkeys)))))
(else #f)))
(else
- (let ((index (- ci primary-limit 1))
+ (let ((index (- ci (+ primary-limit 1)))
(get-1 (base 'make-getter-1)))
(cond
(get-1
@@ -635,15 +636,16 @@
(define delete-table
(and mutable
(lambda (table-name)
- ;;(or rdms:catalog (set! rdms:catalog (open-table rdms:catalog-name #t)))
- (let* ((table (open-table table-name #t))
- (row ((rdms:catalog 'row:remove) table-name)))
- (and row (base:kill-table
- lldb
- (list-ref row (+ -1 catalog:bastab-id-pos))
- (table 'primary-limit)
- (table 'column-type-list))
- row)))))
+ (or rdms:catalog (set! rdms:catalog (open-table rdms:catalog-name #t)))
+ (and (table-exists? table-name)
+ (let ((table (open-table table-name #t))
+ (row ((rdms:catalog 'row:remove) table-name)))
+ (and row (base:kill-table
+ lldb
+ (list-ref row (+ -1 catalog:bastab-id-pos))
+ (table 'primary-limit)
+ (table 'column-type-list))
+ row))))))
(lambda (operation-name)
(case operation-name
diff --git a/record.scm b/record.scm
index 3935aef..a94bc50 100644
--- a/record.scm
+++ b/record.scm
@@ -14,6 +14,7 @@
;; changed identifiers containing VECTOR to VECT or VCT.
(require 'common-list-functions)
+(require 'rev4-optional-procedures)
(define vector? vector?)
(define vector-ref vector-ref)
diff --git a/repl.scm b/repl.scm
index b7fff38..596f4d7 100644
--- a/repl.scm
+++ b/repl.scm
@@ -1,5 +1,5 @@
; "repl.scm", read-eval-print-loop for Scheme
-; Copyright (c) 1993, 2003 Aubrey Jaffer
+; Copyright (C) 1993, 2003 Aubrey Jaffer
;
;Permission to copy this software, to modify it, to redistribute it,
;to distribute modified versions, and to use it for any purpose is
@@ -46,12 +46,11 @@
(repl:load (lambda (<pathname>)
(call-with-input-file <pathname>
(lambda (port)
- (let ((old-load-pathname *load-pathname*))
- (set! *load-pathname* <pathname>)
- (do ((o (read port) (read port)))
- ((eof-object? o))
- (repl:eval o))
- (set! *load-pathname* old-load-pathname))))))
+ (with-load-pathname <pathname>
+ (lambda ()
+ (do ((o (read port) (read port)))
+ ((eof-object? o))
+ (repl:eval o))))))))
(repl:restart #f)
(has-char-ready? (provided? 'char-ready?))
(repl:error (lambda args (require 'debug) (apply qpn args)
diff --git a/require.scm b/require.scm
index a11cbf5..ec97d7a 100644
--- a/require.scm
+++ b/require.scm
@@ -1,5 +1,5 @@
;;;; Implementation of VICINITY and MODULES for Scheme
-;Copyright (C) 1991, 1992, 1993, 1994, 1997, 2002, 2003 Aubrey Jaffer
+;Copyright (C) 1991, 1992, 1993, 1994, 1997, 2002, 2003, 2005 Aubrey Jaffer
;
;Permission to copy this software, to modify it, to redistribute it,
;to distribute modified versions, and to use it for any purpose is
@@ -17,69 +17,7 @@
;promotional, or sales literature without prior written consent in
;each case.
;@
-(define *SLIB-VERSION* "3a1")
-;@
-(define (user-vicinity)
- (case (software-type)
- ((VMS) "[.]")
- (else "")))
-;@
-(define *load-pathname* #f)
-;@
-(define vicinity:suffix?
- (let ((suffi
- (case (software-type)
- ((AMIGA) '(#\: #\/))
- ((MACOS THINKC) '(#\:))
- ((MS-DOS WINDOWS ATARIST OS/2) '(#\\ #\/))
- ((NOSVE) '(#\: #\.))
- ((UNIX COHERENT PLAN9) '(#\/))
- ((VMS) '(#\: #\])))))
- (lambda (chr) (and (memv chr suffi) #t))))
-;@
-(define (pathname->vicinity pathname)
- (let loop ((i (- (string-length pathname) 1)))
- (cond ((negative? i) "")
- ((vicinity:suffix? (string-ref pathname i))
- (substring pathname 0 (+ i 1)))
- (else (loop (- i 1))))))
-(define (program-vicinity)
- (if *load-pathname*
- (pathname->vicinity *load-pathname*)
- (slib:error 'program-vicinity " called; use slib:load to load")))
-;@
-(define sub-vicinity
- (case (software-type)
- ((VMS) (lambda
- (vic name)
- (let ((l (string-length vic)))
- (if (or (zero? (string-length vic))
- (not (char=? #\] (string-ref vic (- l 1)))))
- (string-append vic "[" name "]")
- (string-append (substring vic 0 (- l 1))
- "." name "]")))))
- (else (let ((*vicinity-suffix*
- (case (software-type)
- ((NOSVE) ".")
- ((MACOS THINKC) ":")
- ((MS-DOS WINDOWS ATARIST OS/2) "\\")
- ((UNIX COHERENT PLAN9 AMIGA) "/"))))
- (lambda (vic name)
- (string-append vic name *vicinity-suffix*))))))
-;@
-(define (make-vicinity <pathname>) <pathname>)
-
-(define (slib:pathnameize-load *old-load*)
- (lambda (<pathname> . extra)
- (let ((old-load-pathname *load-pathname*))
- (set! *load-pathname* <pathname>)
- (apply *old-load* (cons <pathname> extra))
- (set! *load-pathname* old-load-pathname))))
-
-(set! slib:load-source
- (slib:pathnameize-load slib:load-source))
-(set! slib:load
- (slib:pathnameize-load slib:load))
+(define *SLIB-VERSION* "3a2")
;;;; MODULES
;@
@@ -183,7 +121,8 @@
(feval expression))
;@
(define (provided? expression)
- (define feature-list (cons (software-type) *features*))
+ (define feature-list (cons (scheme-implementation-type)
+ (cons (software-type) *features*)))
(define (provided? expression)
(if (memq expression feature-list) #t
(and *catalog*
@@ -242,7 +181,6 @@
(define require:provided? provided?)
(define require:require require)
-(slib:provide 'vicinity)
(if (and (string->number "0.0") (inexact? (string->number "0.0")))
(slib:provide 'inexact))
(if (rational? (string->number "1/19")) (slib:provide 'rational))
@@ -253,6 +191,7 @@
(cond
((slib:provided? 'srfi)
+ (slib:provide 'srfi-59)
(do ((idx 0 (+ 1 idx))
(srfis (symbol->string 'srfi-)))
((> idx 100))
@@ -260,11 +199,33 @@
(if (slib:eval `(cond-expand (,srfi #t) (else #f)))
(slib:provide srfi))))))
+(define (slib:pathnameize-load *old-load*)
+ (lambda (<pathname> . extra)
+ (with-load-pathname <pathname>
+ (lambda ()
+ (apply *old-load* (cons <pathname> extra))))))
+
+(set! slib:load-source
+ (slib:pathnameize-load slib:load-source))
+(set! slib:load
+ (slib:pathnameize-load slib:load))
+
+;@
+(define (slib:eval-load <pathname> evl)
+ (if (not (file-exists? <pathname>))
+ (set! <pathname> (string-append <pathname> (scheme-file-suffix))))
+ (call-with-input-file <pathname>
+ (lambda (port)
+ (with-load-pathname <pathname>
+ (lambda ()
+ (do ((o (read port) (read port)))
+ ((eof-object? o))
+ (evl o)))))))
+
(define report:print
(lambda args
(for-each (lambda (x) (write x) (display #\ )) args)
(newline)))
-
;@
(define slib:report
(let ((slib:report (lambda () (slib:report-version) (slib:report-locations))))
@@ -295,8 +256,6 @@
(report:print '(IMPLEMENTATION-VICINITY) 'is (implementation-vicinity))
(report:print '(LIBRARY-VICINITY) 'is (library-vicinity))
(report:print '(SCHEME-FILE-SUFFIX) 'is (scheme-file-suffix))
- (cond (*load-pathname*
- (report:print '*LOAD-PATHNAME* 'is *load-pathname*)))
(let* ((i (+ -1 5)))
(cond ((eq? (car features) (car *features*)))
(else (report:print 'loaded '*FEATURES* ':) (display slib:tab)))
diff --git a/s48-0_57.init b/s48-0_57.init
deleted file mode 100644
index 672d559..0000000
--- a/s48-0_57.init
+++ /dev/null
@@ -1,412 +0,0 @@
-;;;"scheme48.init" Initialisation for SLIB for Scheme48-0.57 -*-scheme-*-
-;;; Author: Aubrey Jaffer
-;;;
-;;; This code is in the public domain.
-
-,batch on
-,load-package floatnums
-,config
-,load =scheme48/misc/packages.scm
-(define-structure slib-primitives
- (export s48-getenv
- s48-system
- s48-current-error-port
- s48-force-output
- s48-with-handler
- s48-ascii->char
- s48-error)
- (open scheme signals ascii extended-ports i/o primitives handle
- posix c-system-function)
- (begin
- (define s48-getenv lookup-environment-variable)
- (define s48-system system)
- (define s48-current-error-port current-error-port)
- (define s48-force-output force-output)
- (define s48-with-handler with-handler)
- (define s48-ascii->char ascii->char)
- (define s48-error error)))
-,user
-,open slib-primitives
-
-(define getenv s48-getenv)
-(define system s48-system)
-
-;;; (software-type) should be set to the generic operating system type.
-;;; UNIX, VMS, MACOS, AMIGA and MS-DOS are supported.
-(define (software-type) 'UNIX)
-
-;;; (scheme-implementation-type) should return the name of the scheme
-;;; implementation loading this file.
-(define (scheme-implementation-type) 'Scheme48)
-
-;;; (scheme-implementation-home-page) should return a (string) URI
-;;; (Uniform Resource Identifier) for this scheme implementation's home
-;;; page; or false if there isn't one.
-(define (scheme-implementation-home-page) "http://s48.org/")
-
-;;; (scheme-implementation-version) should return a string describing
-;;; the version of the scheme implementation loading this file.
-(define scheme-implementation-version
- (let ((version (getenv "S48_VERSION")))
- (lambda () version)))
-
-;;; (implementation-vicinity) should be defined to be the pathname of
-;;; the directory where any auxiliary files to your Scheme
-;;; implementation reside.
-(define implementation-vicinity
- (let ((vic (getenv "S48_VICINITY")))
- (lambda () vic)))
-
-;;; (library-vicinity) should be defined to be the pathname of the
-;;; directory where files of Scheme library functions reside.
-(define library-vicinity
- (let ((vic (getenv "SCHEME_LIBRARY_PATH")))
- (lambda () vic)))
-
-;;; (home-vicinity) should return the vicinity of the user's HOME
-;;; directory, the directory which typically contains files which
-;;; customize a computer environment for a user.
-;;;
-;;; Ivan Shmakov points out that evaluating (getenv "HOME") when
-;;; compiling captures the installer's home directory. So delay until
-;;; HOME-VICINITY is called.
-(define (home-vicinity)
- (let ((home (getenv "HOME")))
- (and home
- (if (eqv? #\/ (string-ref home (+ -1 (string-length home))))
- home
- (string-append home "/")))))
-
-;;; *FEATURES* should be set to a list of symbols describing features
-;;; of this implementation. See Template.scm for the list of feature
-;;; names.
-(define *features*
- '(
- source ;can load scheme source files
- ;(slib:load-source "filename")
-; compiled ;can load compiled files
- ;(slib:load-compiled "filename")
-
- ;; Scheme report features
-
- r5rs ;conforms to
- eval ;R5RS two-argument eval
- values ;R5RS multiple values
- dynamic-wind ;R5RS dynamic-wind
- macro ;R5RS high level macros
- delay ;has DELAY and FORCE
- multiarg-apply ;APPLY can take more than 2 args.
- char-ready?
- rationalize
- rev4-optional-procedures ;LIST-TAIL, STRING->LIST,
- ;LIST->STRING, STRING-COPY,
- ;STRING-FILL!, LIST->VECTOR,
- ;VECTOR->LIST, and VECTOR-FILL!
-
- r4rs ;conforms to
-
- ieee-p1178 ;conforms to
-
-; r3rs ;conforms to
-
-; rev2-procedures ;SUBSTRING-MOVE-LEFT!,
- ;SUBSTRING-MOVE-RIGHT!,
- ;SUBSTRING-FILL!,
- ;STRING-NULL?, APPEND!, 1+,
- ;-1+, <?, <=?, =?, >?, >=?
-; object-hash ;has OBJECT-HASH
-
-; multiarg/and- ;/ and - can take more than 2 args.
- with-file ;has WITH-INPUT-FROM-FILE and
- ;WITH-OUTPUT-TO-FILE
-; transcript ;TRANSCRIPT-ON and TRANSCRIPT-OFF
-; ieee-floating-point ;conforms to IEEE Standard 754-1985
- ;IEEE Standard for Binary
- ;Floating-Point Arithmetic.
- full-continuation ;can return multiple times
-
- ;; Other common features
-
-; srfi ;srfi-0, COND-EXPAND finds all srfi-*
-; sicp ;runs code from Structure and
- ;Interpretation of Computer
- ;Programs by Abelson and Sussman.
- defmacro ;has Common Lisp DEFMACRO
-; record ;has user defined data structures
-; string-port ;has CALL-WITH-INPUT-STRING and
- ;CALL-WITH-OUTPUT-STRING
-; sort
-; pretty-print
-; object->string
-; format ;Common-lisp output formatting
-; trace ;has macros: TRACE and UNTRACE
-; compiler ;has (COMPILER)
-; ed ;(ED) is editor
- system ;posix (system <string>)
- getenv ;posix (getenv <string>)
-; program-arguments ;returns list of strings (argv)
-; current-time ;returns time in seconds since 1/1/1970
- ;; Implementation Specific features
- ))
-
-;;; (OUTPUT-PORT-WIDTH <port>)
-(define (output-port-width . arg) 79)
-
-;;; (OUTPUT-PORT-HEIGHT <port>)
-(define (output-port-height . arg) 24)
-
-;;; (CURRENT-ERROR-PORT)
-(define current-error-port s48-current-error-port)
-
-;;; (TMPNAM) makes a temporary file name.
-(define tmpnam
- (let ((cntr 100))
- (lambda () (set! cntr (+ 1 cntr))
- (let ((tmp (string-append "slib_" (number->string cntr))))
- (if (file-exists? tmp) (tmpnam) tmp)))))
-
-;;; (FILE-EXISTS? <string>)
-(define (file-exists? f)
- (call-with-current-continuation
- (lambda (k)
- (s48-with-handler
- (lambda (condition decline)
- (k #f))
- (lambda ()
- (close-input-port (open-input-file f))
- #t)))))
-
-;;; (DELETE-FILE <string>)
-(define (delete-file file-name)
- (system (string-append "rm " file-name)))
-
-;;; FORCE-OUTPUT flushes any pending output on optional arg output port
-;;; use this definition if your system doesn't have such a procedure.
-(define (force-output . arg)
- (s48-force-output
- (if (null? arg) (current-output-port) (car arg))))
-
-(define (make-exchanger obj)
- (lambda (rep) (let ((old obj)) (set! obj rep) old)))
-(define (open-file filename modes)
- (case modes
- ((r rb) (open-input-file filename))
- ((w wb) (open-output-file filename))
- (else (slib:error 'open-file 'mode? modes))))
-(define (port? obj) (or (input-port? port) (output-port? port)))
-(define (call-with-open-ports . ports)
- (define proc (car ports))
- (cond ((procedure? proc) (set! ports (cdr ports)))
- (else (set! ports (reverse ports))
- (set! proc (car ports))
- (set! ports (reverse (cdr ports)))))
- (let ((ans (apply proc ports)))
- (for-each close-port ports)
- ans))
-(define (close-port port)
- (cond ((input-port? port)
- (close-input-port port)
- (if (output-port? port) (close-output-port port)))
- ((output-port? port) (close-output-port port))
- (else (slib:error 'close-port 'port? port))))
-
-(define (browse-url url)
- (define (try cmd) (eqv? 0 (system (sprintf #f cmd url))))
- (or (try "netscape-remote -remote 'openURL(%s)'")
- (try "netscape -remote 'openURL(%s)'")
- (try "netscape '%s'&")
- (try "netscape '%s'")))
-
-;;; "rationalize" adjunct procedures.
-(define (find-ratio x e)
- (let ((rat (rationalize x e)))
- (list (numerator rat) (denominator rat))))
-(define (find-ratio-between x y)
- (find-ratio (/ (+ x y) 2) (/ (- x y) 2)))
-
-;;; CHAR-CODE-LIMIT is one greater than the largest integer which can
-;;; be returned by CHAR->INTEGER.
-(define integer->char s48-ascii->char)
-(define char->integer
- (let ((char->integer char->integer)
- (code0 (char->integer (integer->char 0))))
- (lambda (char) (- (char->integer char) code0))))
-(define char-code-limit 256)
-
-;;; Workaround MODULO bug
-(define modulo
- (let ((modulo modulo))
- (lambda (n1 n2)
- (let ((ans (modulo n1 n2)))
- (if (= ans n2) (- ans ans) ans)))))
-
-;;; Workaround atan bug
-(define two-arg:atan atan)
-(define (atan y . x)
- (if (null? x) (two-arg:atan y 1) (two-arg:atan y (car x))))
-
-;;; Workaround inexact->exact and exact->inexact bugs.
-(define inexact->exact
- (let ((i->e inexact->exact))
- (lambda (z)
- (if (exact? z) z (i->e z)))))
-(define exact->inexact
- (let ((e->i exact->inexact))
- (lambda (z)
- (if (inexact? z) z (e->i z)))))
-
-;;; MOST-POSITIVE-FIXNUM is used in modular.scm
-(define most-positive-fixnum #x1FFFFFFF)
-
-;;; Return argument
-(define identity values)
-
-;;; SLIB:EVAL is single argument eval using the top-level (user) environment.
-(define slib:eval
- (let ((eval eval)
- (interaction-environment interaction-environment))
- (lambda (form)
- (eval form (interaction-environment)))))
-
-;;; If your implementation provides R4RS macros:
-(define macro:eval slib:eval)
-(define (macro:load <pathname>)
- (if (not (file-exists? <pathname>))
- (set! <pathname> (string-append <pathname> (scheme-file-suffix))))
- (load <pathname>))
-
-(define *defmacros*
- (list (cons 'defmacro
- (lambda (name parms . body)
- `(set! *defmacros* (cons (cons ',name (lambda ,parms ,@body))
- *defmacros*))))))
-(define (defmacro? m) (and (assq m *defmacros*) #t))
-
-(define (macroexpand-1 e)
- (if (pair? e)
- (let ((a (car e)))
- (cond ((symbol? a) (set! a (assq a *defmacros*))
- (if a (apply (cdr a) (cdr e)) e))
- (else e)))
- e))
-
-(define (macroexpand e)
- (if (pair? e)
- (let ((a (car e)))
- (cond ((symbol? a)
- (set! a (assq a *defmacros*))
- (if a (macroexpand (apply (cdr a) (cdr e))) e))
- (else e)))
- e))
-
-(define gentemp
- (let ((*gensym-counter* -1))
- (lambda ()
- (set! *gensym-counter* (+ *gensym-counter* 1))
- (string->symbol
- (string-append "slib:G" (number->string *gensym-counter*))))))
-
-(define base:eval slib:eval)
-(define (defmacro:eval x) (base:eval (defmacro:expand* x)))
-
-(define defmacro:load macro:load)
-
-(define (slib:eval-load <pathname> evl)
- (if (not (file-exists? <pathname>))
- (set! <pathname> (string-append <pathname> (scheme-file-suffix))))
- (call-with-input-file <pathname>
- (lambda (port)
- (let ((old-load-pathname *load-pathname*))
- (set! *load-pathname* <pathname>)
- (do ((o (read port) (read port)))
- ((eof-object? o))
- (evl o))
- (set! *load-pathname* old-load-pathname)))))
-
-(define slib:warn
- (lambda args
- (let ((cep (current-error-port)))
- ;;(if (provided? 'trace) (print-call-stack cep))
- (display "Warn: " cep)
- (for-each (lambda (x) (display #\ cep) (write x cep)) args))))
-
-;;; define an error procedure for the library
-(define (slib:error . args)
- ;;(if (provided? 'trace) (print-call-stack (current-error-port)))
- (apply s48-error args))
-
-;;; define these as appropriate for your system.
-(define slib:tab (s48-ascii->char 9))
-(define slib:form-feed (s48-ascii->char 12))
-
-;;; Support for older versions of Scheme. Not enough code for its own file.
-(define (last-pair l) (if (pair? (cdr l)) (last-pair (cdr l)) l))
-(define t #t)
-(define nil #f)
-
-;;; Define these if your implementation's syntax can support them and if
-;;; they are not already defined.
-
-(define (1+ n) (+ n 1))
-(define (-1+ n) (+ n -1))
-;(define 1- -1+)
-
-(define in-vicinity string-append)
-
-;;; Define SLIB:EXIT to be the implementation procedure to exit or
-;;; return if exitting not supported.
-(define slib:exit (lambda args #f))
-
-;;; Here for backward compatability
-(define scheme-file-suffix
- (case (software-type)
- ((NOSVE) (lambda () "_scm"))
- (else (lambda () ".scm"))))
-
-;;; (SLIB:LOAD-SOURCE "foo") should load "foo.scm" or with whatever
-;;; suffix all the module files in SLIB have. See feature 'SOURCE.
-(define (slib:load-source f) (load (string-append f (scheme-file-suffix))))
-
-;;; (SLIB:LOAD-COMPILED "foo") should load the file that was produced
-;;; by compiling "foo.scm" if this implementation can compile files.
-;;; See feature 'COMPILED.
-(define slib:load-compiled load)
-
-;;; At this point SLIB:LOAD must be able to load SLIB files.
-(define slib:load slib:load-source)
-
-;;; Scheme48 complains that these are not defined (even though they
-;;; won't be called until they are).
-(define synclo:load #f)
-(define syncase:load #f)
-(define macwork:load #f)
-(define transcript-on #f)
-(define transcript-off #f)
-
-;;; Jacques Mequin wins the Spring 2001 SLIB extreme cleverness award:
-(define-syntax defmacro
- (lambda (e r c)
- (let* ((e-fields (cdr e))
- (macro-name (car e-fields))
- (macro-args (cdr e-fields))
- (slib-store (eval 'defmacro:eval (interaction-environment))))
- (slib-store `(defmacro ,macro-name ,@macro-args)))
- `(define-syntax ,(cadr e)
- (lambda (em rm cm)
- (let ((macro-name ',(cadr e))
- (macro-args (cdr em))
- (slib-eval (eval 'macroexpand-1 (interaction-environment))))
- (slib-eval `(,macro-name ,@macro-args)))))))
-
-(slib:load (in-vicinity (library-vicinity) "require"))
-
-;;; Needed to support defmacro
-(require 'defmacroexpand)
-(define *args* '())
-(define (program-arguments) (cons "scheme48" *args*))
-(set! *catalog* #f)
-
-,collect
-,batch off
-,dump slib.image "(slib 3a1)"
-,exit
diff --git a/saturate.txt b/saturate.txt
index 63aa693..4d73f79 100644
--- a/saturate.txt
+++ b/saturate.txt
@@ -17,6 +17,7 @@
;sales literature without prior written consent in each case.
;Saturated colors from "Approximate Colors on CIE Chromaticity Diagram"
+;Francis S. Hill, "Computer Graphics" Macmillan, 1990, pg. 572
"reddish orange" CIEXYZ:0.658471/0.341258/0.000271188
"orange" CIEXYZ:0.602933/0.396497/0.000570581
diff --git a/sc4opt.scm b/sc4opt.scm
index 156ab92..e3a7819 100644
--- a/sc4opt.scm
+++ b/sc4opt.scm
@@ -27,13 +27,6 @@
(define (list-tail l p)
(if (< p 1) l (list-tail (cdr l) (- p 1))))
;@
-(define (string->list s)
- (do ((i (- (string-length s) 1) (- i 1))
- (l '() (cons (string-ref s i) l)))
- ((< i 0) l)))
-;@
-(define (list->string l) (apply string l))
-;@
(define string-copy string-append)
;@
(define (string-fill! s obj)
@@ -41,13 +34,6 @@
((< i 0))
(string-set! s i obj)))
;@
-(define (list->vector l) (apply vector l))
-;@
-(define (vector->list s)
- (do ((i (- (vector-length s) 1) (- i 1))
- (l '() (cons (vector-ref s i) l)))
- ((< i 0) l)))
-;@
(define (vector-fill! s obj)
(do ((i (- (vector-length s) 1) (- i 1)))
((< i 0))
diff --git a/scamacr.scm b/scamacr.scm
index d7db6c8..9f7300a 100644
--- a/scamacr.scm
+++ b/scamacr.scm
@@ -79,7 +79,7 @@
((let* () e1 e2 ...)
(syntax (let () e1 e2 ...)))
((let* ((x1 v1) (x2 v2) ...) e1 e2 ...)
- (syncase:every identifier? (syntax (x1 x2 ...)))
+ (syncase:andmap identifier? (syntax (x1 x2 ...)))
(syntax (let ((x1 v1)) (let* ((x2 v2) ...) e1 e2 ...)))))))
(define-syntax case
diff --git a/scheme2c.init b/scheme2c.init
index a9dbab9..057dc76 100644
--- a/scheme2c.init
+++ b/scheme2c.init
@@ -58,79 +58,152 @@
home
(string-append home "/")))
(else home)))))
+;@
+(define in-vicinity string-append)
+;@
+(define (user-vicinity)
+ (case (software-type)
+ ((VMS) "[.]")
+ (else "")))
-;;; *FEATURES* should be set to a list of symbols describing features
-;;; of this implementation. See Template.scm for the list of feature
-;;; names.
+(define *load-pathname* #f)
+;@
+(define vicinity:suffix?
+ (let ((suffi
+ (case (software-type)
+ ((AMIGA) '(#\: #\/))
+ ((MACOS THINKC) '(#\:))
+ ((MS-DOS WINDOWS ATARIST OS/2) '(#\\ #\/))
+ ((NOSVE) '(#\: #\.))
+ ((UNIX COHERENT PLAN9) '(#\/))
+ ((VMS) '(#\: #\]))
+ (else
+ (slib:warn "require.scm" 'unknown 'software-type (software-type))
+ "/"))))
+ (lambda (chr) (and (memv chr suffi) #t))))
+;@
+(define (pathname->vicinity pathname)
+ (let loop ((i (- (string-length pathname) 1)))
+ (cond ((negative? i) "")
+ ((vicinity:suffix? (string-ref pathname i))
+ (substring pathname 0 (+ i 1)))
+ (else (loop (- i 1))))))
+(define (program-vicinity)
+ (if *load-pathname*
+ (pathname->vicinity *load-pathname*)
+ (slib:error 'program-vicinity " called; use slib:load to load")))
+;@
+(define sub-vicinity
+ (case (software-type)
+ ((VMS) (lambda
+ (vic name)
+ (let ((l (string-length vic)))
+ (if (or (zero? (string-length vic))
+ (not (char=? #\] (string-ref vic (- l 1)))))
+ (string-append vic "[" name "]")
+ (string-append (substring vic 0 (- l 1))
+ "." name "]")))))
+ (else (let ((*vicinity-suffix*
+ (case (software-type)
+ ((NOSVE) ".")
+ ((MACOS THINKC) ":")
+ ((MS-DOS WINDOWS ATARIST OS/2) "\\")
+ ((UNIX COHERENT PLAN9 AMIGA) "/"))))
+ (lambda (vic name)
+ (string-append vic name *vicinity-suffix*))))))
+;@
+(define (make-vicinity <pathname>) <pathname>)
+;@
+(define with-load-pathname
+ (let ((exchange
+ (lambda (new)
+ (let ((old *load-pathname*))
+ (set! *load-pathname* new)
+ old))))
+ (lambda (path thunk)
+ (let* ((old (exchange path))
+ (val (thunk)))
+ (exchange old)
+ val))))
+
+;;@ *FEATURES* is a list of symbols naming the (SLIB) features
+;;; initially supported by this implementation.
(define *features*
'(
source ;can load scheme source files
- ;(slib:load-source "filename")
-; compiled ;can load compiled files
- ;(slib:load-compiled "filename")
+ ;(SLIB:LOAD-SOURCE "filename")
+;;; compiled ;can load compiled files
+ ;(SLIB:LOAD-COMPILED "filename")
+ vicinity
+ srfi-59
;; Scheme report features
+ ;; R5RS-compliant implementations should provide all 9 features.
-; r5rs ;conforms to
-; eval ;R5RS two-argument eval
-; values ;R5RS multiple values
-; dynamic-wind ;R5RS dynamic-wind
-; macro ;R5RS high level macros
+;;; r5rs ;conforms to
+;;; eval ;R5RS two-argument eval
+;;; values ;R5RS multiple values
+;;; dynamic-wind ;R5RS dynamic-wind
+;;; macro ;R5RS high level macros
delay ;has DELAY and FORCE
multiarg-apply ;APPLY can take more than 2 args.
char-ready?
+ rev4-optional-procedures ;LIST-TAIL, STRING-COPY,
+ ;STRING-FILL!, and VECTOR-FILL!
+
+ ;; These four features are optional in both R4RS and R5RS
+
+ multiarg/and- ;/ and - can take more than 2 args.
rationalize
- rev4-optional-procedures ;LIST-TAIL, STRING->LIST,
- ;LIST->STRING, STRING-COPY,
- ;STRING-FILL!, LIST->VECTOR,
- ;VECTOR->LIST, and VECTOR-FILL!
+ transcript ;TRANSCRIPT-ON and TRANSCRIPT-OFF
+ with-file ;has WITH-INPUT-FROM-FILE and
+ ;WITH-OUTPUT-TO-FILE
r4rs ;conforms to
;; Follows rev4 as far as I can tell, modulo '() being false,
;; number syntax (see doc), incomplete tail recursion (see
;; docs) and a couple of bugs in some versions -- see below.
-; ieee-p1178 ;conforms to
+;;; ieee-p1178 ;conforms to
r3rs ;conforms to
-; rev2-procedures ;SUBSTRING-MOVE-LEFT!,
+;;; rev2-procedures ;SUBSTRING-MOVE-LEFT!,
;SUBSTRING-MOVE-RIGHT!,
;SUBSTRING-FILL!,
;STRING-NULL?, APPEND!, 1+,
;-1+, <?, <=?, =?, >?, >=?
object-hash ;has OBJECT-HASH
- multiarg/and- ;/ and - can take more than 2 args.
- with-file ;has WITH-INPUT-FROM-FILE and
- ;WITH-OUTPUT-TO-FILE
- transcript ;TRANSCRIPT-ON and TRANSCRIPT-OFF
+ full-continuation ;can return multiple times
ieee-floating-point ;conforms to IEEE Standard 754-1985
;IEEE Standard for Binary
;Floating-Point Arithmetic.
- full-continuation ;can return multiple times
;; Other common features
-; srfi ;srfi-0, COND-EXPAND finds all srfi-*
-; sicp ;runs code from Structure and
+;;; srfi ;srfi-0, COND-EXPAND finds all srfi-*
+;;; sicp ;runs code from Structure and
;Interpretation of Computer
;Programs by Abelson and Sussman.
-; defmacro ;has Common Lisp DEFMACRO
-; record ;has user defined data structures
+;;; defmacro ;has Common Lisp DEFMACRO
+;;; record ;has user defined data structures
string-port ;has CALL-WITH-INPUT-STRING and
;CALL-WITH-OUTPUT-STRING
-; sort
+;;; sort
pretty-print
-; object->string
+;;; object->string
format ;Common-lisp output formatting
trace ;has macros: TRACE and UNTRACE
-; compiler ;has (COMPILER)
-; ed ;(ED) is editor
+;;; compiler ;has (COMPILER)
+;;; ed ;(ED) is editor
system ;posix (system <string>)
-; getenv ;posix (getenv <string>)
-; program-arguments ;returns list of strings (argv)
-; current-time ;returns time in seconds since 1/1/1970
+;;; getenv ;posix (getenv <string>)
+;;; program-arguments ;returns list of strings (argv)
+;;; current-time ;returns time in seconds since 1/1/1970
+
+ ;; Implementation Specific features
+
))
(define pretty-print pp)
@@ -267,18 +340,7 @@
;;; If your implementation provides R4RS macros:
;(define macro:eval slib:eval)
;(define macro:load load)
-
-(define (slib:eval-load <pathname> evl)
- (if (not (file-exists? <pathname>))
- (set! <pathname> (string-append <pathname> (scheme-file-suffix))))
- (call-with-input-file <pathname>
- (lambda (port)
- (let ((old-load-pathname *load-pathname*))
- (set! *load-pathname* <pathname>)
- (do ((o (read port) (read port)))
- ((eof-object? o))
- (evl o))
- (set! *load-pathname* old-load-pathname)))))
+;; slib:eval-load definition moved to "require.scm"
(define slib:warn
(lambda args
@@ -331,13 +393,8 @@
;;(define force force)
-;;; (implementation-vicinity) should be defined to be the pathname of
-;;; the directory where any auxillary files to your Scheme
-;;; implementation reside.
-(define in-vicinity string-append)
-
;;; Define SLIB:EXIT to be the implementation procedure to exit or
-;;; return if exitting not supported.
+;;; return if exiting not supported.
(define slib:exit (lambda args (exit)))
;;; Here for backward compatability
diff --git a/scheme48.init b/scheme48.init
index 0640120..8f91d54 100644
--- a/scheme48.init
+++ b/scheme48.init
@@ -8,28 +8,42 @@
,config
,load =scheme48/misc/packages.scm
(define-structure slib-primitives
- (export s48-getenv
+ (export s48-modulo s48-atan s48-char->integer
+ s48-getenv s48-current-time s48-time-seconds
s48-system
s48-current-error-port
s48-force-output
s48-with-handler
s48-ascii->char
- s48-error)
- (open scheme signals ascii extended-ports i/o primitives handle
- unix-getenv ;Comment out for versions >= 0.54
-;;; posix ;Comment out for versions < 0.54
- )
- (begin
- (define s48-getenv
- getenv ;Comment out for versions >= 0.54
-;;; lookup-environment-variable ;Comment out for versions < 0.54
- )
- (define s48-system (lambda (c) (vm-extension 96 c)))
- (define s48-current-error-port current-error-port)
- (define s48-force-output force-output)
- (define s48-with-handler with-handler)
- (define s48-ascii->char ascii->char)
- (define s48-error error)))
+ s48-error s48-warn
+ s48-make-string-input-port
+ s48-make-string-output-port
+ s48-string-output-port-output
+ s48-exit)
+ (open (modify scheme
+ (rename (modulo s48-modulo) (atan s48-atan)
+ (char->integer s48-char->integer)))
+ ; primitives
+ (modify posix
+ (rename (current-time s48-current-time)
+ (time-seconds s48-time-seconds)
+ (lookup-environment-variable s48-getenv)))
+ (modify c-system-function (rename (system s48-system)))
+ (modify i/o
+ (rename (current-error-port s48-current-error-port)
+ (force-output s48-force-output)))
+ (modify handle (rename (with-handler s48-with-handler)))
+ (modify ascii (rename (ascii->char s48-ascii->char)))
+ (modify signals (rename (error s48-error) (warn s48-warn)))
+ (modify root-scheduler (rename (scheme-exit-now s48-exit)))
+ (modify extended-ports
+ (rename (make-string-input-port
+ s48-make-string-input-port)
+ (make-string-output-port
+ s48-make-string-output-port)
+ (string-output-port-output
+ s48-string-output-port-output))))
+ (begin #t))
,user
,open slib-primitives
@@ -71,33 +85,98 @@
;;; (home-vicinity) should return the vicinity of the user's HOME
;;; directory, the directory which typically contains files which
;;; customize a computer environment for a user.
+;;;
+;;; Ivan Shmakov points out that evaluating (getenv "HOME") when
+;;; compiling captures the installer's home directory. So delay until
+;;; HOME-VICINITY is called.
(define (home-vicinity)
(let ((home (getenv "HOME")))
(and home
+ (if (eqv? #\/ (string-ref home (+ -1 (string-length home))))
+ home
+ (string-append home "/")))))
+;@
+(define in-vicinity string-append)
+;@
+(define (user-vicinity)
+ (case (software-type)
+ ((VMS) "[.]")
+ (else "")))
+
+(define *load-pathname* #f)
+;@
+(define vicinity:suffix?
+ (let ((suffi
(case (software-type)
- ((UNIX COHERENT MS-DOS) ;V7 unix has a / on HOME
- (if (eqv? #\/ (string-ref home (+ -1 (string-length home))))
- home
- (string-append home "/")))
- (else home)))))
-
-(let* ((siv (scheme-implementation-version))
- (num-ver (and siv (string->number siv))))
- (cond ((not num-ver))
- ((>= num-ver 0.54)
- (set! system #f))))
-
-;;; *FEATURES* should be set to a list of symbols describing features
-;;; of this implementation. See Template.scm for the list of feature
-;;; names.
+ ((AMIGA) '(#\: #\/))
+ ((MACOS THINKC) '(#\:))
+ ((MS-DOS WINDOWS ATARIST OS/2) '(#\\ #\/))
+ ((NOSVE) '(#\: #\.))
+ ((UNIX COHERENT PLAN9) '(#\/))
+ ((VMS) '(#\: #\]))
+ (else
+ (slib:warn "require.scm" 'unknown 'software-type (software-type))
+ "/"))))
+ (lambda (chr) (and (memv chr suffi) #t))))
+;@
+(define (pathname->vicinity pathname)
+ (let loop ((i (- (string-length pathname) 1)))
+ (cond ((negative? i) "")
+ ((vicinity:suffix? (string-ref pathname i))
+ (substring pathname 0 (+ i 1)))
+ (else (loop (- i 1))))))
+(define (program-vicinity)
+ (if *load-pathname*
+ (pathname->vicinity *load-pathname*)
+ (slib:error 'program-vicinity " called; use slib:load to load")))
+;@
+(define sub-vicinity
+ (case (software-type)
+ ((VMS) (lambda
+ (vic name)
+ (let ((l (string-length vic)))
+ (if (or (zero? (string-length vic))
+ (not (char=? #\] (string-ref vic (- l 1)))))
+ (string-append vic "[" name "]")
+ (string-append (substring vic 0 (- l 1))
+ "." name "]")))))
+ (else (let ((*vicinity-suffix*
+ (case (software-type)
+ ((NOSVE) ".")
+ ((MACOS THINKC) ":")
+ ((MS-DOS WINDOWS ATARIST OS/2) "\\")
+ ((UNIX COHERENT PLAN9 AMIGA) "/"))))
+ (lambda (vic name)
+ (string-append vic name *vicinity-suffix*))))))
+;@
+(define (make-vicinity <pathname>) <pathname>)
+;@
+(define with-load-pathname
+ (let ((exchange
+ (lambda (new)
+ (let ((old *load-pathname*))
+ (set! *load-pathname* new)
+ old))))
+ (lambda (path thunk)
+ (let ((old #f))
+ (dynamic-wind
+ (lambda () (set! old (exchange path)))
+ thunk
+ (lambda () (exchange old)))))))
+
+;;@ *FEATURES* is a list of symbols naming the (SLIB) features
+;;; initially supported by this implementation.
(define *features*
'(
source ;can load scheme source files
- ;(slib:load-source "filename")
-; compiled ;can load compiled files
- ;(slib:load-compiled "filename")
+ ;(SLIB:LOAD-SOURCE "filename")
+;;; compiled ;can load compiled files
+ ;(SLIB:LOAD-COMPILED "filename")
+ vicinity
+ srfi-59
;; Scheme report features
+ ;; R5RS-compliant implementations should provide all 9 features.
r5rs ;conforms to
eval ;R5RS two-argument eval
@@ -107,59 +186,60 @@
delay ;has DELAY and FORCE
multiarg-apply ;APPLY can take more than 2 args.
char-ready?
+ rev4-optional-procedures ;LIST-TAIL, STRING-COPY,
+ ;STRING-FILL!, and VECTOR-FILL!
+
+ ;; These four features are optional in both R4RS and R5RS
+
+;;; multiarg/and- ;/ and - can take more than 2 args.
rationalize
- rev4-optional-procedures ;LIST-TAIL, STRING->LIST,
- ;LIST->STRING, STRING-COPY,
- ;STRING-FILL!, LIST->VECTOR,
- ;VECTOR->LIST, and VECTOR-FILL!
+;;; transcript ;TRANSCRIPT-ON and TRANSCRIPT-OFF
+ with-file ;has WITH-INPUT-FROM-FILE and
+ ;WITH-OUTPUT-TO-FILE
r4rs ;conforms to
ieee-p1178 ;conforms to
-; r3rs ;conforms to
+;;; r3rs ;conforms to
-; rev2-procedures ;SUBSTRING-MOVE-LEFT!,
+;;; rev2-procedures ;SUBSTRING-MOVE-LEFT!,
;SUBSTRING-MOVE-RIGHT!,
;SUBSTRING-FILL!,
;STRING-NULL?, APPEND!, 1+,
;-1+, <?, <=?, =?, >?, >=?
-; object-hash ;has OBJECT-HASH
+;;; object-hash ;has OBJECT-HASH
-; multiarg/and- ;/ and - can take more than 2 args.
- with-file ;has WITH-INPUT-FROM-FILE and
- ;WITH-OUTPUT-TO-FILE
-; transcript ;TRANSCRIPT-ON and TRANSCRIPT-OFF
-; ieee-floating-point ;conforms to IEEE Standard 754-1985
+ full-continuation ;can return multiple times
+;;; ieee-floating-point ;conforms to IEEE Standard 754-1985
;IEEE Standard for Binary
;Floating-Point Arithmetic.
- full-continuation ;can return multiple times
;; Other common features
-; srfi ;srfi-0, COND-EXPAND finds all srfi-*
-; sicp ;runs code from Structure and
+;;; srfi ;srfi-0, COND-EXPAND finds all srfi-*
+;;; sicp ;runs code from Structure and
;Interpretation of Computer
;Programs by Abelson and Sussman.
defmacro ;has Common Lisp DEFMACRO
-; record ;has user defined data structures
-; string-port ;has CALL-WITH-INPUT-STRING and
+;;; record ;has user defined data structures
+ string-port ;has CALL-WITH-INPUT-STRING and
;CALL-WITH-OUTPUT-STRING
-; sort
-; pretty-print
-; object->string
-; format ;Common-lisp output formatting
-; trace ;has macros: TRACE and UNTRACE
-; compiler ;has (COMPILER)
-; ed ;(ED) is editor
+;;; sort
+;;; pretty-print
+;;; object->string
+;;; format ;Common-lisp output formatting
+;;; trace ;has macros: TRACE and UNTRACE
+;;; compiler ;has (COMPILER)
+;;; ed ;(ED) is editor
+ system ;posix (system <string>)
getenv ;posix (getenv <string>)
-; program-arguments ;returns list of strings (argv)
-; current-time ;returns time in seconds since 1/1/1970
+;;; program-arguments ;returns list of strings (argv)
+ current-time ;returns time in seconds since 1/1/1970
+
;; Implementation Specific features
- ))
-(if system ;posix (system <string>)
- (set! *features* (cons 'system *features*)))
+ ))
;;; (OUTPUT-PORT-WIDTH <port>)
(define (output-port-width . arg) 79)
@@ -190,7 +270,7 @@
;;; (DELETE-FILE <string>)
(define (delete-file file-name)
- (s48-system (string-append "rm " file-name)))
+ (system (string-append "rm " file-name)))
;;; FORCE-OUTPUT flushes any pending output on optional arg output port
;;; use this definition if your system doesn't have such a procedure.
@@ -200,11 +280,19 @@
(define (make-exchanger obj)
(lambda (rep) (let ((old obj)) (set! obj rep) old)))
+
+;@
(define (open-file filename modes)
- (case modes
- ((r rb) (open-input-file filename))
- ((w wb) (open-output-file filename))
- (else (slib:error 'open-file 'mode? modes))))
+ (call-with-current-continuation
+ (lambda (k)
+ (s48-with-handler
+ (lambda (condition decline)
+ (k #f))
+ (case modes
+ ((r rb) (lambda () (open-input-file filename)))
+ ((w wb) (lambda () (open-output-file filename)))
+ (else (slib:error 'open-file 'mode? modes)))))))
+
(define (port? obj) (or (input-port? port) (output-port? port)))
(define (call-with-open-ports . ports)
(define proc (car ports))
@@ -238,36 +326,11 @@
;;; CHAR-CODE-LIMIT is one greater than the largest integer which can
;;; be returned by CHAR->INTEGER.
+(define char-code-limit 256)
(define integer->char s48-ascii->char)
(define char->integer
- (let ((char->integer char->integer)
- (code0 (char->integer (integer->char 0))))
- (lambda (char) (- (char->integer char) code0))))
-(define char-code-limit 256)
-
-;;; Workaround MODULO bug
-(define modulo
- (let ((modulo modulo))
- (lambda (n1 n2)
- (let ((ans (modulo n1 n2)))
- (if (= ans n2) (- ans ans) ans)))))
-
-;;; Workaround atan bug
-(define two-arg:atan atan)
-(define (atan y . x)
- (if (null? x) (two-arg:atan y 1) (two-arg:atan y (car x))))
-;;; asin is totally busted
-(define (asin y) (two-arg:atan y (sqrt (- 1 (* y y)))))
-
-;;; Workaround inexact->exact and exact->inexact bugs.
-(define inexact->exact
- (let ((i->e inexact->exact))
- (lambda (z)
- (if (exact? z) z (i->e z)))))
-(define exact->inexact
- (let ((e->i exact->inexact))
- (lambda (z)
- (if (inexact? z) z (e->i z)))))
+ (let ((code0 (s48-char->integer (integer->char 0))))
+ (lambda (char) (- (s48-char->integer char) code0))))
;;; MOST-POSITIVE-FIXNUM is used in modular.scm
(define most-positive-fixnum #x1FFFFFFF)
@@ -324,35 +387,15 @@
(define (defmacro:eval x) (base:eval (defmacro:expand* x)))
(define defmacro:load macro:load)
+;; slib:eval-load definition moved to "require.scm"
-(define (slib:eval-load <pathname> evl)
- (if (not (file-exists? <pathname>))
- (set! <pathname> (string-append <pathname> (scheme-file-suffix))))
- (call-with-input-file <pathname>
- (lambda (port)
- (let ((old-load-pathname *load-pathname*))
- (set! *load-pathname* <pathname>)
- (do ((o (read port) (read port)))
- ((eof-object? o))
- (evl o))
- (set! *load-pathname* old-load-pathname)))))
-
-(define slib:warn
- (lambda args
- (let ((cep (current-error-port)))
- (if (provided? 'trace) (print-call-stack cep))
- (display "Warn: " cep)
- (write (car args) cep)
- (newline cep)
- (for-each (lambda (x)
- (display " " cep)
- (write x cep)
- (newline cep))
- (cdr args)))))
+(define (slib:warn . args)
+ ;;(if (provided? 'trace) (print-call-stack cep))
+ (apply s48-warn args))
;;; define an error procedure for the library
(define (slib:error . args)
- (if (provided? 'trace) (print-call-stack (current-error-port)))
+ ;;(if (provided? 'trace) (print-call-stack (current-error-port)))
(apply s48-error args))
;;; define these as appropriate for your system.
@@ -371,11 +414,10 @@
(define (-1+ n) (+ n -1))
;(define 1- -1+)
-(define in-vicinity string-append)
-
;;; Define SLIB:EXIT to be the implementation procedure to exit or
-;;; return if exitting not supported.
-(define slib:exit (lambda args #f))
+;;; return if exiting not supported.
+(define (slib:exit . opt)
+ (s48-exit (if (pair? opt) (car opt) 0)))
;;; Here for backward compatability
(define scheme-file-suffix
@@ -385,7 +427,6 @@
;;; (SLIB:LOAD-SOURCE "foo") should load "foo.scm" or with whatever
;;; suffix all the module files in SLIB have. See feature 'SOURCE.
-
(define (slib:load-source f) (load (string-append f (scheme-file-suffix))))
;;; (SLIB:LOAD-COMPILED "foo") should load the file that was produced
@@ -425,9 +466,26 @@
(require 'defmacroexpand)
(define *args* '())
(define (program-arguments) (cons "scheme48" *args*))
-(set! *catalog* #f)
+
+;@
+(define (call-with-output-string proc)
+ (let ((port (s48-make-string-output-port)))
+ (proc port)
+ (s48-string-output-port-output port)))
+(define (call-with-input-string string proc)
+ (proc (s48-make-string-input-port string)))
+
+;@
+(define (current-time)
+ (s48-time-seconds (s48-current-time)))
+(define (difftime caltime1 caltime0)
+ (- caltime1 caltime0))
+(define (offset-time caltime offset)
+ (+ caltime offset))
+
+(require #f)
,collect
,batch off
-,dump slib.image "(slib 3a1)"
+,dump slib.image "(slib 3a2)"
,exit
diff --git a/schmooz.scm b/schmooz.scm
index 7bcab97..9755260 100644
--- a/schmooz.scm
+++ b/schmooz.scm
@@ -326,6 +326,7 @@
(substitute-macs bl mac-list))
body))
(out 0 "@end " (caddr ops))
+ (out 0)
(out 0)))
(define (schmooz-var defop name body xdefs)
@@ -358,39 +359,6 @@
((not (and (char? chr) (not (char-whitespace? chr)))) str)
(read-char port)))
-;;; Output files would be schmoozed
-(define schmooz-which-files
- (let* ((scheme-file? (filename:match-ci?? "*??scm"))
- (txi-file? (filename:match-ci?? "*??txi"))
- (texi-file? (let ((tex? (filename:match-ci?? "*??tex"))
- (texi? (filename:match-ci?? "*??texi")))
- (lambda (filename) (or (txi-file? filename)
- (tex? filename)
- (texi? filename)))))
- (txi->scm (filename:substitute?? "*txi" "*scm"))
- (scm->txi (filename:substitute?? "*scm" "*txi")))
- (define (schmooz-texi-file file)
- (call-with-input-file file
- (lambda (port)
- (do ((pos (find-string-from-port? "@include" port)
- (find-string-from-port? "@include" port)))
- ((not pos))
- (let ((fname #f))
- (cond ((not (eqv? 1 (fscanf port " %s" fname))))
- ((not (txi-file? fname)))
- ((not (file-exists? (txi->scm fname))))
- (else (display (txi->scm fname)) (display " "))))))))
- (lambda files
- (for-each (lambda (file)
- (define sl (string-length file))
- (cond ((texi-file? file) (schmooz-texi-file file))
- ((scheme-file? file)
- (schmooz-scm-file file (scm->txi file)))
- (else (schmooz-scm-file
- file (string-append file ".txi")))))
- files))))
-
-
;;;@ SCHMOOZ files.
(define schmooz
(let* ((scheme-file? (filename:match-ci?? "*??scm"))
diff --git a/scsh.init b/scsh.init
index 210fd42..82b24d4 100644
--- a/scsh.init
+++ b/scsh.init
@@ -44,62 +44,150 @@
home
(string-append home "/")))
(else home)))))
-
-;;; *FEATURES* should be set to a list of symbols describing features
-;;; of this implementation. Suggestions for features are:
+;@
+(define in-vicinity string-append)
+;@
+(define (user-vicinity)
+ (case (software-type)
+ ((VMS) "[.]")
+ (else "")))
+
+(define *load-pathname* #f)
+;@
+(define vicinity:suffix?
+ (let ((suffi
+ (case (software-type)
+ ((AMIGA) '(#\: #\/))
+ ((MACOS THINKC) '(#\:))
+ ((MS-DOS WINDOWS ATARIST OS/2) '(#\\ #\/))
+ ((NOSVE) '(#\: #\.))
+ ((UNIX COHERENT PLAN9) '(#\/))
+ ((VMS) '(#\: #\]))
+ (else
+ (slib:warn "require.scm" 'unknown 'software-type (software-type))
+ "/"))))
+ (lambda (chr) (and (memv chr suffi) #t))))
+;@
+(define (pathname->vicinity pathname)
+ (let loop ((i (- (string-length pathname) 1)))
+ (cond ((negative? i) "")
+ ((vicinity:suffix? (string-ref pathname i))
+ (substring pathname 0 (+ i 1)))
+ (else (loop (- i 1))))))
+(define (program-vicinity)
+ (if *load-pathname*
+ (pathname->vicinity *load-pathname*)
+ (slib:error 'program-vicinity " called; use slib:load to load")))
+;@
+(define sub-vicinity
+ (case (software-type)
+ ((VMS) (lambda
+ (vic name)
+ (let ((l (string-length vic)))
+ (if (or (zero? (string-length vic))
+ (not (char=? #\] (string-ref vic (- l 1)))))
+ (string-append vic "[" name "]")
+ (string-append (substring vic 0 (- l 1))
+ "." name "]")))))
+ (else (let ((*vicinity-suffix*
+ (case (software-type)
+ ((NOSVE) ".")
+ ((MACOS THINKC) ":")
+ ((MS-DOS WINDOWS ATARIST OS/2) "\\")
+ ((UNIX COHERENT PLAN9 AMIGA) "/"))))
+ (lambda (vic name)
+ (string-append vic name *vicinity-suffix*))))))
+;@
+(define (make-vicinity <pathname>) <pathname>)
+;@
+(define with-load-pathname
+ (let ((exchange
+ (lambda (new)
+ (let ((old *load-pathname*))
+ (set! *load-pathname* new)
+ old))))
+ (lambda (path thunk)
+ (let ((old #f))
+ (dynamic-wind
+ (lambda () (set! old (exchange path)))
+ thunk
+ (lambda () (exchange old)))))))
+
+;;@ *FEATURES* is a list of symbols naming the (SLIB) features
+;;; initially supported by this implementation.
(define *features*
'(
source ;can load scheme source files
- ;(slib:load-source "filename")
-; compiled ;can load compiled files
- ;(slib:load-compiled "filename")
+ ;(SLIB:LOAD-SOURCE "filename")
+;;; compiled ;can load compiled files
+ ;(SLIB:LOAD-COMPILED "filename")
+ vicinity
+ srfi-59
+
+ ;; Scheme report features
+ ;; R5RS-compliant implementations should provide all 9 features.
+
+;;; r5rs ;conforms to
+ eval ;R5RS two-argument eval
+ values ;R5RS multiple values
+ dynamic-wind ;R5RS dynamic-wind
+ macro ;R5RS high level macros
+ delay ;has DELAY and FORCE
+ multiarg-apply ;APPLY can take more than 2 args.
+ char-ready?
+ rev4-optional-procedures ;LIST-TAIL, STRING-COPY,
+ ;STRING-FILL!, and VECTOR-FILL!
+
+ ;; These four features are optional in both R4RS and R5RS
+
+ multiarg/and- ;/ and - can take more than 2 args.
+ rationalize
+;;; transcript ;TRANSCRIPT-ON and TRANSCRIPT-OFF
+ with-file ;has WITH-INPUT-FROM-FILE and
+ ;WITH-OUTPUT-TO-FILE
+
r4rs ;conforms to
-; r3rs ;conforms to
+
ieee-p1178 ;conforms to
-; srfi ;srfi-0, COND-EXPAND finds all srfi-*
-; sicp ;runs code from Structure and
- ;Interpretation of Computer
- ;Programs by Abelson and Sussman.
- rev4-optional-procedures ;LIST-TAIL, STRING->LIST,
- ;LIST->STRING, STRING-COPY,
- ;STRING-FILL!, LIST->VECTOR,
- ;VECTOR->LIST, and VECTOR-FILL!
-; rev2-procedures ;SUBSTRING-MOVE-LEFT!,
+
+;;; r3rs ;conforms to
+
+;;; rev2-procedures ;SUBSTRING-MOVE-LEFT!,
;SUBSTRING-MOVE-RIGHT!,
;SUBSTRING-FILL!,
;STRING-NULL?, APPEND!, 1+,
;-1+, <?, <=?, =?, >?, >=?
- multiarg/and- ;/ and - can take more than 2 args.
- multiarg-apply ;APPLY can take more than 2 args.
- rationalize
- delay ;has DELAY and FORCE
- with-file ;has WITH-INPUT-FROM-FILE and
- ;WITH-OUTPUT-TO-FILE
-; string-port ;has CALL-WITH-INPUT-STRING and
- ;CALL-WITH-OUTPUT-STRING
-; transcript ;TRANSCRIPT-ON and TRANSCRIPT-OFF
- char-ready?
- macro ;has R4RS high level macros
-; defmacro ;has Common Lisp DEFMACRO
- eval ;proposed 2-arugment eval
-; record ;has user defined data structures
- values ;proposed multiple values
- dynamic-wind ;proposed dynamic-wind
-; ieee-floating-point ;conforms to
+;;; object-hash ;has OBJECT-HASH
+
full-continuation ;can return multiple times
-; object-hash ;has OBJECT-HASH
+;;; ieee-floating-point ;conforms to IEEE Standard 754-1985
+ ;IEEE Standard for Binary
+ ;Floating-Point Arithmetic.
-; sort
-; pretty-print
-; object->string
+ ;; Other common features
+
+;;; srfi ;srfi-0, COND-EXPAND finds all srfi-*
+;;; sicp ;runs code from Structure and
+ ;Interpretation of Computer
+ ;Programs by Abelson and Sussman.
+;;; defmacro ;has Common Lisp DEFMACRO
+;;; record ;has user defined data structures
+;;; string-port ;has CALL-WITH-INPUT-STRING and
+ ;CALL-WITH-OUTPUT-STRING
+;;; sort
+;;; pretty-print
+;;; object->string
format
-; trace ;has macros: TRACE and UNTRACE
-; compiler ;has (COMPILER)
-; ed ;(ED) is editor
-; system ;posix (system <string>)
+;;; trace ;has macros: TRACE and UNTRACE
+;;; compiler ;has (COMPILER)
+;;; ed ;(ED) is editor
+;;; system ;posix (system <string>)
getenv ;posix (getenv <string>)
-; program-arguments ;returns list of strings (argv)
-; current-time ;returns time in seconds since 1/1/1970
+;;; program-arguments ;returns list of strings (argv)
+;;; current-time ;returns time in seconds since 1/1/1970
+
+ ;; Implementation Specific features
+
))
;;; (OUTPUT-PORT-WIDTH <port>)
@@ -219,18 +307,7 @@
(define (defmacro:load pathname)
(slib:eval-load pathname defmacro:eval))
-
-(define (slib:eval-load pathname evl)
- (if (not (file-exists? pathname))
- (set! pathname (string-append pathname (scheme-file-suffix))))
- (call-with-input-file pathname
- (lambda (port)
- (let ((old-load-pathname *load-pathname*))
- (set! *load-pathname* pathname)
- (do ((o (read port) (read port)))
- ((eof-object? o))
- (evl o))
- (set! *load-pathname* old-load-pathname)))))
+;; slib:eval-load definition moved to "require.scm"
(define slib:warn
(lambda args
@@ -261,10 +338,8 @@
(define (-1+ n) (+ n -1))
(define 1- -1+)
-(define in-vicinity string-append)
-
;;; Define SLIB:EXIT to be the implementation procedure to exit or
-;;; return if exitting not supported.
+;;; return if exiting not supported.
(define slib:exit (lambda args #f))
;;; Here for backward compatability
@@ -295,7 +370,6 @@
(define transcript-off #f)
(define array? #f)
-(define record? #f)
(define sort! #f)
(slib:load (in-vicinity (library-vicinity) "require"))
diff --git a/simetrix.scm b/simetrix.scm
index e187dd2..caf858e 100644
--- a/simetrix.scm
+++ b/simetrix.scm
@@ -19,7 +19,7 @@
;; Implements "Representation of numerical values and SI units in
;; character strings for information interchanges"
-;; http://swissnet.ai.mit.edu/~jaffer/MIXF.html
+;; http://swiss.csail.mit.edu/~jaffer/MIXF
(require 'precedence-parse)
(require 'string-port)
diff --git a/slib.1 b/slib.1
new file mode 100644
index 0000000..90851f2
--- /dev/null
+++ b/slib.1
@@ -0,0 +1,45 @@
+.\" dummy line
+.TH SLIB "Jan 22 2005"
+.UC 4
+.SH NAME
+SLIB \- Scheme Library
+.SH SYNOPSIS
+.B slib
+[ scm | gsi | mzscheme | guile | slib48 | scheme48 | scmlit ]
+.br
+.sp 0.3
+.SH DESCRIPTION
+"SLIB" is a portable library for the programming language "Scheme".
+It provides a platform independent framework for using "packages" of
+Scheme procedures and syntax. As distributed, SLIB contains many
+useful packages. Its catalog can be transparently extended to
+accomodate packages specific to a site, implementation, user, or
+directory.
+.SH OPTIONS
+The optional argument to the
+.I slib
+script is the Scheme implementation to run. Absent the argument, it
+searches for implementations in the above order.
+.SH ENVIRONMENT VARIABLES
+.TP
+.B SCHEME_LIBRARY_PATH
+is the SLIB Scheme library directory (with a trailing "/").
+.SH FILES
+.TP
+slib.info
+.br
+Texinfo documentation of
+.I slib.
+.SH AUTHORS
+Aubrey Jaffer (agj @ alum.mit.edu)
+and scores of others.
+.SH SEE ALSO
+The SLIB home-page:
+.br
+http://swissnet.ai.mit.edu/~jaffer/SLIB.html
+.TP
+The full documentation for slib is maintained as a Texinfo manual. If the info and slib programs are properly installed at your site, the command
+.br
+info slib
+.TP
+should give you access to the complete manual.
diff --git a/slib.doc b/slib.doc
new file mode 100644
index 0000000..b8701e4
--- /dev/null
+++ b/slib.doc
@@ -0,0 +1,47 @@
+SLIB(Jan 22 2005) SLIB(Jan 22 2005)
+
+
+
+NAME
+ SLIB - Scheme Library
+
+SYNOPSIS
+ slib [ scm | gsi | mzscheme | guile | slib48 | scheme48 | scmlit ]
+
+DESCRIPTION
+ "SLIB" is a portable library for the programming language "Scheme". It
+ provides a platform independent framework for using "packages" of
+ Scheme procedures and syntax. As distributed, SLIB contains many use-
+ ful packages. Its catalog can be transparently extended to accomodate
+ packages specific to a site, implementation, user, or directory.
+
+OPTIONS
+ The optional argument to the slib script is the Scheme implementation
+ to run. Absent the argument, it searches for implementations in the
+ above order.
+
+ENVIRONMENT VARIABLES
+ SCHEME_LIBRARY_PATH
+ is the SLIB Scheme library directory (with a trailing "/").
+
+FILES
+ slib.info
+ Texinfo documentation of slib.
+
+AUTHORS
+ Aubrey Jaffer (agj @ alum.mit.edu) and scores of others.
+
+SEE ALSO
+ The SLIB home-page:
+ http://swissnet.ai.mit.edu/~jaffer/SLIB.html
+
+ The full documentation for slib is maintained as a Texinfo manual. If
+ the info and slib programs are properly installed at your site, the
+ command
+ info slib
+
+ should give you access to the complete manual.
+
+
+
+4th Berkeley Distribution SLIB(Jan 22 2005)
diff --git a/slib.html b/slib.html
deleted file mode 100644
index b580540..0000000
--- a/slib.html
+++ /dev/null
@@ -1,76 +0,0 @@
-<!DOCTYPE html PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN"
- "http://www.w3.org/TR/html40/loose.dtd">
-<HTML>
-<!-- Created on January, 10 2005 by texi2html 1.66 -->
-<!--
-Written by: Lionel Cons <Lionel.Cons@cern.ch> (original author)
- Karl Berry <karl@freefriends.org>
- Olaf Bachmann <obachman@mathematik.uni-kl.de>
- and many others.
-Maintained by: Many creative people <dev@texi2html.cvshome.org>
-Send bugs and suggestions to <users@texi2html.cvshome.org>
-
--->
-<HEAD>
-<TITLE>SLIB: SLIB</TITLE>
-
-<META NAME="description" CONTENT="SLIB: SLIB">
-<META NAME="keywords" CONTENT="SLIB: SLIB">
-<META NAME="resource-type" CONTENT="document">
-<META NAME="distribution" CONTENT="global">
-<META NAME="Generator" CONTENT="texi2html 1.66">
-
-</HEAD>
-
-<BODY LANG="en" BGCOLOR="#FFFFFF" TEXT="#000000" LINK="#0000FF" VLINK="#800080" ALINK="#FF0000">
-
-<A NAME="SEC_Top"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H1>SLIB</H1>
-
-<P>
-
-<BLOCKQUOTE>
-</BLOCKQUOTE>
-<P>
-</P>
-<P>
-
-<EM>SLIB</EM> is a portable library for the programming language
-<EM>Scheme</EM>. It provides a platform independent framework for using
-<EM>packages</EM> of Scheme procedures and syntax. As distributed, SLIB
-contains useful packages for all Scheme implementations. Its catalog
-can be transparently extended to accomodate packages specific to a site,
-implementation, user, or directory.
-</P>
-<P>
-
-</P>
-<TABLE BORDER="0" CELLSPACING="0">
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_1.html#SEC1">1. The Library System</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">How to use and customize.</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_2.html#SEC13">2. Universal SLIB Procedures</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">Provided for all implementations.</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_3.html#SEC21">3. Scheme Syntax Extension Packages</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_4.html#SEC45">4. Textual Conversion Packages</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_5.html#SEC88">5. Mathematical Packages</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_6.html#SEC140">6. Database Packages</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC183">7. Other Packages</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_8.html#SEC277">8. About SLIB</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">Install, etc.</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_9.html#SEC292">Procedure and Macro Index</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-</TABLE>
-<P>
-
-<HR SIZE=1>
-<BR>
-<FONT SIZE="-1">
-This document was generated
-by <I>Steve Langasek</I> on <I>January, 10 2005</I>
-using <A HREF="http://texi2html.cvshome.org"><I>texi2html</I></A>
-</FONT>
-
-</BODY>
-</HTML>
diff --git a/slib.info b/slib.info
index 849340a..4bc04e2 100644
--- a/slib.info
+++ b/slib.info
@@ -1,4 +1,4 @@
-This is slib.info, produced by makeinfo version 4.6 from slib.texi.
+This is slib.info, produced by makeinfo version 4.7 from slib.texi. |
INFO-DIR-SECTION The Algorithmic Language Scheme
START-INFO-DIR-ENTRY
@@ -38,7 +38,7 @@ implementation, user, or directory.
* Menu:
* The Library System:: How to use and customize.
-* Universal SLIB Procedures:: Provided for all implementations. |
+* Universal SLIB Procedures:: Provided for all implementations.
* Scheme Syntax Extension Packages::
* Textual Conversion Packages::
* Mathematical Packages::
@@ -49,31 +49,31 @@ implementation, user, or directory.

File: slib.info, Node: The Library System, Next: Universal SLIB Procedures, Prev: Top, Up: Top
- |
-The Library System
-******************
+
+1 The Library System |
+******************** |
* Menu:
* Feature:: SLIB names.
-* Require:: |
+* Require::
* Library Catalogs::
-* Catalog Creation:: |
-* Catalog Vicinities:: |
-* Compiling Scheme:: |
+* Catalog Creation::
+* Catalog Vicinities::
+* Compiling Scheme::

File: slib.info, Node: Feature, Next: Require, Prev: The Library System, Up: The Library System
- |
-Feature
-=======
+
+1.1 Feature |
+=========== |
SLIB denotes "features" by symbols. SLIB maintains a list of features
-supported by a Scheme "session". The set of features provided by a |
-session may change during that session. Some features are properties |
-of the Scheme implementation being used. The following "intrinsic |
-feature"s detail what sort of numbers are available from an |
-implementation: |
+supported by a Scheme "session". The set of features provided by a
+session may change during that session. Some features are properties
+of the Scheme implementation being used. The following "intrinsic
+feature"s detail what sort of numbers are available from an
+implementation:
* 'inexact
@@ -85,63 +85,72 @@ implementation: |
* 'bignum
-SLIB initialization (in `require.scm') tests and "provide"s any of |
-these numeric features which are appropriate. |
- |
-Other features correspond to the presence of packages of Scheme |
-procedures or syntax (macros). |
+SLIB initialization (in `require.scm') tests and "provide"s any of
+these numeric features which are appropriate.
- - Function: provided? feature
- Returns `#t' if FEATURE is present in the current Scheme session; |
- otherwise `#f'. More specifically, `provided?' returns `#t' if |
- the symbol FEATURE is the `software-type' or if FEATURE has been |
- provided by a module already loaded; and `#f' otherwise. |
- |
- In some implementations `provided?' tests whether a module has |
- been `require'd by any module or in any thread; other |
- implementations will have `provided?' reflect only the modules |
- `require'd by that particular session or thread. |
- |
- To work portably in both scenarios, use `provided?' only to test |
- whether intrinsic properties (like those above) are present. |
- |
- The FEATURE argument can also be an expression calling `and', |
- `or', and `not' of features. The boolean result of the logical |
- question asked by FEATURE is returned. |
- |
-The generalization of `provided?' for arbitrary features and catalog is |
-`feature-eval': |
- |
- - Function: feature-eval expression provided? |
- Evaluates `and', `or', and `not' forms in EXPRESSION, using the |
- values returned by calling PROVIDED? on the leaf symbols. |
- `feature-eval' returns the boolean result of the logical |
- combinations. |
+Other features correspond to the presence of packages of Scheme
+procedures or syntax (macros).
+
+ -- Function: provided? feature |
+ Returns `#t' if FEATURE is present in the current Scheme session;
+ otherwise `#f'. More specifically, `provided?' returns `#t' if
+ the symbol FEATURE is the `software-type', the |
+ `scheme-implementation-type' (1), or if FEATURE has been provided |
+ by a module already loaded; and `#f' otherwise. |
+
+ In some implementations `provided?' tests whether a module has
+ been `require'd by any module or in any thread; other
+ implementations will have `provided?' reflect only the modules
+ `require'd by that particular session or thread.
+
+ To work portably in both scenarios, use `provided?' only to test
+ whether intrinsic properties (like those above) are present.
- - Procedure: provide feature
- Informs SLIB that FEATURE is supported in this session. |
+ The FEATURE argument can also be an expression calling `and',
+ `or', and `not' of features. The boolean result of the logical
+ question asked by FEATURE is returned.
+
+The generalization of `provided?' for arbitrary features and catalog is
+`feature-eval':
+
+ -- Function: feature-eval expression provided? |
+ Evaluates `and', `or', and `not' forms in EXPRESSION, using the
+ values returned by calling PROVIDED? on the leaf symbols.
+ `feature-eval' returns the boolean result of the logical
+ combinations.
+
+ -- Procedure: provide feature |
+ Informs SLIB that FEATURE is supported in this session.
(provided? 'foo) => #f
(provide 'foo)
(provided? 'foo) => #t
+ ---------- Footnotes ---------- |
+ |
+ (1) scheme-implementation-type is the name symbol of the running |
+Scheme implementation (RScheme, |STk|, Bigloo, chez, Elk, gambit, |
+guile, JScheme, MacScheme, MITScheme, Pocket-Scheme, Scheme48, |
+Scheme->C, Scheme48, Scsh, T, umb-scheme, or Vscm). Dependence on |
+scheme-implementation-type is almost always the wrong way to do things. |
+ |

File: slib.info, Node: Require, Next: Library Catalogs, Prev: Feature, Up: The Library System
- |
-Require |
-======= |
+
+1.2 Require |
+=========== |
SLIB creates and maintains a "catalog" mapping features to locations of
files introducing procedures and syntax denoted by those features.
- - Variable: *catalog* |
- Is an association list of features (symbols) and pathnames which |
- will supply those features. The pathname can be either a string |
- or a pair. If pathname is a pair then the first element should be |
- a macro feature symbol, `source', `compiled', or one of the other |
- cases described in *Note Library Catalogs::. The cdr of the |
- pathname should be either a string or a list. |
- |
+ -- Variable: *catalog* |
+ Is an association list of features (symbols) and pathnames which
+ will supply those features. The pathname can be either a string
+ or a pair. If pathname is a pair then the first element should be
+ a macro feature symbol, `source', `compiled', or one of the other
+ cases described in *Note Library Catalogs::. The cdr of the
+ pathname should be either a string or a list.
+
At the beginning of each section of this manual, there is a line like
`(require 'FEATURE)'. The Scheme files comprising SLIB are cataloged
so that these feature names map to the corresponding files.
@@ -149,56 +158,49 @@ so that these feature names map to the corresponding files.
SLIB provides a form, `require', which loads the files providing the
requested feature.
- - Procedure: require feature
- * If `(provided? FEATURE)' is true, then `require' just returns. |
+ -- Procedure: require feature |
+ * If `(provided? FEATURE)' is true, then `require' just returns.
* Otherwise, if FEATURE is found in the catalog, then the
- corresponding files will be loaded and `(provided? FEATURE)' |
- will henceforth return `#t'. That FEATURE is thereafter |
- `provided'. |
+ corresponding files will be loaded and `(provided? FEATURE)'
+ will henceforth return `#t'. That FEATURE is thereafter
+ `provided'.
* Otherwise (FEATURE not found in the catalog), an error is
signaled.
-There is a related form `require-if', used primarily for enabling |
-compilers to statically include modules which would be dynamically |
-loaded by interpreters. |
-
- - Procedure: require-if condition feature |
- Requires FEATURE if CONDITION is true. |
-
-The `random' module uses `require-if' to flag `object->string' as a |
-(dynamic) required module. |
-
- (require 'byte) |
- (require 'logical) |
- (require-if 'compiling 'object->string) |
+There is a related form `require-if', used primarily for enabling
+compilers to statically include modules which would be dynamically
+loaded by interpreters.
-The `batch' module uses `require-if' to flag `posix-time' as a module |
-to load if the implementation supports large precision exact integers. |
+ -- Procedure: require-if condition feature |
+ Requires FEATURE if CONDITION is true.
- (require-if '(and bignum compiling) 'posix-time) |
+The `random' module uses `require-if' to flag `object->string' as a
+(dynamic) required module.
-The `commutative-ring' module uses `require-if' to ensure that it has |
-an exponentiation routine, regardless of whether the implementation |
-supports inexact numbers: |
+ (require 'byte)
+ (require 'logical)
+ (require-if 'compiling 'object->string)
- (require-if '(not inexact) 'logical) ;for integer-expt |
- (define number^ (if (provided? 'inexact) expt integer-expt)) |
+The `batch' module uses `require-if' to flag `posix-time' as a module
+to load if the implementation supports large precision exact integers.
-The catalog can also be queried using `slib:in-catalog?'. |
+ (require-if '(and bignum compiling) 'posix-time)
+ |
+The catalog can also be queried using `slib:in-catalog?'.
- - Function: slib:in-catalog? feature |
- Returns a `CDR' of the catalog entry if one was found for the |
- symbol FEATURE in the alist `*catalog*' (and transitively through |
- any symbol aliases encountered). Otherwise, returns `#f'. The |
- format of catalog entries is explained in *Note Library Catalogs::. |
+ -- Function: slib:in-catalog? feature |
+ Returns a `CDR' of the catalog entry if one was found for the
+ symbol FEATURE in the alist `*catalog*' (and transitively through
+ any symbol aliases encountered). Otherwise, returns `#f'. The
+ format of catalog entries is explained in *Note Library Catalogs::.

File: slib.info, Node: Library Catalogs, Next: Catalog Creation, Prev: Require, Up: The Library System
- |
-Library Catalogs |
-================ |
+
+1.3 Library Catalogs |
+==================== |
Catalog files consist of one or more "association list"s. In the
circumstance where a feature symbol appears in more than one list, the
@@ -218,7 +220,7 @@ for elements of catalog lists:
`slib:load-compiled's the files <path> ....
`(FEATURE aggregate <symbol> ...)'
- `slib:require's the features <symbol> .... |
+ `require's the features <symbol> .... |
The various macro styles first `require' the named macro package, then
just load <path> or load-and-macro-expand <path> as appropriate for the
@@ -244,31 +246,31 @@ implementation.

File: slib.info, Node: Catalog Creation, Next: Catalog Vicinities, Prev: Library Catalogs, Up: The Library System
- |
-Catalog Creation |
-================ |
-At the start of an interactive session no catalog is present, but is |
-created with the first catalog inquiry (such as `(require 'random)'). |
-Several sources of catalog information are combined to produce the |
-catalog: |
+1.4 Catalog Creation |
+==================== |
- * standard SLIB packages. |
+At the start of an interactive session no catalog is present, but is
+created with the first catalog inquiry (such as `(require 'random)').
+Several sources of catalog information are combined to produce the
+catalog:
- * additional packages of interest to this site. |
- |
- * packages specifically for the variety of Scheme which this session |
- is running. |
- |
- * packages this user wants to always have available. This catalog |
- is the file `homecat' in the user's "HOME" directory. |
- |
- * packages germane to working in this (current working) directory. |
- This catalog is the file `usercat' in the directory to which it |
- applies. One would typically `cd' to this directory before |
- starting the Scheme session. |
- |
- * packages which are part of an application program. |
+ * standard SLIB packages.
+
+ * additional packages of interest to this site.
+
+ * packages specifically for the variety of Scheme which this session
+ is running.
+
+ * packages this user wants to always have available. This catalog
+ is the file `homecat' in the user's "HOME" directory.
+
+ * packages germane to working in this (current working) directory.
+ This catalog is the file `usercat' in the directory to which it
+ applies. One would typically `cd' to this directory before
+ starting the Scheme session.
+
+ * packages which are part of an application program.
SLIB combines the catalog information which doesn't vary per user into
the file `slibcat' in the implementation-vicinity. Therefore `slibcat'
@@ -279,34 +281,34 @@ is used with.
The definition of `*SLIB-VERSION*' in SLIB file `require.scm' is
checked against the catalog association of `*SLIB-VERSION*' to
-ascertain when versions have changed. It is a reasonable practice to |
-change the definition of `*SLIB-VERSION*' whenever the library is |
-changed. If multiple implementations of Scheme use SLIB, remember that |
-recompiling one `slibcat' will update only that implementation's |
-catalog. |
+ascertain when versions have changed. It is a reasonable practice to
+change the definition of `*SLIB-VERSION*' whenever the library is
+changed. If multiple implementations of Scheme use SLIB, remember that
+recompiling one `slibcat' will update only that implementation's
+catalog.
The compilation scripts of Scheme implementations which work with SLIB
can automatically trigger catalog compilation by deleting `slibcat' or
-by invoking `require' of a special feature: |
+by invoking `require' of a special feature:
- - Procedure: require 'new-catalog
+ -- Procedure: require 'new-catalog |
This will load `mklibcat', which compiles and writes a new
`slibcat'.
-Another special feature of `require' erases SLIB's catalog, forcing it |
-to be reloaded the next time the catalog is queried. |
+Another special feature of `require' erases SLIB's catalog, forcing it
+to be reloaded the next time the catalog is queried.
- - Procedure: require #f
+ -- Procedure: require #f |
Removes SLIB's catalog information. This should be done before
saving an executable image so that, when restored, its catalog
will be loaded afresh.

File: slib.info, Node: Catalog Vicinities, Next: Compiling Scheme, Prev: Catalog Creation, Up: The Library System
- |
-Catalog Vicinities |
-================== |
- |
+
+1.5 Catalog Vicinities |
+====================== |
+
Each file in the table below is descibed in terms of its file-system
independent "vicinity" (*note Vicinity::). The entries of a catalog in
the table override those of catalogs above it in the table.
@@ -339,381 +341,398 @@ the table override those of catalogs above it in the table.
This file contains the associations specific to an SLIB user.
`user-vicinity' `usercat'
- This file contains associations affecting only those sessions whose |
+ This file contains associations affecting only those sessions whose
"working directory" is `user-vicinity'.
-Here is an example of a `usercat' catalog. A program in this directory |
-can invoke the `run' feature with `(require 'run)'. |
- |
- ;;; "usercat": SLIB catalog additions for SIMSYNCH. -*-scheme-*- |
- ( |
- (simsynch . "../synch/simsynch.scm") |
- (run . "../synch/run.scm") |
- (schlep . "schlep.scm") |
- ) |
- |
-Copying `usercat' to many directories is inconvenient. Application |
-programs which aren't always run in specially prepared directories can |
-nonetheless register their features during initialization. |
- |
- - Procedure: catalog:read vicinity catalog |
- Reads file named by string CATALOG in VICINITY, resolving all |
- paths relative to VICINITY, and adds those feature associations to |
- *CATALOG*. |
- |
- `catalog:read' would typically be used by an application program |
- having dynamically loadable modules. For instance, to register |
- factoring and other modules in *CATALOG*, JACAL does: |
- |
- (catalog:read (program-vicinity) "jacalcat") |
- |
- |
-For an application program there are three appropriate venues for |
-registering its catalog associations: |
- |
- * in a `usercat' file in the directory where the program runs; or |
- |
- * in an `implcat' file in the `implementation-vicinity'; or |
- |
- * in an application program directory; loaded by calling |
- `catalog:read'. |
- |
+Here is an example of a `usercat' catalog. A program in this directory
+can invoke the `run' feature with `(require 'run)'.
+
+ ;;; "usercat": SLIB catalog additions for SIMSYNCH. -*-scheme-*-
+ (
+ (simsynch . "../synch/simsynch.scm")
+ (run . "../synch/run.scm")
+ (schlep . "schlep.scm")
+ )
+
+Copying `usercat' to many directories is inconvenient. Application
+programs which aren't always run in specially prepared directories can
+nonetheless register their features during initialization.
+
+ -- Procedure: catalog:read vicinity catalog |
+ Reads file named by string CATALOG in VICINITY, resolving all
+ paths relative to VICINITY, and adds those feature associations to
+ *CATALOG*.
+
+ `catalog:read' would typically be used by an application program
+ having dynamically loadable modules. For instance, to register
+ factoring and other modules in *CATALOG*, JACAL does:
+
+ (catalog:read (program-vicinity) "jacalcat")
+
+
+For an application program there are three appropriate venues for
+registering its catalog associations:
+
+ * in a `usercat' file in the directory where the program runs; or
+
+ * in an `implcat' file in the `implementation-vicinity'; or
+
+ * in an application program directory; loaded by calling
+ `catalog:read'.
+

File: slib.info, Node: Compiling Scheme, Prev: Catalog Vicinities, Up: The Library System
- |
-Compiling Scheme |
-================
-To use Scheme compilers effectively with SLIB the compiler needs to |
-know which SLIB modules are to be compiled and which symbols are |
-exported from those modules. |
- |
- The procedures in this section automate the extraction of this |
-information from SLIB modules. They are guaranteed to work on SLIB |
-modules; to use them on other sources, those sources should follow SLIB |
-conventions. |
+1.6 Compiling Scheme |
+==================== |
+
+To use Scheme compilers effectively with SLIB the compiler needs to
+know which SLIB modules are to be compiled and which symbols are
+exported from those modules.
+
+ The procedures in this section automate the extraction of this
+information from SLIB modules. They are guaranteed to work on SLIB
+modules; to use them on other sources, those sources should follow SLIB
+conventions.
* Menu:
-* Module Conventions:: |
-* Module Manifests:: |
-* Module Semantics:: |
-* Top-level Variable References:: |
-* Module Analysis:: |
+* Module Conventions::
+* Module Manifests::
+* Module Semantics::
+* Top-level Variable References::
+* Module Analysis::

File: slib.info, Node: Module Conventions, Next: Module Manifests, Prev: Compiling Scheme, Up: Compiling Scheme
- |
-Module Conventions |
------------------- |
- * All the top-level `require' commands have one quoted argument and |
- are positioned before other Scheme definitions and expressions in |
- the file. |
+1.6.1 Module Conventions |
+------------------------ |
- * Any conditionally `require'd SLIB modules (1) also appear at the |
- beginning of their files conditioned on the feature `compiling' |
- using `require-if' (*note require-if: Require.). |
+ * All the top-level `require' commands have one quoted argument and
+ are positioned before other Scheme definitions and expressions in
+ the file.
- (require 'logical) |
- (require 'multiarg/and-) |
- (require-if 'compiling 'sort) |
- (require-if 'compiling 'ciexyz) |
+ * Any conditionally `require'd SLIB modules (1) also appear at the
+ beginning of their files conditioned on the feature `compiling'
+ using `require-if' (*note require-if: Require.).
- * Schmooz-style comments preceding a definition, identify that |
- definition as an exported identifier (*note Schmooz::). For |
- non-schmooz files, putting `;@' at the beginning of the line |
- immediately preceding the definition (`define', `define-syntax', |
- or `defmacro') suffices. |
+ (require 'logical)
+ (require 'multiarg/and-)
+ (require-if 'compiling 'sort)
+ (require-if 'compiling 'ciexyz)
- ;@ |
- (define (make-vicinity <pathname>) <pathname>) |
+ * Schmooz-style comments preceding a definition, identify that
+ definition as an exported identifier (*note Schmooz::). For
+ non-schmooz files, putting `;@' at the beginning of the line
+ immediately preceding the definition (`define', `define-syntax',
+ or `defmacro') suffices.
- * Syntax (macro) definitions are grouped at the end of a module file. |
+ ;@
+ (define (identity <obj>) <obj>) |
- * Modules defining macros do not invoke those macros. SLIB macro |
- implementations are exempt from this rule. |
+ * Syntax (macro) definitions are grouped at the end of a module file.
- An example of how to expand macro invocations is: |
+ * Modules defining macros do not invoke those macros. SLIB macro
+ implementations are exempt from this rule.
- (require 'macros-that-work) |
- (require 'yasos) |
- (require 'pprint-file) |
- (pprint-filter-file "collect.scm" macwork:expand) |
- |
+ An example of how to expand macro invocations is:
+
+ (require 'macros-that-work)
+ (require 'yasos)
+ (require 'pprint-file)
+ (pprint-filter-file "collect.scm" macwork:expand)
- ---------- Footnotes ---------- |
- (1) There are some functions with internal `require' calls to delay |
-loading modules until they are needed. While this reduces startup |
-latency for interpreters, it can produce headaches for compilers. |
+ ---------- Footnotes ----------
+
+ (1) There are some functions with internal `require' calls to delay
+loading modules until they are needed. While this reduces startup
+latency for interpreters, it can produce headaches for compilers.

File: slib.info, Node: Module Manifests, Next: Module Semantics, Prev: Module Conventions, Up: Compiling Scheme
- |
-Module Manifests |
----------------- |
-`(require 'manifest)' |
+1.6.2 Module Manifests |
+---------------------- |
-In some of these examples, SLIB:CATALOG is the SLIB part of the |
-catalog; it is free of compiled and implementation-specific entries. |
-It would be defined by: |
- |
- (define slib:catalog (cdr (member (assq 'null *catalog*) *catalog*))) |
- |
- - Function: file->requires file provided? catalog |
- Returns a list of the features `require'd by FILE assuming the |
- predicate PROVIDED? and association-list CATALOG. |
- |
- (define (provided+? . features) |
- (lambda (feature) |
- (or (memq feature features) (provided? feature)))) |
- |
- (file->requires "obj2str.scm" (provided+? 'compiling) '()) |
- => (string-port generic-write) |
- |
- (file->requires "obj2str.scm" provided? '()) |
- => (string-port) |
- |
- - Function: feature->requires feature provided? catalog |
- Returns a list of the features `require'd by FEATURE assuming the |
- predicate PROVIDED? and association-list CATALOG. |
- |
- (feature->requires 'batch (provided+? 'compiling) *catalog*) |
- => (tree line-i/o databases parameters string-port |
- pretty-print common-list-functions posix-time) |
- |
- (feature->requires 'batch provided? *catalog*) |
- => (tree line-i/o databases parameters string-port |
- pretty-print common-list-functions) |
- |
- (feature->requires 'batch provided? '((batch . "batch"))) |
- => (tree line-i/o databases parameters string-port |
- pretty-print common-list-functions) |
- |
- - Function: file->loads file |
- Returns a list of strings naming existing files loaded (load |
- slib:load slib:load-source macro:load defmacro:load syncase:load |
- synclo:load macwork:load) by FILE or any of the files it loads. |
- |
- (file->loads (in-vicinity (library-vicinity) "scainit.scm")) |
- => ("/usr/local/lib/slib/scaexpp.scm" |
- "/usr/local/lib/slib/scaglob.scm" |
- "/usr/local/lib/slib/scaoutp.scm") |
- |
- - Function: load->path exp |
- Given a `(load '<expr>)', where <expr> is a string or vicinity |
- stuff), `(load->path <expr>)' figures a path to the file. |
- `load->path' returns that path if it names an existing file; |
- otherwise #f. |
- |
- (load->path '(in-vicinity (library-vicinity) "mklibcat")) |
- => "/usr/local/lib/slib/mklibcat.scm" |
- |
- - Function: file->definitions file |
- Returns a list of the identifier symbols defined by SLIB (or |
- SLIB-style) file FILE. |
- |
- (file->definitions "random.scm") |
- => (*random-state* make-random-state |
- seed->random-state copy-random-state random |
- random:chunk) |
- |
- - Function: file->exports file |
- Returns a list of the identifier symbols exported (advertised) by |
- SLIB (or SLIB-style) file FILE. |
- |
- (file->exports "random.scm") |
- => (make-random-state seed->random-state |
- copy-random-state random) |
- |
- (file->exports "randinex.scm") |
- => (random:solid-sphere! random:hollow-sphere! |
- random:normal-vector! random:normal |
- random:exp random:uniform) |
- |
- - Function: feature->export-alist feature catalog |
- Returns a list of lists; each sublist holding the name of the file |
- implementing FEATURE, and the identifier symbols exported |
- (advertised) by SLIB (or SLIB-style) feature FEATURE, in CATALOG. |
- |
- - Function: feature->exports feature catalog |
- Returns a list of all exports of FEATURE. |
- |
-In the case of `aggregate' features, more than one file may have export |
-lists to report: |
- |
- (feature->export-alist 'r5rs slib:catalog)) |
- => (("/usr/local/lib/slib/values.scm" |
- call-with-values values) |
- ("/usr/local/lib/slib/mbe.scm" |
- define-syntax macro:expand |
- macro:load macro:eval) |
- ("/usr/local/lib/slib/eval.scm" |
- eval scheme-report-environment |
- null-environment interaction-environment)) |
- |
- (feature->export-alist 'stdio *catalog*) |
- => (("/usr/local/lib/slib/scanf.scm" |
- fscanf sscanf scanf scanf-read-list) |
- ("/usr/local/lib/slib/printf.scm" |
- sprintf printf fprintf) |
- ("/usr/local/lib/slib/stdio.scm" |
- stderr stdout stdin)) |
- |
- (feature->exports 'stdio slib:catalog) |
- => (fscanf sscanf scanf scanf-read-list |
- sprintf printf fprintf stderr stdout stdin) |
+`(require 'manifest)'
+
+In some of these examples, SLIB:CATALOG is the SLIB part of the
+catalog; it is free of compiled and implementation-specific entries.
+It would be defined by:
+
+ (define slib:catalog (cdr (member (assq 'null *catalog*) *catalog*)))
+
+ -- Function: file->requires file provided? catalog |
+ Returns a list of the features `require'd by FILE assuming the
+ predicate PROVIDED? and association-list CATALOG.
+
+ (define (provided+? . features)
+ (lambda (feature)
+ (or (memq feature features) (provided? feature))))
+
+ (file->requires "obj2str.scm" (provided+? 'compiling) '())
+ => (string-port generic-write)
+
+ (file->requires "obj2str.scm" provided? '())
+ => (string-port)
+
+ -- Function: feature->requires feature provided? catalog |
+ Returns a list of the features `require'd by FEATURE assuming the
+ predicate PROVIDED? and association-list CATALOG.
+
+ (feature->requires 'batch (provided+? 'compiling) *catalog*)
+ => (tree line-i/o databases parameters string-port
+ pretty-print common-list-functions posix-time)
+
+ (feature->requires 'batch provided? *catalog*)
+ => (tree line-i/o databases parameters string-port
+ pretty-print common-list-functions)
+
+ (feature->requires 'batch provided? '((batch . "batch")))
+ => (tree line-i/o databases parameters string-port
+ pretty-print common-list-functions)
+
+ -- Function: feature->requires* feature provided? catalog |
+ Returns a list of the features transitively `require'd by FEATURE |
+ assuming the predicate PROVIDED? and association-list CATALOG. |
+ |
+ -- Function: file->requires* file provided? catalog |
+ Returns a list of the features transitively `require'd by FILE |
+ assuming the predicate PROVIDED? and association-list CATALOG. |
+ |
+ -- Function: file->loads file |
+ Returns a list of strings naming existing files loaded (load
+ slib:load slib:load-source macro:load defmacro:load syncase:load
+ synclo:load macwork:load) by FILE or any of the files it loads.
+
+ (file->loads (in-vicinity (library-vicinity) "scainit.scm"))
+ => ("/usr/local/lib/slib/scaexpp.scm"
+ "/usr/local/lib/slib/scaglob.scm"
+ "/usr/local/lib/slib/scaoutp.scm")
+
+ -- Function: load->path exp |
+ Given a `(load '<expr>)', where <expr> is a string or vicinity
+ stuff), `(load->path <expr>)' figures a path to the file.
+ `load->path' returns that path if it names an existing file;
+ otherwise #f.
+
+ (load->path '(in-vicinity (library-vicinity) "mklibcat"))
+ => "/usr/local/lib/slib/mklibcat.scm"
+
+ -- Function: file->definitions file definer ... |
+ Returns a list of the identifier symbols defined by SLIB (or
+ SLIB-style) file FILE. The optional arguments DEFINERS should be |
+ symbols signifying a defining form. If none are supplied, then |
+ the symbols `define-operation', `define', `define-syntax', and |
+ `defmacro' are captured. |
+
+ (file->definitions "random.scm")
+ => (*random-state* make-random-state
+ seed->random-state copy-random-state random
+ random:chunk)
+
+ -- Function: file->exports file definer ... |
+ Returns a list of the identifier symbols exported (advertised) by
+ SLIB (or SLIB-style) file FILE. The optional arguments DEFINERS |
+ should be symbols signifying a defining form. If none are |
+ supplied, then the symbols `define-operation', `define', |
+ `define-syntax', and `defmacro' are captured. |
+
+ (file->exports "random.scm")
+ => (make-random-state seed->random-state
+ copy-random-state random)
+
+ (file->exports "randinex.scm")
+ => (random:solid-sphere! random:hollow-sphere!
+ random:normal-vector! random:normal
+ random:exp random:uniform)
+
+ -- Function: feature->export-alist feature catalog |
+ Returns a list of lists; each sublist holding the name of the file
+ implementing FEATURE, and the identifier symbols exported
+ (advertised) by SLIB (or SLIB-style) feature FEATURE, in CATALOG.
+
+ -- Function: feature->exports feature catalog |
+ Returns a list of all exports of FEATURE.
+
+In the case of `aggregate' features, more than one file may have export
+lists to report:
+
+ (feature->export-alist 'r5rs slib:catalog))
+ => (("/usr/local/lib/slib/values.scm"
+ call-with-values values)
+ ("/usr/local/lib/slib/mbe.scm"
+ define-syntax macro:expand
+ macro:load macro:eval)
+ ("/usr/local/lib/slib/eval.scm"
+ eval scheme-report-environment
+ null-environment interaction-environment))
+
+ (feature->export-alist 'stdio *catalog*)
+ => (("/usr/local/lib/slib/scanf.scm"
+ fscanf sscanf scanf scanf-read-list)
+ ("/usr/local/lib/slib/printf.scm"
+ sprintf printf fprintf)
+ ("/usr/local/lib/slib/stdio.scm"
+ stderr stdout stdin))
+
+ (feature->exports 'stdio slib:catalog)
+ => (fscanf sscanf scanf scanf-read-list
+ sprintf printf fprintf stderr stdout stdin)

File: slib.info, Node: Module Semantics, Next: Top-level Variable References, Prev: Module Manifests, Up: Compiling Scheme
- |
-Module Semantics |
----------------- |
- |
-For the purpose of compiling Scheme code, each top-level `require' |
-makes the identifiers exported by its feature's module `defined' (or |
-defmacroed or defined-syntaxed) within the file (being compiled) headed |
-with those requires. |
- |
- Top-level occurrences of `require-if' make defined the exports from |
-the module named by the second argument _if_ the FEATURE-EXPRESSION |
-first argument is true in the target environment. The target feature |
-`compiling' should be provided during this phase of compilation. |
- |
- Non-top-level SLIB occurences of `require' and `require-if' of quoted |
-features can be ignored by compilers. The SLIB modules will all have |
-top-level constructs for those features. |
- |
- Note that aggregate catalog entries import more than one module. |
-Implementations of `require' may or may _not_ be transitive; code which |
-uses module exports without requiring the providing module is in error. |
- |
- In the SLIB modules `modular', `batch', `hash', `common-lisp-time', |
-`commutative-ring', `charplot', `logical', `common-list-functions', |
-`coerce' and `break' there is code conditional on features being |
-`provided?'. Most are testing for the presence of features which are |
-intrinsic to implementations (inexacts, bignums, ...). |
- |
- In all cases these `provided?' tests can be evaluated at compile-time |
-using `feature-eval' (*note feature-eval: Feature.). The simplest way |
-to compile these constructs may be to treat `provided?' as a macro. |
- |
+
+1.6.3 Module Semantics |
+---------------------- |
+
+For the purpose of compiling Scheme code, each top-level `require'
+makes the identifiers exported by its feature's module `defined' (or
+defmacroed or defined-syntaxed) within the file (being compiled) headed
+with those requires.
+
+ Top-level occurrences of `require-if' make defined the exports from
+the module named by the second argument _if_ the FEATURE-EXPRESSION
+first argument is true in the target environment. The target feature
+`compiling' should be provided during this phase of compilation.
+
+ Non-top-level SLIB occurences of `require' and `require-if' of quoted
+features can be ignored by compilers. The SLIB modules will all have
+top-level constructs for those features.
+
+ Note that aggregate catalog entries import more than one module.
+Implementations of `require' may or may _not_ be transitive; code which
+uses module exports without requiring the providing module is in error.
+
+ In the SLIB modules `modular', `batch', `hash', `common-lisp-time',
+`commutative-ring', `charplot', `logical', `common-list-functions',
+`coerce' and `break' there is code conditional on features being
+`provided?'. Most are testing for the presence of features which are
+intrinsic to implementations (inexacts, bignums, ...).
+
+ In all cases these `provided?' tests can be evaluated at compile-time
+using `feature-eval' (*note feature-eval: Feature.). The simplest way
+to compile these constructs may be to treat `provided?' as a macro.
+

File: slib.info, Node: Top-level Variable References, Next: Module Analysis, Prev: Module Semantics, Up: Compiling Scheme
- |
-Top-level Variable References |
------------------------------ |
- |
-`(require 'top-refs)' |
- |
-These procedures complement those in *Note Module Manifests:: by |
-finding the top-level variable references in Scheme source code. They |
-work by traversing expressions and definitions, keeping track of |
-bindings encountered. It is certainly possible to foil these |
-functions, but they return useful information about SLIB source code. |
- |
- - Function: top-refs obj |
- Returns a list of the top-level variables referenced by the Scheme |
- expression OBJ. |
- |
- - Function: top-refs<-file filename |
- FILENAME should be a string naming an existing file containing |
- Scheme source code. `top-refs<-file' returns a list of the |
- top-level variable references made by expressions in the file |
- named by FILENAME. |
- |
- Code in modules which FILENAME `require's is not traversed. Code |
- in files loaded from top-level _is_ traversed if the expression |
- argument to `load', `slib:load', `slib:load-source', `macro:load', |
- `defmacro:load', `synclo:load', `syncase:load', or `macwork:load' |
- is a literal string constant or composed of combinations of |
- vicinity functions and string literal constants; and the resulting |
- file exists (possibly with ".scm" appended). |
- |
-The following function parses an "Info" Index. (1) |
- |
- - Function: exports<-info-index file n ... |
- N ... must be an increasing series of positive integers. |
- `exports<-info-index' returns a list of all the identifiers |
- appearing in the Nth ... (info) indexes of FILE. The identifiers |
- have the case that the implementation's `read' uses for symbols. |
- Identifiers containing spaces (eg. `close-base on base-table') are |
- _not_ included. |
- |
- Each info index is headed by a `* Menu:' line. To list the |
- symbols in the first and third info indexes do: |
- |
- (exports<-info-index "slib.info" 1 3) |
- |
- ---------- Footnotes ---------- |
- |
- (1) Although it will work on large info files, feeding it an excerpt |
-is much faster; and has less chance of being confused by unusual text |
-in the info file. This command excerpts the SLIB index into |
-`slib-index.info': |
- |
- info -f slib2d6.info -n "Index" -o slib-index.info |
- |
+
+1.6.4 Top-level Variable References |
+----------------------------------- |
+
+`(require 'top-refs)'
+
+These procedures complement those in *Note Module Manifests:: by
+finding the top-level variable references in Scheme source code. They
+work by traversing expressions and definitions, keeping track of
+bindings encountered. It is certainly possible to foil these
+functions, but they return useful information about SLIB source code.
+
+ -- Function: top-refs obj |
+ Returns a list of the top-level variables referenced by the Scheme
+ expression OBJ.
+
+ -- Function: top-refs<-file filename |
+ FILENAME should be a string naming an existing file containing
+ Scheme source code. `top-refs<-file' returns a list of the
+ top-level variable references made by expressions in the file
+ named by FILENAME.
+
+ Code in modules which FILENAME `require's is not traversed. Code
+ in files loaded from top-level _is_ traversed if the expression
+ argument to `load', `slib:load', `slib:load-source', `macro:load',
+ `defmacro:load', `synclo:load', `syncase:load', or `macwork:load'
+ is a literal string constant or composed of combinations of
+ vicinity functions and string literal constants; and the resulting
+ file exists (possibly with ".scm" appended).
+
+The following function parses an "Info" Index. (1)
+
+ -- Function: exports<-info-index file n ... |
+ N ... must be an increasing series of positive integers.
+ `exports<-info-index' returns a list of all the identifiers
+ appearing in the Nth ... (info) indexes of FILE. The identifiers
+ have the case that the implementation's `read' uses for symbols.
+ Identifiers containing spaces (eg. `close-base on base-table') are
+ _not_ included. #f is returned if the index is not found. |
+
+ Each info index is headed by a `* Menu:' line. To list the
+ symbols in the first and third info indexes do:
+
+ (exports<-info-index "slib.info" 1 3)
+
+ ---------- Footnotes ----------
+
+ (1) Although it will work on large info files, feeding it an excerpt
+is much faster; and has less chance of being confused by unusual text
+in the info file. This command excerpts the SLIB index into
+`slib-index.info':
+
+ info -f slib2d6.info -n "Index" -o slib-index.info
+

File: slib.info, Node: Module Analysis, Prev: Top-level Variable References, Up: Compiling Scheme
- |
-Module Analysis |
---------------- |
- |
-`(require 'vet)' |
- |
- - Function: vet-slib |
- Using the procedures in the `top-refs' and `manifest' modules, |
- `vet-slib' analyzes each SLIB module, reporting about any |
- procedure or macro defined whether it is: |
- |
- orphaned |
- defined, not called, not exported; |
- |
- missing |
- called, not defined, and not exported by its `require'd |
- modules; |
- |
- undocumented-export |
- Exported by module, but no index entry in `slib.info'; |
- |
- |
- And for the library as a whole: |
- |
- documented-unexport |
- Index entry in `slib.info', but no module exports it. |
- |
- |
- This straightforward analysis caught three full days worth of |
- never-executed branches, transitive require assumptions, spelling |
- errors, undocumented procedures, missing procedures, and cyclic |
- dependencies in SLIB. |
+
+1.6.5 Module Analysis |
+--------------------- |
+
+`(require 'vet)'
+
+ -- Function: vet-slib file1 ... |
+ Using the procedures in the `top-refs' and `manifest' modules,
+ `vet-slib' analyzes each SLIB module and FILE1, ..., reporting |
+ about any procedure or macro defined whether it is: |
+
+ orphaned
+ defined, not called, not exported;
+
+ missing
+ called, not defined, and not exported by its `require'd
+ modules;
+
+ undocumented-export
+ Exported by module, but no index entry in `slib.info';
+
+
+ And for the library as a whole:
+
+ documented-unexport
+ Index entry in `slib.info', but no module exports it.
+
+
+ This straightforward analysis caught three full days worth of
+ never-executed branches, transitive require assumptions, spelling
+ errors, undocumented procedures, missing procedures, and cyclic
+ dependencies in SLIB.
+
+ The optional arguments FILE1, ... provide a simple way to vet |
+ prospective SLIB modules. |
|

File: slib.info, Node: Universal SLIB Procedures, Next: Scheme Syntax Extension Packages, Prev: The Library System, Up: Top
- |
-Universal SLIB Procedures |
-************************* |
- |
-The procedures described in these sections are supported by all |
-implementations as part of the `*.init' files or by `require.scm'. |
- |
-* Menu: |
- |
-* Vicinity:: Pathname Management |
-* Configuration:: Characteristics of Scheme Implementation |
-* Input/Output:: Things not provided by the Scheme specs. |
-* System:: LOADing, EVALing, ERRORing, and EXITing |
-* Miscellany:: |
- |
+
+2 Universal SLIB Procedures |
+*************************** |
+
+The procedures described in these sections are supported by all
+implementations as part of the `*.init' files or by `require.scm'.
+
+* Menu:
+
+* Vicinity:: Pathname Management
+* Configuration:: Characteristics of Scheme Implementation
+* Input/Output:: Things not provided by the Scheme specs.
+* System:: LOADing, EVALing, ERRORing, and EXITing
+* Miscellany::
+

File: slib.info, Node: Vicinity, Next: Configuration, Prev: Universal SLIB Procedures, Up: Universal SLIB Procedures
- |
-Vicinity
-======== |
+
+2.1 Vicinity |
+============ |
A vicinity is a descriptor for a place in the file system. Vicinities
hide from the programmer the concepts of host, volume, directory, and
@@ -721,53 +740,56 @@ version. Vicinities express only the concept of a file environment
where a file name can be resolved to a file in a system independent
manner. Vicinities can even be used on "flat" file systems (which have
no directory structure) by having the vicinity express constraints on
-the file name. On most systems a vicinity would be a string. All of
-these procedures are file system dependent.
+the file name. |
-These procedures are provided by all implementations.
+ All of these procedures are file-system dependent. Use of these |
+vicinity procedures can make programs file-system _in_dependent. |
- - Function: make-vicinity dirpath
+These procedures are provided by all implementations. On most systems |
+a vicinity is a string. |
+ |
+ -- Function: make-vicinity dirpath |
Returns DIRPATH as a vicinity for use as first argument to
`in-vicinity'.
- - Function: pathname->vicinity path
+ -- Function: pathname->vicinity path |
Returns the vicinity containing PATH.
(pathname->vicinity "/usr/local/lib/scm/Link.scm")
=> "/usr/local/lib/scm/"
- - Function: program-vicinity
+ -- Function: program-vicinity |
Returns the vicinity of the currently loading Scheme code. For an
interpreter this would be the directory containing source code.
For a compiled system (with multiple files) this would be the
directory where the object or executable files are. If no file is
- currently loading it the result is undefined. *Warning:*
+ currently loading, then the result is undefined. *Warning:* |
`program-vicinity' can return incorrect values if your program
- escapes back into a `load'.
+ escapes back into a `load' continuation. |
- - Function: library-vicinity
+ -- Function: library-vicinity |
Returns the vicinity of the shared Scheme library.
- - Function: implementation-vicinity
+ -- Function: implementation-vicinity |
Returns the vicinity of the underlying Scheme implementation. This
vicinity will likely contain startup code and messages and a
compiler.
- - Function: user-vicinity
+ -- Function: user-vicinity |
Returns the vicinity of the current directory of the user. On most
systems this is `""' (the empty string).
- - Function: home-vicinity
- Returns the vicinity of the user's "HOME" directory, the directory
- which typically contains files which customize a computer
- environment for a user. If scheme is running without a user (eg.
- a daemon) or if this concept is meaningless for the platform, then
+ -- Function: home-vicinity |
+ Returns the vicinity of the user's "HOME" directory, the directory which |
+ typically contains files which customize a computer environment |
+ for a user. If scheme is running without a user (eg. a daemon) or |
+ if this concept is meaningless for the platform, then |
`home-vicinity' returns `#f'.
- - Function: vicinity:suffix? chr |
- Returns the `#t' if CHR is a vicinity suffix character; and `#f' |
- otherwise. Typical vicinity suffixes are `/', `:', and `\', |
- |
- - Function: in-vicinity vicinity filename
+ -- Function: vicinity:suffix? chr |
+ Returns the `#t' if CHR is a vicinity suffix character; and `#f'
+ otherwise. Typical vicinity suffixes are `/', `:', and `\',
+
+ -- Function: in-vicinity vicinity filename |
Returns a filename suitable for use by `slib:load',
`slib:load-source', `slib:load-compiled', `open-input-file',
`open-output-file', etc. The returned filename is FILENAME in
@@ -778,27 +800,34 @@ These procedures are provided by all implementations.
to the value of `(user-vicinity)' is unspecified. For most systems
`in-vicinity' can be `string-append'.
- - Function: sub-vicinity vicinity name
+ -- Function: sub-vicinity vicinity name |
Returns the vicinity of VICINITY restricted to NAME. This is used
for large systems where names of files in subsystems could
conflict. On systems with directory structure `sub-vicinity' will
return a pathname of the subdirectory NAME of VICINITY.
+ -- Function: with-load-pathname path thunk |
+ PATH should be a string naming a file being read or loaded. |
+ `with-load-pathname' evaluates THUNK in a dynamic scope where an |
+ internal variable is bound to PATH; the internal variable is used |
+ for messages and `program-vicinity'. `with-load-pathname' returns |
+ the value returned by THUNK. |
+ |

File: slib.info, Node: Configuration, Next: Input/Output, Prev: Vicinity, Up: Universal SLIB Procedures
- |
-Configuration
-============= |
+
+2.2 Configuration |
+================= |
These constants and procedures describe characteristics of the Scheme
and underlying operating system. They are provided by all
implementations.
- - Constant: char-code-limit
+ -- Constant: char-code-limit |
An integer 1 larger that the largest value which can be returned by
`char->integer'.
- - Constant: most-positive-fixnum
+ -- Constant: most-positive-fixnum |
In implementations which support integers of practically unlimited
size, MOST-POSITIVE-FIXNUM is a large exact integer within the
range of exact integers that may result from computing the length
@@ -809,39 +838,39 @@ implementations.
that may result from computing the length of a list, vector, or
string.
- - Constant: slib:tab
+ -- Constant: slib:tab |
The tab character.
- - Constant: slib:form-feed
+ -- Constant: slib:form-feed |
The form-feed character.
- - Function: software-type
+ -- Function: software-type |
Returns a symbol denoting the generic operating system type. For
instance, `unix', `vms', `macos', `amiga', or `ms-dos'.
- - Function: slib:report-version
+ -- Function: slib:report-version |
Displays the versions of SLIB and the underlying Scheme
implementation and the name of the operating system. An
unspecified value is returned.
- (slib:report-version) => slib "3a1" on scm "5b1" on unix |
+ (slib:report-version) => slib "3a2" on scm "5b1" on unix |
- - Function: slib:report
+ -- Function: slib:report |
Displays the information of `(slib:report-version)' followed by
almost all the information neccessary for submitting a problem
report. An unspecified value is returned.
- - Function: slib:report #t
+ -- Function: slib:report #t |
provides a more verbose listing.
- - Function: slib:report filename
+ -- Function: slib:report filename |
Writes the report to file `filename'.
(slib:report)
=>
- slib "3a1" on scm "5b1" on unix |
- (implementation-vicinity) is "/usr/local/lib/scm/" |
- (library-vicinity) is "/usr/local/lib/slib/" |
+ slib "3a2" on scm "5b1" on unix |
+ (implementation-vicinity) is "/usr/local/lib/scm/"
+ (library-vicinity) is "/usr/local/lib/slib/"
(scheme-file-suffix) is ".scm"
loaded *features* :
trace alist qp sort
@@ -851,7 +880,7 @@ implementations.
bignum complex real rational
inexact vicinity ed getenv
tmpnam abort transcript with-file
- ieee-p1178 r4rs rev4-optional-procedures hash |
+ ieee-p1178 r4rs rev4-optional-procedures hash
object-hash delay eval dynamic-wind
multiarg-apply multiarg/and- logical defmacro
string-port source current-time record
@@ -859,27 +888,27 @@ implementations.
array dump char-ready? full-continuation
system
implementation *catalog* :
- (i/o-extensions compiled "/usr/local/lib/scm/ioext.so") |
+ (i/o-extensions compiled "/usr/local/lib/scm/ioext.so")
...

File: slib.info, Node: Input/Output, Next: System, Prev: Configuration, Up: Universal SLIB Procedures
- |
-Input/Output
-============ |
+
+2.3 Input/Output |
+================ |
These procedures are provided by all implementations.
- - Function: file-exists? filename
+ -- Function: file-exists? filename |
Returns `#t' if the specified file exists. Otherwise, returns
`#f'. If the underlying implementation does not support this
feature then `#f' is always returned.
- - Function: delete-file filename
+ -- Function: delete-file filename |
Deletes the file specified by FILENAME. If FILENAME can not be
deleted, `#f' is returned. Otherwise, `#t' is returned.
- - Function: open-file filename modes
+ -- Function: open-file filename modes |
FILENAME should be a string naming a file. `open-file' returns a
port depending on the symbol MODES:
@@ -905,18 +934,18 @@ These procedures are provided by all implementations.
signalled. For output, if a file with the given name already
exists, the effect is unspecified.
- - Function: port? obj
+ -- Function: port? obj |
Returns #t if OBJ is an input or output port, otherwise returns #f.
- - Procedure: close-port port
+ -- Procedure: close-port port |
Closes the file associated with PORT, rendering the PORT incapable
of delivering or accepting characters.
`close-file' has no effect if the file has already been closed.
The value returned is unspecified.
- - Function: call-with-open-ports proc ports ...
- - Function: call-with-open-ports ports ... proc
+ -- Function: call-with-open-ports proc ports ... |
+ -- Function: call-with-open-ports ports ... proc |
PROC should be a procedure that accepts as many arguments as there
are PORTS passed to `call-with-open-ports'.
`call-with-open-ports' calls PROC with PORTS .... If PROC
@@ -926,54 +955,54 @@ These procedures are provided by all implementations.
to prove that the ports will never again be used for a read or
write operation.
- - Function: tmpnam
+ -- Function: tmpnam |
Returns a pathname for a file which will likely not be used by any
other process. Successive calls to `(tmpnam)' will return
different pathnames.
- - Function: current-error-port
+ -- Function: current-error-port |
Returns the current port to which diagnostic and error output is
directed.
- - Procedure: force-output
- - Procedure: force-output port
+ -- Procedure: force-output |
+ -- Procedure: force-output port |
Forces any pending output on PORT to be delivered to the output
device and returns an unspecified value. The PORT argument may be
omitted, in which case it defaults to the value returned by
`(current-output-port)'.
- - Function: output-port-width
- - Function: output-port-width port
+ -- Function: output-port-width |
+ -- Function: output-port-width port |
Returns the width of PORT, which defaults to
`(current-output-port)' if absent. If the width cannot be
determined 79 is returned.
- - Function: output-port-height
- - Function: output-port-height port
+ -- Function: output-port-height |
+ -- Function: output-port-height port |
Returns the height of PORT, which defaults to
`(current-output-port)' if absent. If the height cannot be
determined 24 is returned.

File: slib.info, Node: System, Next: Miscellany, Prev: Input/Output, Up: Universal SLIB Procedures
- |
-System
-====== |
+
+2.4 System |
+========== |
These procedures are provided by all implementations.
- - Procedure: slib:load-source name
+ -- Procedure: slib:load-source name |
Loads a file of Scheme source code from NAME with the default
filename extension used in SLIB. For instance if the filename
extension used in SLIB is `.scm' then `(slib:load-source "foo")'
will load from file `foo.scm'.
- - Procedure: slib:load-compiled name
+ -- Procedure: slib:load-compiled name |
On implementations which support separtely loadable compiled
modules, loads a file of compiled code from NAME with the
implementation's filename extension for compiled code appended.
- - Procedure: slib:load name
+ -- Procedure: slib:load name |
Loads a file of Scheme source or compiled code from NAME with the
appropriate suffixes appended. If both source and compiled code
are present with the appropriate names then the implementation
@@ -983,29 +1012,29 @@ These procedures are provided by all implementations.
If an implementation does not support compiled code then
`slib:load' will be identical to `slib:load-source'.
- - Procedure: slib:eval obj
+ -- Procedure: slib:eval obj |
`eval' returns the value of OBJ evaluated in the current top level
environment. *Note Eval:: provides a more general evaluation
facility.
- - Procedure: slib:eval-load filename eval
+ -- Procedure: slib:eval-load filename eval |
FILENAME should be a string. If filename names an existing file,
the Scheme source code expressions and definitions are read from
the file and EVAL called with them sequentially. The
`slib:eval-load' procedure does not affect the values returned by
`current-input-port' and `current-output-port'.
- - Procedure: slib:warn arg1 arg2 ...
+ -- Procedure: slib:warn arg1 arg2 ... |
Outputs a warning message containing the arguments.
- - Procedure: slib:error arg1 arg2 ...
+ -- Procedure: slib:error arg1 arg2 ... |
Outputs an error message containing the arguments, aborts
evaluation of the current form and responds in a system dependent
way to the error. Typical responses are to abort the program or
to enter a read-eval-print loop.
- - Procedure: slib:exit n
- - Procedure: slib:exit
+ -- Procedure: slib:exit n |
+ -- Procedure: slib:exit |
Exits from the Scheme session returning status N to the system.
If N is omitted or `#t', a success status is returned to the
system (if possible). If N is `#f' a failure is returned to the
@@ -1013,7 +1042,7 @@ These procedures are provided by all implementations.
the system (if possible). If the Scheme session cannot exit an
unspecified value is returned from `slib:exit'.
- - Function: browse-url url
+ -- Function: browse-url url |
Web browsers have become so ubiquitous that programming languagues
should support a uniform interface to them.
@@ -1028,13 +1057,13 @@ These procedures are provided by all implementations.

File: slib.info, Node: Miscellany, Prev: System, Up: Universal SLIB Procedures
- |
-Miscellany
-========== |
+
+2.5 Miscellany |
+============== |
These procedures are provided by all implementations.
- - Function: identity x
+ -- Function: identity x |
IDENTITY returns its argument.
Example:
@@ -1045,15 +1074,24 @@ These procedures are provided by all implementations.
(map identity LST)
== (copy-list LST)
-Mutual Exclusion
----------------- |
+ -- Function: expt n k |
+ Returns N raised to the non-negative integer exponent K. |
-An "exchanger" is a procedure of one argument regulating mutually
-exclusive access to a resource. When a exchanger is called, its current
-content is returned, while being replaced by its argument in an atomic
+ Example: |
+ (expt 2 5) |
+ => 32 |
+ (expt -3 3) |
+ => -27 |
+ |
+2.5.1 Mutual Exclusion |
+---------------------- |
+ |
+An "exchanger" is a procedure of one argument regulating mutually exclusive |
+access to a resource. When a exchanger is called, its current content |
+is returned, while being replaced by its argument in an atomic |
operation.
- - Function: make-exchanger obj
+ -- Function: make-exchanger obj |
Returns a new exchanger with the argument OBJ as its initial
content.
@@ -1071,25 +1109,25 @@ operation.
(set! lst (cdr lst))
ret)))
(lambda () (and lst (queue lst))))))
-
+
(pop queue) => a
-
+
(pop queue) => #f
-Legacy
------- |
+2.5.2 Legacy |
+------------ |
The following procedures were present in Scheme until R4RS (*note
Language changes: (r4rs)Notes.). They are provided by all SLIB
implementations.
- - Constant: t
+ -- Constant: t |
Derfined as `#t'.
- - Constant: nil
+ -- Constant: nil |
Defined as `#f'.
- - Function: last-pair l
+ -- Function: last-pair l |
Returns the last pair in the list L. Example:
(last-pair (cons 1 2))
=> (1 . 2)
@@ -1099,9 +1137,9 @@ implementations.

File: slib.info, Node: Scheme Syntax Extension Packages, Next: Textual Conversion Packages, Prev: Universal SLIB Procedures, Up: Top
- |
-Scheme Syntax Extension Packages
-********************************
+
+3 Scheme Syntax Extension Packages |
+********************************** |
* Menu:
@@ -1115,28 +1153,29 @@ Scheme Syntax Extension Packages
Syntax extensions (macros) included with SLIB.
+* Define-Structure:: 'structure |
* Fluid-Let:: 'fluid-let
* Yasos:: 'yasos, 'oop, 'collect

File: slib.info, Node: Defmacro, Next: R4RS Macros, Prev: Scheme Syntax Extension Packages, Up: Scheme Syntax Extension Packages
-Defmacro
-========
+3.1 Defmacro |
+============ |
Defmacros are supported by all implementations.
- - Function: gentemp
+ -- Function: gentemp |
Returns a new (interned) symbol each time it is called. The symbol
names are implementation-dependent
(gentemp) => scm:G0
(gentemp) => scm:G1
- - Function: defmacro:eval e
+ -- Function: defmacro:eval e |
Returns the `slib:eval' of expanding all defmacros in scheme
expression E.
- - Function: defmacro:load filename
+ -- Function: defmacro:load filename |
FILENAME should be a string. If filename names an existing file,
the `defmacro:load' procedure reads Scheme source code expressions
and definitions from the file and evaluates them sequentially.
@@ -1144,11 +1183,11 @@ Defmacros are supported by all implementations.
definitions. The `macro:load' procedure does not affect the values
returned by `current-input-port' and `current-output-port'.
- - Function: defmacro? sym
+ -- Function: defmacro? sym |
Returns `#t' if SYM has been defined by `defmacro', `#f' otherwise.
- - Function: macroexpand-1 form
- - Function: macroexpand form
+ -- Function: macroexpand-1 form |
+ -- Function: macroexpand form |
If FORM is a macro call, `macroexpand-1' will expand the macro
call once and return it. A FORM is considered to be a macro call
only if it is a cons whose `car' is a symbol for which a
@@ -1157,26 +1196,26 @@ Defmacros are supported by all implementations.
`macroexpand' is similar to `macroexpand-1', but repeatedly
expands FORM until it is no longer a macro call.
- - Macro: defmacro name lambda-list form ...
+ -- Macro: defmacro name lambda-list form ... |
When encountered by `defmacro:eval', `defmacro:macroexpand*', or
`defmacro:load' defines a new macro which will henceforth be
expanded when encountered by `defmacro:eval',
`defmacro:macroexpand*', or `defmacro:load'.
-Defmacroexpand
---------------
+3.1.1 Defmacroexpand |
+-------------------- |
-`(require 'defmacroexpand)'
+`(require 'defmacroexpand)'
- - Function: defmacro:expand* e
+ -- Function: defmacro:expand* e |
Returns the result of expanding all defmacros in scheme expression
E.

File: slib.info, Node: R4RS Macros, Next: Macro by Example, Prev: Defmacro, Up: Scheme Syntax Extension Packages
-R4RS Macros
-===========
+3.2 R4RS Macros |
+=============== |
`(require 'macro)' is the appropriate call if you want R4RS high-level
macros but don't care about the low level implementation. If an SLIB
@@ -1186,15 +1225,15 @@ Otherwise, one of the R4RS macros implemetations is loaded.
The SLIB R4RS macro implementations support the following uniform
interface:
- - Function: macro:expand sexpression
+ -- Function: macro:expand sexpression |
Takes an R4RS expression, macro-expands it, and returns the result
of the macro expansion.
- - Function: macro:eval sexpression
+ -- Function: macro:eval sexpression |
Takes an R4RS expression, macro-expands it, evals the result of the
macro expansion, and returns the result of the evaluation.
- - Procedure: macro:load filename
+ -- Procedure: macro:load filename |
FILENAME should be a string. If filename names an existing file,
the `macro:load' procedure reads Scheme source code expressions and
definitions from the file and evaluates them sequentially. These
@@ -1205,10 +1244,10 @@ interface:

File: slib.info, Node: Macro by Example, Next: Macros That Work, Prev: R4RS Macros, Up: Scheme Syntax Extension Packages
-Macro by Example
-================
+3.3 Macro by Example |
+==================== |
-`(require 'macro-by-example)'
+`(require 'macro-by-example)'
A vanilla implementation of `Macro by Example' (Eugene Kohlbecker,
R4RS) by Dorai Sitaram, (dorai @ cs.rice.edu) using `defmacro'.
@@ -1225,8 +1264,8 @@ R4RS) by Dorai Sitaram, (dorai @ cs.rice.edu) using `defmacro'.
natively supported (most implementations)
-Caveat
-------
+3.3.1 Caveat |
+------------ |
These macros are not referentially transparent (*note Macros:
(r4rs)Macros.). Lexically scoped macros (i.e., `let-syntax' and
@@ -1240,7 +1279,7 @@ featureful (but also more expensive) versions of syntax-rules available
in slib *Note Macros That Work::, *Note Syntactic Closures::, and *Note
Syntax-Case Macros::.
- - Macro: define-syntax keyword transformer-spec
+ -- Macro: define-syntax keyword transformer-spec |
The KEYWORD is an identifier, and the TRANSFORMER-SPEC should be
an instance of `syntax-rules'.
@@ -1257,7 +1296,7 @@ Syntax-Case Macros::.
(let* (( name2 val2) ...)
body1 body2 ...)))))
- - Macro: syntax-rules literals syntax-rule ...
+ -- Macro: syntax-rules literals syntax-rule ... |
LITERALS is a list of identifiers, and each SYNTAX-RULE should be
of the form
@@ -1280,28 +1319,28 @@ Syntax-Case Macros::.

File: slib.info, Node: Macros That Work, Next: Syntactic Closures, Prev: Macro by Example, Up: Scheme Syntax Extension Packages
-Macros That Work
-================
+3.4 Macros That Work |
+==================== |
-`(require 'macros-that-work)'
+`(require 'macros-that-work)'
`Macros That Work' differs from the other R4RS macro implementations
in that it does not expand derived expression types to primitive
expression types.
- - Function: macro:expand expression
- - Function: macwork:expand expression
+ -- Function: macro:expand expression |
+ -- Function: macwork:expand expression |
Takes an R4RS expression, macro-expands it, and returns the result
of the macro expansion.
- - Function: macro:eval expression
- - Function: macwork:eval expression
+ -- Function: macro:eval expression |
+ -- Function: macwork:eval expression |
`macro:eval' returns the value of EXPRESSION in the current top
level environment. EXPRESSION can contain macro definitions.
Side effects of EXPRESSION will affect the top level environment.
- - Procedure: macro:load filename
- - Procedure: macwork:load filename
+ -- Procedure: macro:load filename |
+ -- Procedure: macwork:load filename |
FILENAME should be a string. If filename names an existing file,
the `macro:load' procedure reads Scheme source code expressions and
definitions from the file and evaluates them sequentially. These
@@ -1316,17 +1355,18 @@ Rees [editors]. To appear in LISP Pointers. Also available as a
technical report from the University of Oregon, MIT AI Lab, and Cornell.
Macros That Work. Clinger and Rees. POPL '91.
- The supported syntax
-differs from the R4RS in that vectors are allowed as patterns and as
-templates and are not allowed as pattern or template data.
+ |
+ The supported syntax differs from the R4RS in that vectors are allowed |
+as patterns and as templates and are not allowed as pattern or template |
+data. |
transformer spec ==> (syntax-rules literals rules)
-
+
rules ==> ()
| (rule . rules)
-
+
rule ==> (pattern template)
-
+
pattern ==> pattern_var ; a symbol not in literals
| symbol ; a symbol in literals
| ()
@@ -1335,33 +1375,33 @@ templates and are not allowed as pattern or template data.
| #(pattern*) ; extends R4RS
| #(pattern* ellipsis_pattern) ; extends R4RS
| pattern_datum
-
+
template ==> pattern_var
| symbol
| ()
| (template2 . template2)
| #(template*) ; extends R4RS
| pattern_datum
-
+
template2 ==> template
| ellipsis_template
-
+
pattern_datum ==> string ; no vector
| character
| boolean
| number
-
+
ellipsis_pattern ==> pattern ...
-
+
ellipsis_template ==> template ...
-
+
pattern_var ==> symbol ; not in literals
-
+
literals ==> ()
| (symbol . literals)
-Definitions
------------
+3.4.1 Definitions |
+----------------- |
Scope of an ellipsis
Within a pattern or template, the scope of an ellipsis (`...') is
@@ -1393,8 +1433,8 @@ Variables opened by an ellipsis template
ellipsis template.
-Restrictions
-------------
+3.4.2 Restrictions |
+------------------ |
No pattern variable appears more than once within a pattern.
@@ -1410,7 +1450,7 @@ template must all be bound to sequences of the same length.
The compiled form of a RULE is
rule ==> (pattern template inserted)
-
+
pattern ==> pattern_var
| symbol
| ()
@@ -1418,34 +1458,34 @@ template must all be bound to sequences of the same length.
| ellipsis_pattern
| #(pattern)
| pattern_datum
-
+
template ==> pattern_var
| symbol
| ()
| (template2 . template2)
| #(pattern)
| pattern_datum
-
+
template2 ==> template
| ellipsis_template
-
+
pattern_datum ==> string
| character
| boolean
| number
-
+
pattern_var ==> #(V symbol rank)
-
+
ellipsis_pattern ==> #(E pattern pattern_vars)
-
+
ellipsis_template ==> #(E template pattern_vars)
-
+
inserted ==> ()
| (symbol . inserted)
-
+
pattern_vars ==> ()
| (pattern_var . pattern_vars)
-
+
rank ==> exact non-negative integer
where V and E are unforgeable values.
@@ -1462,24 +1502,24 @@ unnecessarily. That shouldn't matter very often.

File: slib.info, Node: Syntactic Closures, Next: Syntax-Case Macros, Prev: Macros That Work, Up: Scheme Syntax Extension Packages
-Syntactic Closures
-==================
+3.5 Syntactic Closures |
+====================== |
-`(require 'syntactic-closures)'
+`(require 'syntactic-closures)'
- - Function: macro:expand expression
- - Function: synclo:expand expression
+ -- Function: macro:expand expression |
+ -- Function: synclo:expand expression |
Returns scheme code with the macros and derived expression types of
EXPRESSION expanded to primitive expression types.
- - Function: macro:eval expression
- - Function: synclo:eval expression
+ -- Function: macro:eval expression |
+ -- Function: synclo:eval expression |
`macro:eval' returns the value of EXPRESSION in the current top
level environment. EXPRESSION can contain macro definitions.
Side effects of EXPRESSION will affect the top level environment.
- - Procedure: macro:load filename
- - Procedure: synclo:load filename
+ -- Procedure: macro:load filename |
+ -- Procedure: synclo:load filename |
FILENAME should be a string. If filename names an existing file,
the `macro:load' procedure reads Scheme source code expressions and
definitions from the file and evaluates them sequentially. These
@@ -1487,19 +1527,19 @@ Syntactic Closures
definitions. The `macro:load' procedure does not affect the
values returned by `current-input-port' and `current-output-port'.
-Syntactic Closure Macro Facility
---------------------------------
+3.5.1 Syntactic Closure Macro Facility |
+-------------------------------------- |
A Syntactic Closures Macro Facility
by Chris Hanson
9 November 1991
- This
-document describes "syntactic closures", a low-level macro facility for
-the Scheme programming language. The facility is an alternative to the
-low-level macro facility described in the `Revised^4 Report on Scheme.'
-This document is an addendum to that report.
+ |
+ This document describes "syntactic closures", a low-level macro |
+facility for the Scheme programming language. The facility is an |
+alternative to the low-level macro facility described in the `Revised^4 |
+Report on Scheme.' This document is an addendum to that report. |
-The syntactic closures facility extends the BNF rule for TRANSFORMER
+ The syntactic closures facility extends the BNF rule for TRANSFORMER
SPEC to allow a new keyword that introduces a low-level macro
transformer:
@@ -1517,8 +1557,8 @@ macro transformers are defined. The third part describes the use of
"identifiers", which extend the syntactic closure mechanism to be
compatible with `syntax-rules'.
-Terminology
-...........
+3.5.1.1 Terminology |
+................... |
This section defines the concepts and data types used by the syntactic
closures facility.
@@ -1565,13 +1605,13 @@ closures facility.
structure is replaced by its form.
-Transformer Definition
-......................
+3.5.1.2 Transformer Definition |
+.............................. |
This section describes the `transformer' special form and the
procedures `make-syntactic-closure' and `capture-syntactic-environment'.
- - Syntax: transformer expression
+ -- Syntax: transformer expression |
Syntax: It is an error if this syntax occurs except as a
TRANSFORMER SPEC.
@@ -1635,7 +1675,7 @@ procedures `make-syntactic-closure' and `capture-syntactic-environment'.
`make-syntactic-closure' to close the form in a syntactic
environment.
- - Function: make-syntactic-closure environment free-names form
+ -- Function: make-syntactic-closure environment free-names form |
ENVIRONMENT must be a syntactic environment, FREE-NAMES must be a
list of identifiers, and FORM must be a form.
`make-syntactic-closure' constructs and returns a syntactic closure
@@ -1669,7 +1709,7 @@ procedures `make-syntactic-closure' and `capture-syntactic-environment'.
To obtain a syntactic environment other than the usage
environment, use `capture-syntactic-environment'.
- - Function: capture-syntactic-environment procedure
+ -- Function: capture-syntactic-environment procedure |
`capture-syntactic-environment' returns a form that will, when
transformed, call PROCEDURE on the current syntactic environment.
PROCEDURE should compute and return a new form to be transformed,
@@ -1759,8 +1799,8 @@ procedures `make-syntactic-closure' and `capture-syntactic-environment'.
(lambda (transformer-env)
...))))
-Identifiers
-...........
+3.5.1.3 Identifiers |
+................... |
This section describes the procedures that create and manipulate
identifiers. Previous syntactic closure proposals did not have an
@@ -1792,7 +1832,7 @@ the usage environment. This guarantees that the macro transformation
is hygienic, without requiring the transformer to know the syntactic
roles of the substituted input subforms.
- - Function: identifier? object
+ -- Function: identifier? object |
Returns `#t' if OBJECT is an identifier, otherwise returns `#f'.
Examples:
@@ -1826,7 +1866,7 @@ roles of the substituted input subforms.
environment as the symbol `else' means in the transformer
environment.
- - Function: identifier=? environment1 identifier1 environment2
+ -- Function: identifier=? environment1 identifier1 environment2 |
identifier2
ENVIRONMENT1 and ENVIRONMENT2 must be syntactic environments, and
IDENTIFIER1 and IDENTIFIER2 must be identifiers. `identifier=?'
@@ -1859,8 +1899,8 @@ roles of the substituted input subforms.
(foobar))))
=> (#f #t)
-Acknowledgements
-................
+3.5.1.4 Acknowledgements |
+........................ |
The syntactic closures facility was invented by Alan Bawden and Jonathan
Rees. The use of aliases to implement `syntax-rules' was invented by
@@ -1868,26 +1908,26 @@ Alan Bawden (who prefers to call them "synthetic names"). Much of this
proposal is derived from an earlier proposal by Alan Bawden.

-File: slib.info, Node: Syntax-Case Macros, Next: Fluid-Let, Prev: Syntactic Closures, Up: Scheme Syntax Extension Packages
-
-Syntax-Case Macros
-==================
+File: slib.info, Node: Syntax-Case Macros, Next: Define-Structure, Prev: Syntactic Closures, Up: Scheme Syntax Extension Packages
+ |
+3.6 Syntax-Case Macros |
+====================== |
-`(require 'syntax-case)'
+`(require 'syntax-case)'
- - Function: macro:expand expression
- - Function: syncase:expand expression
+ -- Function: macro:expand expression |
+ -- Function: syncase:expand expression |
Returns scheme code with the macros and derived expression types of
EXPRESSION expanded to primitive expression types.
- - Function: macro:eval expression
- - Function: syncase:eval expression
+ -- Function: macro:eval expression |
+ -- Function: syncase:eval expression |
`macro:eval' returns the value of EXPRESSION in the current top
level environment. EXPRESSION can contain macro definitions.
Side effects of EXPRESSION will affect the top level environment.
- - Procedure: macro:load filename
- - Procedure: syncase:load filename
+ -- Procedure: macro:load filename |
+ -- Procedure: syncase:load filename |
FILENAME should be a string. If filename names an existing file,
the `macro:load' procedure reads Scheme source code expressions and
definitions from the file and evaluates them sequentially. These
@@ -1940,8 +1980,8 @@ distribution by anonymous FTP in
SPARCstation SLC (with SCM) and about 90s on a Macintosh SE/30 (with
Gambit).
-Notes
------
+3.6.1 Notes |
+----------- |
All R4RS syntactic forms are defined, including `delay'. Along with
`delay' are simple definitions for `make-promise' (into which `delay'
@@ -1970,24 +2010,68 @@ if there is some incompatibility that is not flagged as such.
Send bug reports, comments, suggestions, and questions to Kent Dybvig
(dyb @ iuvax.cs.indiana.edu).
-Note from SLIB maintainer |
-------------------------- |
+
+File: slib.info, Node: Define-Structure, Next: Fluid-Let, Prev: Syntax-Case Macros, Up: Scheme Syntax Extension Packages
+ |
+3.7 Define-Structure |
+==================== |
+
+`(require 'structure)'
-`(require 'structure)' |
+Included with the `syntax-case' files was `structure.scm' which defines |
+a macro `define-structure'. Here is its documentation from Gambit 4.0: |
+ |
+ -- special form: define-structure NAME FIELD... |
+ Record data types similar to Pascal records and C `struct' types |
+ can be defined using the `define-structure' special form. The |
+ identifier NAME specifies the name of the new data type. The |
+ structure name is followed by K identifiers naming each field of |
+ the record. The `define-structure' expands into a set of |
+ definitions of the following procedures: |
+ |
+ * `make-NAME' - A K argument procedure which constructs a new |
+ record from the value of its K fields. |
+ |
+ * `NAME?' - A procedure which tests if its single argument is |
+ of the given record type. |
+ |
+ * `NAME-FIELD' - For each field, a procedure taking as its |
+ single argument a value of the given record type and returning |
+ the content of the corresponding field of the record. |
+ |
+ * `NAME-FIELD-set!' - For each field, a two argument procedure |
+ taking as its first argument a value of the given record |
+ type. The second argument gets assigned to the corresponding |
+ field of the record and the void object is returned. |
+ |
+ |
+ Gambit record data types have a printed representation that |
+ includes the name of the type and the name and value of each field. |
+ |
+ For example: |
+ |
+ > (define-structure point x y color) |
+ > (define p (make-point 3 5 'red)) |
+ > p |
+ #<point #3 x: 3 y: 5 color: red> |
+ > (point-x p) |
+ 3 |
+ > (point-color p) |
+ red |
+ > (point-color-set! p 'black) |
+ > p |
+ #<point #3 x: 3 y: 5 color: black> |
|
- Included with the `syntax-case' files was `structure.scm' which |
-defines a macro `define-structure'. I have no documentation for this |
-macro; it is not used by any other code in SLIB. |

-File: slib.info, Node: Fluid-Let, Next: Yasos, Prev: Syntax-Case Macros, Up: Scheme Syntax Extension Packages
-
-Fluid-Let
-=========
+File: slib.info, Node: Fluid-Let, Next: Yasos, Prev: Define-Structure, Up: Scheme Syntax Extension Packages
+ |
+3.8 Fluid-Let |
+============= |
-`(require 'fluid-let)'
+`(require 'fluid-let)'
- - Syntax: fluid-let `(BINDINGS ...)' FORMS...
+ -- Syntax: fluid-let `(BINDINGS ...)' FORMS... |
(fluid-let ((VARIABLE INIT) ...)
EXPRESSION EXPRESSION ...)
@@ -2007,10 +2091,10 @@ of its corresponding VARIABLE.

File: slib.info, Node: Yasos, Prev: Fluid-Let, Up: Scheme Syntax Extension Packages
-Yasos
-=====
+3.9 Yasos |
+========= |
-`(require 'oop)' or `(require 'yasos)'
+`(require 'oop)' or `(require 'yasos)'
`Yet Another Scheme Object System' is a simple object system for
Scheme based on the paper by Norman Adams and Jonathan Rees: `Object
@@ -2032,8 +2116,8 @@ on LISP and Functional Programming, July 1988 [ACM #552880].

File: slib.info, Node: Yasos terms, Next: Yasos interface, Prev: Yasos, Up: Yasos
-Terms
------
+3.9.1 Terms |
+----------- |
"Object"
Any Scheme data object.
@@ -2063,25 +2147,25 @@ _Disclaimer:_

File: slib.info, Node: Yasos interface, Next: Setters, Prev: Yasos terms, Up: Yasos
-Interface
----------
+3.9.2 Interface |
+--------------- |
- - Syntax: define-operation `('opname self arg ...`)' DEFAULT-BODY
+ -- Syntax: define-operation `('opname self arg ...`)' DEFAULT-BODY |
Defines a default behavior for data objects which don't handle the
operation OPNAME. The default behavior (for an empty
DEFAULT-BODY) is to generate an error.
- - Syntax: define-predicate opname?
+ -- Syntax: define-predicate opname? |
Defines a predicate OPNAME?, usually used for determining the
"type" of an object, such that `(OPNAME? OBJECT)' returns `#t' if
OBJECT has an operation OPNAME? and `#f' otherwise.
- - Syntax: object `((NAME SELF ARG ...) BODY)' ...
+ -- Syntax: object `((NAME SELF ARG ...) BODY)' ... |
Returns an object (an instance of the object system) with
operations. Invoking `(NAME OBJECT ARG ...' executes the BODY of
the OBJECT with SELF bound to OBJECT and with argument(s) ARG....
- - Syntax: object-with-ancestors `(('ancestor1 init1`)' ...`)'
+ -- Syntax: object-with-ancestors `(('ancestor1 init1`)' ...`)' |
operation ...
A `let'-like form of `object' for multiple inheritance. It
returns an object inheriting the behaviour of ANCESTOR1 etc. An
@@ -2090,17 +2174,17 @@ Interface
operations with the same identity, the operation used is the one
found in the first ancestor in the ancestor list.
- - Syntax: operate-as component operation self arg ...
+ -- Syntax: operate-as component operation self arg ... |
Used in an operation definition (of SELF) to invoke the OPERATION
in an ancestor COMPONENT but maintain the object's identity. Also
known as "send-to-super".
- - Procedure: print obj port
+ -- Procedure: print obj port |
A default `print' operation is provided which is just `(format
PORT OBJ)' (*note Format::) for non-instances and prints OBJ
preceded by `#<INSTANCE>' for instances.
- - Function: size obj
+ -- Function: size obj |
The default method returns the number of elements in OBJ if it is
a vector, string or list, `2' for a pair, `1' for a character and
by default id an error otherwise. Objects such as collections
@@ -2109,8 +2193,8 @@ Interface

File: slib.info, Node: Setters, Next: Yasos examples, Prev: Yasos interface, Up: Yasos
-Setters
--------
+3.9.3 Setters |
+------------- |
"Setters" implement "generalized locations" for objects associated with
some sort of mutable state. A "getter" operation retrieves a value
@@ -2127,7 +2211,7 @@ are predefined, corresponding to getters `car', `cdr', `string-ref' and
Research and Technology). Common LISP provides similar facilities
through `setf'.
- - Function: setter getter
+ -- Function: setter getter |
Returns the setter for the procedure GETTER. E.g., since
`string-ref' is the getter corresponding to a setter which is
actually `string-set!':
@@ -2135,7 +2219,7 @@ through `setf'.
((setter string-ref) foo 0 #\F) ; set element 0 of foo
foo => "Foo"
- - Syntax: set place new-value
+ -- Syntax: set place new-value |
If PLACE is a variable name, `set' is equivalent to `set!'.
Otherwise, PLACE must have the form of a procedure call, where the
procedure name refers to a getter and the call indicates an
@@ -2148,17 +2232,17 @@ through `setf'.
(set foo "foo") ; like set!
foo => "foo"
- - Procedure: add-setter getter setter
+ -- Procedure: add-setter getter setter |
Add procedures GETTER and SETTER to the (inaccessible) list of
valid setter/getter pairs. SETTER implements the store operation
corresponding to the GETTER access operation for the relevant
state. The return value is unspecified.
- - Procedure: remove-setter-for getter
+ -- Procedure: remove-setter-for getter |
Removes the setter corresponding to the specified GETTER from the
list of valid setters. The return value is unspecified.
- - Syntax: define-access-operation getter-name
+ -- Syntax: define-access-operation getter-name |
Shorthand for a Yasos `define-operation' defining an operation
GETTER-NAME that objects may support to return the value of some
mutable state. The default operation is to signal an error. The
@@ -2167,18 +2251,18 @@ through `setf'.

File: slib.info, Node: Yasos examples, Prev: Setters, Up: Yasos
-Examples
---------
+3.9.4 Examples |
+-------------- |
;;; These definitions for PRINT and SIZE are
;;; already supplied by
(require 'yasos)
-
+
(define-operation (print obj port)
(format port
(if (instance? obj) "#<instance>" "~s")
obj))
-
+
(define-operation (size obj)
(cond
((vector? obj) (vector-length obj))
@@ -2188,11 +2272,11 @@ Examples
((char? obj) 1)
(else
(slib:error "Operation not supported: size" obj))))
-
+
(define-predicate cell?)
(define-operation (fetch obj))
(define-operation (store! obj newValue))
-
+
(define (make-cell value)
(object
((cell? self) #t)
@@ -2203,10 +2287,10 @@ Examples
((size self) 1)
((print self port)
(format port "#<Cell: ~s>" (fetch self)))))
-
+
(define-operation (discard obj value)
(format #t "Discarding ~s~%" value))
-
+
(define (make-filtered-cell value filter)
(object-with-ancestors
((cell (make-cell value)))
@@ -2214,11 +2298,11 @@ Examples
(if (filter newValue)
(store! cell newValue)
(discard self newValue)))))
-
+
(define-predicate array?)
(define-operation (array-ref array index))
(define-operation (array-set! array index value))
-
+
(define (make-array num-slots)
(let ((anArray (make-vector num-slots)))
(object
@@ -2230,10 +2314,10 @@ Examples
(vector-set! anArray index newValue))
((print self port)
(format port "#<Array ~s>" (size self))))))
-
+
(define-operation (position obj))
(define-operation (discarded-value obj))
-
+
(define (make-cell-with-history value filter size)
(let ((pos 0) (most-recent-discard #f))
(object-with-ancestors
@@ -2251,7 +2335,7 @@ Examples
((print self port)
(format port "#<Cell-with-history ~s>"
(fetch self))))))
-
+
(define-access-operation fetch)
(add-setter fetch store!)
(define foo (make-cell 1))
@@ -2267,8 +2351,8 @@ Examples

File: slib.info, Node: Textual Conversion Packages, Next: Mathematical Packages, Prev: Scheme Syntax Extension Packages, Up: Top
-Textual Conversion Packages
-***************************
+4 Textual Conversion Packages |
+***************************** |
* Menu:
@@ -2289,10 +2373,10 @@ Textual Conversion Packages

File: slib.info, Node: Precedence Parsing, Next: Format, Prev: Textual Conversion Packages, Up: Textual Conversion Packages
-Precedence Parsing
-==================
+4.1 Precedence Parsing |
+====================== |
-`(require 'precedence-parse)' or `(require 'parse)'
+`(require 'precedence-parse)' or `(require 'parse)'
This package implements:
@@ -2317,8 +2401,8 @@ This package implements:

File: slib.info, Node: Precedence Parsing Overview, Next: Rule Types, Prev: Precedence Parsing, Up: Precedence Parsing
-Precedence Parsing Overview
----------------------------
+4.1.1 Precedence Parsing Overview |
+--------------------------------- |
This package offers improvements over previous parsers.
@@ -2350,7 +2434,7 @@ A syntax tree is not built unless the rules explicitly do so. The call
graph of grammar rules effectively instantiate the sytnax tree.
The JACAL symbolic math system
-(<http://swissnet.ai.mit.edu/~jaffer/JACAL.html>) uses
+(`http://swiss.csail.mit.edu/~jaffer/JACAL.html') uses |
precedence-parse. Its grammar definitions in the file
`jacal/English.scm' can serve as examples of use.
@@ -2362,65 +2446,65 @@ file) with a non-trivial grammar utilizing all constructs.

File: slib.info, Node: Rule Types, Next: Ruleset Definition and Use, Prev: Precedence Parsing Overview, Up: Precedence Parsing
-Rule Types
-----------
+4.1.2 Rule Types |
+---------------- |
Here are the higher-level syntax types and an example of each.
Precedence considerations are omitted for clarity. See *Note Grammar
Rule Definition:: for full details.
- - Grammar: nofix bye exit
+ -- Grammar: nofix bye exit |
bye
calls the function `exit' with no arguments.
- - Grammar: prefix - negate
+ -- Grammar: prefix - negate |
- 42
Calls the function `negate' with the argument `42'.
- - Grammar: infix - difference
+ -- Grammar: infix - difference |
x - y
Calls the function `difference' with arguments `x' and `y'.
- - Grammar: nary + sum
+ -- Grammar: nary + sum |
x + y + z
Calls the function `sum' with arguments `x', `y', and `y'.
- - Grammar: postfix ! factorial
+ -- Grammar: postfix ! factorial |
5 !
Calls the function `factorial' with the argument `5'.
- - Grammar: prestfix set set!
+ -- Grammar: prestfix set set! |
set foo bar
Calls the function `set!' with the arguments `foo' and `bar'.
- - Grammar: commentfix /* */
+ -- Grammar: commentfix /* */ |
/* almost any text here */
Ignores the comment delimited by `/*' and `*/'.
- - Grammar: matchfix { list }
+ -- Grammar: matchfix { list } |
{0, 1, 2}
Calls the function `list' with the arguments `0', `1', and `2'.
- - Grammar: inmatchfix ( funcall )
+ -- Grammar: inmatchfix ( funcall ) |
f(x, y)
Calls the function `funcall' with the arguments `f', `x', and `y'.
- - Grammar: delim ;
+ -- Grammar: delim ; |
set foo bar;
delimits the extent of the restfix operator `set'.

File: slib.info, Node: Ruleset Definition and Use, Next: Token definition, Prev: Rule Types, Up: Precedence Parsing
-Ruleset Definition and Use
---------------------------
+4.1.3 Ruleset Definition and Use |
+-------------------------------- |
- - Variable: *syn-defs*
+ -- Variable: *syn-defs* |
A grammar is built by one or more calls to `prec:define-grammar'.
The rules are appended to *SYN-DEFS*. The value of *SYN-DEFS* is
the grammar suitable for passing as an argument to `prec:parse'.
- - Constant: *syn-ignore-whitespace*
+ -- Constant: *syn-ignore-whitespace* |
Is a nearly empty grammar with whitespace characters set to group
0, which means they will not be made into tokens. Most rulesets
will want to start with `*syn-ignore-whitespace*'
@@ -2428,12 +2512,11 @@ Ruleset Definition and Use
In order to start defining a grammar, either
(set! *syn-defs* '())
-
-or
+ or
(set! *syn-defs* *syn-ignore-whitespace*)
- - Function: prec:define-grammar rule1 ...
+ -- Function: prec:define-grammar rule1 ... |
Appends RULE1 ... to *SYN-DEFS*. `prec:define-grammar' is used to
define both the character classes and rules for tokens.
@@ -2442,8 +2525,8 @@ variable (for use when calling `prec:parse').
(define my-ruleset *syn-defs*)
- - Function: prec:parse ruleset delim
- - Function: prec:parse ruleset delim port
+ -- Function: prec:parse ruleset delim |
+ -- Function: prec:parse ruleset delim port |
The RULESET argument must be a list of rules as constructed by
`prec:define-grammar' and extracted from *SYN-DEFS*.
@@ -2467,15 +2550,15 @@ variable (for use when calling `prec:parse').
The PORT argument may be omitted, in which case it defaults to the
value returned by `current-input-port'. It is an error to parse
- from a closed port.
+ from a closed port.

File: slib.info, Node: Token definition, Next: Nud and Led Definition, Prev: Ruleset Definition and Use, Up: Precedence Parsing
-Token definition
-----------------
+4.1.4 Token definition |
+---------------------- |
- - Function: tok:char-group group chars chars-proc
+ -- Function: tok:char-group group chars chars-proc |
The argument CHARS may be a single character, a list of
characters, or a string. Each character in CHARS is treated as
though `tok:char-group' was called with that character alone.
@@ -2509,34 +2592,34 @@ Token definition
The following convenient constants are provided for use with
`tok:char-group'.
- - Constant: tok:decimal-digits
+ -- Constant: tok:decimal-digits |
Is the string `"0123456789"'.
- - Constant: tok:upper-case
+ -- Constant: tok:upper-case |
Is the string consisting of all upper-case letters
("ABCDEFGHIJKLMNOPQRSTUVWXYZ").
- - Constant: tok:lower-case
+ -- Constant: tok:lower-case |
Is the string consisting of all lower-case letters
("abcdefghijklmnopqrstuvwxyz").
- - Constant: tok:whitespaces
+ -- Constant: tok:whitespaces |
Is the string consisting of all characters between 0 and 255 for
which `char-whitespace?' returns true.
-For the purpose of reporting problems in error messages, this package |
-keeps track of the "current column". When the column does not simply |
-track input characters, `tok:bump-column' can be used to adjust the |
-current-column. |
- |
- - Function: tok:bump-column pos port |
- Adds POS to the current-column for input-port PORT. |
- |
+For the purpose of reporting problems in error messages, this package
+keeps track of the "current column". When the column does not simply
+track input characters, `tok:bump-column' can be used to adjust the
+current-column.
+
+ -- Function: tok:bump-column pos port |
+ Adds POS to the current-column for input-port PORT.
+

File: slib.info, Node: Nud and Led Definition, Next: Grammar Rule Definition, Prev: Token definition, Up: Precedence Parsing
-Nud and Led Definition
-----------------------
+4.1.5 Nud and Led Definition |
+---------------------------- |
This section describes advanced features. You can skip this section on
first reading.
@@ -2570,7 +2653,7 @@ Character TK arguments will match only character tokens; i.e.
characters for which no token-group is assigned. Symbols and strings
will both match token strings; i.e. tokens resulting from token groups.
- - Function: prec:make-nud tk sop arg1 ...
+ -- Function: prec:make-nud tk sop arg1 ... |
Returns a rule specifying that SOP be called when TK is parsed.
If SOP is a procedure, it is called with TK and ARG1 ... as its
arguments; the resulting value is incorporated into the expression
@@ -2580,7 +2663,7 @@ If no NUD has been defined for a token; then if that token is a string,
it is converted to a symbol and returned; if not a string, the token is
returned.
- - Function: prec:make-led tk sop arg1 ...
+ -- Function: prec:make-led tk sop arg1 ... |
Returns a rule specifying that SOP be called when TK is parsed and
LEFT has an unclaimed parsed expression. If SOP is a procedure,
it is called with LEFT, TK, and ARG1 ... as its arguments; the
@@ -2593,8 +2676,8 @@ issues a warning.

File: slib.info, Node: Grammar Rule Definition, Prev: Nud and Led Definition, Up: Precedence Parsing
-Grammar Rule Definition
------------------------
+4.1.6 Grammar Rule Definition |
+----------------------------- |
Here are procedures for defining rules for the syntax types introduced
in *Note Precedence Parsing Overview::.
@@ -2613,19 +2696,19 @@ Character TK arguments will match only character tokens; i.e.
characters for which no token-group is assigned. Symbols and strings
will both match token strings; i.e. tokens resulting from token groups.
- - Function: prec:delim tk
+ -- Function: prec:delim tk |
Returns a rule specifying that TK should not be returned from
parsing; i.e. TK's function is purely syntactic. The end-of-file
is always treated as a delimiter.
- - Function: prec:nofix tk sop
+ -- Function: prec:nofix tk sop |
Returns a rule specifying the following actions take place when TK
is parsed:
* If SOP is a procedure, it is called with no arguments; the
resulting value is incorporated into the expression being
built. Otherwise, the list of SOP is incorporated.
- - Function: prec:prefix tk sop bp rule1 ...
+ -- Function: prec:prefix tk sop bp rule1 ... |
Returns a rule specifying the following actions take place when TK
is parsed:
* The rules RULE1 ... augment and, in case of conflict, override
@@ -2642,7 +2725,7 @@ will both match token strings; i.e. tokens resulting from token groups.
* The ruleset in effect before TK was parsed is restored; RULE1
... are forgotten.
- - Function: prec:infix tk sop lbp bp rule1 ...
+ -- Function: prec:infix tk sop lbp bp rule1 ... |
Returns a rule declaring the left-binding-precedence of the token
TK is LBP and specifying the following actions take place when TK
is parsed:
@@ -2661,7 +2744,7 @@ will both match token strings; i.e. tokens resulting from token groups.
* The ruleset in effect before TK was parsed is restored; RULE1
... are forgotten.
- - Function: prec:nary tk sop bp
+ -- Function: prec:nary tk sop bp |
Returns a rule declaring the left-binding-precedence of the token
TK is BP and specifying the following actions take place when TK
is parsed:
@@ -2674,7 +2757,7 @@ will both match token strings; i.e. tokens resulting from token groups.
the LEFT expression, and the parsed expressions is
incorporated.
- - Function: prec:postfix tk sop lbp
+ -- Function: prec:postfix tk sop lbp |
Returns a rule declaring the left-binding-precedence of the token
TK is LBP and specifying the following actions take place when TK
is parsed:
@@ -2683,7 +2766,7 @@ will both match token strings; i.e. tokens resulting from token groups.
built. Otherwise, the list of SOP and the LEFT expression is
incorporated.
- - Function: prec:prestfix tk sop bp rule1 ...
+ -- Function: prec:prestfix tk sop bp rule1 ... |
Returns a rule specifying the following actions take place when TK
is parsed:
* The rules RULE1 ... augment and, in case of conflict, override
@@ -2700,7 +2783,7 @@ will both match token strings; i.e. tokens resulting from token groups.
* The ruleset in effect before TK was parsed is restored; RULE1
... are forgotten.
- - Function: prec:commentfix tk stp match rule1 ...
+ -- Function: prec:commentfix tk stp match rule1 ... |
Returns rules specifying the following actions take place when TK
is parsed:
* The rules RULE1 ... augment and, in case of conflict, override
@@ -2720,7 +2803,7 @@ will both match token strings; i.e. tokens resulting from token groups.
STP but does not return its value; nay any value. I added the STP
argument so that comment text could be echoed.
- - Function: prec:matchfix tk sop sep match rule1 ...
+ -- Function: prec:matchfix tk sop sep match rule1 ... |
Returns a rule specifying the following actions take place when TK
is parsed:
* The rules RULE1 ... augment and, in case of conflict, override
@@ -2740,7 +2823,7 @@ will both match token strings; i.e. tokens resulting from token groups.
* The ruleset in effect before TK was parsed is restored; RULE1
... are forgotten.
- - Function: prec:inmatchfix tk sop sep match lbp rule1 ...
+ -- Function: prec:inmatchfix tk sop sep match lbp rule1 ... |
Returns a rule declaring the left-binding-precedence of the token
TK is LBP and specifying the following actions take place when TK
is parsed:
@@ -2765,53 +2848,520 @@ will both match token strings; i.e. tokens resulting from token groups.

File: slib.info, Node: Format, Next: Standard Formatted I/O, Prev: Precedence Parsing, Up: Textual Conversion Packages
-Format (version 3.0)
-====================
+4.2 Format (version 3.1) |
+======================== |
-The `format.scm' package was removed because it was not reentrant. |
-<http://swissnet.ai.mit.edu/~jaffer/SLIB.FAQ> explains more about |
-FORMAT's woes. |
+`(require 'format)' |
+ |
+* Menu: |
+ |
+* Format Interface:: |
+* Format Specification:: |
+ |
+
+File: slib.info, Node: Format Interface, Next: Format Specification, Prev: Format, Up: Format
+ |
+4.2.1 Format Interface |
+---------------------- |
+ |
+ -- Function: format destination format-string . arguments |
+ An almost complete implementation of Common LISP format description |
+ according to the CL reference book `Common LISP' from Guy L. |
+ Steele, Digital Press. Backward compatible to most of the |
+ available Scheme format implementations. |
+ |
+ Returns `#t', `#f' or a string; has side effect of printing |
+ according to FORMAT-STRING. If DESTINATION is `#t', the output is |
+ to the current output port and `#t' is returned. If DESTINATION |
+ is `#f', a formatted string is returned as the result of the call. |
+ NEW: If DESTINATION is a string, DESTINATION is regarded as the |
+ format string; FORMAT-STRING is then the first argument and the |
+ output is returned as a string. If DESTINATION is a number, the |
+ output is to the current error port if available by the |
+ implementation. Otherwise DESTINATION must be an output port and |
+ `#t' is returned. |
+ |
+ FORMAT-STRING must be a string. In case of a formatting error |
+ format returns `#f' and prints a message on the current output or |
+ error port. Characters are output as if the string were output by |
+ the `display' function with the exception of those prefixed by a |
+ tilde (~). For a detailed description of the FORMAT-STRING syntax |
+ please consult a Common LISP format reference manual. For a test |
+ suite to verify this format implementation load `formatst.scm'. |
+ Please send bug reports to `lutzeb@cs.tu-berlin.de'. |
+ |
+ Note: `format' is not reentrant, i.e. only one `format'-call may |
+ be executed at a time. |
+ |
+ |
+
+File: slib.info, Node: Format Specification, Prev: Format Interface, Up: Format
+ |
+4.2.2 Format Specification (Format version 3.1) |
+----------------------------------------------- |
+ |
+Please consult a Common LISP format reference manual for a detailed |
+description of the format string syntax. For a demonstration of the |
+implemented directives see `formatst.scm'. |
+ |
+ This implementation supports directive parameters and modifiers (`:' |
+and `@' characters). Multiple parameters must be separated by a comma |
+(`,'). Parameters can be numerical parameters (positive or negative), |
+character parameters (prefixed by a quote character (`''), variable |
+parameters (`v'), number of rest arguments parameter (`#'), empty and |
+default parameters. Directive characters are case independent. The |
+general form of a directive is: |
+ |
+DIRECTIVE ::= ~{DIRECTIVE-PARAMETER,}[:][@]DIRECTIVE-CHARACTER |
+ |
+DIRECTIVE-PARAMETER ::= [ [-|+]{0-9}+ | 'CHARACTER | v | # ] |
+ |
+4.2.2.1 Implemented CL Format Control Directives |
+................................................ |
+ |
+Documentation syntax: Uppercase characters represent the corresponding |
+control directive characters. Lowercase characters represent control |
+directive parameter descriptions. |
+ |
+`~A' |
+ Any (print as `display' does). |
+ `~@A' |
+ left pad. |
+ |
+ `~MINCOL,COLINC,MINPAD,PADCHARA' |
+ full padding. |
+ |
+`~S' |
+ S-expression (print as `write' does). |
+ `~@S' |
+ left pad. |
+ |
+ `~MINCOL,COLINC,MINPAD,PADCHARS' |
+ full padding. |
+ |
+`~D' |
+ Decimal. |
+ `~@D' |
+ print number sign always. |
+ |
+ `~:D' |
+ print comma separated. |
+ |
+ `~MINCOL,PADCHAR,COMMACHARD' |
+ padding. |
+ |
+`~X' |
+ Hexadecimal. |
+ `~@X' |
+ print number sign always. |
+ |
+ `~:X' |
+ print comma separated. |
+ |
+ `~MINCOL,PADCHAR,COMMACHARX' |
+ padding. |
+ |
+`~O' |
+ Octal. |
+ `~@O' |
+ print number sign always. |
+ |
+ `~:O' |
+ print comma separated. |
+ |
+ `~MINCOL,PADCHAR,COMMACHARO' |
+ padding. |
+ |
+`~B' |
+ Binary. |
+ `~@B' |
+ print number sign always. |
+ |
+ `~:B' |
+ print comma separated. |
+ |
+ `~MINCOL,PADCHAR,COMMACHARB' |
+ padding. |
+ |
+`~NR' |
+ Radix N. |
+ `~N,MINCOL,PADCHAR,COMMACHARR' |
+ padding. |
+ |
+`~@R' |
+ print a number as a Roman numeral. |
+ |
+`~:@R' |
+ print a number as an "old fashioned" Roman numeral. |
+ |
+`~:R' |
+ print a number as an ordinal English number. |
+ |
+`~R' |
+ print a number as a cardinal English number. |
+ |
+`~P' |
+ Plural. |
+ `~@P' |
+ prints `y' and `ies'. |
+ |
+ `~:P' |
+ as `~P but jumps 1 argument backward.' |
+ |
+ `~:@P' |
+ as `~@P but jumps 1 argument backward.' |
+ |
+`~C' |
+ Character. |
+ `~@C' |
+ prints a character as the reader can understand it (i.e. `#\' |
+ prefixing). |
+ |
+ `~:C' |
+ prints a character as emacs does (eg. `^C' for ASCII 03). |
+ |
+`~F' |
+ Fixed-format floating-point (prints a flonum like MMM.NNN). |
+ `~WIDTH,DIGITS,SCALE,OVERFLOWCHAR,PADCHARF' |
+ |
+ `~@F' |
+ If the number is positive a plus sign is printed. |
+ |
+`~E' |
+ Exponential floating-point (prints a flonum like MMM.NNN`E'EE). |
+ `~WIDTH,DIGITS,EXPONENTDIGITS,SCALE,OVERFLOWCHAR,PADCHAR,EXPONENTCHARE' |
+ |
+ `~@E' |
+ If the number is positive a plus sign is printed. |
+ |
+`~G' |
+ General floating-point (prints a flonum either fixed or |
+ exponential). |
+ `~WIDTH,DIGITS,EXPONENTDIGITS,SCALE,OVERFLOWCHAR,PADCHAR,EXPONENTCHARG' |
+ |
+ `~@G' |
+ If the number is positive a plus sign is printed. |
+ |
+`~$' |
+ Dollars floating-point (prints a flonum in fixed with signs |
+ separated). |
+ `~DIGITS,SCALE,WIDTH,PADCHAR$' |
+ |
+ `~@$' |
+ If the number is positive a plus sign is printed. |
+ |
+ `~:@$' |
+ A sign is always printed and appears before the padding. |
+ |
+ `~:$' |
+ The sign appears before the padding. |
+ |
+`~%' |
+ Newline. |
+ `~N%' |
+ print N newlines. |
+ |
+`~&' |
+ print newline if not at the beginning of the output line. |
+ `~N&' |
+ prints `~&' and then N-1 newlines. |
+ |
+`~|' |
+ Page Separator. |
+ `~N|' |
+ print N page separators. |
+ |
+`~~' |
+ Tilde. |
+ `~N~' |
+ print N tildes. |
+ |
+`~'<newline> |
+ Continuation Line. |
+ `~:'<newline> |
+ newline is ignored, white space left. |
+ |
+ `~@'<newline> |
+ newline is left, white space ignored. |
+ |
+`~T' |
+ Tabulation. |
+ `~@T' |
+ relative tabulation. |
+ |
+ `~COLNUM,COLINCT' |
+ full tabulation. |
+ |
+`~?' |
+ Indirection (expects indirect arguments as a list). |
+ `~@?' |
+ extracts indirect arguments from format arguments. |
+ |
+`~(STR~)' |
+ Case conversion (converts by `string-downcase'). |
+ `~:(STR~)' |
+ converts by `string-capitalize'. |
+ |
+ `~@(STR~)' |
+ converts by `string-capitalize-first'. |
+ |
+ `~:@(STR~)' |
+ converts by `string-upcase'. |
+ |
+`~*' |
+ Argument Jumping (jumps 1 argument forward). |
+ `~N*' |
+ jumps N arguments forward. |
+ |
+ `~:*' |
+ jumps 1 argument backward. |
+ |
+ `~N:*' |
+ jumps N arguments backward. |
+ |
+ `~@*' |
+ jumps to the 0th argument. |
+ |
+ `~N@*' |
+ jumps to the Nth argument (beginning from 0) |
+ |
+`~[STR0~;STR1~;...~;STRN~]' |
+ Conditional Expression (numerical clause conditional). |
+ `~N[' |
+ take argument from N. |
+ |
+ `~@[' |
+ true test conditional. |
+ |
+ `~:[' |
+ if-else-then conditional. |
+ |
+ `~;' |
+ clause separator. |
+ |
+ `~:;' |
+ default clause follows. |
+ |
+`~{STR~}' |
+ Iteration (args come from the next argument (a list)). Iteration |
+ bounding is controlled by configuration variables |
+ FORMAT:ITERATION-BOUNDED and FORMAT:MAX-ITERATIONS. With both |
+ variables default, a maximum of 100 iterations will be performed. |
+ `~N{' |
+ at most N iterations. |
+ |
+ `~:{' |
+ args from next arg (a list of lists). |
+ |
+ `~@{' |
+ args from the rest of arguments. |
+ |
+ `~:@{' |
+ args from the rest args (lists). |
+ |
+`~^' |
+ Up and out. |
+ `~N^' |
+ aborts if N = 0 |
+ |
+ `~N,M^' |
+ aborts if N = M |
+ |
+ `~N,M,K^' |
+ aborts if N <= M <= K |
+ |
+4.2.2.2 Not Implemented CL Format Control Directives |
+.................................................... |
+ |
+`~:A' |
+ print `#f' as an empty list (see below). |
+ |
+`~:S' |
+ print `#f' as an empty list (see below). |
+ |
+`~<~>' |
+ Justification. |
+ |
+`~:^' |
+ (sorry I don't understand its semantics completely) |
+ |
+4.2.2.3 Extended, Replaced and Additional Control Directives |
+............................................................ |
+ |
+`~MINCOL,PADCHAR,COMMACHAR,COMMAWIDTHD' |
+ |
+`~MINCOL,PADCHAR,COMMACHAR,COMMAWIDTHX' |
+ |
+`~MINCOL,PADCHAR,COMMACHAR,COMMAWIDTHO' |
+ |
+`~MINCOL,PADCHAR,COMMACHAR,COMMAWIDTHB' |
+ |
+`~N,MINCOL,PADCHAR,COMMACHAR,COMMAWIDTHR' |
+ COMMAWIDTH is the number of characters between two comma |
+ characters. |
+ |
+`~I' |
+ print a R4RS complex number as `~F~@Fi' with passed parameters for |
+ `~F'. |
+ |
+`~Y' |
+ Pretty print formatting of an argument for scheme code lists. |
+ |
+`~K' |
+ Same as `~?.' |
+ |
+`~!' |
+ Flushes the output if format DESTINATION is a port. |
+ |
+`~_' |
+ Print a `#\space' character |
+ `~N_' |
+ print N `#\space' characters. |
+ |
+`~/' |
+ Print a `#\tab' character |
+ `~N/' |
+ print N `#\tab' characters. |
+ |
+`~NC' |
+ Takes N as an integer representation for a character. No arguments |
+ are consumed. N is converted to a character by `integer->char'. N |
+ must be a positive decimal number. |
+ |
+`~:S' |
+ Print out readproof. Prints out internal objects represented as |
+ `#<...>' as strings `"#<...>"' so that the format output can always |
+ be processed by `read'. |
+ |
+`~:A' |
+ Print out readproof. Prints out internal objects represented as |
+ `#<...>' as strings `"#<...>"' so that the format output can always |
+ be processed by `read'. |
+ |
+`~Q' |
+ Prints information and a copyright notice on the format |
+ implementation. |
+ `~:Q' |
+ prints format version. |
+ |
+`~F, ~E, ~G, ~$' |
+ may also print number strings, i.e. passing a number as a string |
+ and format it accordingly. |
+ |
+4.2.2.4 Configuration Variables |
+............................... |
+ |
+Format has some configuration variables at the beginning of |
+`format.scm' to suit the systems and users needs. There should be no |
+modification necessary for the configuration that comes with SLIB. If |
+modification is desired the variable should be set after the format |
+code is loaded. Format detects automatically if the running scheme |
+system implements floating point numbers and complex numbers. |
+ |
+FORMAT:SYMBOL-CASE-CONV |
+ Symbols are converted by `symbol->string' so the case type of the |
+ printed symbols is implementation dependent. |
+ `format:symbol-case-conv' is a one arg closure which is either |
+ `#f' (no conversion), `string-upcase', `string-downcase' or |
+ `string-capitalize'. (default `#f') |
+ |
+FORMAT:IOBJ-CASE-CONV |
+ As FORMAT:SYMBOL-CASE-CONV but applies for the representation of |
+ implementation internal objects. (default `#f') |
+ |
+FORMAT:EXPCH |
+ The character prefixing the exponent value in `~E' printing. |
+ (default `#\E') |
+ |
+FORMAT:ITERATION-BOUNDED |
+ When `#t', a `~{...~}' control will iterate no more than the |
+ number of times specified by FORMAT:MAX-ITERATIONS regardless of |
+ the number of iterations implied by modifiers and arguments. When |
+ `#f', a `~{...~}' control will iterate the number of times implied |
+ by modifiers and arguments, unless termination is forced by |
+ language or system limitations. (default `#t') |
+ |
+FORMAT:MAX-ITERATIONS |
+ The maximum number of iterations performed by a `~{...~}' control. |
+ Has effect only when FORMAT:ITERATION-BOUNDED is `#t'. (default |
+ 100) |
+ |
+ |
+4.2.2.5 Compatibility With Other Format Implementations |
+....................................................... |
+ |
+SLIB format 2.x: |
+ See `format.doc'. |
+ |
+SLIB format 1.4: |
+ Downward compatible except for padding support and `~A', `~S', |
+ `~P', `~X' uppercase printing. SLIB format 1.4 uses C-style |
+ `printf' padding support which is completely replaced by the CL |
+ `format' padding style. |
+ |
+MIT C-Scheme 7.1: |
+ Downward compatible except for `~', which is not documented |
+ (ignores all characters inside the format string up to a newline |
+ character). (7.1 implements `~a', `~s', ~NEWLINE, `~~', `~%', |
+ numerical and variable parameters and `:/@' modifiers in the CL |
+ sense). |
+ |
+Elk 1.5/2.0: |
+ Downward compatible except for `~A' and `~S' which print in |
+ uppercase. (Elk implements `~a', `~s', `~~', and `~%' (no |
+ directive parameters or modifiers)). |
+ |
+Scheme->C 01nov91: |
+ Downward compatible except for an optional destination parameter: |
+ S2C accepts a format call without a destination which returns a |
+ formatted string. This is equivalent to a #f destination in S2C. |
+ (S2C implements `~a', `~s', `~c', `~%', and `~~' (no directive |
+ parameters or modifiers)). |
+ |
+ |
+ This implementation of format is solely useful in the SLIB context |
+because it requires other components provided by SLIB. |

File: slib.info, Node: Standard Formatted I/O, Next: Programs and Arguments, Prev: Format, Up: Textual Conversion Packages
-Standard Formatted I/O
-======================
+4.3 Standard Formatted I/O |
+========================== |
* Menu:
* Standard Formatted Output:: 'printf
* Standard Formatted Input:: 'scanf
-stdio
------
+4.3.1 stdio |
+----------- |
-`(require 'stdio)'
+`(require 'stdio)'
`require's `printf' and `scanf' and additionally defines the symbols:
- - Variable: stdin
+ -- Variable: stdin |
Defined to be `(current-input-port)'.
- - Variable: stdout
+ -- Variable: stdout |
Defined to be `(current-output-port)'.
- - Variable: stderr
+ -- Variable: stderr |
Defined to be `(current-error-port)'.

File: slib.info, Node: Standard Formatted Output, Next: Standard Formatted Input, Prev: Standard Formatted I/O, Up: Standard Formatted I/O
-Standard Formatted Output
--------------------------
+4.3.2 Standard Formatted Output |
+------------------------------- |
-`(require 'printf)'
+`(require 'printf)'
- - Procedure: printf format arg1 ...
- - Procedure: fprintf port format arg1 ...
- - Procedure: sprintf str format arg1 ...
- - Procedure: sprintf #f format arg1 ...
- - Procedure: sprintf k format arg1 ...
+ -- Procedure: printf format arg1 ... |
+ -- Procedure: fprintf port format arg1 ... |
+ -- Procedure: sprintf str format arg1 ... |
+ -- Procedure: sprintf #f format arg1 ... |
+ -- Procedure: sprintf k format arg1 ... |
Each function converts, formats, and outputs its ARG1 ...
arguments according to the control string FORMAT argument and
returns the number of characters output.
@@ -2887,7 +3437,7 @@ Standard Formatted Output
than this, the field is padded (with spaces or zeros per the
`0' flag) to the specified width. This is a _minimum_ width;
if the normal conversion produces more characters than this,
- the field is _not_ truncated.
+ the field is _not_ truncated.
Alternatively, if the field width is `*', the next argument
in the argument list (before the actual value to be printed)
@@ -2900,7 +3450,7 @@ Standard Formatted Output
written for numeric conversions and the maximum field width
for string conversions. The precision is specified by a
period (`.') followed optionally by a decimal integer (which
- defaults to zero if omitted).
+ defaults to zero if omitted).
Alternatively, if the precision is `.*', the next argument in
the argument list (before the actual value to be printed) is
@@ -2937,8 +3487,8 @@ Standard Formatted Output
* A character that specifies the conversion to be applied.
-Exact Conversions
-.................
+4.3.2.1 Exact Conversions |
+......................... |
`b', `B'
Print an integer as an unsigned binary number.
@@ -2961,8 +3511,8 @@ Exact Conversions
prints using the digits `0123456789abcdef'. `%X' prints
using the digits `0123456789ABCDEF'.
-Inexact Conversions
-...................
+4.3.2.2 Inexact Conversions |
+........................... |
`f'
Print a floating-point number in fixed-point notation.
@@ -2982,12 +3532,12 @@ Inexact Conversions
`k', `K'
Print a number like `%g', except that an SI prefix is output
- after the number, which is scaled accordingly. `%K' outputs
- a space between number and prefix, `%k' does not.
+ after the number, which is scaled accordingly. `%K' outputs a |
+ dot between number and prefix, `%k' does not. |
-Other Conversions
-.................
+4.3.2.3 Other Conversions |
+......................... |
`c'
Print a single character. The `-' flag is the only one which
@@ -3017,18 +3567,18 @@ Other Conversions

File: slib.info, Node: Standard Formatted Input, Prev: Standard Formatted Output, Up: Standard Formatted I/O
-Standard Formatted Input
-------------------------
+4.3.3 Standard Formatted Input |
+------------------------------ |
-`(require 'scanf)'
+`(require 'scanf)'
- - Function: scanf-read-list format
- - Function: scanf-read-list format port
- - Function: scanf-read-list format string
+ -- Function: scanf-read-list format |
+ -- Function: scanf-read-list format port |
+ -- Function: scanf-read-list format string |
- - Macro: scanf format arg1 ...
- - Macro: fscanf port format arg1 ...
- - Macro: sscanf str format arg1 ...
+ -- Macro: scanf format arg1 ... |
+ -- Macro: fscanf port format arg1 ... |
+ -- Macro: sscanf str format arg1 ... |
Each function reads characters, interpreting them according to the
control string FORMAT argument.
@@ -3176,8 +3726,8 @@ Standard Formatted Input

File: slib.info, Node: Programs and Arguments, Next: HTML, Prev: Standard Formatted I/O, Up: Textual Conversion Packages
-Program and Arguments
-=====================
+4.4 Program and Arguments |
+========================= |
* Menu:
@@ -3191,10 +3741,10 @@ Program and Arguments

File: slib.info, Node: Getopt, Next: Command Line, Prev: Programs and Arguments, Up: Programs and Arguments
-Getopt
-------
+4.4.1 Getopt |
+------------ |
-`(require 'getopt)'
+`(require 'getopt)'
This routine implements Posix command line argument parsing. Notice
that returning values through global variables means that `getopt' is
@@ -3212,21 +3762,21 @@ mismatch existed for years in a SLIB `getopt--' example.
I have removed the ARGC and ARGV arguments to getopt procedures; and
replaced them with a global variable:
- - Variable: *argv*
+ -- Variable: *argv* |
Define *ARGV* with a list of arguments before calling getopt
procedures. If you don't want the first (0th) element to be
ignored, set *OPTIND* to 0 (after requiring getopt).
- - Variable: *optind*
+ -- Variable: *optind* |
Is the index of the current element of the command line. It is
initially one. In order to parse a new command line or reparse an
old one, *OPTIND* must be reset.
- - Variable: *optarg*
+ -- Variable: *optarg* |
Is set by getopt to the (string) option-argument of the current
option.
- - Function: getopt optstring |
+ -- Function: getopt optstring |
Returns the next option letter in *ARGV* (starting from
`(vector-ref argv *optind*)') that matches a letter in OPTSTRING.
*ARGV* is a vector or list of strings, the 0th of which getopt
@@ -3306,13 +3856,13 @@ replaced them with a global variable:
(set! *optind* (+ *optind* 1))))
(if (< *optind* (length argv))
(loop (getopt (length argv) argv opts))))
-
+
(slib:exit)
-Getopt--
---------
+4.4.2 Getopt-- |
+-------------- |
- - Function: `getopt--' optstring |
+ -- Function: `getopt--' optstring |
The procedure `getopt--' is an extended version of `getopt' which
parses "long option names" of the form `--hold-the-onions' and
`--verbosity-level=extreme'. `Getopt--' behaves as `getopt'
@@ -3348,18 +3898,17 @@ Getopt--

File: slib.info, Node: Command Line, Next: Parameter lists, Prev: Getopt, Up: Programs and Arguments
-Command Line
-------------
+4.4.3 Command Line |
+------------------ |
-`(require 'read-command)'
+`(require 'read-command)'
- - Function: read-command port
- - Function: read-command
- `read-command' converts a "command line" into a list of strings
- suitable for parsing by `getopt'. The syntax of command lines
- supported resembles that of popular "shell"s. `read-command'
- updates PORT to point to the first character past the command
- delimiter.
+ -- Function: read-command port |
+ -- Function: read-command |
+ `read-command' converts a "command line" into a list of strings suitable |
+ for parsing by `getopt'. The syntax of command lines supported |
+ resembles that of popular "shell"s. `read-command' updates PORT |
+ to point to the first character past the command delimiter. |
If an end of file is encountered in the input before any
characters are found that can begin an object or comment, then an
@@ -3410,11 +3959,11 @@ Command Line
treated as whitespace by `read-dommand-line' and backslashes
before <newline>s in comments are also ignored.
- - Function: read-options-file filename
- `read-options-file' converts an "options file" into a list of
- strings suitable for parsing by `getopt'. The syntax of options
- files is the same as the syntax for command lines, except that
- <newline>s do not terminate reading (only <;> or end of file).
+ -- Function: read-options-file filename |
+ `read-options-file' converts an "options file" into a list of strings |
+ suitable for parsing by `getopt'. The syntax of options files is |
+ the same as the syntax for command lines, except that <newline>s |
+ do not terminate reading (only <;> or end of file). |
If an end of file is encountered before any characters are found
that can begin an object or comment, then an end of file object is
@@ -3423,10 +3972,10 @@ Command Line

File: slib.info, Node: Parameter lists, Next: Getopt Parameter lists, Prev: Command Line, Up: Programs and Arguments
-Parameter lists
----------------
+4.4.4 Parameter lists |
+--------------------- |
-`(require 'parameters)'
+`(require 'parameters)'
Arguments to procedures in scheme are distinguished from each other by
their position in the procedure call. This can be confusing when a
@@ -3442,25 +3991,25 @@ allows for more than one value per parameter-name.
A PARAMETER-LIST is a list of PARAMETERs, each with a different
PARAMETER-NAME.
- - Function: make-parameter-list parameter-names
+ -- Function: make-parameter-list parameter-names |
Returns an empty parameter-list with slots for PARAMETER-NAMES.
- - Function: parameter-list-ref parameter-list parameter-name
+ -- Function: parameter-list-ref parameter-list parameter-name |
PARAMETER-NAME must name a valid slot of PARAMETER-LIST.
`parameter-list-ref' returns the value of parameter PARAMETER-NAME
of PARAMETER-LIST.
- - Function: remove-parameter parameter-name parameter-list
+ -- Function: remove-parameter parameter-name parameter-list |
Removes the parameter PARAMETER-NAME from PARAMETER-LIST.
`remove-parameter' does not alter the argument PARAMETER-LIST.
If there are more than one PARAMETER-NAME parameters, an error is
signaled.
- - Procedure: adjoin-parameters! parameter-list parameter1 ...
+ -- Procedure: adjoin-parameters! parameter-list parameter1 ... |
Returns PARAMETER-LIST with PARAMETER1 ... merged in.
- - Procedure: parameter-list-expand expanders parameter-list
+ -- Procedure: parameter-list-expand expanders parameter-list |
EXPANDERS is a list of procedures whose order matches the order of
the PARAMETER-NAMEs in the call to `make-parameter-list' which
created PARAMETER-LIST. For each non-false element of EXPANDERS
@@ -3470,7 +4019,7 @@ PARAMETER-NAME.
This process is repeated until PARAMETER-LIST stops growing. The
value returned from `parameter-list-expand' is unspecified.
- - Function: fill-empty-parameters defaulters parameter-list
+ -- Function: fill-empty-parameters defaulters parameter-list |
DEFAULTERS is a list of procedures whose order matches the order
of the PARAMETER-NAMEs in the call to `make-parameter-list' which
created PARAMETER-LIST. `fill-empty-parameters' returns a new
@@ -3478,7 +4027,7 @@ PARAMETER-NAME.
returned by calling the corresponding DEFAULTER with
PARAMETER-LIST as its argument.
- - Function: check-parameters checks parameter-list
+ -- Function: check-parameters checks parameter-list |
CHECKS is a list of procedures whose order matches the order of
the PARAMETER-NAMEs in the call to `make-parameter-list' which
created PARAMETER-LIST.
@@ -3505,7 +4054,7 @@ of `arities' can be:
`nary1'
One or more of parameters are acceptable.
- - Function: parameter-list->arglist positions arities parameter-list
+ -- Function: parameter-list->arglist positions arities parameter-list |
Returns PARAMETER-LIST converted to an argument list. Parameters
of ARITY type `single' and `boolean' are converted to the single
value associated with them. The other ARITY types are converted
@@ -3519,13 +4068,13 @@ of `arities' can be:

File: slib.info, Node: Getopt Parameter lists, Next: Filenames, Prev: Parameter lists, Up: Programs and Arguments
-Getopt Parameter lists
-----------------------
+4.4.5 Getopt Parameter lists |
+---------------------------- |
-`(require 'getopt-parameters)'
+`(require 'getopt-parameters)'
- - Function: getopt->parameter-list optnames arities types aliases desc
- ...
+ -- Function: getopt->parameter-list optnames arities types aliases |
+ desc ... |
Returns *ARGV* converted to a parameter-list. OPTNAMES are the
parameter-names. ARITIES and TYPES are lists of symbols
corresponding to OPTNAMES.
@@ -3551,7 +4100,7 @@ Getopt Parameter lists
In all cases, if unclaimed arguments remain after processing, a
warning is signaled and #f is returned.
- - Function: getopt->arglist optnames positions arities types
+ -- Function: getopt->arglist optnames positions arities types |
defaulters checks aliases desc ...
Like `getopt->parameter-list', but converts *ARGV* to an
argument-list as specified by OPTNAMES, POSITIONS, ARITIES, TYPES,
@@ -3589,7 +4138,7 @@ the options (and argument strings DESC ...) are printed to
("Abs" num3))))
-|
Usage: cmd [OPTION ARGUMENT ...] ...
-
+
-f, --flag
-o, --optional=<number>
-n, --nary=<symbols> ...
@@ -3599,19 +4148,19 @@ the options (and argument strings DESC ...) are printed to
-B
-a <num2> ...
--Abs=<num3> ...
-
+
ERROR: getopt->parameter-list "unrecognized option" "-?"

File: slib.info, Node: Filenames, Next: Batch, Prev: Getopt Parameter lists, Up: Programs and Arguments
-Filenames
----------
+4.4.6 Filenames |
+--------------- |
-`(require 'filename)' or `(require 'glob)'
+`(require 'filename)' or `(require 'glob)'
- - Function: filename:match?? pattern
- - Function: filename:match-ci?? pattern
+ -- Function: filename:match?? pattern |
+ -- Function: filename:match-ci?? pattern |
Returns a predicate which returns a non-false value if its string
argument matches (the string) PATTERN, false otherwise. Filename
matching is like "glob" expansion described the bash manpage,
@@ -3635,8 +4184,8 @@ Filenames
`-' or `]' may be matched by including it as the first or
last character in the set.
- - Function: filename:substitute?? pattern template
- - Function: filename:substitute-ci?? pattern template
+ -- Function: filename:substitute?? pattern template |
+ -- Function: filename:substitute-ci?? pattern template |
Returns a function transforming a single string argument according
to glob patterns PATTERN and TEMPLATE. PATTERN and TEMPLATE must
have the same number of wildcard specifications, which need not be
@@ -3662,11 +4211,11 @@ Filenames
=> "begAmidZend"
((filename:substitute?? "*na*" "?NA?") "banana")
=> "banaNA"
- ((filename:substitute?? "?*?" (lambda (s1 s2 s3) (string-append s3 s1))) |
- "ABZ") |
+ ((filename:substitute?? "?*?" (lambda (s1 s2 s3) (string-append s3 s1)))
+ "ABZ")
=> "ZA"
- - Function: replace-suffix str old new
+ -- Function: replace-suffix str old new |
STR can be a string or a list of strings. Returns a new string
(or strings) similar to `str' but with the suffix string OLD
removed and the suffix string NEW appended. If the end of STR
@@ -3675,28 +4224,28 @@ Filenames
(replace-suffix "/usr/local/lib/slib/batch.scm" ".scm" ".c")
=> "/usr/local/lib/slib/batch.c"
- - Function: call-with-tmpnam proc k |
- - Function: call-with-tmpnam proc |
- Calls PROC with K arguments, strings returned by successive calls |
- to `tmpnam'. If PROC returns, then any files named by the |
- arguments to PROC are deleted automatically and the value(s) |
- yielded by the PROC is(are) returned. K may be ommited, in which |
- case it defaults to `1'. |
- |
- - Function: call-with-tmpnam proc suffix1 ... |
- Calls PROC with strings returned by successive calls to `tmpnam', |
- each with the corresponding SUFFIX string appended. If PROC |
- returns, then any files named by the arguments to PROC are deleted |
- automatically and the value(s) yielded by the PROC is(are) |
- returned. |
- |
+ -- Function: call-with-tmpnam proc k |
+ -- Function: call-with-tmpnam proc |
+ Calls PROC with K arguments, strings returned by successive calls
+ to `tmpnam'. If PROC returns, then any files named by the
+ arguments to PROC are deleted automatically and the value(s)
+ yielded by the PROC is(are) returned. K may be ommited, in which
+ case it defaults to `1'.
+
+ -- Function: call-with-tmpnam proc suffix1 ... |
+ Calls PROC with strings returned by successive calls to `tmpnam',
+ each with the corresponding SUFFIX string appended. If PROC
+ returns, then any files named by the arguments to PROC are deleted
+ automatically and the value(s) yielded by the PROC is(are)
+ returned.
+

File: slib.info, Node: Batch, Prev: Filenames, Up: Programs and Arguments
-Batch
------
+4.4.7 Batch |
+----------- |
-`(require 'batch)'
+`(require 'batch)'
The batch procedures provide a way to write and execute portable scripts
for a variety of operating systems. Each `batch:' procedure takes as
@@ -3725,18 +4274,18 @@ currently uses 2 of these:
to store information linking the names of `operating-system's to
`batch-dialect'es.
- - Function: batch:initialize! database
+ -- Function: batch:initialize! database |
Defines `operating-system' and `batch-dialect' tables and adds the
domain `operating-system' to the enhanced relational database
DATABASE.
- - Variable: *operating-system*
+ -- Variable: *operating-system* |
Is batch's best guess as to which operating-system it is running
under. `*operating-system*' is set to `(software-type)' (*note
Configuration::) unless `(software-type)' is `unix', in which case
finer distinctions are made.
- - Function: batch:call-with-output-script parms file proc
+ -- Function: batch:call-with-output-script parms file proc |
PROC should be a procedure of one argument. If FILE is an
output-port, `batch:call-with-output-script' writes an appropriate
header to FILE and then calls PROC with FILE as the only argument.
@@ -3753,7 +4302,7 @@ added to PARMS or `(copy-tree PARMS)' by the code:
(adjoin-parameters! PARMS (list 'batch-port PORT))
- - Function: batch:command parms string1 string2 ...
+ -- Function: batch:command parms string1 string2 ... |
Calls `batch:try-command' (below) with arguments, but signals an
error if `batch:try-command' returns `#f'.
@@ -3761,11 +4310,11 @@ These functions return a non-false value if the command was successfully
translated into the batch dialect and `#f' if not. In the case of the
`system' dialect, the value is non-false if the operation suceeded.
- - Function: batch:try-command parms string1 string2 ...
+ -- Function: batch:try-command parms string1 string2 ... |
Writes a command to the `batch-port' in PARMS which executes the
program named STRING1 with arguments STRING2 ....
- - Function: batch:try-chopped-command parms arg1 arg2 ... list
+ -- Function: batch:try-chopped-command parms arg1 arg2 ... list |
breaks the last argument LIST into chunks small enough so that the
command:
@@ -3777,34 +4326,34 @@ translated into the batch dialect and `#f' if not. In the case of the
command and returns non-false only if the commands all fit and
`batch:try-command' of each command line returned non-false.
- - Function: batch:run-script parms string1 string2 ...
+ -- Function: batch:run-script parms string1 string2 ... |
Writes a command to the `batch-port' in PARMS which executes the
batch script named STRING1 with arguments STRING2 ....
_Note:_ `batch:run-script' and `batch:try-command' are not the
same for some operating systems (VMS).
- - Function: batch:comment parms line1 ...
+ -- Function: batch:comment parms line1 ... |
Writes comment lines LINE1 ... to the `batch-port' in PARMS.
- - Function: batch:lines->file parms file line1 ...
+ -- Function: batch:lines->file parms file line1 ... |
Writes commands to the `batch-port' in PARMS which create a file
named FILE with contents LINE1 ....
- - Function: batch:delete-file parms file
+ -- Function: batch:delete-file parms file |
Writes a command to the `batch-port' in PARMS which deletes the
file named FILE.
- - Function: batch:rename-file parms old-name new-name
+ -- Function: batch:rename-file parms old-name new-name |
Writes a command to the `batch-port' in PARMS which renames the
file OLD-NAME to NEW-NAME.
In addition, batch provides some small utilities very useful for writing
scripts:
- - Function: truncate-up-to path char
- - Function: truncate-up-to path string
- - Function: truncate-up-to path charlist
+ -- Function: truncate-up-to path char |
+ -- Function: truncate-up-to path string |
+ -- Function: truncate-up-to path charlist |
PATH can be a string or a list of strings. Returns PATH sans any
prefixes ending with a character of the second argument. This can
be used to derive a filename moved locally from elsewhere.
@@ -3812,22 +4361,22 @@ scripts:
(truncate-up-to "/usr/local/lib/slib/batch.scm" "/")
=> "batch.scm"
- - Function: string-join joiner string1 ...
+ -- Function: string-join joiner string1 ... |
Returns a new string consisting of all the strings STRING1 ... in
order appended together with the string JOINER between each
adjacent pair.
- - Function: must-be-first list1 list2
+ -- Function: must-be-first list1 list2 |
Returns a new list consisting of the elements of LIST2 ordered so
that if some elements of LIST1 are `equal?' to elements of LIST2,
then those elements will appear first and in the order of LIST1.
- - Function: must-be-last list1 list2
+ -- Function: must-be-last list1 list2 |
Returns a new list consisting of the elements of LIST1 ordered so
that if some elements of LIST2 are `equal?' to elements of LIST1,
then those elements will appear last and in the order of LIST2.
- - Function: os->batch-dialect osname
+ -- Function: os->batch-dialect osname |
Returns its best guess for the `batch-dialect' to be used for the
operating-system named OSNAME. `os->batch-dialect' uses the
tables added to DATABASE by `batch:initialize!'.
@@ -3841,12 +4390,12 @@ Here is an example of the use of most of batch's procedures:
(define batch (create-database #f 'alist-table))
(batch:initialize! batch)
-
+
(define my-parameters
(list (list 'batch-dialect (os->batch-dialect *operating-system*))
(list 'operating-system *operating-system*)
(list 'batch-port (current-output-port)))) ;gets filled in later
-
+
(batch:call-with-output-script
my-parameters
"my-batch"
@@ -3903,34 +4452,34 @@ When run, `my-batch' prints:

File: slib.info, Node: HTML, Next: HTML Tables, Prev: Programs and Arguments, Up: Textual Conversion Packages
-HTML
-====
+4.5 HTML |
+======== |
-`(require 'html-form)'
+`(require 'html-form)'
- - Function: html:atval txt
+ -- Function: html:atval txt |
Returns a string with character substitutions appropriate to send
- TXT as an "attribute-value".
+ TXT as an "attribute-value".
- - Function: html:plain txt
+ -- Function: html:plain txt |
Returns a string with character substitutions appropriate to send
- TXT as an "plain-text".
+ TXT as an "plain-text".
- - Function: html:meta name content
+ -- Function: html:meta name content |
Returns a tag of meta-information suitable for passing as the
third argument to `html:head'. The tag produced is `<META
NAME="NAME" CONTENT="CONTENT">'. The string or symbol NAME can be
`author', `copyright', `keywords', `description', `date',
`robots', ....
- - Function: html:http-equiv name content
+ -- Function: html:http-equiv name content |
Returns a tag of HTTP information suitable for passing as the
third argument to `html:head'. The tag produced is `<META
HTTP-EQUIV="NAME" CONTENT="CONTENT">'. The string or symbol NAME
can be `Expires', `PICS-Label', `Content-Type', `Refresh', ....
- - Function: html:meta-refresh delay uri
- - Function: html:meta-refresh delay
+ -- Function: html:meta-refresh delay uri |
+ -- Function: html:meta-refresh delay |
Returns a tag suitable for passing as the third argument to
`html:head'. If URI argument is supplied, then DELAY seconds after
displaying the page with this tag, Netscape or IE browsers will
@@ -3938,67 +4487,66 @@ HTML
the page with this tag, Netscape or IE browsers will fetch and
redisplay this page.
- - Function: html:head title backlink tags ...
- - Function: html:head title backlink
- - Function: html:head title
+ -- Function: html:head title backlink tags ... |
+ -- Function: html:head title backlink |
+ -- Function: html:head title |
Returns header string for an HTML page named TITLE. If BACKLINK
is a string, it is used verbatim between the `H1' tags; otherwise
TITLE is used. If string arguments TAGS ... are supplied, then
they are included verbatim within the <HEAD> section.
- - Function: html:body body ...
+ -- Function: html:body body ... |
Returns HTML string to end a page.
- - Function: html:pre line1 line ...
- Returns the strings LINE1, LINES as "PRE"formmated plain text
- (rendered in fixed-width font). Newlines are inserted between
- LINE1, LINES. HTML tags (`<tag>') within LINES will be visible
- verbatim.
+ -- Function: html:pre line1 line ... |
+ Returns the strings LINE1, LINES as "PRE"formmated plain text (rendered |
+ in fixed-width font). Newlines are inserted between LINE1, LINES. |
+ HTML tags (`<tag>') within LINES will be visible verbatim. |
- - Function: html:comment line1 line ...
+ -- Function: html:comment line1 line ... |
Returns the strings LINE1 as HTML comments.
-HTML Forms
-==========
+4.6 HTML Forms |
+============== |
- - Function: html:form method action body ...
+ -- Function: html:form method action body ... |
The symbol METHOD is either `get', `head', `post', `put', or
`delete'. The strings BODY form the body of the form.
- `html:form' returns the HTML "form".
+ `html:form' returns the HTML "form".
- - Function: html:hidden name value
+ -- Function: html:hidden name value |
Returns HTML string which will cause NAME=VALUE in form.
- - Function: html:checkbox pname default
+ -- Function: html:checkbox pname default |
Returns HTML string for check box.
- - Function: html:text pname default size ...
+ -- Function: html:text pname default size ... |
Returns HTML string for one-line text box.
- - Function: html:text-area pname default-list
+ -- Function: html:text-area pname default-list |
Returns HTML string for multi-line text box.
- - Function: html:select pname arity default-list foreign-values
+ -- Function: html:select pname arity default-list foreign-values |
Returns HTML string for pull-down menu selector.
- - Function: html:buttons pname arity default-list foreign-values
+ -- Function: html:buttons pname arity default-list foreign-values |
Returns HTML string for any-of selector.
- - Function: form:submit submit-label command
- - Function: form:submit submit-label
+ -- Function: form:submit submit-label command |
+ -- Function: form:submit submit-label |
The string or symbol SUBMIT-LABEL appears on the button which
submits the form. If the optional second argument COMMAND is
given, then `*command*=COMMAND' and `*button*=SUBMIT-LABEL' are
set in the query. Otherwise, `*command*=SUBMIT-LABEL' is set in
the query.
- - Function: form:image submit-label image-src
+ -- Function: form:image submit-label image-src |
The IMAGE-SRC appears on the button which submits the form.
- - Function: form:reset
- Returns a string which generates a "reset" button.
+ -- Function: form:reset |
+ Returns a string which generates a "reset" button.
- - Function: form:element pname arity default-list foreign-values
+ -- Function: form:element pname arity default-list foreign-values |
Returns a string which generates an INPUT element for the field
named PNAME. The element appears in the created form with its
representation determined by its ARITY and domain. For domains
@@ -4037,19 +4585,19 @@ HTML Forms
`nary1'
text area
- - Function: form:delimited pname doc aliat arity default-list
+ -- Function: form:delimited pname doc aliat arity default-list |
foreign-values
Returns a HTML string for a form element embedded in a line of a
delimited list. Apply map `form:delimited' to the list returned by
`command->p-specs'.
- - Function: html:delimited-list row ... |
- Wraps its arguments with delimited-list (`DL' command. |
- |
- - Function: get-foreign-choices tab |
- Returns a list of the `visible-name' or first fields of table TAB. |
- |
- - Function: command->p-specs rdb command-table command
+ -- Function: html:delimited-list row ... |
+ Wraps its arguments with delimited-list (`DL' command.
+
+ -- Function: get-foreign-choices tab |
+ Returns a list of the `visible-name' or first fields of table TAB.
+
+ -- Function: command->p-specs rdb command-table command |
The symbol COMMAND-TABLE names a command table in the RDB
relational database. The symbol COMMAND names a key in
COMMAND-TABLE.
@@ -4084,25 +4632,25 @@ HTML Forms

File: slib.info, Node: HTML Tables, Next: HTTP and CGI, Prev: HTML, Up: Textual Conversion Packages
-HTML Tables
-===========
+4.7 HTML Tables |
+=============== |
-`(require 'db->html)'
+`(require 'db->html)'
- - Function: html:table options row ...
+ -- Function: html:table options row ... |
- - Function: html:caption caption align
- - Function: html:caption caption
+ -- Function: html:caption caption align |
+ -- Function: html:caption caption |
ALIGN can be `top' or `bottom'.
- - Function: html:heading columns
+ -- Function: html:heading columns |
Outputs a heading row for the currently-started table.
- - Function: html:href-heading columns uris
+ -- Function: html:href-heading columns uris |
Outputs a heading row with column-names COLUMNS linked to URIs
URIS.
- - Function: html:linked-row-converter k foreigns
+ -- Function: html:linked-row-converter k foreigns |
The positive integer K is the primary-key-limit (number of
primary-keys) of the table. FOREIGNS is a list of the filenames of
foreign-key field pages and #f for non foreign-key fields.
@@ -4111,28 +4659,29 @@ HTML Tables
its single argument. This returned procedure returns the html
string for that table row.
- - Function: table-name->filename table-name
+ -- Function: table-name->filename table-name |
Returns the symbol TABLE-NAME converted to a filename.
- - Function: table->linked-html caption db table-name match-key1 ...
- Returns HTML string for DB table TABLE-NAME. Every foreign-key
- value is linked to the page (of the table) defining that key.
+ -- Function: table->linked-html caption db table-name match-key1 ... |
+ Returns HTML string for DB table TABLE-NAME chopped into 50-row |
+ HTML tables. Every foreign-key value is linked to the page (of |
+ the table) defining that key. |
The optional MATCH-KEY1 ... arguments restrict actions to a subset
of the table. *Note match-key: Table Operations.
- - Function: table->linked-page db table-name index-filename arg ...
+ -- Function: table->linked-page db table-name index-filename arg ... |
Returns a complete HTML page. The string INDEX-FILENAME names the
page which refers to this one.
The optional ARGS ... arguments restrict actions to a subset of
the table. *Note match-key: Table Operations.
- - Function: catalog->html db caption arg ...
+ -- Function: catalog->html db caption arg ... |
Returns HTML string for the catalog table of DB.
-HTML editing tables
--------------------
+4.7.1 HTML editing tables |
+------------------------- |
A client can modify one row of an editable table at a time. For any
change submitted, these routines check if that row has been modified
@@ -4165,11 +4714,11 @@ The behavior of edited rows is:
After any change to the table, a `sync-database' of the database is
performed.
- - Function: command:modify-table table-name null-keys update delete
+ -- Function: command:modify-table table-name null-keys update delete |
retrieve
- - Function: command:modify-table table-name null-keys update delete
- - Function: command:modify-table table-name null-keys update
- - Function: command:modify-table table-name null-keys
+ -- Function: command:modify-table table-name null-keys update delete |
+ -- Function: command:modify-table table-name null-keys update |
+ -- Function: command:modify-table table-name null-keys |
Returns procedure (of DB) which returns procedure to modify row of
TABLE-NAME. NULL-KEYS is the list of "null" keys indicating the
row is to be deleted when any matches its corresponding primary
@@ -4177,7 +4726,7 @@ performed.
the `row:update', `row:delete', and `row:retrieve' of TABLE-NAME
in DB.
- - Function: command:make-editable-table rdb table-name arg ...
+ -- Function: command:make-editable-table rdb table-name arg ... |
Given TABLE-NAME in RDB, creates parameter and `*command*' tables
for editing one row of TABLE-NAME at a time.
`command:make-editable-table' returns a procedure taking a row
@@ -4195,7 +4744,7 @@ performed.
`+'
have arity `nary1'.
- - Function: html:editable-row-converter k names edit-point
+ -- Function: html:editable-row-converter k names edit-point |
edit-converter
The positive integer K is the primary-key-limit (number of
primary-keys) of the table. NAMES is a list of the field-names.
@@ -4213,10 +4762,10 @@ performed.
`row->anchor'). The page so referenced typically allows the user
to edit fields of that row.
-HTML databases
---------------
+4.7.2 HTML databases |
+-------------------- |
- - Function: db->html-files db dir index-filename caption
+ -- Function: db->html-files db dir index-filename caption |
DB must be a relational database. DIR must be #f or a non-empty
string naming an existing sub-directory of the current directory.
@@ -4226,8 +4775,8 @@ HTML databases
tables (captioned CAPTION) is written to a file named
INDEX-FILENAME.
- - Function: db->html-directory db dir index-filename
- - Function: db->html-directory db dir
+ -- Function: db->html-directory db dir index-filename |
+ -- Function: db->html-directory db dir |
DB must be a relational database. DIR must be a non-empty string
naming an existing sub-directory of the current directory or one
to be created. The optional string INDEX-FILENAME names the
@@ -4237,8 +4786,8 @@ HTML databases
calls `(db->html-files DB DIR INDEX-FILENAME DIR)'. The `file:'
URI of INDEX-FILENAME is returned.
- - Function: db->netscape db dir index-filename
- - Function: db->netscape db dir
+ -- Function: db->netscape db dir index-filename |
+ -- Function: db->netscape db dir |
`db->netscape' is just like `db->html-directory', but calls
`browse-url' with the uri for the top page after the pages are
created.
@@ -4246,39 +4795,39 @@ HTML databases

File: slib.info, Node: HTTP and CGI, Next: Parsing HTML, Prev: HTML Tables, Up: Textual Conversion Packages
-HTTP and CGI
-============
+4.8 HTTP and CGI |
+================ |
-`(require 'http)' or `(require 'cgi)'
+`(require 'http)' or `(require 'cgi)'
- - Function: http:header alist
+ -- Function: http:header alist |
Returns a string containing lines for each element of ALIST; the
`car' of which is followed by `: ', then the `cdr'.
- - Function: http:content alist body ...
+ -- Function: http:content alist body ... |
Returns the concatenation of strings BODY with the `(http:header
ALIST)' and the `Content-Length' prepended.
- - Variable: *http:byline*
+ -- Variable: *http:byline* |
String appearing at the bottom of error pages.
- - Function: http:error-page status-code reason-phrase html-string ...
+ -- Function: http:error-page status-code reason-phrase html-string ... |
STATUS-CODE and REASON-PHRASE should be an integer and string as
specified in `RFC 2068'. The returned page (string) will show the
STATUS-CODE and REASON-PHRASE and any additional HTML-STRINGS ...;
with *HTTP:BYLINE* or SLIB's default at the bottom.
- - Function: http:forwarding-page title delay uri html-string ...
- The string or symbol TITLE is the page title. DELAY is a
+ -- Function: http:forwarding-page title dly uri html-string ... |
+ The string or symbol TITLE is the page title. DLY is a |
non-negative integer. The HTML-STRINGS ... are typically used to
explain to the user why this page is being forwarded.
`http:forwarding-page' returns an HTML string for a page which
- automatically forwards to URI after DELAY seconds. The returned
+ automatically forwards to URI after DLY seconds. The returned |
page (string) contains any HTML-STRINGS ... followed by a manual
link to URI, in case the browser does not forward automatically.
- - Function: http:serve-query serve-proc input-port output-port
+ -- Function: http:serve-query serve-proc input-port output-port |
reads the "URI" and "query-string" from INPUT-PORT. If the query
is a valid `"POST"' or `"GET"' query, then `http:serve-query' calls
SERVE-PROC with three arguments, the REQUEST-LINE, QUERY-STRING,
@@ -4311,7 +4860,7 @@ HTTP and CGI
(close-port port)))
(lambda () (close-port socket))))
- - Function: cgi:serve-query serve-proc
+ -- Function: cgi:serve-query serve-proc |
reads the "URI" and "query-string" from `(current-input-port)'.
If the query is a valid `"POST"' or `"GET"' query, then
`cgi:serve-query' calls SERVE-PROC with three arguments, the
@@ -4328,8 +4877,8 @@ HTTP and CGI
Otherwise, `cgi:serve-query' replies (to `(current-input-port)')
with appropriate HTML describing the problem.
- - Function: make-query-alist-command-server rdb command-table
- - Function: make-query-alist-command-server rdb command-table #t
+ -- Function: make-query-alist-command-server rdb command-table |
+ -- Function: make-query-alist-command-server rdb command-table #t |
Returns a procedure of one argument. When that procedure is called
with a QUERY-ALIST (as returned by `uri:decode-query', the value
of the `*command*' association will be the command invoked in
@@ -4345,12 +4894,12 @@ HTTP and CGI

File: slib.info, Node: Parsing HTML, Next: URI, Prev: HTTP and CGI, Up: Textual Conversion Packages
-Parsing HTML
-============
+4.9 Parsing HTML |
+================ |
-`(require 'html-for-each)'
+`(require 'html-for-each)'
- - Function: html-for-each file word-proc markup-proc white-proc
+ -- Function: html-for-each file word-proc markup-proc white-proc |
newline-proc
FILE is an input port or a string naming an existing file
containing HTML text. WORD-PROC is a procedure of one argument or
@@ -4385,8 +4934,8 @@ Parsing HTML
`html-for-each' returns an unspecified value.
- - Function: html:read-title file limit
- - Function: html:read-title file
+ -- Function: html:read-title file limit |
+ -- Function: html:read-title file |
FILE is an input port or a string naming an existing file
containing HTML text. If supplied, LIMIT must be an integer.
LIMIT defaults to 1000.
@@ -4399,7 +4948,7 @@ Parsing HTML
from FILE is not `#\<', or if the end of title is not found within
the first (approximately) LIMIT words.
- - Function: htm-fields htm
+ -- Function: htm-fields htm |
HTM is a hypertext markup string.
If HTM is a (hypertext) comment, then `htm-fields' returns #f.
@@ -4412,27 +4961,27 @@ Parsing HTML

File: slib.info, Node: URI, Next: Printing Scheme, Prev: Parsing HTML, Up: Textual Conversion Packages
-URI
-===
+4.10 URI |
+======== |
-`(require 'uri)'
+`(require 'uri)'
Implements "Uniform Resource Identifiers" (URI) as described in RFC
2396.
- - Function: make-uri
- - Function: make-uri fragment
- - Function: make-uri query fragment
- - Function: make-uri path query fragment
- - Function: make-uri authority path query fragment
- - Function: make-uri scheme authority path query fragment
+ -- Function: make-uri |
+ -- Function: make-uri fragment |
+ -- Function: make-uri query fragment |
+ -- Function: make-uri path query fragment |
+ -- Function: make-uri authority path query fragment |
+ -- Function: make-uri scheme authority path query fragment |
Returns a Uniform Resource Identifier string from component
arguments.
- - Function: uri:make-path path |
- Returns a URI string combining the components of list PATH. |
- |
- - Function: html:anchor name
+ -- Function: uri:make-path path |
+ Returns a URI string combining the components of list PATH.
+
+ -- Function: html:anchor name |
Returns a string which defines this location in the (HTML) file as
NAME. The hypertext `<A HREF="#NAME">' will link to this point.
@@ -4440,23 +4989,23 @@ Implements "Uniform Resource Identifiers" (URI) as described in RFC
=>
"<A NAME=\"(section%207)\"></A>"
- - Function: html:link uri highlighted
+ -- Function: html:link uri highlighted |
Returns a string which links the HIGHLIGHTED text to URI.
(html:link (make-uri "(section 7)") "section 7")
=>
"<A HREF=\"#(section%207)\">section 7</A>"
- - Function: html:base uri
- Returns a string specifying the "base" URI of a document, for
- inclusion in the HEAD of the document (*note head: HTML.).
+ -- Function: html:base uri |
+ Returns a string specifying the "base" URI of a document, for inclusion |
+ in the HEAD of the document (*note head: HTML.). |
- - Function: html:isindex prompt
+ -- Function: html:isindex prompt |
Returns a string specifying the search PROMPT of a document, for
inclusion in the HEAD of the document (*note head: HTML.).
- - Function: uri->tree uri-reference base-tree
- - Function: uri->tree uri-reference
+ -- Function: uri->tree uri-reference base-tree |
+ -- Function: uri->tree uri-reference |
Returns a list of 5 elements corresponding to the parts (SCHEME
AUTHORITY PATH QUERY FRAGMENT) of string URI-REFERENCE. Elements
corresponding to absent parts are #f.
@@ -4475,57 +5024,57 @@ Implements "Uniform Resource Identifiers" (URI) as described in RFC
=>
(http "www.ics.uci.edu" ("" "pub" "ietf" "uri" "") #f "Related")
- - Function: uri:split-fields txt chr |
- Returns a list of TXT split at each occurrence of CHR. CHR does |
- not appear in the returned list of strings. |
- |
- - Function: uri:decode-query query-string
- Converts a "URI" encoded QUERY-STRING to a query-alist.
+ -- Function: uri:split-fields txt chr |
+ Returns a list of TXT split at each occurrence of CHR. CHR does
+ not appear in the returned list of strings.
+
+ -- Function: uri:decode-query query-string |
+ Converts a "URI" encoded QUERY-STRING to a query-alist.
`uric:' prefixes indicate procedures dealing with URI-components.
- - Function: uric:encode uri-component allows
+ -- Function: uric:encode uri-component allows |
Returns a copy of the string URI-COMPONENT in which all "unsafe"
- octets (as defined in RFC 2396) have been `%' "escaped".
- `uric:decode' decodes strings encoded by `uric:encode'.
+ octets (as defined in RFC 2396) have been `%' "escaped". `uric:decode' |
+ decodes strings encoded by `uric:encode'. |
- - Function: uric:decode uri-component
+ -- Function: uric:decode uri-component |
Returns a copy of the string URI-COMPONENT in which each `%'
escaped characters in URI-COMPONENT is replaced with the character
it encodes. This routine is useful for showing URI contents on
error pages.
- - Function: uri:path->keys path-list ptypes |
- PATH-LIST is a path-list as returned by `uri:split-fields'. |
- `uri:path->keys' returns a list of items returned by |
- `uri:decode-path', coerced to types PTYPES. |
- |
+ -- Function: uri:path->keys path-list ptypes |
+ PATH-LIST is a path-list as returned by `uri:split-fields'.
+ `uri:path->keys' returns a list of items returned by
+ `uri:decode-path', coerced to types PTYPES.
+
File-system Locators and Predicates
-----------------------------------
- - Function: path->uri path
+ -- Function: path->uri path |
Returns a URI-string for PATH on the local host.
- - Function: absolute-uri? str
+ -- Function: absolute-uri? str |
Returns #t if STR is an absolute-URI as indicated by a
syntactically valid (per RFC 2396) "scheme"; otherwise returns #f.
- - Function: absolute-path? file-name
+ -- Function: absolute-path? file-name |
Returns #t if FILE-NAME is a fully specified pathname (does not
depend on the current working directory); otherwise returns #f.
- - Function: null-directory? str
+ -- Function: null-directory? str |
Returns #t if changing directory to STR would leave the current
directory unchanged; otherwise returns #f.
- - Function: glob-pattern? str
+ -- Function: glob-pattern? str |
Returns #t if the string STR contains characters used for
specifying glob patterns, namely `*', `?', or `['.
Before RFC 2396, the "File Transfer Protocol" (FTP) served a similar
purpose.
- - Function: parse-ftp-address uri
+ -- Function: parse-ftp-address uri |
Returns a list of the decoded FTP URI; or #f if indecipherable.
FTP "Uniform Resource Locator", "ange-ftp", and "getit" formats
are handled. The returned list has four elements which are
@@ -4542,8 +5091,8 @@ purpose.

File: slib.info, Node: Printing Scheme, Next: Time and Date, Prev: URI, Up: Textual Conversion Packages
-Printing Scheme
-===============
+4.11 Printing Scheme |
+==================== |
* Menu:
@@ -4554,10 +5103,10 @@ Printing Scheme

File: slib.info, Node: Generic-Write, Next: Object-To-String, Prev: Printing Scheme, Up: Printing Scheme
-Generic-Write
--------------
+4.11.1 Generic-Write |
+-------------------- |
-`(require 'generic-write)'
+`(require 'generic-write)'
`generic-write' is a procedure that transforms a Scheme data value
(or Scheme program expression) into its textual representation and
@@ -4565,7 +5114,7 @@ prints it. The interface to the procedure is sufficiently general to
easily implement other useful formatting procedures such as pretty
printing, output to a string and truncated output.
- - Procedure: generic-write obj display? width output
+ -- Procedure: generic-write obj display? width output |
OBJ
Scheme data value to transform.
@@ -4590,7 +5139,6 @@ printing, output to a string and truncated output.
Examples:
(write obj) == (generic-write obj #f #f DISPLAY-STRING)
(display obj) == (generic-write obj #t #f DISPLAY-STRING)
-
where
DISPLAY-STRING ==
(lambda (s) (for-each write-char (string->list s)) #t)
@@ -4598,28 +5146,28 @@ printing, output to a string and truncated output.

File: slib.info, Node: Object-To-String, Next: Pretty-Print, Prev: Generic-Write, Up: Printing Scheme
-Object-To-String
-----------------
+4.11.2 Object-To-String |
+----------------------- |
-`(require 'object->string)'
+`(require 'object->string)'
- - Function: object->string obj
+ -- Function: object->string obj |
Returns the textual representation of OBJ as a string.
- - Function: object->limited-string obj limit
+ -- Function: object->limited-string obj limit |
Returns the textual representation of OBJ as a string of length at
most LIMIT.

File: slib.info, Node: Pretty-Print, Prev: Object-To-String, Up: Printing Scheme
-Pretty-Print
-------------
+4.11.3 Pretty-Print |
+------------------- |
-`(require 'pretty-print)'
+`(require 'pretty-print)'
- - Procedure: pretty-print obj
- - Procedure: pretty-print obj port
+ -- Procedure: pretty-print obj |
+ -- Procedure: pretty-print obj port |
`pretty-print's OBJ on PORT. If PORT is not specified,
`current-output-port' is used.
@@ -4632,8 +5180,8 @@ Pretty-Print
-| (16 17 18 19 20)
-| (21 22 23 24 25))
- - Procedure: pretty-print->string obj
- - Procedure: pretty-print->string obj width
+ -- Procedure: pretty-print->string obj |
+ -- Procedure: pretty-print->string obj width |
Returns the string of OBJ `pretty-print'ed in WIDTH columns. If
WIDTH is not specified, `(output-port-width)' is used.
@@ -4670,16 +5218,16 @@ Pretty-Print
25))
"
- `(require 'pprint-file)'
+ `(require 'pprint-file)'
- - Procedure: pprint-file infile
- - Procedure: pprint-file infile outfile
+ -- Procedure: pprint-file infile |
+ -- Procedure: pprint-file infile outfile |
Pretty-prints all the code in INFILE. If OUTFILE is specified,
the output goes to OUTFILE, otherwise it goes to
`(current-output-port)'.
- - Function: pprint-filter-file infile proc outfile
- - Function: pprint-filter-file infile proc
+ -- Function: pprint-filter-file infile proc outfile |
+ -- Function: pprint-filter-file infile proc |
INFILE is a port or a string naming an existing file. Scheme
source code expressions and definitions are read from the port (or
file) and PROC is applied to them sequentially.
@@ -4704,14 +5252,15 @@ thus can reduce loading time. The following will write into

File: slib.info, Node: Time and Date, Next: NCBI-DNA, Prev: Printing Scheme, Up: Textual Conversion Packages
-Time and Date
-=============
+4.12 Time and Date |
+================== |
* Menu:
* Time Zone::
* Posix Time:: 'posix-time
* Common-Lisp Time:: 'common-lisp-time
+* Time Infrastructure:: |
If `(provided? 'current-time)':
@@ -4719,29 +5268,29 @@ The procedures `current-time', `difftime', and `offset-time' deal with
a "calendar time" datatype which may or may not be disjoint from other
Scheme datatypes.
- - Function: current-time
+ -- Function: current-time |
Returns the time since 00:00:00 GMT, January 1, 1970, measured in
seconds. Note that the reference time is different from the
reference time for `get-universal-time' in *Note Common-Lisp
Time::.
- - Function: difftime caltime1 caltime0
+ -- Function: difftime caltime1 caltime0 |
Returns the difference (number of seconds) between twe calendar
times: CALTIME1 - CALTIME0. CALTIME0 may also be a number.
- - Function: offset-time caltime offset
+ -- Function: offset-time caltime offset |
Returns the calendar time of CALTIME offset by OFFSET number of
seconds `(+ caltime offset)'.

File: slib.info, Node: Time Zone, Next: Posix Time, Prev: Time and Date, Up: Time and Date
-Time Zone
----------
+4.12.1 Time Zone |
+---------------- |
(require 'time-zone)
- - Data Format: TZ-string
+ -- Data Format: TZ-string |
POSIX standards specify several formats for encoding time-zone
rules.
@@ -4795,17 +5344,17 @@ Time Zone
Day 0 is a Sunday.
- - Data Type: time-zone
+ -- Data Type: time-zone |
is a datatype encoding how many hours from Greenwich Mean Time the
local time is, and the "Daylight Savings Time" rules for changing
it.
- - Function: time-zone TZ-string
+ -- Function: time-zone TZ-string |
Creates and returns a time-zone object specified by the string
TZ-STRING. If `time-zone' cannot interpret TZ-STRING, `#f' is
returned.
- - Function: tz:params caltime tz
+ -- Function: tz:params caltime tz |
TZ is a time-zone object. `tz:params' returns a list of three
items:
0. An integer. 0 if standard time is in effect for timezone TZ
@@ -4821,21 +5370,21 @@ Time Zone
made of any timezone at any calendar time.
- - Function: tz:std-offset tz |
- TZ is a time-zone object. `tz:std-offset' returns the number of |
- seconds west of the Prime Meridian timezone TZ is. |
- |
- |
+ -- Function: tz:std-offset tz |
+ TZ is a time-zone object. `tz:std-offset' returns the number of
+ seconds west of the Prime Meridian timezone TZ is.
+
+
The rest of these procedures and variables are provided for POSIX
compatability. Because of shared state they are not thread-safe.
- - Function: tzset
+ -- Function: tzset |
Returns the default time-zone.
- - Function: tzset tz
+ -- Function: tzset tz |
Sets (and returns) the default time-zone to TZ.
- - Function: tzset TZ-string
+ -- Function: tzset TZ-string |
Sets (and returns) the default time-zone to that specified by
TZ-STRING.
@@ -4843,19 +5392,19 @@ compatability. Because of shared state they are not thread-safe.
This function is automatically called by the time conversion
procedures which depend on the time zone (*note Time and Date::).
- - Variable: *timezone*
+ -- Variable: *timezone* |
Contains the difference, in seconds, between Greenwich Mean Time
and local standard time (for example, in the U.S. Eastern time
zone (EST), timezone is 5*60*60). `*timezone*' is initialized by
`tzset'.
- - Variable: daylight?
+ -- Variable: daylight? |
is `#t' if the default timezone has rules for "Daylight Savings
Time". _Note:_ DAYLIGHT? does not tell you when Daylight Savings
Time is in effect, just that the default zone sometimes has
Daylight Savings Time.
- - Variable: tzname
+ -- Variable: tzname |
is a vector of strings. Index 0 has the abbreviation for the
standard timezone; If DAYLIGHT?, then index 1 has the abbreviation
for the Daylight Savings timezone.
@@ -4863,15 +5412,16 @@ compatability. Because of shared state they are not thread-safe.

File: slib.info, Node: Posix Time, Next: Common-Lisp Time, Prev: Time Zone, Up: Time and Date
-Posix Time
-----------
+4.12.2 Posix Time |
+----------------- |
(require 'posix-time)
-
- - Data Type: Calendar-Time
+
+ |
+ -- Data Type: Calendar-Time |
is a datatype encapsulating time.
- - Data Type: Coordinated Universal Time
+ -- Data Type: Coordinated Universal Time |
(abbreviated "UTC") is a vector of integers representing time:
0. seconds (0 - 61)
@@ -4894,13 +5444,13 @@ Posix Time
8. 1 for daylight savings, 0 for regular time
- - Function: gmtime caltime
+ -- Function: gmtime caltime |
Converts the calendar time CALTIME to UTC and returns it.
- - Function: localtime caltime tz
+ -- Function: localtime caltime tz |
Returns CALTIME converted to UTC relative to timezone TZ.
- - Function: localtime caltime
+ -- Function: localtime caltime |
converts the calendar time CALTIME to a vector of integers
expressed relative to the user's time zone. `localtime' sets the
variable *TIMEZONE* with the difference between Coordinated
@@ -4908,44 +5458,44 @@ Posix Time
tzset: Time Zone.).
- - Function: gmktime univtime
+ -- Function: gmktime univtime |
Converts a vector of integers in GMT Coordinated Universal Time
(UTC) format to a calendar time.
- - Function: mktime univtime
+ -- Function: mktime univtime |
Converts a vector of integers in local Coordinated Universal Time
(UTC) format to a calendar time.
- - Function: mktime univtime tz
+ -- Function: mktime univtime tz |
Converts a vector of integers in Coordinated Universal Time (UTC)
format (relative to time-zone TZ) to calendar time.
- - Function: asctime univtime
+ -- Function: asctime univtime |
Converts the vector of integers CALTIME in Coordinated Universal
Time (UTC) format into a string of the form `"Wed Jun 30 21:49:08
1993"'.
- - Function: gtime caltime
- - Function: ctime caltime
- - Function: ctime caltime tz
+ -- Function: gtime caltime |
+ -- Function: ctime caltime |
+ -- Function: ctime caltime tz |
Equivalent to `(asctime (gmtime CALTIME))', `(asctime (localtime
CALTIME))', and `(asctime (localtime CALTIME TZ))', respectively.

-File: slib.info, Node: Common-Lisp Time, Prev: Posix Time, Up: Time and Date
-
-Common-Lisp Time
-----------------
+File: slib.info, Node: Common-Lisp Time, Next: Time Infrastructure, Prev: Posix Time, Up: Time and Date
+ |
+4.12.3 Common-Lisp Time |
+----------------------- |
- - Function: get-decoded-time
+ -- Function: get-decoded-time |
Equivalent to `(decode-universal-time (get-universal-time))'.
- - Function: get-universal-time
+ -- Function: get-universal-time |
Returns the current time as "Universal Time", number of seconds
since 00:00:00 Jan 1, 1900 GMT. Note that the reference time is
different from `current-time'.
- - Function: decode-universal-time univtime
+ -- Function: decode-universal-time univtime |
Converts UNIVTIME to "Decoded Time" format. Nine values are
returned:
0. seconds (0 - 61)
@@ -4970,8 +5520,8 @@ Common-Lisp Time
Notice that the values returned by `decode-universal-time' do not
match the arguments to `encode-universal-time'.
- - Function: encode-universal-time second minute hour date month year
- - Function: encode-universal-time second minute hour date month year
+ -- Function: encode-universal-time second minute hour date month year |
+ -- Function: encode-universal-time second minute hour date month year |
time-zone
Converts the arguments in Decoded Time format to Universal Time
format. If TIME-ZONE is not specified, the returned time is
@@ -4982,32 +5532,48 @@ Common-Lisp Time
match the arguments to `encode-universal-time'.

+File: slib.info, Node: Time Infrastructure, Prev: Common-Lisp Time, Up: Time and Date
+ |
+4.12.4 Time Infrastructure |
+-------------------------- |
+ |
+`(require 'time-core)' |
+ |
+ -- Function: time:gmtime tm |
+ -- Function: time:invert decoder target |
+ -- Function: time:split t tm_isdst tm_gmtoff tm_zone |
+ |
+ `(require 'tzfile)' |
+ |
+ -- Function: tzfile:read path |
+ |
+
File: slib.info, Node: NCBI-DNA, Next: Schmooz, Prev: Time and Date, Up: Textual Conversion Packages
+ |
+4.13 NCBI-DNA |
+============= |
-NCBI-DNA
-========
-
- - Function: ncbi:read-dna-sequence port
+ -- Function: ncbi:read-dna-sequence port |
Reads the NCBI-format DNA sequence following the word `ORIGIN'
from PORT.
- - Function: ncbi:read-file file
+ -- Function: ncbi:read-file file |
Reads the NCBI-format DNA sequence following the word `ORIGIN'
from FILE.
- - Function: mrna<-cdna str
+ -- Function: mrna<-cdna str |
Replaces `T' with `U' in STR
- - Function: codons<-cdna cdna
+ -- Function: codons<-cdna cdna |
Returns a list of three-letter symbol codons comprising the protein
sequence encoded by CDNA starting with its first occurence of
`atg'.
- - Function: protein<-cdna cdna
+ -- Function: protein<-cdna cdna |
Returns a list of three-letter symbols for the protein sequence
encoded by CDNA starting with its first occurence of `atg'.
- - Function: p<-cdna cdna
+ -- Function: p<-cdna cdna |
Returns a string of one-letter amino acid codes for the protein
sequence encoded by CDNA starting with its first occurence of
`atg'.
@@ -5015,18 +5581,18 @@ NCBI-DNA
These cDNA count routines provide a means to check the nucleotide
sequence with the `BASE COUNT' line preceding the sequence from NCBI.
- - Function: cdna:base-count cdna
+ -- Function: cdna:base-count cdna |
Returns a list of counts of `a', `c', `g', and `t' occurrencing in
CDNA.
- - Function: cdna:report-base-count cdna
+ -- Function: cdna:report-base-count cdna |
Prints the counts of `a', `c', `g', and `t' occurrencing in CDNA.

File: slib.info, Node: Schmooz, Prev: NCBI-DNA, Up: Textual Conversion Packages
-Schmooz
-=======
+4.14 Schmooz |
+============ |
"Schmooz" is a simple, lightweight markup language for interspersing
Texinfo documentation with Scheme source code. Schmooz does not create
@@ -5037,16 +5603,16 @@ imported into the documentation using the Texinfo command `@include'.
process files. Files containing schmooz documentation should not
contain `(require 'schmooz)'.
- - Procedure: schmooz filename.scm ...
+ -- Procedure: schmooz filename.scm ... |
FILENAME.scm should be a string ending with `.scm' naming an
existing file containing Scheme source code. `schmooz' extracts
top-level comments containing schmooz commands from FILENAME.scm
and writes the converted Texinfo source to a file named
FILENAME.txi.
- - Procedure: schmooz filename.texi ...
- - Procedure: schmooz filename.tex ...
- - Procedure: schmooz filename.txi ...
+ -- Procedure: schmooz filename.texi ... |
+ -- Procedure: schmooz filename.tex ... |
+ -- Procedure: schmooz filename.txi ... |
FILENAME should be a string naming an existing file containing
Texinfo source code. For every occurrence of the string `@include
FILENAME.txi' within that file, `schmooz' calls itself with the
@@ -5105,7 +5671,7 @@ remainder of the line, separated by whitespace.
Will result in:
@defun myfun arg1 args @dots{}
-
+
@code{myfun} takes argument @var{arg1} and any number of @var{args}
@end defun
@@ -5124,8 +5690,8 @@ directives in schmooz comments.

File: slib.info, Node: Mathematical Packages, Next: Database Packages, Prev: Textual Conversion Packages, Up: Top
-Mathematical Packages
-*********************
+5 Mathematical Packages |
+*********************** |
* Menu:
@@ -5135,7 +5701,7 @@ Mathematical Packages
* Random Numbers:: 'random
* Fast Fourier Transform:: 'fft
* Cyclic Checksum:: 'crc
-* Graphing:: |
+* Graphing::
* Solid Modeling:: VRML97
* Color::
* Root Finding:: 'root
@@ -5146,10 +5712,10 @@ Mathematical Packages

File: slib.info, Node: Bit-Twiddling, Next: Modular Arithmetic, Prev: Mathematical Packages, Up: Mathematical Packages
-Bit-Twiddling
-=============
+5.1 Bit-Twiddling |
+================= |
-`(require 'logical)'
+`(require 'logical)'
The bit-twiddling functions are made available through the use of the
`logical' package. `logical' is loaded by inserting `(require
@@ -5157,35 +5723,39 @@ The bit-twiddling functions are made available through the use of the
behave as though operating on integers in two's-complement
representation.
-Bitwise Operations
-------------------
+5.1.1 Bitwise Operations |
+------------------------ |
- - Function: logand n1 n1
- Returns the integer which is the bit-wise AND of the two integer
+ -- Function: logand n1 ... |
+ -- Function: bitwise-and n1 ... |
+ Returns the integer which is the bit-wise AND of the integer |
arguments.
Example:
(number->string (logand #b1100 #b1010) 2)
=> "1000"
- - Function: logior n1 n2
- Returns the integer which is the bit-wise OR of the two integer
+ -- Function: logior n1 ... |
+ -- Function: bitwise-ior n1 ... |
+ Returns the integer which is the bit-wise OR of the integer |
arguments.
Example:
(number->string (logior #b1100 #b1010) 2)
=> "1110"
- - Function: logxor n1 n2
- Returns the integer which is the bit-wise XOR of the two integer
+ -- Function: logxor n1 ... |
+ -- Function: bitwise-xor n1 ... |
+ Returns the integer which is the bit-wise XOR of the integer |
arguments.
Example:
(number->string (logxor #b1100 #b1010) 2)
=> "110"
- - Function: lognot n
- Returns the integer which is the 2s-complement of the integer
+ -- Function: lognot n |
+ -- Function: bitwise-not n |
+ Returns the integer which is the one's-complement of the integer |
argument.
Example:
@@ -5194,19 +5764,25 @@ Bitwise Operations
(number->string (lognot #b0) 2)
=> "-1"
- - Function: bitwise-if mask n0 n1
+ -- Function: bitwise-if mask n0 n1 |
+ -- Function: bitwise-merge mask n0 n1 |
Returns an integer composed of some bits from integer N0 and some
from integer N1. A bit of the result is taken from N0 if the
corresponding bit of integer MASK is 1 and from N1 if that bit of
MASK is 0.
- - Function: logtest j k
+ -- Function: logtest j k |
+ -- Function: any-bits-set? j k |
(logtest j k) == (not (zero? (logand j k)))
-
+
(logtest #b0100 #b1011) => #f
(logtest #b0100 #b0111) => #t
- - Function: logcount n
+5.1.2 Integer Properties |
+------------------------ |
+ |
+ -- Function: logcount n |
+ -- Function: bit-count n |
Returns the number of bits in integer N. If integer is positive,
the 1-bits in its binary representation are counted. If negative,
the 0-bits in its two's-complement binary representation are
@@ -5220,19 +5796,63 @@ Bitwise Operations
(logcount -2)
=> 1
-Bit Within Word
----------------
+ -- Function: integer-length n |
+ Returns the number of bits neccessary to represent N. |
+
+ Example: |
+ (integer-length #b10101010) |
+ => 8 |
+ (integer-length 0) |
+ => 0 |
+ (integer-length #b1111) |
+ => 4 |
+ |
+ -- Function: log2-binary-factors n |
+ -- Function: first-set-bit n |
+ Returns the number of factors of two of integer N. This value is |
+ also the bit-index of the least-significant `1' bit in N. |
+ |
+ (require 'printf) |
+ (do ((idx 0 (+ 1 idx))) |
+ ((> idx 16)) |
+ (printf "%s(%3d) ==> %-5d %s(%2d) ==> %-5d\n" |
+ 'log2-binary-factors |
+ (- idx) (log2-binary-factors (- idx)) |
+ 'log2-binary-factors |
+ idx (log2-binary-factors idx))) |
+ -| |
+ log2-binary-factors( 0) ==> -1 log2-binary-factors( 0) ==> -1 |
+ log2-binary-factors( -1) ==> 0 log2-binary-factors( 1) ==> 0 |
+ log2-binary-factors( -2) ==> 1 log2-binary-factors( 2) ==> 1 |
+ log2-binary-factors( -3) ==> 0 log2-binary-factors( 3) ==> 0 |
+ log2-binary-factors( -4) ==> 2 log2-binary-factors( 4) ==> 2 |
+ log2-binary-factors( -5) ==> 0 log2-binary-factors( 5) ==> 0 |
+ log2-binary-factors( -6) ==> 1 log2-binary-factors( 6) ==> 1 |
+ log2-binary-factors( -7) ==> 0 log2-binary-factors( 7) ==> 0 |
+ log2-binary-factors( -8) ==> 3 log2-binary-factors( 8) ==> 3 |
+ log2-binary-factors( -9) ==> 0 log2-binary-factors( 9) ==> 0 |
+ log2-binary-factors(-10) ==> 1 log2-binary-factors(10) ==> 1 |
+ log2-binary-factors(-11) ==> 0 log2-binary-factors(11) ==> 0 |
+ log2-binary-factors(-12) ==> 2 log2-binary-factors(12) ==> 2 |
+ log2-binary-factors(-13) ==> 0 log2-binary-factors(13) ==> 0 |
+ log2-binary-factors(-14) ==> 1 log2-binary-factors(14) ==> 1 |
+ log2-binary-factors(-15) ==> 0 log2-binary-factors(15) ==> 0 |
+ log2-binary-factors(-16) ==> 4 log2-binary-factors(16) ==> 4 |
+ |
+5.1.3 Bit Within Word |
+--------------------- |
+ |
+ -- Function: logbit? index n |
+ -- Function: bit-set? index n |
+ (logbit? index n) == (logtest (expt 2 index) n) |
- - Function: logbit? index j
- (logbit? index j) == (logtest (integer-expt 2 index) j)
-
(logbit? 0 #b1101) => #t
(logbit? 1 #b1101) => #f
(logbit? 2 #b1101) => #t
(logbit? 3 #b1101) => #t
(logbit? 4 #b1101) => #f
- - Function: copy-bit index from bit
+ -- Function: copy-bit index from bit |
Returns an integer the same as FROM except in the INDEXth bit,
which is 1 if BIT is `#t' and 0 if BIT is `#f'.
@@ -5241,36 +5861,36 @@ Bit Within Word
(number->string (copy-bit 2 0 #t) 2) => "100"
(number->string (copy-bit 2 #b1111 #f) 2) => "1011"
-Fields of Bits
---------------
+5.1.4 Field of Bits |
+------------------- |
- - Function: logical:ones n |
- Returns the smallest non-negative integer having N binary ones. |
- |
- - Function: bit-field n start end
+ -- Function: bit-field n start end |
Returns the integer composed of the START (inclusive) through END
(exclusive) bits of N. The STARTth bit becomes the 0-th bit in
the result.
- |
+
Example:
(number->string (bit-field #b1101101010 0 4) 2)
=> "1010"
(number->string (bit-field #b1101101010 4 9) 2)
=> "10110"
- - Function: copy-bit-field to start end from
+ -- Function: copy-bit-field to from start end |
Returns an integer the same as TO except possibly in the START
(inclusive) through END (exclusive) bits, which are the same as
those of FROM. The 0-th bit of FROM becomes the STARTth bit of
the result.
Example:
- (number->string (copy-bit-field #b1101101010 0 4 0) 2)
+ (number->string (copy-bit-field #b1101101010 0 0 4) 2) |
=> "1101100000"
- (number->string (copy-bit-field #b1101101010 0 4 -1) 2)
+ (number->string (copy-bit-field #b1101101010 -1 0 4) 2) |
=> "1101101111"
+ (number->string (copy-bit-field #b110100100010000 -1 5 9) 2) |
+ => "110100111110000" |
- - Function: ash n count
+ -- Function: ash n count |
+ -- Function: arithmetic-shift n count |
Returns an integer equivalent to `(inexact->exact (floor (* N
(expt 2 COUNT))))'.
@@ -5280,53 +5900,36 @@ Fields of Bits
(number->string (ash #b1010 -1) 2)
=> "101"
- - Function: integer-length n
- Returns the number of bits neccessary to represent N.
+ -- Function: rotate-bit-field n count start end |
+ Returns N with the bit-field from START to END cyclically permuted |
+ by COUNT bits towards high-order. |
Example:
- (integer-length #b10101010)
- => 8
- (integer-length 0)
- => 0
- (integer-length #b1111)
- => 4
-
- - Function: integer-expt n k
- Returns N raised to the non-negative integer exponent K.
-
- Example:
- (integer-expt 2 5)
- => 32
- (integer-expt -3 3)
- => -27
-
-Bit order and Lamination
-------------------------
-
- - Function: logical:rotate k count len
- Returns the low-order LEN bits of K cyclically permuted COUNT bits
- towards high-order.
-
- Example:
- (number->string (logical:rotate #b0100 3 4) 2)
- => "10"
- (number->string (logical:rotate #b0100 -1 4) 2)
- => "10"
-
- - Function: bit-reverse k n
- Returns the low-order K bits of N with the bit order reversed.
- The low-order bit of N is the high order bit of the returned value.
-
- (number->string (bit-reverse 8 #xa7) 16)
+ (number->string (rotate-bit-field #b0100 3 0 4) 2) |
+ => "10"
+ (number->string (rotate-bit-field #b0100 -1 0 4) 2) |
+ => "10"
+ (number->string (rotate-bit-field #b110100100010000 -1 5 9) 2) |
+ => "110100010010000" |
+ (number->string (rotate-bit-field #b110100100010000 1 5 9) 2) |
+ => "110100000110000" |
+
+ -- Function: reverse-bit-field n start end |
+ Returns N with the order of bits START to END reversed. |
+
+ (number->string (reverse-bit-field #xa7 0 8) 16) |
=> "e5"
- - Function: integer->list k len
- - Function: integer->list k
+5.1.5 Bits as Booleans |
+---------------------- |
+ |
+ -- Function: integer->list k len |
+ -- Function: integer->list k |
`integer->list' returns a list of LEN booleans corresponding to
each bit of the given integer. #t is coded for each 1; #f for 0.
The LEN argument defaults to `(integer-length K)'.
- - Function: list->integer list
+ -- Function: list->integer list |
`list->integer' returns an integer formed from the booleans in the
list LIST, which must be a list of booleans. A 1 bit is coded for
each #t; a 0 bit for #f.
@@ -5334,67 +5937,19 @@ Bit order and Lamination
`integer->list' and `list->integer' are inverses so far as
`equal?' is concerned.
- - Function: booleans->integer bool1 ...
+ -- Function: booleans->integer bool1 ... |
Returns the integer coded by the BOOL1 ... arguments.
-
- - Function: bitwise:laminate k1 ...
- Returns an integer composed of the bits of K1 ... interlaced in
- argument order. Given K1, ... KN, the n low-order bits of the
- returned value will be the lowest-order bit of each argument.
-
- - Function: bitwise:delaminate count k
- Returns a list of COUNT integers comprised of every COUNTh bit of
- the integer K.
-
- For any non-negative integers K and COUNT:
- (eqv? k (bitwise:laminate (bitwise:delaminate count k)))
-
-Gray code
----------
-
-A "Gray code" is an ordering of non-negative integers in which exactly
-one bit differs between each pair of successive elements. There are
-multiple Gray codings. An n-bit Gray code corresponds to a Hamiltonian
-cycle on an n-dimensional hypercube.
-
-Gray codes find use communicating incrementally changing values between
-asynchronous agents. De-laminated Gray codes comprise the coordinates
-of Peano-Hilbert space-filling curves.
-
- - Function: integer->gray-code k
- Converts K to a Gray code of the same `integer-length' as K.
-
- - Function: gray-code->integer k
- Converts the Gray code K to an integer of the same
- `integer-length' as K.
-
- For any non-negative integer K,
- (eqv? k (gray-code->integer (integer->gray-code k)))
-
- - Function: = k1 k2
- - Function: gray-code<? k1 k2
- - Function: gray-code>? k1 k2
- - Function: gray-code<=? k1 k2
- - Function: gray-code>=? k1 k2
- These procedures return #t if their Gray code arguments are
- (respectively): equal, monotonically increasing, monotonically
- decreasing, monotonically nondecreasing, or monotonically
- nonincreasing.
-
- For any non-negative integers K1 and K2, the Gray code predicate
- of `(integer->gray-code k1)' and `(integer->gray-code k2)' will
- return the same value as the corresponding predicate of K1 and K2.
-
+ |

File: slib.info, Node: Modular Arithmetic, Next: Prime Numbers, Prev: Bit-Twiddling, Up: Mathematical Packages
-Modular Arithmetic
-==================
+5.2 Modular Arithmetic |
+====================== |
-`(require 'modular)'
+`(require 'modular)'
- - Function: mod x1 x2
- - Function: rem x1 x2
+ -- Function: mod x1 x2 |
+ -- Function: rem x1 x2 |
These procedures implement the Common-Lisp functions of the same
names. The real number X2 must be non-zero. `mod' returns `(- X1
(* X2 (floor (/ X1 X2))))'. `rem' returns `(- X1 (* X2 (truncate
@@ -5405,25 +5960,25 @@ Modular Arithmetic
(mod -90 360) => 270
(rem -90 180) => -90
-
+
(mod 540 360) => 180
(rem 540 360) => 180
-
+
(mod (* 5/2 pi) (* 2 pi)) => 1.5707963267948965
(rem (* -5/2 pi) (* 2 pi)) => -1.5707963267948965
- - Function: extended-euclid n1 n2
+ -- Function: extended-euclid n1 n2 |
Returns a list of 3 integers `(d x y)' such that d = gcd(N1, N2) =
N1 * x + N2 * y.
- - Function: symmetric:modulus n
+ -- Function: symmetric:modulus n |
Returns `(quotient (+ -1 n) -2)' for positive odd integer N.
- - Function: modulus->integer modulus
+ -- Function: modulus->integer modulus |
Returns the non-negative integer characteristic of the ring formed
when MODULUS is used with `modular:' procedures.
- - Function: modular:normalize modulus n
+ -- Function: modular:normalize modulus n |
Returns the integer `(modulo N (modulus->integer MODULUS))' in the
representation specified by MODULUS.
@@ -5439,46 +5994,46 @@ For all of these functions, if the first argument (MODULUS) is:
`negative?'
The arguments and result are treated as members of the integers
- modulo `(+ 1 (* -2 MODULUS))', but with "symmetric"
- representation; i.e. `(<= (- MODULUS) N MODULUS)'.
+ modulo `(+ 1 (* -2 MODULUS))', but with "symmetric" representation; |
+ i.e. `(<= (- MODULUS) N MODULUS)'. |
If all the arguments are fixnums the computation will use only fixnums.
- - Function: modular:invertable? modulus k
+ -- Function: modular:invertable? modulus k |
Returns `#t' if there exists an integer n such that K * n == 1 mod
MODULUS, and `#f' otherwise.
- - Function: modular:invert modulus n2
+ -- Function: modular:invert modulus n2 |
Returns an integer n such that 1 = (n * N2) mod MODULUS. If N2
has no inverse mod MODULUS an error is signaled.
- - Function: modular:negate modulus n2
+ -- Function: modular:negate modulus n2 |
Returns (-N2) mod MODULUS.
- - Function: modular:+ modulus n2 n3
+ -- Function: modular:+ modulus n2 n3 |
Returns (N2 + N3) mod MODULUS.
- - Function: modular:- modulus n2 n3
+ -- Function: modular:- modulus n2 n3 |
Returns (N2 - N3) mod MODULUS.
- - Function: modular:* modulus n2 n3
+ -- Function: modular:* modulus n2 n3 |
Returns (N2 * N3) mod MODULUS.
The Scheme code for `modular:*' with negative MODULUS is not
completed for fixnum-only implementations.
- - Function: modular:expt modulus n2 n3
+ -- Function: modular:expt modulus n2 n3 |
Returns (N2 ^ N3) mod MODULUS.

File: slib.info, Node: Prime Numbers, Next: Random Numbers, Prev: Modular Arithmetic, Up: Mathematical Packages
-Prime Numbers
-=============
+5.3 Prime Numbers |
+================= |
-`(require 'factor)'
+`(require 'factor)'
- - Variable: prime:prngs
+ -- Variable: prime:prngs |
PRIME:PRNGS is the random-state (*note Random Numbers::) used by
these procedures. If you call these procedures from more than one
thread (or from interrupt), `random' may complain about reentrant
@@ -5489,28 +6044,28 @@ the Solovay-Strassen primality test. See
* Robert Solovay and Volker Strassen, `A Fast Monte-Carlo Test for
Primality', SIAM Journal on Computing, 1977, pp 84-85.
- - Function: jacobi-symbol p q
+ -- Function: jacobi-symbol p q |
Returns the value (+1, -1, or 0) of the Jacobi-Symbol of exact
non-negative integer P and exact positive odd integer Q.
- - Variable: prime:trials
+ -- Variable: prime:trials |
PRIME:TRIALS the maxinum number of iterations of Solovay-Strassen
that will be done to test a number for primality.
- - Function: prime? n
+ -- Function: prime? n |
Returns `#f' if N is composite; `#t' if N is prime. There is a
slight chance `(expt 2 (- prime:trials))' that a composite will
return `#t'.
- - Function: primes< start count
+ -- Function: primes< start count |
Returns a list of the first COUNT prime numbers less than START.
If there are fewer than COUNT prime numbers less than START, then
the returned list will have fewer than START elements.
- - Function: primes> start count
+ -- Function: primes> start count |
Returns a list of the first COUNT prime numbers greater than START.
- - Function: factor k
+ -- Function: factor k |
Returns a list of the prime factors of K. The order of the
factors is unspecified. In order to obtain a sorted list do
`(sort! (factor K) <)'.
@@ -5518,37 +6073,37 @@ the Solovay-Strassen primality test. See

File: slib.info, Node: Random Numbers, Next: Fast Fourier Transform, Prev: Prime Numbers, Up: Mathematical Packages
-Random Numbers
-==============
+5.4 Random Numbers |
+================== |
-A pseudo-random number generator is only as good as the tests it passes. |
-George Marsaglia of Florida State University developed a battery of |
-tests named "DIEHARD" (<http://stat.fsu.edu/~geo/diehard.html>). |
-`diehard.c' has a bug which the patch |
-<http://swissnet.ai.mit.edu/ftpdir/users/jaffer/diehard.c.pat> corrects.
+A pseudo-random number generator is only as good as the tests it passes.
+George Marsaglia of Florida State University developed a battery of
+tests named "DIEHARD" (`http://stat.fsu.edu/~geo/diehard.html'). |
+`diehard.c' has a bug which the patch
+`http://swiss.csail.mit.edu/ftpdir/users/jaffer/diehard.c.pat' corrects. |
- SLIB's PRNG generates 8 bits at a time. With the degenerate seed |
+ SLIB's PRNG generates 8 bits at a time. With the degenerate seed
`0', the numbers generated pass DIEHARD; but when bits are combined
from sequential bytes, tests fail. With the seed
`http://swissnet.ai.mit.edu/~jaffer/SLIB.html', all of those tests pass.
-* Menu: |
- |
-* Exact Random Numbers:: 'random |
-* Inexact Random Numbers:: 'random-inexact |
- |
+* Menu:
+
+* Exact Random Numbers:: 'random
+* Inexact Random Numbers:: 'random-inexact
+

File: slib.info, Node: Exact Random Numbers, Next: Inexact Random Numbers, Prev: Random Numbers, Up: Random Numbers
- |
-Exact Random Numbers |
--------------------- |
- |
-`(require 'random)' |
- |
- - Function: random n state
- - Function: random n |
- N must be an exact positive integer. `random' returns an exact |
- integer between zero (inclusive) and N (exclusive). The values |
+
+5.4.1 Exact Random Numbers |
+-------------------------- |
+
+`(require 'random)'
+
+ -- Function: random n state |
+ -- Function: random n |
+ N must be an exact positive integer. `random' returns an exact
+ integer between zero (inclusive) and N (exclusive). The values
returned by `random' are uniformly distributed from 0 to N.
The optional argument STATE must be of the type returned by
@@ -5557,7 +6112,7 @@ Exact Random Numbers |
to maintain the state of the pseudo-random-number generator and is
altered as a side effect of calls to `random'.
- - Variable: *random-state*
+ -- Variable: *random-state* |
Holds a data structure that encodes the internal state of the
random-number generator that `random' uses by default. The nature
of this data structure is implementation-dependent. It may be
@@ -5565,13 +6120,13 @@ Exact Random Numbers |
function correctly as a random-number state object in another
implementation.
- - Function: copy-random-state state
+ -- Function: copy-random-state state |
Returns a new copy of argument STATE.
- - Function: copy-random-state
+ -- Function: copy-random-state |
Returns a new copy of `*random-state*'.
- - Function: seed->random-state seed
+ -- Function: seed->random-state seed |
Returns a new object of type suitable for use as the value of the
variable `*random-state*' or as a second argument to `random'.
The number or string SEED is used to initialize the state. If
@@ -5580,8 +6135,8 @@ Exact Random Numbers |
Calling `seed->random-state' with unequal arguments will nearly
always return unequal states.
- - Function: make-random-state
- - Function: make-random-state obj
+ -- Function: make-random-state |
+ -- Function: make-random-state obj |
Returns a new object of type suitable for use as the value of the
variable `*random-state*' or as a second argument to `random'. If
the optional argument OBJ is given, it should be a printable
@@ -5591,44 +6146,44 @@ Exact Random Numbers |

File: slib.info, Node: Inexact Random Numbers, Prev: Exact Random Numbers, Up: Random Numbers
- |
-Inexact Random Numbers |
----------------------- |
- |
-`(require 'random-inexact)' |
- - Function: random:uniform
- - Function: random:uniform state
+5.4.2 Inexact Random Numbers |
+---------------------------- |
+
+`(require 'random-inexact)'
+
+ -- Function: random:uniform |
+ -- Function: random:uniform state |
Returns an uniformly distributed inexact real random number in the
range between 0 and 1.
- - Function: random:exp
- - Function: random:exp state
+ -- Function: random:exp |
+ -- Function: random:exp state |
Returns an inexact real in an exponential distribution with mean
1. For an exponential distribution with mean U use
`(* U (random:exp))'.
- - Function: random:normal
- - Function: random:normal state
+ -- Function: random:normal |
+ -- Function: random:normal state |
Returns an inexact real in a normal distribution with mean 0 and
standard deviation 1. For a normal distribution with mean M and
standard deviation D use `(+ M (* D (random:normal)))'.
- - Procedure: random:normal-vector! vect |
- - Procedure: random:normal-vector! vect state |
+ -- Procedure: random:normal-vector! vect |
+ -- Procedure: random:normal-vector! vect state |
Fills VECT with inexact real random numbers which are independent
and standard normally distributed (i.e., with mean 0 and variance
1).
- - Procedure: random:hollow-sphere! vect |
- - Procedure: random:hollow-sphere! vect state |
+ -- Procedure: random:hollow-sphere! vect |
+ -- Procedure: random:hollow-sphere! vect state |
Fills VECT with inexact real random numbers the sum of whose
squares is equal to 1.0. Thinking of VECT as coordinates in space
of dimension n = `(vector-length VECT)', the coordinates are
uniformly distributed over the surface of the unit n-shere.
- - Procedure: random:solid-sphere! vect |
- - Procedure: random:solid-sphere! vect state |
+ -- Procedure: random:solid-sphere! vect |
+ -- Procedure: random:solid-sphere! vect state |
Fills VECT with inexact real random numbers the sum of whose
squares is less than 1.0. Thinking of VECT as coordinates in
space of dimension N = `(vector-length VECT)', the coordinates are
@@ -5638,43 +6193,41 @@ Inexact Random Numbers |

File: slib.info, Node: Fast Fourier Transform, Next: Cyclic Checksum, Prev: Random Numbers, Up: Mathematical Packages
-Fast Fourier Transform
-======================
+5.5 Fast Fourier Transform |
+========================== |
-`(require 'fft)'
+`(require 'fft)'
- - Function: fft array
+ -- Function: fft array |
ARRAY is an array of `(expt 2 n)' numbers. `fft' returns an array
of complex numbers comprising the "Discrete Fourier Transform" of
- ARRAY.
+ ARRAY.
- - Function: fft-1 array
+ -- Function: fft-1 array |
`fft-1' returns an array of complex numbers comprising the inverse
Discrete Fourier Transform of ARRAY.
`(fft-1 (fft ARRAY))' will return an array of values close to ARRAY.
(fft '#(1 0+i -1 0-i 1 0+i -1 0-i)) =>
-
+
#(0.0 0.0 0.0+628.0783185208527e-18i 0.0
0.0 0.0 8.0-628.0783185208527e-18i 0.0)
-
+
(fft-1 '#(0 0 0 0 0 0 8 0)) =>
-
+
#(1.0 -61.23031769111886e-18+1.0i -1.0 61.23031769111886e-18-1.0i
1.0 -61.23031769111886e-18+1.0i -1.0 61.23031769111886e-18-1.0i)

File: slib.info, Node: Cyclic Checksum, Next: Graphing, Prev: Fast Fourier Transform, Up: Mathematical Packages
- |
-Cyclic Checksum
-===============
-`(require 'crc)'
+5.6 Cyclic Checksum |
+=================== |
-Cyclic Redundancy Checks using Galois field GF(2) polynomial arithmetic
-are used for error detection in many data transmission and storage
-applications.
+`(require 'crc)' Cyclic Redundancy Checks using Galois field GF(2) |
+polynomial arithmetic are used for error detection in many data |
+transmission and storage applications. |
The generator polynomials for various CRC protocols are availble from
many sources. But the polynomial is just one of many parameters which
@@ -5691,9 +6244,26 @@ existing systems:
non-inverted) to the data stream.
+The performance of a particular CRC polynomial over packets of given |
+sizes varies widely. In terms of the probability of undetected errors, |
+some uses of extant CRC polynomials are suboptimal by several orders of |
+magnitude. |
+ |
+If you are considering CRC for a new application, consult the following |
+article to find the optimum CRC polynomial for your range of data |
+lengths: |
+ |
+ * Philip Koopman and Tridib Chakravarty, |
+ "Cyclic Redundancy Code (CRC) Polynomial Selection For Embedded |
+ Networks", |
+ The International Conference on Dependable Systems and Networks, |
+ DSN-2004. |
+ |
+`http://www.ece.cmu.edu/~koopman/roses/dsn04/koopman04_crc_poly_embedded.pdf' |
+ |
There is even some controversy over the polynomials themselves.
- - Constant: crc-32-polynomial
+ -- Constant: crc-32-polynomial |
For CRC-32, http://www2.sis.pitt.edu/~jkabara/tele-2100/lect08.html
gives x^32+x^26+x^23+x^16+x^12+x^11+x^10+x^8+x^7+x^5+x^4+x^2+x^1+1.
@@ -5707,9 +6277,9 @@ There is even some controversy over the polynomials themselves.
http://www.nobugconsulting.ro/crc.php give
x^32+x^26+x^23+x^22+x^16+x^12+x^11+x^10+x^8+x^7+x^5+x^4+x^2+x+1.
- SLIB `crc-32-polynomial' uses the latter definition. |
+ SLIB `crc-32-polynomial' uses the latter definition.
- - Constant: crc-ccitt-polynomial
+ -- Constant: crc-ccitt-polynomial |
http://www.math.grin.edu/~rebelsky/Courses/CS364/2000S/Outlines/outline.12.html,
http://duchon.umuc.edu/Web_Pages/duchon/99_f_cm435/ShiftRegister.htm,
http://www.cs.ncl.ac.uk/people/harry.whitfield/home.formal/CRCs.html,
@@ -5717,7 +6287,7 @@ There is even some controversy over the polynomials themselves.
http://www.gpfn.sk.ca/~rhg/csc8550s02/crc.html give CRC-CCITT:
x^16+x^12+x^5+1.
- - Constant: crc-16-polynomial
+ -- Constant: crc-16-polynomial |
http://www.math.grin.edu/~rebelsky/Courses/CS364/2000S/Outlines/outline.12.html,
http://duchon.umuc.edu/Web_Pages/duchon/99_f_cm435/ShiftRegister.htm,
http://www.cs.ncl.ac.uk/people/harry.whitfield/home.formal/CRCs.html,
@@ -5725,7 +6295,7 @@ There is even some controversy over the polynomials themselves.
http://www.usb.org/developers/data/crcdes.pdf give CRC-16:
x^16+x^15+x^2+1.
- - Constant: crc-12-polynomial
+ -- Constant: crc-12-polynomial |
http://www.math.grin.edu/~rebelsky/Courses/CS364/2000S/Outlines/outline.12.html,
http://www.cs.ncl.ac.uk/people/harry.whitfield/home.formal/CRCs.html,
http://www.it.iitb.ac.in/it605/lectures/link/node4.html, and
@@ -5742,10 +6312,11 @@ There is even some controversy over the polynomials themselves.
x^12+x^11+x^3+x^2+x+1.
These differ in bit 1 and calculations using them return different
- values. With citations near evenly split, it is hard to know |
- which is correct. |
+ values. With citations near evenly split, it is hard to know
+ which is correct. Thanks to Philip Koopman for breaking the tie |
+ in favor of the latter (#xC07). |
- - Constant: crc-10-polynomial
+ -- Constant: crc-10-polynomial |
http://www.math.grin.edu/~rebelsky/Courses/CS364/2000S/Outlines/outline.12.html
gives CRC-10: x^10+x^9+x^5+x^4+1; but
http://cell-relay.indiana.edu/cell-relay/publications/software/CRC/crc10.html,
@@ -5756,29 +6327,29 @@ There is even some controversy over the polynomials themselves.
http://www.nobugconsulting.ro/crc.php give CRC-10:
x^10+x^9+x^5+x^4+x+1.
- - Constant: crc-08-polynomial
+ -- Constant: crc-08-polynomial |
http://www.math.grin.edu/~rebelsky/Courses/CS364/2000S/Outlines/outline.12.html,
http://www.cs.ncl.ac.uk/people/harry.whitfield/home.formal/CRCs.html,
http://www.it.iitb.ac.in/it605/lectures/link/node4.html, and
http://www.nobugconsulting.ro/crc.php give CRC-8: x^8+x^2+x^1+1
- - Constant: atm-hec-polynomial
+ -- Constant: atm-hec-polynomial |
http://cell-relay.indiana.edu/cell-relay/publications/software/CRC/32bitCRC.tutorial.html
and http://www.gpfn.sk.ca/~rhg/csc8550s02/crc.html give ATM HEC:
x^8+x^2+x+1.
- - Constant: dowcrc-polynomial
+ -- Constant: dowcrc-polynomial |
http://www.cs.ncl.ac.uk/people/harry.whitfield/home.formal/CRCs.html
gives DOWCRC: x^8+x^5+x^4+1.
- - Constant: usb-token-polynomial
+ -- Constant: usb-token-polynomial |
http://www.usb.org/developers/data/crcdes.pdf and
http://www.nobugconsulting.ro/crc.php give USB-token: x^5+x^2+1.
Each of these polynomial constants is a string of `1's and `0's, the
exponent of each power of X in descending order.
- - Function: crc:make-table poly
+ -- Function: crc:make-table poly |
POLY must be string of `1's and `0's beginning with `1' and having
length greater than 8. `crc:make-table' returns a vector of 256
integers, such that:
@@ -5796,28 +6367,28 @@ exponent of each power of X in descending order.
`crc:make-table' returns #f.
- - Function: cksum file
+ -- Function: cksum file |
Computes the P1003.2/D11.2 (POSIX.2) 32-bit checksum of FILE.
(require 'crc)
(cksum (in-vicinity (library-vicinity) "ratize.scm"))
=> 157103930
- - Function: cksum port
+ -- Function: cksum port |
Computes the checksum of the bytes read from PORT until the
end-of-file.
-`cksum-string', which returns the P1003.2/D11.2 (POSIX.2) 32-bit |
-checksum of the bytes in STR, can be defined as follows: |
+`cksum-string', which returns the P1003.2/D11.2 (POSIX.2) 32-bit
+checksum of the bytes in STR, can be defined as follows:
- (require 'string-port) |
- (define (cksum-string str) (call-with-input-string str cksum)) |
+ (require 'string-port)
+ (define (cksum-string str) (call-with-input-string str cksum))
- - Function: crc16 file
+ -- Function: crc16 file |
Computes the USB data-packet (16-bit) CRC of FILE.
- - Function: crc16 port
+ -- Function: crc16 port |
Computes the USB data-packet (16-bit) CRC of the bytes read from
PORT until the end-of-file.
@@ -5825,10 +6396,10 @@ checksum of the bytes in STR, can be defined as follows: |
in http://www.usb.org/developers/data/crcdes.pdf.
- - Function: crc5 file
+ -- Function: crc5 file |
Computes the USB token (5-bit) CRC of FILE.
- - Function: crc5 port
+ -- Function: crc5 port |
Computes the USB token (5-bit) CRC of the bytes read from PORT
until the end-of-file.
@@ -5838,24 +6409,24 @@ checksum of the bytes in STR, can be defined as follows: |

File: slib.info, Node: Graphing, Next: Solid Modeling, Prev: Cyclic Checksum, Up: Mathematical Packages
- |
-Graphing |
-========
-* Menu: |
- |
-* Character Plotting:: |
-* PostScript Graphing:: |
- |
+5.7 Graphing |
+============ |
+
+* Menu:
+
+* Character Plotting::
+* PostScript Graphing::
+

File: slib.info, Node: Character Plotting, Next: PostScript Graphing, Prev: Graphing, Up: Graphing
- |
-Character Plotting |
------------------- |
- |
-`(require 'charplot)'
- - Variable: charplot:dimensions
+5.7.1 Character Plotting |
+------------------------ |
+
+`(require 'charplot)'
+
+ -- Variable: charplot:dimensions |
A list of the maximum height (number of lines) and maximum width
(number of columns) for the graph, its scales, and labels.
@@ -5863,7 +6434,7 @@ Character Plotting |
`output-port-height' and `output-port-width' of
`current-output-port'.
- - Procedure: plot coords x-label y-label
+ -- Procedure: plot coords x-label y-label |
COORDS is a list or vector of coordinates, lists of x and y
coordinates. X-LABEL and Y-LABEL are strings with which to label
the x and y axes.
@@ -5871,12 +6442,12 @@ Character Plotting |
Example:
(require 'charplot)
(set! charplot:dimensions '(20 55))
-
+
(define (make-points n)
(if (zero? n)
'()
(cons (list (/ n 6) (sin (/ n 6))) (make-points (1- n)))))
-
+
(plot (make-points 40) "x" "Sin(x)")
-|
Sin(x) _________________________________________
@@ -5900,8 +6471,8 @@ Character Plotting |
|:_____._____:_____._____:_____._____:____|
x 2 4 6
- - Procedure: plot func x1 x2
- - Procedure: plot func x1 x2 npts
+ -- Procedure: plot func x1 x2 |
+ -- Procedure: plot func x1 x2 npts |
Plots the function of one argument FUNC over the range X1 to X2.
If the optional integer argument NPTS is supplied, it specifies
the number of points to evaluate FUNC at.
@@ -5929,11 +6500,11 @@ Character Plotting |
|_:_____._____:_____._____:_____._____:___|
0 2 4 6
- - Procedure: histograph data label
+ -- Procedure: histograph data label |
Creates and displays a histogram of the numerical values contained
in vector or list DATA
- (require 'random-inexact) |
+ (require 'random-inexact)
(histograph (do ((idx 99 (+ -1 idx))
(lst '() (cons (* .02 (random:normal)) lst)))
((negative? idx) lst))
@@ -5962,452 +6533,456 @@ Character Plotting |

File: slib.info, Node: PostScript Graphing, Prev: Character Plotting, Up: Graphing
- |
-PostScript Graphing |
-------------------- |
- |
-`(require 'eps-graph)' |
- |
-This is a graphing package creating encapsulated-PostScript files. Its |
-motivations and design choice are described in |
-<http://swissnet.ai.mit.edu/~jaffer/Docupage/grapheps> |
- |
-A dataset to be plotted is taken from a 2-dimensional array. |
-Corresponding coordinates are in rows. Coordinates from any pair of |
-columns can be plotted. |
- |
- - Function: create-postscript-graph filename.eps size elt1 ... |
- FILENAME.EPS should be a string naming an output file to be |
- created. SIZE should be an exact integer, a list of two exact |
- integers, or #f. ELT1, ... are values returned by graphing |
- primitives described here. |
- |
- `create-postscript-graph' creates an "Encapsulated-PostScript" |
- file named FILENAME.EPS containing graphs as directed by the ELT1, |
- ... arguments. |
- |
- The size of the graph is determined by the SIZE argument. If a |
- list of two integers, they specify the width and height. If one |
- integer, then that integer is the width and the height is 3/4 of |
- the width. If #f, the graph will be 800 by 600. |
- |
-These graphing procedures should be called as arguments to |
-`create-postscript-graph'. The order of these arguments is |
-significant; PostScript graphics state is affected serially from the |
-first ELT argument to the last. |
- |
- - Function: whole-page |
- Pushes a rectangle for the whole encapsulated page onto the |
- PostScript stack. This pushed rectangle is an implicit argument to |
- `partition-page' or `setup-plot'. |
- |
-* Menu: |
- |
-* Column Ranges:: |
-* Drawing the Graph:: |
-* Graphics Context:: |
-* Rectangles:: |
-* Legending:: |
-* Legacy Plotting:: |
-* Example Graph:: |
- |
+
+5.7.2 PostScript Graphing |
+------------------------- |
+
+`(require 'eps-graph)'
+
+This is a graphing package creating encapsulated-PostScript files. Its
+motivations and design choice are described in
+`http://swiss.csail.mit.edu/~jaffer/Docupage/grapheps' |
+
+A dataset to be plotted is taken from a 2-dimensional array.
+Corresponding coordinates are in rows. Coordinates from any pair of
+columns can be plotted.
+
+ -- Function: create-postscript-graph filename.eps size elt1 ... |
+ FILENAME.EPS should be a string naming an output file to be
+ created. SIZE should be an exact integer, a list of two exact
+ integers, or #f. ELT1, ... are values returned by graphing
+ primitives described here.
+
+ `create-postscript-graph' creates an "Encapsulated-PostScript"
+ file named FILENAME.EPS containing graphs as directed by the ELT1,
+ ... arguments.
+
+ The size of the graph is determined by the SIZE argument. If a
+ list of two integers, they specify the width and height. If one
+ integer, then that integer is the width and the height is 3/4 of
+ the width. If #f, the graph will be 800 by 600.
+
+These graphing procedures should be called as arguments to
+`create-postscript-graph'. The order of these arguments is
+significant; PostScript graphics state is affected serially from the
+first ELT argument to the last.
+
+ -- Function: whole-page |
+ Pushes a rectangle for the whole encapsulated page onto the
+ PostScript stack. This pushed rectangle is an implicit argument to
+ `partition-page' or `setup-plot'.
+
+* Menu:
+
+* Column Ranges::
+* Drawing the Graph::
+* Graphics Context::
+* Rectangles::
+* Legending::
+* Legacy Plotting::
+* Example Graph::
+

File: slib.info, Node: Column Ranges, Next: Drawing the Graph, Prev: PostScript Graphing, Up: PostScript Graphing
- |
-Column Ranges |
-............. |
- |
-A "range" is a list of two numbers, the minimum and the maximum. |
-Ranges can be given explicity or computed in PostScript by |
-`column-range'. |
- |
- - Function: column-range array k |
- Returns the range of values in 2-dimensional ARRAY column K. |
- |
- - Function: pad-range range p |
- Expands RANGE by P/100 on each end. |
- |
- - Function: snap-range range |
- Expands RANGE to round number of ticks. |
- |
- - Function: combine-ranges range1 range2 ... |
- Returns the minimal range covering all RANGE1, RANGE2, ... |
- |
- - Function: setup-plot x-range y-range pagerect |
- - Function: setup-plot x-range y-range |
- X-RANGE and Y-RANGE should each be a list of two numbers or the |
- value returned by `pad-range', `snap-range', or `combine-range'. |
- PAGERECT is the rectangle bounding the graph to be drawn; if |
- missing, the rectangle from the top of the PostScript stack is |
- popped and used. |
- |
- Based on the given ranges, `setup-plot' sets up scaling and |
- margins for making a graph. The margins are sized proportional to |
- the FONTHEIGHT value at the time of the call to setup-plot. |
- `setup-plot' sets two variables: |
- |
- PLOTRECT |
- The region where data points will be plotted. |
- |
- GRAPHRECT |
- The PAGERECT argument to `setup-plot'. Includes plotrect, |
- legends, etc. |
- |
+
+5.7.2.1 Column Ranges |
+..................... |
+
+A "range" is a list of two numbers, the minimum and the maximum. Ranges |
+can be given explicity or computed in PostScript by `column-range'. |
+
+ -- Function: column-range array k |
+ Returns the range of values in 2-dimensional ARRAY column K.
+
+ -- Function: pad-range range p |
+ Expands RANGE by P/100 on each end.
+
+ -- Function: snap-range range |
+ Expands RANGE to round number of ticks.
+
+ -- Function: combine-ranges range1 range2 ... |
+ Returns the minimal range covering all RANGE1, RANGE2, ...
+
+ -- Function: setup-plot x-range y-range pagerect |
+ -- Function: setup-plot x-range y-range |
+ X-RANGE and Y-RANGE should each be a list of two numbers or the
+ value returned by `pad-range', `snap-range', or `combine-range'.
+ PAGERECT is the rectangle bounding the graph to be drawn; if
+ missing, the rectangle from the top of the PostScript stack is
+ popped and used.
+
+ Based on the given ranges, `setup-plot' sets up scaling and
+ margins for making a graph. The margins are sized proportional to
+ the FONTHEIGHT value at the time of the call to setup-plot.
+ `setup-plot' sets two variables:
+
+ PLOTRECT
+ The region where data points will be plotted.
+
+ GRAPHRECT
+ The PAGERECT argument to `setup-plot'. Includes plotrect,
+ legends, etc.
+

File: slib.info, Node: Drawing the Graph, Next: Graphics Context, Prev: Column Ranges, Up: PostScript Graphing
- |
-Drawing the Graph |
-................. |
- |
- - Function: plot-column array x-column y-column proc3s |
- Plots points with x coordinate in X-COLUMN of ARRAY and y |
- coordinate Y-COLUMN of ARRAY. The symbol PROC3S specifies the |
- type of glyph or drawing style for presenting these coordinates. |
- |
-The glyphs and drawing styles available are: |
- |
-`line' |
- Draws line connecting points in order. |
- |
-`mountain' |
- Fill area below line connecting points. |
- |
-`cloud' |
- Fill area above line connecting points. |
- |
-`impulse' |
- Draw line from x-axis to each point. |
- |
-`bargraph' |
- Draw rectangle from x-axis to each point. |
- |
-`disc' |
- Solid round dot. |
- |
-`point' |
- Minimal point - invisible if linewidth is 0. |
- |
-`square' |
- Square box. |
- |
-`diamond' |
- Square box at 45.o |
- |
-`plus' |
- Plus sign. |
- |
-`cross' |
- X sign. |
- |
-`triup' |
- Triangle pointing upward |
- |
-`tridown' |
- Triangle pointing downward |
- |
-`pentagon' |
- Five sided polygon |
- |
-`circle' |
- Hollow circle |
- |
+
+5.7.2.2 Drawing the Graph |
+......................... |
+
+ -- Function: plot-column array x-column y-column proc3s |
+ Plots points with x coordinate in X-COLUMN of ARRAY and y
+ coordinate Y-COLUMN of ARRAY. The symbol PROC3S specifies the
+ type of glyph or drawing style for presenting these coordinates.
+
+The glyphs and drawing styles available are:
+
+`line'
+ Draws line connecting points in order.
+
+`mountain'
+ Fill area below line connecting points.
+
+`cloud'
+ Fill area above line connecting points.
+
+`impulse'
+ Draw line from x-axis to each point.
+
+`bargraph'
+ Draw rectangle from x-axis to each point.
+
+`disc'
+ Solid round dot.
+
+`point'
+ Minimal point - invisible if linewidth is 0.
+
+`square'
+ Square box.
+
+`diamond'
+ Square box at 45.o
+
+`plus'
+ Plus sign.
+
+`cross'
+ X sign.
+
+`triup'
+ Triangle pointing upward
+
+`tridown'
+ Triangle pointing downward
+
+`pentagon'
+ Five sided polygon
+
+`circle'
+ Hollow circle
+

File: slib.info, Node: Graphics Context, Next: Rectangles, Prev: Drawing the Graph, Up: PostScript Graphing
- |
-Graphics Context |
-................ |
- |
- - Function: in-graphic-context arg ... |
- Saves the current graphics state, executes ARGS, then restores to |
- saved graphics state. |
- |
- - Function: set-color color |
- COLOR should be a string naming a Resene color, a saturate color, |
- or a number between 0 and 100. |
- |
- `set-color' sets the PostScript color to the color of the given |
- string, or a grey value between black (0) and white (100). |
- |
- - Function: set-font name fontheight |
- NAME should be a (case-sensitive) string naming a PostScript font. |
- FONTHEIGHT should be a positive real number. |
- |
- `set-font' Changes the current PostScript font to NAME with height |
- equal to FONTHEIGHT. The default font is Helvetica (12pt). |
- |
-The base set of PostScript fonts is: |
- |
-Times Times-Italic Times-Bold Times-BoldItalic |
-Helvetica Helvetica-Oblique Helvetica-Bold Helvetica-BoldOblique |
-Courier Courier-Oblique Courier-Bold Courier-BoldOblique |
-Symbol |
- |
-Line parameters do no affect fonts; they do effect glyphs. |
- |
- - Function: set-linewidth w |
- The default linewidth is 1. Setting it to 0 makes the lines drawn |
- as skinny as possible. Linewidth must be much smaller than |
- glyphsize for readable glyphs. |
- |
- - Function: set-linedash j k |
- Lines are drawn J-on K-off. |
- |
- - Function: set-linedash j |
- Lines are drawn J-on J-off. |
- |
- - Function: set-linedash |
- Turns off dashing. |
- |
- - Function: set-glyphsize w |
- Sets the (PostScript) variable glyphsize to W. The default |
- glyphsize is 6. |
- |
-The effects of `clip-to-rect' are also part of the graphic context. |
- |
+
+5.7.2.3 Graphics Context |
+........................ |
+
+ -- Function: in-graphic-context arg ... |
+ Saves the current graphics state, executes ARGS, then restores to
+ saved graphics state.
+
+ -- Function: set-color color |
+ COLOR should be a string naming a Resene color, a saturate color,
+ or a number between 0 and 100.
+
+ `set-color' sets the PostScript color to the color of the given
+ string, or a grey value between black (0) and white (100).
+
+ -- Function: set-font name fontheight |
+ NAME should be a (case-sensitive) string naming a PostScript font.
+ FONTHEIGHT should be a positive real number.
+
+ `set-font' Changes the current PostScript font to NAME with height
+ equal to FONTHEIGHT. The default font is Helvetica (12pt).
+
+The base set of PostScript fonts is:
+
+Times Times-Italic Times-Bold Times-BoldItalic
+Helvetica Helvetica-Oblique Helvetica-Bold Helvetica-BoldOblique
+Courier Courier-Oblique Courier-Bold Courier-BoldOblique
+Symbol
+
+Line parameters do no affect fonts; they do effect glyphs.
+
+ -- Function: set-linewidth w |
+ The default linewidth is 1. Setting it to 0 makes the lines drawn
+ as skinny as possible. Linewidth must be much smaller than
+ glyphsize for readable glyphs.
+
+ -- Function: set-linedash j k |
+ Lines are drawn J-on K-off.
+
+ -- Function: set-linedash j |
+ Lines are drawn J-on J-off.
+
+ -- Function: set-linedash |
+ Turns off dashing.
+
+ -- Function: set-glyphsize w |
+ Sets the (PostScript) variable glyphsize to W. The default
+ glyphsize is 6.
+
+The effects of `clip-to-rect' are also part of the graphic context.
+

File: slib.info, Node: Rectangles, Next: Legending, Prev: Graphics Context, Up: PostScript Graphing
- |
-Rectangles |
-.......... |
- |
-A "rectangle" is a list of 4 numbers; the first two elements are the x |
-and y coordinates of lower left corner of the rectangle. The other two |
-elements are the width and height of the rectangle. |
- |
- - Function: whole-page |
- Pushes a rectangle for the whole encapsulated page onto the |
- PostScript stack. This pushed rectangle is an implicit argument to |
- `partition-page' or `setup-plot'. |
- |
- - Function: partition-page xparts yparts |
- Pops the rectangle currently on top of the stack and pushes XPARTS |
- * YPARTS sub-rectangles onto the stack in decreasing y and |
- increasing x order. If you are drawing just one graph, then you |
- don't need `partition-page'. |
- |
- - Variable: plotrect |
- The rectangle where data points should be plotted. PLOTRECT is |
- set by `setup-plot'. |
- |
- - Variable: graphrect |
- The PAGERECT argument of the most recent call to `setup-plot'. |
- Includes plotrect, legends, etc. |
- |
- - Function: fill-rect rect |
- fills RECT with the current color. |
- |
- - Function: outline-rect rect |
- Draws the perimiter of RECT in the current color. |
- |
- - Function: clip-to-rect rect |
- Modifies the current graphics-state so that nothing will be drawn |
- outside of the rectangle RECT. Use `in-graphic-context' to limit |
- the extent of `clip-to-rect'. |
- |
+
+5.7.2.4 Rectangles |
+.................. |
+
+A "rectangle" is a list of 4 numbers; the first two elements are the x
+and y coordinates of lower left corner of the rectangle. The other two
+elements are the width and height of the rectangle.
+
+ -- Function: whole-page |
+ Pushes a rectangle for the whole encapsulated page onto the
+ PostScript stack. This pushed rectangle is an implicit argument to
+ `partition-page' or `setup-plot'.
+
+ -- Function: partition-page xparts yparts |
+ Pops the rectangle currently on top of the stack and pushes XPARTS
+ * YPARTS sub-rectangles onto the stack in decreasing y and
+ increasing x order. If you are drawing just one graph, then you
+ don't need `partition-page'.
+
+ -- Variable: plotrect |
+ The rectangle where data points should be plotted. PLOTRECT is
+ set by `setup-plot'.
+
+ -- Variable: graphrect |
+ The PAGERECT argument of the most recent call to `setup-plot'.
+ Includes plotrect, legends, etc.
+
+ -- Function: fill-rect rect |
+ fills RECT with the current color.
+
+ -- Function: outline-rect rect |
+ Draws the perimiter of RECT in the current color.
+
+ -- Function: clip-to-rect rect |
+ Modifies the current graphics-state so that nothing will be drawn
+ outside of the rectangle RECT. Use `in-graphic-context' to limit
+ the extent of `clip-to-rect'.
+

File: slib.info, Node: Legending, Next: Legacy Plotting, Prev: Rectangles, Up: PostScript Graphing
- |
-Legending |
-......... |
- |
- - Function: title-top title subtitle |
- - Function: title-top title |
- Puts a TITLE line and an optional SUBTITLE line above the |
- `graphrect'. |
- |
- - Function: title-bottom title subtitle |
- - Function: title-bottom title |
- Puts a TITLE line and an optional SUBTITLE line below the |
- `graphrect'. |
- |
- - Variable: topedge |
- - Variable: bottomedge |
- These edge coordinates of `graphrect' are suitable for passing as |
- the first argument to `rule-horizontal'. |
- |
- - Variable: leftedge |
- - Variable: rightedge |
- These edge coordinates of `graphrect' are suitable for passing as |
- the first argument to `rule-vertical'. |
- |
- - Function: rule-vertical x-coord text tick-width |
- Draws a vertical ruler with X coordinate X-COORD and labeled with |
- string TEXT. If TICK-WIDTH is positive, then the ticks are |
- TICK-WIDTH long on the right side of X-COORD; and TEXT and numeric |
- legends are on the left. If TICK-WIDTH is negative, then the |
- ticks are -TICK-WIDTH long on the left side of X-COORD; and TEXT |
- and numeric legends are on the right. |
- |
- - Function: rule-horizontal x-coord text tick-height |
- Draws a horizontal ruler with X coordinate X-COORD and labeled with |
- string TEXT. If TICK-HEIGHT is positive, then the ticks are |
- TICK-HEIGHT long on the right side of X-COORD; and TEXT and |
- numeric legends are on the left. If TICK-HEIGHT is negative, then |
- the ticks are -TICK-HEIGHT long on the left side of X-COORD; and |
- TEXT and numeric legends are on the right. |
- |
- - Function: y-axis |
- Draws the y-axis. |
- |
- - Function: x-axis |
- Draws the x-axis. |
- |
- - Function: grid-verticals |
- Draws vertical lines through `graphrect' at each tick on the |
- vertical ruler. |
- |
- - Function: grid-horizontals |
- Draws horizontal lines through `graphrect' at each tick on the |
- horizontal ruler. |
- |
+
+5.7.2.5 Legending |
+................. |
+
+ -- Function: title-top title subtitle |
+ -- Function: title-top title |
+ Puts a TITLE line and an optional SUBTITLE line above the
+ `graphrect'.
+
+ -- Function: title-bottom title subtitle |
+ -- Function: title-bottom title |
+ Puts a TITLE line and an optional SUBTITLE line below the
+ `graphrect'.
+
+ -- Variable: topedge |
+ -- Variable: bottomedge |
+ These edge coordinates of `graphrect' are suitable for passing as
+ the first argument to `rule-horizontal'.
+
+ -- Variable: leftedge |
+ -- Variable: rightedge |
+ These edge coordinates of `graphrect' are suitable for passing as
+ the first argument to `rule-vertical'.
+
+ -- Function: set-margin-templates left right |
+ The margin-templates are strings whose displayed width is used to |
+ reserve space for the left and right side numerical legends. The |
+ default values are "-.0123456789". |
+ |
+ -- Function: rule-vertical x-coord text tick-width |
+ Draws a vertical ruler with X coordinate X-COORD and labeled with
+ string TEXT. If TICK-WIDTH is positive, then the ticks are
+ TICK-WIDTH long on the right side of X-COORD; and TEXT and numeric
+ legends are on the left. If TICK-WIDTH is negative, then the
+ ticks are -TICK-WIDTH long on the left side of X-COORD; and TEXT
+ and numeric legends are on the right.
+
+ -- Function: rule-horizontal x-coord text tick-height |
+ Draws a horizontal ruler with X coordinate X-COORD and labeled with
+ string TEXT. If TICK-HEIGHT is positive, then the ticks are
+ TICK-HEIGHT long on the right side of X-COORD; and TEXT and
+ numeric legends are on the left. If TICK-HEIGHT is negative, then
+ the ticks are -TICK-HEIGHT long on the left side of X-COORD; and
+ TEXT and numeric legends are on the right.
+
+ -- Function: y-axis |
+ Draws the y-axis.
+
+ -- Function: x-axis |
+ Draws the x-axis.
+
+ -- Function: grid-verticals |
+ Draws vertical lines through `graphrect' at each tick on the
+ vertical ruler.
+
+ -- Function: grid-horizontals |
+ Draws horizontal lines through `graphrect' at each tick on the
+ horizontal ruler.
+

File: slib.info, Node: Legacy Plotting, Next: Example Graph, Prev: Legending, Up: PostScript Graphing
- |
-Legacy Plotting |
-............... |
- |
- - Variable: graph:dimensions |
- A list of the width and height of the graph to be plotted using |
- `plot'. |
- |
- - Function: plot func x1 x2 npts |
- - Function: plot func x1 x2 |
- Creates and displays using `(system "gv tmp.eps")' an encapsulated |
- PostScript graph of the function of one argument FUNC over the |
- range X1 to X2. If the optional integer argument NPTS is |
- supplied, it specifies the number of points to evaluate FUNC at. |
- |
- - Function: plot coords x-label y-label |
- COORDS is a list or vector of coordinates, lists of x and y |
- coordinates. X-LABEL and Y-LABEL are strings with which to label |
- the x and y axes. |
- |
+
+5.7.2.6 Legacy Plotting |
+....................... |
+
+ -- Variable: graph:dimensions |
+ A list of the width and height of the graph to be plotted using
+ `plot'.
+
+ -- Function: plot func x1 x2 npts |
+ -- Function: plot func x1 x2 |
+ Creates and displays using `(system "gv tmp.eps")' an encapsulated
+ PostScript graph of the function of one argument FUNC over the
+ range X1 to X2. If the optional integer argument NPTS is
+ supplied, it specifies the number of points to evaluate FUNC at.
+
+ -- Function: plot coords x-label y-label |
+ COORDS is a list or vector of coordinates, lists of x and y
+ coordinates. X-LABEL and Y-LABEL are strings with which to label
+ the x and y axes.
+

File: slib.info, Node: Example Graph, Prev: Legacy Plotting, Up: PostScript Graphing
- |
-Example Graph |
-............. |
- |
-The file `am1.5.html', a table of solar irradiance, is fetched with |
-`wget' if it isn't already in the working directory. The file is read |
-and stored into an array, IRRADIANCE. |
- |
- `create-postscript-graph' is then called to create an |
-encapsulated-PostScript file, `solarad.eps'. The size of the page is |
-set to 600 by 300. `whole-page' is called and leaves the rectangle on |
-the PostScript stack. `setup-plot' is called with a literal range for |
-x and computes the range for column 1. |
- |
- Two calls to `top-title' are made so a different font can be used for |
-the lower half. `in-graphic-context' is used to limit the scope of the |
-font change. The graphing area is outlined and a rule drawn on the |
-left side. |
- |
- Because the X range was intentionally reduced, `in-graphic-context' |
-is called and `clip-to-rect' limits drawing to the plotting area. A |
-black line is drawn from data column 1. That line is then overlayed |
-with a mountain plot of the same column colored "Bright Sun". |
- |
- After returning from the `in-graphic-context', the bottom ruler is |
-drawn. Had it been drawn earlier, all its ticks would have been |
-painted over by the mountain plot. |
- |
- The color is then changed to `seagreen' and the same graphrect is |
-setup again, this time with a different Y scale, 0 to 1000. The |
-graphic context is again clipped to PLOTRECT, linedash is set, and |
-column 2 is plotted as a dashed line. Finally the rightedge is ruled. |
-Having the line and its scale both in green helps disambiguate the |
-scales. |
- |
- (require 'eps-graph) |
- (require 'line-i/o) |
- (require 'string-port) |
- |
- (define irradiance |
- (let ((url "http://www.pv.unsw.edu.au/am1.5.html") |
- (file "am1.5.html")) |
- (define (read->list line) |
- (define elts '()) |
- (call-with-input-string line |
- (lambda (iprt) (do ((elt (read iprt) (read iprt))) |
- ((eof-object? elt) elts) |
- (set! elts (cons elt elts)))))) |
- (if (not (file-exists? file)) |
- (system (string-append "wget -c -O" file " " url))) |
- (call-with-input-file file |
- (lambda (iprt) |
- (define lines '()) |
- (do ((line (read-line iprt) (read-line iprt))) |
- ((eof-object? line) |
- (let ((nra (create-array (Ar64) |
- (length lines) |
- (length (car lines))))) |
- (do ((lns lines (cdr lns)) |
- (idx (+ -1 (length lines)) (+ -1 idx))) |
- ((null? lns) nra) |
- (do ((kdx (+ -1 (length (car lines))) (+ -1 kdx)) |
- (lst (car lns) (cdr lst))) |
- ((null? lst)) |
- (array-set! nra (car lst) idx kdx))))) |
- (if (and (positive? (string-length line)) |
- (char-numeric? (string-ref line 0))) |
- (set! lines (cons (read->list line) lines)))))))) |
- |
- (let ((xrange '(.25 2.5))) |
- (create-postscript-graph |
- "solarad.eps" '(600 300) |
- (whole-page) |
- (setup-plot xrange (column-range irradiance 1)) |
- (title-top |
- "Solar Irradiance http://www.pv.unsw.edu.au/am1.5.html") |
- (in-graphic-context |
- (set-font "Helvetica-Oblique" 12) |
- (title-top |
- "" |
+
+5.7.2.7 Example Graph |
+..................... |
+
+The file `am1.5.html', a table of solar irradiance, is fetched with
+`wget' if it isn't already in the working directory. The file is read
+and stored into an array, IRRADIANCE.
+
+ `create-postscript-graph' is then called to create an
+encapsulated-PostScript file, `solarad.eps'. The size of the page is
+set to 600 by 300. `whole-page' is called and leaves the rectangle on
+the PostScript stack. `setup-plot' is called with a literal range for
+x and computes the range for column 1.
+
+ Two calls to `top-title' are made so a different font can be used for
+the lower half. `in-graphic-context' is used to limit the scope of the
+font change. The graphing area is outlined and a rule drawn on the
+left side.
+
+ Because the X range was intentionally reduced, `in-graphic-context'
+is called and `clip-to-rect' limits drawing to the plotting area. A
+black line is drawn from data column 1. That line is then overlayed
+with a mountain plot of the same column colored "Bright Sun".
+
+ After returning from the `in-graphic-context', the bottom ruler is
+drawn. Had it been drawn earlier, all its ticks would have been
+painted over by the mountain plot.
+
+ The color is then changed to `seagreen' and the same graphrect is
+setup again, this time with a different Y scale, 0 to 1000. The
+graphic context is again clipped to PLOTRECT, linedash is set, and
+column 2 is plotted as a dashed line. Finally the rightedge is ruled.
+Having the line and its scale both in green helps disambiguate the
+scales.
+
+ (require 'eps-graph)
+ (require 'line-i/o)
+ (require 'string-port)
+
+ (define irradiance
+ (let ((url "http://www.pv.unsw.edu.au/am1.5.html")
+ (file "am1.5.html"))
+ (define (read->list line)
+ (define elts '())
+ (call-with-input-string line
+ (lambda (iprt) (do ((elt (read iprt) (read iprt)))
+ ((eof-object? elt) elts)
+ (set! elts (cons elt elts))))))
+ (if (not (file-exists? file))
+ (system (string-append "wget -c -O" file " " url)))
+ (call-with-input-file file
+ (lambda (iprt)
+ (define lines '())
+ (do ((line (read-line iprt) (read-line iprt)))
+ ((eof-object? line)
+ (let ((nra (make-array (A:floR64b) |
+ (length lines)
+ (length (car lines)))))
+ (do ((lns lines (cdr lns))
+ (idx (+ -1 (length lines)) (+ -1 idx)))
+ ((null? lns) nra)
+ (do ((kdx (+ -1 (length (car lines))) (+ -1 kdx))
+ (lst (car lns) (cdr lst)))
+ ((null? lst))
+ (array-set! nra (car lst) idx kdx)))))
+ (if (and (positive? (string-length line))
+ (char-numeric? (string-ref line 0)))
+ (set! lines (cons (read->list line) lines))))))))
+
+ (let ((xrange '(.25 2.5)))
+ (create-postscript-graph
+ "solarad.eps" '(600 300)
+ (whole-page)
+ (setup-plot xrange (column-range irradiance 1))
+ (title-top
+ "Solar Irradiance http://www.pv.unsw.edu.au/am1.5.html")
+ (in-graphic-context
+ (set-font "Helvetica-Oblique" 12)
+ (title-top
+ ""
"Key Centre for Photovoltaic Engineering UNSW - Air Mass 1.5 Global Spectrum"))
- (outline-rect plotrect) |
- (rule-vertical leftedge "W/(m^2.um)" 10) |
- (in-graphic-context (clip-to-rect plotrect) |
- (plot-column irradiance 0 1 'line) |
- (set-color "Bright Sun") |
- (plot-column irradiance 0 1 'mountain) |
- ) |
- (rule-horizontal bottomedge "Wavelength in .um" 5) |
- (set-color 'seagreen) |
- |
- (setup-plot xrange '(0 1000) graphrect) |
- (in-graphic-context (clip-to-rect plotrect) |
- (set-linedash 5 2) |
- (plot-column irradiance 0 2 'line)) |
- (rule-vertical rightedge "Integrated .W/(m^2)" -10) |
- )) |
- |
- (system "gv solarad.eps") |
- |
+ (outline-rect plotrect)
+ (rule-vertical leftedge "W/(m^2.um)" 10)
+ (in-graphic-context (clip-to-rect plotrect)
+ (plot-column irradiance 0 1 'line)
+ (set-color "Bright Sun")
+ (plot-column irradiance 0 1 'mountain)
+ )
+ (rule-horizontal bottomedge "Wavelength in .um" 5)
+ (set-color 'seagreen)
+
+ (setup-plot xrange '(0 1000) graphrect)
+ (in-graphic-context (clip-to-rect plotrect)
+ (set-linedash 5 2)
+ (plot-column irradiance 0 2 'line))
+ (rule-vertical rightedge "Integrated .W/(m^2)" -10)
+ ))
+
+ (system "gv solarad.eps")
+

File: slib.info, Node: Solid Modeling, Next: Color, Prev: Graphing, Up: Mathematical Packages
- |
-Solid Modeling
-==============
-`(require 'solid)'
+5.8 Solid Modeling |
+================== |
-`http://swissnet.ai.mit.edu/~jaffer/Solid/#Example' gives an example
+`(require 'solid)'
+
+`http://swiss.csail.mit.edu/~jaffer/Solid/#Example' gives an example |
use of this package.
- - Function: vrml node ...
+ -- Function: vrml node ... |
Returns the VRML97 string (including header) of the concatenation
of strings NODES, ....
- - Function: vrml-append node1 node2 ...
+ -- Function: vrml-append node1 node2 ... |
Returns the concatenation with interdigitated newlines of strings
NODE1, NODE2, ....
- - Function: vrml-to-file file node ...
+ -- Function: vrml-to-file file node ... |
Writes to file named FILE the VRML97 string (including header) of
the concatenation of strings NODES, ....
- - Function: world:info title info ...
+ -- Function: world:info title info ... |
Returns a VRML97 string setting the title of the file in which it
appears to TITLE. Additional strings INFO, ... are comments.
@@ -6416,11 +6991,11 @@ appear in the resulting VRML code. This string turns off the headlight
at the viewpoint:
" NavigationInfo {headlight FALSE}"
- - Function: scene:panorama front right back left top bottom
+ -- Function: scene:panorama front right back left top bottom |
Specifies the distant images on the inside faces of the cube
enclosing the virtual world.
- - Function: scene:sphere colors angles
+ -- Function: scene:sphere colors angles |
COLORS is a list of color objects. Each may be of type *Note
color: Color Data-Type, a 24-bit sRGB integer, or a list of 3
numbers between 0.0 and 1.0.
@@ -6431,16 +7006,16 @@ at the viewpoint:
are taken from the colors paired with the angles nearest them.
`scene:sphere' fills horizontal bands with interpolated colors on
- the backgroud sphere encasing the world.
+ the background sphere encasing the world. |
- - Function: scene:sky-and-dirt
- Returns a blue and brown backgroud sphere encasing the world.
+ -- Function: scene:sky-and-dirt |
+ Returns a blue and brown background sphere encasing the world. |
- - Function: scene:sky-and-grass
- Returns a blue and green backgroud sphere encasing the world.
+ -- Function: scene:sky-and-grass |
+ Returns a blue and green background sphere encasing the world. |
- - Function: scene:sun latitude julian-day hour turbidity strength
- - Function: scene:sun latitude julian-day hour turbidity
+ -- Function: scene:sun latitude julian-day hour turbidity strength |
+ -- Function: scene:sun latitude julian-day hour turbidity |
LATITUDE is the virtual place's latitude in degrees. JULIAN-DAY
is an integer from 0 to 366, the day of the year. HOUR is a real
number from 0 to 24 for the time of day; 12 is noon. TURBIDITY is
@@ -6450,8 +7025,8 @@ at the viewpoint:
would be at HOUR on JULIAN-DAY at LATITUDE. If STRENGTH is
positive, included is a light source of STRENGTH (default 1).
- - Function: scene:overcast latitude julian-day hour turbidity strength
- - Function: scene:overcast latitude julian-day hour turbidity
+ -- Function: scene:overcast latitude julian-day hour turbidity strength |
+ -- Function: scene:overcast latitude julian-day hour turbidity |
LATITUDE is the virtual place's latitude in degrees. JULIAN-DAY
is an integer from 0 to 366, the day of the year. HOUR is a real
number from 0 to 24 for the time of day; 12 is noon. TURBIDITY is
@@ -6464,14 +7039,14 @@ at the viewpoint:
Viewpoints are objects in the virtual world, and can be transformed
individually or with solid objects.
- - Function: scene:viewpoint name distance compass pitch
- - Function: scene:viewpoint name distance compass
+ -- Function: scene:viewpoint name distance compass pitch |
+ -- Function: scene:viewpoint name distance compass |
Returns a viewpoint named NAME facing the origin and placed
DISTANCE from it. COMPASS is a number from 0 to 360 giving the
compass heading. PITCH is a number from -90 to 90, defaulting to
0, specifying the angle from the horizontal.
- - Function: scene:viewpoints proximity
+ -- Function: scene:viewpoints proximity |
Returns 6 viewpoints, one at the center of each face of a cube
with sides 2 * PROXIMITY, centered on the origin.
@@ -6493,8 +7068,8 @@ It is sometimes useful for light sources to be brighter than `1'. When
INTENSITY arguments are greater than 1, these functions gang multiple
sources to reach the desired strength.
- - Function: light:ambient color intensity
- - Function: light:ambient color
+ -- Function: light:ambient color intensity |
+ -- Function: light:ambient color |
Ambient light shines on all surfaces with which it is grouped.
COLOR is a an object of type *Note color: Color Data-Type, a
@@ -6505,9 +7080,9 @@ sources to reach the desired strength.
`light:ambient' returns a light source or sources of COLOR with
total strength of INTENSITY (or 1 if omitted).
- - Function: light:directional color direction intensity
- - Function: light:directional color direction
- - Function: light:directional color
+ -- Function: light:directional color direction intensity |
+ -- Function: light:directional color direction |
+ -- Function: light:directional color |
Directional light shines parallel rays with uniform intensity on
all objects with which it is grouped.
@@ -6527,10 +7102,10 @@ sources to reach the desired strength.
`light:directional' returns a light source or sources of COLOR
with total strength of INTENSITY, shining from DIRECTION.
- - Function: light:beam attenuation radius aperture peak
- - Function: light:beam attenuation radius aperture
- - Function: light:beam attenuation radius
- - Function: light:beam attenuation
+ -- Function: light:beam attenuation radius aperture peak |
+ -- Function: light:beam attenuation radius aperture |
+ -- Function: light:beam attenuation radius |
+ -- Function: light:beam attenuation |
ATTENUATION is a list or vector of three nonnegative real numbers
specifying the reduction of intensity, the reduction of intensity
with distance, and the reduction of intensity as the square of
@@ -6541,10 +7116,10 @@ sources to reach the desired strength.
the light's axis through which it sheds some light. PEAK is a
real number between 0 and 90, the angle of greatest illumination.
- - Function: light:point location color intensity beam
- - Function: light:point location color intensity
- - Function: light:point location color
- - Function: light:point location
+ -- Function: light:point location color intensity beam |
+ -- Function: light:point location color intensity |
+ -- Function: light:point location color |
+ -- Function: light:point location |
Point light radiates from LOCATION, intensity decreasing with
distance, towards all objects with which it is grouped.
@@ -6559,11 +7134,11 @@ sources to reach the desired strength.
that the pointlight itself is not visible. To make it so, place
an object with emissive appearance at LOCATION.
- - Function: light:spot location direction color intensity beam
- - Function: light:spot location direction color intensity
- - Function: light:spot location direction color
- - Function: light:spot location direction
- - Function: light:spot location
+ -- Function: light:spot location direction color intensity beam |
+ -- Function: light:spot location direction color intensity |
+ -- Function: light:spot location direction color |
+ -- Function: light:spot location direction |
+ -- Function: light:spot location |
Spot light radiates from LOCATION towards DIRECTION, intensity
decreasing with distance, illuminating objects with which it is
grouped.
@@ -6589,8 +7164,8 @@ sources to reach the desired strength.
Object Primitives
-----------------
- - Function: solid:box geometry appearance
- - Function: solid:box geometry
+ -- Function: solid:box geometry appearance |
+ -- Function: solid:box geometry |
GEOMETRY must be a number or a list or vector of three numbers.
If GEOMETRY is a number, the `solid:box' returns a cube with sides
of length GEOMETRY centered on the origin. Otherwise, `solid:box'
@@ -6598,40 +7173,41 @@ Object Primitives
origin. APPEARANCE determines the surface properties of the
returned object.
- - Function: solid:cylinder radius height appearance
- - Function: solid:cylinder radius height
- Returns a right cylinder with dimensions RADIUS and `(abs HEIGHT)'
- centered on the origin. If HEIGHT is positive, then the cylinder
- ends will be capped. APPEARANCE determines the surface properties
- of the returned object.
+ -- Function: solid:cylinder radius height appearance |
+ -- Function: solid:cylinder radius height |
+ Returns a right cylinder with dimensions `(abs RADIUS)' and `(abs |
+ HEIGHT)' centered on the origin. If HEIGHT is positive, then the |
+ cylinder ends will be capped. If RADIUS is negative, then only |
+ the ends will appear. APPEARANCE determines the surface |
+ properties of the returned object. |
- - Function: solid:disk radius thickness appearance
- - Function: solid:disk radius thickness
+ -- Function: solid:disk radius thickness appearance |
+ -- Function: solid:disk radius thickness |
THICKNESS must be a positive real number. `solid:disk' returns a
circular disk with dimensions RADIUS and THICKNESS centered on the
origin. APPEARANCE determines the surface properties of the
returned object.
- - Function: solid:cone radius height appearance
- - Function: solid:cone radius height
+ -- Function: solid:cone radius height appearance |
+ -- Function: solid:cone radius height |
Returns an isosceles cone with dimensions RADIUS and HEIGHT
centered on the origin. APPEARANCE determines the surface
properties of the returned object.
- - Function: solid:pyramid side height appearance
- - Function: solid:pyramid side height
+ -- Function: solid:pyramid side height appearance |
+ -- Function: solid:pyramid side height |
Returns an isosceles pyramid with dimensions SIDE and HEIGHT
centered on the origin. APPEARANCE determines the surface
properties of the returned object.
- - Function: solid:sphere radius appearance
- - Function: solid:sphere radius
+ -- Function: solid:sphere radius appearance |
+ -- Function: solid:sphere radius |
Returns a sphere of radius RADIUS centered on the origin.
APPEARANCE determines the surface properties of the returned
object.
- - Function: solid:ellipsoid geometry appearance
- - Function: solid:ellipsoid geometry
+ -- Function: solid:ellipsoid geometry appearance |
+ -- Function: solid:ellipsoid geometry |
GEOMETRY must be a number or a list or vector of three numbers.
If GEOMETRY is a number, the `solid:ellipsoid' returns a sphere of
diameter GEOMETRY centered on the origin. Otherwise,
@@ -6639,9 +7215,23 @@ Object Primitives
centered on the origin. APPEARANCE determines the surface
properties of the returned object.
- - Function: solid:basrelief width height depth colorray appearance
- - Function: solid:basrelief width height depth appearance
- - Function: solid:basrelief width height depth
+ -- Function: solid:polyline coordinates appearance |
+ -- Function: solid:polyline coordinates |
+ COORDINATES must be a list or vector of coordinate lists or vectors |
+ specifying the x, y, and z coordinates of points. |
+ `solid:polyline' returns lines connecting successive pairs of |
+ points. If called with one argument, then the polyline will be |
+ white. If APPEARANCE is given, then the polyline will have its |
+ emissive color only; being black if APPEARANCE does not have an |
+ emissive color. |
+ |
+ The following code will return a red line between points at `(1 2 |
+ 3)' and `(4 5 6)': |
+ (solid:polyline '((1 2 3) (4 5 6)) (solid:color #f 0 #f 0 '(1 0 0)))
+ |
+ -- Function: solid:basrelief width height depth colorray appearance |
+ -- Function: solid:basrelief width height depth appearance |
+ -- Function: solid:basrelief width height depth |
One of WIDTH, HEIGHT, or DEPTH must be a 2-dimensional array; the
others must be real numbers giving the length of the basrelief in
those dimensions. The rest of this description assumes that
@@ -6662,36 +7252,52 @@ Object Primitives
COLORRAY paints the corresponding face of HEIGHT. Other
dimensions for COLORRAY are in error.
+ -- Function: solid:text fontstyle str len appearance |
+ -- Function: solid:text fontstyle str len |
+ FONTSTYLE must be a value returned by `solid:font'. |
+ |
+ STR must be a string or list of strings. |
+ |
+ LEN must be #f, a nonnegative integer, or list of nonnegative |
+ integers. |
+ |
+ APPEARANCE, if given, determines the surface properties of the |
+ returned object. |
+ |
+ `solid:text' returns a two-sided, flat text object positioned in |
+ the Z=0 plane of the local coordinate system |
+ |
Surface Attributes
------------------
- - Function: solid:color diffuseColor ambientIntensity specularColor
+ -- Function: solid:color diffuseColor ambientIntensity specularColor |
shininess emissiveColor transparency
- - Function: solid:color diffuseColor ambientIntensity specularColor
+ -- Function: solid:color diffuseColor ambientIntensity specularColor |
shininess emissiveColor
- - Function: solid:color diffuseColor ambientIntensity specularColor
+ -- Function: solid:color diffuseColor ambientIntensity specularColor |
shininess
- - Function: solid:color diffuseColor ambientIntensity specularColor
- - Function: solid:color diffuseColor ambientIntensity
- - Function: solid:color diffuseColor
- Returns an "appearance", the optical properties of the objects
- with which it is associated. AMBIENTINTENSITY, SHININESS, and
+ -- Function: solid:color diffuseColor ambientIntensity specularColor |
+ -- Function: solid:color diffuseColor ambientIntensity |
+ -- Function: solid:color diffuseColor |
+ Returns an "appearance", the optical properties of the objects with |
+ which it is associated. AMBIENTINTENSITY, SHININESS, and |
TRANSPARENCY must be numbers between 0 and 1. DIFFUSECOLOR,
SPECULARCOLOR, and EMISSIVECOLOR are objects of type *Note color:
Color Data-Type, 24-bit sRGB integers or lists of 3 numbers
between 0.0 and 1.0. If a color argument is omitted or #f, then
the default color will be used.
- - Function: solid:texture image color scale rotation center translation
- - Function: solid:texture image color scale rotation center
- - Function: solid:texture image color scale rotation
- - Function: solid:texture image color scale
- - Function: solid:texture image color
- - Function: solid:texture image
- Returns an "appearance", the optical properties of the objects
- with which it is associated. IMAGE is a string naming a JPEG or
- PNG image resource. COLOR is #f, a color, or the string returned
- by `solid:color'. The rest of the optional arguments specify
+ -- Function: solid:texture image color scale rotation center |
+ translation |
+ -- Function: solid:texture image color scale rotation center |
+ -- Function: solid:texture image color scale rotation |
+ -- Function: solid:texture image color scale |
+ -- Function: solid:texture image color |
+ -- Function: solid:texture image |
+ Returns an "appearance", the optical properties of the objects with |
+ which it is associated. IMAGE is a string naming a JPEG or PNG |
+ image resource. COLOR is #f, a color, or the string returned by |
+ `solid:color'. The rest of the optional arguments specify |
2-dimensional transforms applying to the IMAGE.
SCALE must be #f, a number, or list or vector of 2 numbers
@@ -6702,42 +7308,75 @@ Surface Attributes
list or vector of 2 numbers specifying the translation to apply to
IMAGE.
+ -- Function: solid:font family style justify size spacing language |
+ direction |
+ Returns a fontstyle object suitable for passing as an argument to |
+ `solid:text'. Any of the arguments may be #f, in which case its |
+ default value, which is first in each list of allowed values, is |
+ used. |
+ |
+ FAMILY is a case-sensitive string naming a font; `SERIF', `SANS', |
+ and `TYPEWRITER' are supported at the minimum. |
+ |
+ STYLE is a case-sensitive string `PLAIN', `BOLD', `ITALIC', or |
+ `BOLDITALIC'. |
+ |
+ JUSTIFY is a case-sensitive string `FIRST', `BEGIN', `MIDDLE', or |
+ `END'; or a list of one or two case-sensitive strings (same |
+ choices). The mechanics of JUSTIFY get complicated; it is |
+ explained by tables 6.2 to 6.7 of |
+ `http://www.web3d.org/x3d/specifications/vrml/ISO-IEC-14772-IS-VRML97WithAmendment1/part1/nodesRef.html#Table6.2'
+ |
+ SIZE is the extent, in the non-advancing direction, of the text. |
+ SIZE defaults to 1. |
+ |
+ SPACING is the ratio of the line (or column) offset to SIZE. |
+ SPACING defaults to 1. |
+ |
+ LANGUAGE is the RFC-1766 language name. |
+ |
+ DIRECTION is a list of two numbers: `(X Y)'. If |
+ `(> (abs X) (abs Y))', then the text will be arrayed horizontally; |
+ otherwise vertically. The direction in which characters are |
+ arrayed is determined by the sign of the major axis: positive X |
+ being left-to-right; positive Y being top-to-bottom. |
+ |
Aggregating Objects
-------------------
- - Function: solid:center-row-of number solid spacing
+ -- Function: solid:center-row-of number solid spacing |
Returns a row of NUMBER SOLID objects spaced evenly SPACING apart.
- - Function: solid:center-array-of number-a number-b solid spacing-a
+ -- Function: solid:center-array-of number-a number-b solid spacing-a |
spacing-b
Returns NUMBER-B rows, SPACING-B apart, of NUMBER-A SOLID objects
SPACING-A apart.
- - Function: solid:center-pile-of number-a number-b number-c solid
+ -- Function: solid:center-pile-of number-a number-b number-c solid |
spacing-a spacing-b spacing-c
Returns NUMBER-C planes, SPACING-C apart, of NUMBER-B rows,
SPACING-B apart, of NUMBER-A SOLID objects SPACING-A apart.
- - Function: solid:arrow center
+ -- Function: solid:arrow center |
CENTER must be a list or vector of three numbers. Returns an
upward pointing metallic arrow centered at CENTER.
- - Function: solid:arrow
+ -- Function: solid:arrow |
Returns an upward pointing metallic arrow centered at the origin.
Spatial Transformations
-----------------------
- - Function: solid:translation center solid ...
+ -- Function: solid:translation center solid ... |
CENTER must be a list or vector of three numbers.
`solid:translation' Returns an aggregate of SOLIDS, ... with their
origin moved to CENTER.
- - Function: solid:scale scale solid ...
+ -- Function: solid:scale scale solid ... |
SCALE must be a number or a list or vector of three numbers.
`solid:scale' Returns an aggregate of SOLIDS, ... scaled per SCALE.
- - Function: solid:rotation axis angle solid ...
+ -- Function: solid:rotation axis angle solid ... |
AXIS must be a list or vector of three numbers. `solid:rotation'
Returns an aggregate of SOLIDS, ... rotated ANGLE degrees around
the axis AXIS.
@@ -6745,10 +7384,10 @@ Spatial Transformations

File: slib.info, Node: Color, Next: Root Finding, Prev: Solid Modeling, Up: Mathematical Packages
-Color
-=====
+5.9 Color |
+========= |
-`http://swissnet.ai.mit.edu/~jaffer/Color'
+`http://swiss.csail.mit.edu/~jaffer/Color' |
The goals of this package are to provide methods to specify, compute,
and transform colors in a core set of additive color spaces. The color
@@ -6768,15 +7407,15 @@ encountered in practice and the literature.

File: slib.info, Node: Color Data-Type, Next: Color Spaces, Prev: Color, Up: Color
-Color Data-Type
----------------
+5.9.1 Color Data-Type |
+--------------------- |
`(require 'color)'
- - Function: color? obj
+ -- Function: color? obj |
Returns #t if OBJ is a color.
- - Function: color? obj typ
+ -- Function: color? obj typ |
Returns #t if OBJ is a color of color-space TYP. The symbol TYP
must be one of:
@@ -6794,27 +7433,37 @@ Color Data-Type
* L*C*h
- - Function: make-color space arg ...
+ -- Function: make-color space arg ... |
Returns a color of type SPACE.
- - Function: color-space color
+ * For SPACE arguments `CIEXYZ', `RGB709', and `sRGB', the sole |
+ ARG is a list of three numbers. |
+ |
+ * For SPACE arguments `L*a*b*', `L*u*v*', and `L*C*h', ARG is a |
+ list of three numbers optionally followed by a whitepoint. |
+ |
+ * For `xRGB', ARG is an integer. |
+ |
+ * For `e-sRGB', the arguments are as for `e-sRGB->color'. |
+ |
+ -- Function: color-space color |
Returns the symbol for the color-space in which COLOR is embedded.
- - Function: color-precision color
+ -- Function: color-precision color |
For colors in digital color-spaces, `color-precision' returns the
number of bits used for each of the R, G, and B channels of the
encoding. Otherwise, `color-precision' returns #f
- - Function: color-white-point color
+ -- Function: color-white-point color |
Returns the white-point of COLOR in all color-spaces except CIEXYZ.
- - Function: convert-color color space white-point
- - Function: convert-color color space
- - Function: convert-color color e-sRGB precision
+ -- Function: convert-color color space white-point |
+ -- Function: convert-color color space |
+ -- Function: convert-color color e-sRGB precision |
Converts COLOR into SPACE at optional WHITE-POINT.
-External Representation
-.......................
+5.9.1.1 External Representation |
+............................... |
Each color encoding has an external, case-insensitive representation.
To ensure portability, the white-point for all color strings is D65.
@@ -6849,32 +7498,32 @@ sRGB #x<RRGGBB>
Where RRGGBB is a non-negative six-digit hexadecimal number.
- - Function: color->string color
+ -- Function: color->string color |
Returns a string representation of COLOR.
- - Function: string->color string
+ -- Function: string->color string |
Returns the color represented by STRING. If STRING is not a
syntactically valid notation for a color, then `string->color'
returns #f.
-White
-.....
+5.9.1.2 White |
+............. |
We experience color relative to the illumination around us. CIEXYZ
coordinates, although subject to uniform scaling, are objective. Thus
other color spaces are specified relative to a "white point" in CIEXYZ
-coordinates.
+coordinates.
The white point for digital color spaces is set to D65. For the other
spaces a WHITE-POINT argument can be specified. The default if none is
specified is the white-point with which the color was created or last
converted; and D65 if none has been specified.
- - Constant: D65
+ -- Constant: D65 |
Is the color of 6500.K (blackbody) illumination. D65 is close to
the average color of daylight.
- - Constant: D50
+ -- Constant: D50 |
Is the color of 5000.K (blackbody) illumination. D50 is the color
of indoor lighting by incandescent bulbs, whose filaments have
temperatures around 5000.K.
@@ -6892,58 +7541,58 @@ device-dependent RGBi and RGB spaces of Xlib.

File: slib.info, Node: Color Spaces, Next: Spectra, Prev: Color Data-Type, Up: Color
-Color Spaces
-------------
+5.9.2 Color Spaces |
+------------------ |
Measurement-based Color Spaces
..............................
The "tristimulus" color spaces are those whose component values are
proportional measurements of light intensity. The CIEXYZ(1931) system
-provides 3 sets of spectra to convolve with a spectrum of interest.
-The result of those convolutions is coordinates in CIEXYZ space. All
+provides 3 sets of spectra to dot-product with a spectrum of interest. |
+The result of those dot-products is coordinates in CIEXYZ space. All |
tristimuls color spaces are related to CIEXYZ by linear transforms,
namely matrix multiplication. Of the color spaces listed here, CIEXYZ
and RGB709 are tristimulus spaces.
- - Color Space: CIEXYZ
+ -- Color Space: CIEXYZ |
The CIEXYZ color space covers the full "gamut". It is the basis
for color-space conversions.
- CIEXYZ is a list of three inexact numbers between 0 and 1.1. '(0.
- 0. 0.) is black; '(1. 1. 1.) is white.
+ CIEXYZ is a list of three inexact numbers between 0.0 and 1.1. |
+ '(0. 0. 0.) is black; '(1. 1. 1.) is white. |
- - Function: ciexyz->color xyz
+ -- Function: ciexyz->color xyz |
XYZ must be a list of 3 numbers. If XYZ is valid CIEXYZ
coordinates, then `ciexyz->color' returns the color specified by
XYZ; otherwise returns #f.
- - Function: color:ciexyz x y z
+ -- Function: color:ciexyz x y z |
Returns the CIEXYZ color composed of X, Y, Z. If the coordinates
do not encode a valid CIEXYZ color, then an error is signaled.
- - Function: color->ciexyz color
+ -- Function: color->ciexyz color |
Returns the list of 3 numbers encoding COLOR in CIEXYZ.
- - Color Space: RGB709
+ -- Color Space: RGB709 |
BT.709-4 (03/00) `Parameter values for the HDTV standards for
production and international programme exchange' specifies
parameter values for chromaticity, sampling, signal format, frame
rates, etc., of high definition television signals.
An RGB709 color is represented by a list of three inexact numbers
- between 0 and 1. '(0. 0. 0.) is black '(1. 1. 1.) is white.
+ between 0.0 and 1.0. '(0. 0. 0.) is black '(1. 1. 1.) is white. |
- - Function: rgb709->color rgb
+ -- Function: rgb709->color rgb |
RGB must be a list of 3 numbers. If RGB is valid RGB709
coordinates, then `rgb709->color' returns the color specified by
RGB; otherwise returns #f.
- - Function: color:rgb709 r g b
+ -- Function: color:rgb709 r g b |
Returns the RGB709 color composed of R, G, B. If the coordinates
do not encode a valid RGB709 color, then an error is signaled.
- - Function: color->rgb709 color
+ -- Function: color->rgb709 color |
Returns the list of 3 numbers encoding COLOR in RGB709.
Perceptual Uniformity
@@ -6956,58 +7605,58 @@ range of distances (6:1) in the L*a*b* and L*u*v* spaces than in
tristimulus spaces (80:1). For this reason, color distances are
computed in L*a*b* (or L*C*h).
- - Color Space: L*a*b*
+ -- Color Space: L*a*b* |
Is a CIE color space which better matches the human visual system's
perception of color. It is a list of three numbers:
- * 0 <= L* <= 100 (CIE "Lightness")
+ * 0 <= L* <= 100 (CIE "Lightness")
* -500 <= a* <= 500
* -200 <= b* <= 200
- - Function: l*a*b*->color L*a*b* white-point
+ -- Function: l*a*b*->color L*a*b* white-point |
L*A*B* must be a list of 3 numbers. If L*A*B* is valid L*a*b*
coordinates, then `l*a*b*->color' returns the color specified by
L*A*B*; otherwise returns #f.
- - Function: color:l*a*b* L* a* b* white-point
+ -- Function: color:l*a*b* L* a* b* white-point |
Returns the L*a*b* color composed of L*, A*, B* with WHITE-POINT.
- - Function: color:l*a*b* L* a* b*
+ -- Function: color:l*a*b* L* a* b* |
Returns the L*a*b* color composed of L*, A*, B*. If the
coordinates do not encode a valid L*a*b* color, then an error is
signaled.
- - Function: color->l*a*b* color white-point
+ -- Function: color->l*a*b* color white-point |
Returns the list of 3 numbers encoding COLOR in L*a*b* with
WHITE-POINT.
- - Function: color->l*a*b* color
+ -- Function: color->l*a*b* color |
Returns the list of 3 numbers encoding COLOR in L*a*b*.
- - Color Space: L*u*v*
+ -- Color Space: L*u*v* |
Is another CIE encoding designed to better match the human visual
system's perception of color.
- - Function: l*u*v*->color L*u*v* white-point
+ -- Function: l*u*v*->color L*u*v* white-point |
L*U*V* must be a list of 3 numbers. If L*U*V* is valid L*u*v*
coordinates, then `l*u*v*->color' returns the color specified by
L*U*V*; otherwise returns #f.
- - Function: color:l*u*v* L* u* v* white-point
+ -- Function: color:l*u*v* L* u* v* white-point |
Returns the L*u*v* color composed of L*, U*, V* with WHITE-POINT.
- - Function: color:l*u*v* L* u* v*
+ -- Function: color:l*u*v* L* u* v* |
Returns the L*u*v* color composed of L*, U*, V*. If the
coordinates do not encode a valid L*u*v* color, then an error is
signaled.
- - Function: color->l*u*v* color white-point
+ -- Function: color->l*u*v* color white-point |
Returns the list of 3 numbers encoding COLOR in L*u*v* with
WHITE-POINT.
- - Function: color->l*u*v* color
+ -- Function: color->l*u*v* color |
Returns the list of 3 numbers encoding COLOR in L*u*v*.
Cylindrical Coordinates
@@ -7023,16 +7672,16 @@ specification of color must be device-dependent. But take heart! A
cylindrical system can be based on L*a*b* and is used for predicting how
close colors seem to observers.
- - Color Space: L*C*h
+ -- Color Space: L*C*h |
Expresses the *a and b* of L*a*b* in polar coordinates. It is a
list of three numbers:
- * 0 <= L* <= 100 (CIE "Lightness")
+ * 0 <= L* <= 100 (CIE "Lightness")
* C* (CIE "Chroma") is the distance from the neutral (gray)
- axis.
+ axis.
- * 0 <= h <= 360 (CIE "Hue") is the angle.
+ * 0 <= h <= 360 (CIE "Hue") is the angle.
The colors by quadrant of h are:
@@ -7042,23 +7691,23 @@ close colors seem to observers.
270 blue, purple, magenta 360
- - Function: l*c*h->color L*C*h white-point
+ -- Function: l*c*h->color L*C*h white-point |
L*C*H must be a list of 3 numbers. If L*C*H is valid L*C*h
coordinates, then `l*c*h->color' returns the color specified by
L*C*H; otherwise returns #f.
- - Function: color:l*c*h L* C* h white-point
+ -- Function: color:l*c*h L* C* h white-point |
Returns the L*C*h color composed of L*, C*, H with WHITE-POINT.
- - Function: color:l*c*h L* C* h
+ -- Function: color:l*c*h L* C* h |
Returns the L*C*h color composed of L*, C*, H. If the coordinates
do not encode a valid L*C*h color, then an error is signaled.
- - Function: color->l*c*h color white-point
+ -- Function: color->l*c*h color white-point |
Returns the list of 3 numbers encoding COLOR in L*C*h with
WHITE-POINT.
- - Function: color->l*c*h color
+ -- Function: color->l*c*h color |
Returns the list of 3 numbers encoding COLOR in L*C*h.
Digital Color Spaces
@@ -7067,7 +7716,7 @@ Digital Color Spaces
The color spaces discussed so far are impractical for image data because
of numerical precision and computational requirements. In 1998 the IEC
adopted `A Standard Default Color Space for the Internet - sRGB'
-(<http://www.w3.org/Graphics/Color/sRGB>). sRGB was cleverly designed
+(`http://www.w3.org/Graphics/Color/sRGB'). sRGB was cleverly designed |
to employ the 24-bit (256x256x256) color encoding already in widespread
use; and the 2.2 gamma intrinsic to CRT monitors.
@@ -7077,36 +7726,36 @@ then each coordinate is individually subjected to the same non-linear
mapping. Inverse operations in the reverse order create the inverse
transform.
- - Color Space: sRGB
+ -- Color Space: sRGB |
Is "A Standard Default Color Space for the Internet". Most display
monitors will work fairly well with sRGB directly. Systems using
ICC profiles (1) should work very well with sRGB.
- - Function: srgb->color rgb
+ -- Function: srgb->color rgb |
RGB must be a list of 3 numbers. If RGB is valid sRGB coordinates,
then `srgb->color' returns the color specified by RGB; otherwise
returns #f.
- - Function: color:srgb r g b
+ -- Function: color:srgb r g b |
Returns the sRGB color composed of R, G, B. If the coordinates do
not encode a valid sRGB color, then an error is signaled.
- - Color Space: xRGB
+ -- Color Space: xRGB |
Represents the equivalent sRGB color with a single 24-bit integer.
The most significant 8 bits encode red, the middle 8 bits blue,
and the least significant 8 bits green.
- - Function: color->srgb color
+ -- Function: color->srgb color |
Returns the list of 3 integers encoding COLOR in sRGB.
- - Function: color->xrgb color
+ -- Function: color->xrgb color |
Returns the 24-bit integer encoding COLOR in sRGB.
- - Function: xrgb->color k
+ -- Function: xrgb->color k |
Returns the sRGB color composed of the 24-bit integer K.
- - Color Space: e-sRGB
+ -- Color Space: e-sRGB |
Is "Photography - Electronic still picture imaging - Extended sRGB
color encoding" (PIMA 7667:2001). It extends the gamut of sRGB;
and its higher precision numbers provide a larger dynamic range.
@@ -7123,34 +7772,32 @@ transform.
e-sRGB16
0 to 65535
- - Function: e-srgb->color precision rgb
+ -- Function: e-srgb->color precision rgb |
PRECISION must be the integer 10, 12, or 16. RGB must be a list
of 3 numbers. If RGB is valid e-sRGB coordinates, then
`e-srgb->color' returns the color specified by RGB; otherwise
returns #f.
- - Function: color:e-srgb 10 r g b
+ -- Function: color:e-srgb 10 r g b |
Returns the e-sRGB10 color composed of integers R, G, B.
- - Function: color:e-srgb 12 r g b
+ -- Function: color:e-srgb 12 r g b |
Returns the e-sRGB12 color composed of integers R, G, B.
- - Function: color:e-srgb 16 r g b
+ -- Function: color:e-srgb 16 r g b |
Returns the e-sRGB16 color composed of integers R, G, B. If the
coordinates do not encode a valid e-sRGB color, then an error is
signaled.
- - Function: color->e-srgb precision color
+ -- Function: color->e-srgb precision color |
PRECISION must be the integer 10, 12, or 16. `color->e-srgb'
returns the list of 3 integers encoding COLOR in sRGB10, sRGB12,
or sRGB16.
---------- Footnotes ----------
- (1)
-
-A comprehensive encoding of transforms between CIEXYZ and device color
-spaces is the International Color Consortium profile format,
+ (1) A comprehensive encoding of transforms between CIEXYZ and device |
+color spaces is the International Color Consortium profile format, |
ICC.1:1998-09:
The intent of this format is to provide a cross-platform device
@@ -7161,8 +7808,8 @@ ICC.1:1998-09:

File: slib.info, Node: Spectra, Next: Color Difference Metrics, Prev: Color Spaces, Up: Color
-Spectra
--------
+5.9.3 Spectra |
+------------- |
The following functions compute colors from spectra, scale color
luminance, and extract chromaticity. XYZ is used in the names of
@@ -7182,31 +7829,73 @@ A spectrum may be represented as:
CIEXYZ values are calculated as dot-product with the X, Y (Luminance),
and Z "Spectral Tristimulus Values". The files `cie1931.xyz' and
-`cie1964.xyz' in the distribution contain these CIE-defined values.
+`cie1964.xyz' in the distribution contain these CIE-defined values.
- - Feature: cie1964
+ -- Feature: cie1964 |
Loads the Spectral Tristimulus Values defining `CIE 1964
Supplementary Standard Colorimetric Observer'.
- - Feature: cie1931
+ -- Feature: cie1931 |
Loads the Spectral Tristimulus Values defining `CIE 1931
Supplementary Standard Colorimetric Observer'.
- - Feature: ciexyz
+ -- Feature: ciexyz |
Requires Spectral Tristimulus Values, defaulting to cie1931.
-`(require 'cie1964)' or `(require 'cie1931)' will `load-ciexyz' |
-specific values used by the following spectrum conversion procedures. |
-The spectrum conversion procedures `(require 'ciexyz)' to assure that a |
-set is loaded. |
-
- - Function: spectrum->XYZ proc
+`(require 'cie1964)' or `(require 'cie1931)' will `load-ciexyz'
+specific values used by the following spectrum conversion procedures.
+The spectrum conversion procedures `(require 'ciexyz)' to assure that a
+set is loaded.
+
+ -- Function: read-cie-illuminant path |
+ PATH must be a string naming a file consisting of 107 numbers for |
+ 5.nm intervals from 300.nm to 830.nm. `read-cie-illuminant' reads |
+ (using Scheme `read') these numbers and returns a length 107 |
+ vector filled with them. |
+ |
+ (define CIE:SI-D65 |
+ (read-CIE-illuminant (in-vicinity (library-vicinity) "ciesid65.dat"))) |
+ (spectrum->XYZ CIE:SI-D65 300e-9 830e-9) |
+ => (25.108569422374994 26.418013465625001 28.764075683374993) |
+ |
+ -- Function: read-normalized-illuminant path |
+ PATH must be a string naming a file consisting of 107 numbers for |
+ 5.nm intervals from 300.nm to 830.nm. |
+ `read-normalized-illuminant' reads (using Scheme `read') these |
+ numbers and returns a length 107 vector filled with them, |
+ normalized so that `spectrum->XYZ' of the illuminant returns its |
+ whitepoint. |
+ |
+ CIE Standard Illuminants A and D65 are included with SLIB: |
+ |
+ (define CIE:SI-A |
+ (read-normalized-illuminant (in-vicinity (library-vicinity) "ciesia.dat")))
+ (define CIE:SI-D65 |
+ (read-normalized-illuminant (in-vicinity (library-vicinity) "ciesid65.dat")))
+ (spectrum->XYZ CIE:SI-A 300e-9 830e-9) |
+ => (1.098499460820401 999.9999999999998e-3 355.8173930654951e-3) |
+ (CIEXYZ->sRGB (spectrum->XYZ CIE:SI-A 300e-9 830e-9)) |
+ => (255 234 133) |
+ (spectrum->XYZ CIE:SI-D65 300e-9 830e-9) |
+ => (950.4336673552745e-3 1.0000000000000002 1.0888053986649182) |
+ (CIEXYZ->sRGB (spectrum->XYZ CIE:SI-D65 300e-9 830e-9)) |
+ => (255 255 255) |
+ |
+ -- Function: illuminant-map proc siv |
+ SIV must be a one-dimensional array or vector of 107 numbers. |
+ `illuminant-map' returns a vector of length 107 containing the |
+ result of applying PROC to each element of SIV. |
+ |
+ -- Function: illuminant-map->XYZ proc siv |
+ `(spectrum->XYZ (illuminant-map PROC SIV) 300e-9 830e-9)' |
+ |
+ -- Function: spectrum->XYZ proc |
PROC must be a function of one argument. `spectrum->XYZ' computes
the CIEXYZ(1931) values for the spectrum returned by PROC when
called with arguments from 380e-9 to 780e-9, the wavelength in
meters.
- - Function: spectrum->XYZ spectrum x1 x2
+ -- Function: spectrum->XYZ spectrum x1 x2 |
X1 and X2 must be positive real numbers specifying the wavelengths
(in meters) corresponding to the zeroth and last elements of
vector or list SPECTRUM. `spectrum->XYZ' returns the CIEXYZ(1931)
@@ -7221,33 +7910,27 @@ set is loaded. |
(define y_n (cadr xyz))
(map (lambda (x) (/ x y_n)) xyz)
=> (0.9687111145512467 1.0 1.1210875945303613)
-
+
(define xyz (spectrum->XYZ (blackbody-spectrum 5000)))
(map (lambda (x) (/ x y_n)) xyz)
=> (0.2933441826889158 0.2988931825387761 0.25783646831201573)
- - Function: spectrum->CIEXYZ proc
- - Function: spectrum->CIEXYZ spectrum x1 x2
- `spectrum->CIEXYZ' computes the CIEXYZ(1931) values for the
- spectrum, scaled so their sum is 1.
-
- - Function: spectrum->chromaticity proc
- - Function: spectrum->chromaticity spectrum x1 x2
+ -- Function: spectrum->chromaticity proc |
+ -- Function: spectrum->chromaticity spectrum x1 x2 |
Computes the chromaticity for the given spectrum.
- - Function: wavelength->XYZ w
- - Function: wavelength->chromaticity w
- - Function: wavelength->CIEXYZ w
+ -- Function: wavelength->XYZ w |
W must be a number between 380e-9 to 780e-9. `wavelength->XYZ'
returns (unnormalized) XYZ values for a monochromatic light source
- with wavelength W. `wavelength->chromaticity' returns the
- chromaticity for a monochromatic light source with wavelength W.
- `wavelength->CIEXYZ' returns XYZ values for the saturated color
- having chromaticity of a monochromatic light source with wavelength
- W.
-
- - Function: blackbody-spectrum temp
- - Function: blackbody-spectrum temp span
+ with wavelength W. |
+
+ -- Function: wavelength->chromaticity w |
+ W must be a number between 380e-9 to 780e-9. |
+ `wavelength->chromaticity' returns the chromaticity for a |
+ monochromatic light source with wavelength W. |
+ |
+ -- Function: blackbody-spectrum temp |
+ -- Function: blackbody-spectrum temp span |
Returns a procedure of one argument (wavelength in meters), which
returns the radiance of a black body at TEMP.
@@ -7256,10 +7939,10 @@ set is loaded. |
procedure correspond to the power of the photons with wavelengths
W to W+1e-9.
- - Function: temperature->XYZ x
+ -- Function: temperature->XYZ x |
The positive number X is a temperature in degrees kelvin.
- `temperature->XYZ' computes the CIEXYZ(1931) values for the
- spectrum of a black body at temperature X.
+ `temperature->XYZ' computes the unnormalized CIEXYZ(1931) values |
+ for the spectrum of a black body at temperature X. |
Compute the chromaticities of 6500.K and 5000.K blackbody
radiation:
@@ -7267,36 +7950,33 @@ set is loaded. |
(require 'color-space)
(XYZ->chromaticity (temperature->XYZ 6500))
=> (0.3135191660557008 0.3236456786200268)
-
+
(XYZ->chromaticity (temperature->XYZ 5000))
=> (0.34508082841161052 0.3516084965163377)
- - Function: temperature->CIEXYZ x
+ -- Function: temperature->chromaticity x |
The positive number X is a temperature in degrees kelvin.
- `temperature->CIEXYZ' computes the CIEXYZ(1931) values for the
- spectrum of a black body at temperature X, scaled to be just
- inside the RGB709 gamut.
+ `temperature->cromaticity' computes the chromaticity for the |
+ spectrum of a black body at temperature X. |
- - Function: temperature->chromaticity x |
- |
- - Function: XYZ:normalize xyz
- XYZ is a list of three non-negative real numbers. `XYZ:normalize'
- returns a list of numbers proportional to XYZ; scaled so their sum
- is 1.
+ Compute the chromaticities of 6500.K and 5000.K blackbody |
+ radiation: |
+
+ (require 'color-space) |
+ (temperature->chromaticity 6500) |
+ => (0.3135191660557008 0.3236456786200268) |
- - Function: XYZ:normalize-colors colors ...
- COLORS is a list of XYZ triples. `XYZ:normalize-colors' scales
- all the triples by a common factor such that the maximum sum of
- numbers in a scaled triple is 1.
+ (temperature->chromaticity 5000) |
+ => (0.34508082841161052 0.3516084965163377) |
- - Function: XYZ->chromaticity xyz
+ -- Function: XYZ->chromaticity xyz |
Returns a two element list: the x and y components of XYZ
normalized to 1 (= X + Y + Z).
- - Function: chromaticity->CIEXYZ x y
+ -- Function: chromaticity->CIEXYZ x y |
Returns the list of X, and Y, 1 - Y - X.
- - Function: chromaticity->whitepoint x y
+ -- Function: chromaticity->whitepoint x y |
Returns the CIEXYZ(1931) values having luminosity 1 and
chromaticity X and Y.
@@ -7308,18 +7988,18 @@ obvious range. With no given whitepoint, the only reasonable course is
to ascertain the luminance range of a dataset and normalize the values
to lie from 0 to 1.
- - Function: XYZ->xyY xyz
+ -- Function: XYZ->xyY xyz |
Returns a three element list: the X and Y components of XYZ
normalized to 1, and CIE luminance Y.
- - Function: xyY->XYZ xyY
+ -- Function: xyY->XYZ xyY |
- - Function: xyY:normalize-colors colors
+ -- Function: xyY:normalize-colors colors |
COLORS is a list of xyY triples. `xyY:normalize-colors' scales
each chromaticity so it sums to 1 or less; and divides the Y
values by the maximum Y in the dataset, so all lie between 0 and 1.
- - Function: xyY:normalize-colors colors n
+ -- Function: xyY:normalize-colors colors n |
If N is positive real, then `xyY:normalize-colors' divides the Y
values by N times the maximum Y in the dataset.
@@ -7342,33 +8022,33 @@ chromaticities with sums greater than one are scaled to sum to one.

File: slib.info, Node: Color Difference Metrics, Next: Color Conversions, Prev: Spectra, Up: Color
-Color Difference Metrics
-------------------------
+5.9.4 Color Difference Metrics |
+------------------------------ |
-`(require 'color-space)' |
- |
- The low-level metric functions operate on lists of 3 numbers, lab1, |
-lab2, lch1, or lch2. |
- |
- `(require 'color)' |
- |
- The wrapped functions operate on objects of type color, color1 and |
-color2 in the function entries. |
- |
- - Function: L*a*b*:DE* lab1 lab2 |
- Returns the Euclidean distance between LAB1 and LAB2. |
- |
- - Function: CIE:DE* color1 color2 white-point
- - Function: CIE:DE* color1 color2
+`(require 'color-space)'
+
+ The low-level metric functions operate on lists of 3 numbers, lab1,
+lab2, lch1, or lch2.
+
+ `(require 'color)'
+
+ The wrapped functions operate on objects of type color, color1 and
+color2 in the function entries.
+
+ -- Function: L*a*b*:DE* lab1 lab2 |
+ Returns the Euclidean distance between LAB1 and LAB2.
+
+ -- Function: CIE:DE* color1 color2 white-point |
+ -- Function: CIE:DE* color1 color2 |
Returns the Euclidean distance in L*a*b* space between COLOR1 and
COLOR2.
- - Function: L*C*h:DE*94 lch1 lch2 parametric-factors |
- - Function: L*C*h:DE*94 lch1 lch2 |
- - Function: CIE:DE*94 color1 color2 parametric-factors
- - Function: CIE:DE*94 color1 color2
- Measures distance in the L*C*h cylindrical color-space. The three |
- axes are individually scaled (depending on C*) in their |
+ -- Function: L*C*h:DE*94 lch1 lch2 parametric-factors |
+ -- Function: L*C*h:DE*94 lch1 lch2 |
+ -- Function: CIE:DE*94 color1 color2 parametric-factors |
+ -- Function: CIE:DE*94 color1 color2 |
+ Measures distance in the L*C*h cylindrical color-space. The three
+ axes are individually scaled (depending on C*) in their
contributions to the total distance.
The CIE has defined reference conditions under which the metric
@@ -7399,22 +8079,22 @@ Great Britain created a more sophisticated color-distance function for
use in judging the consistency of dye lots. With CMC:DE* it is possible
to use a single value pass/fail tolerance for all shades.
- - Function: CMC-DE lch1 lch2 parametric-factors |
- - Function: CMC-DE lch1 lch2 l c |
- - Function: CMC-DE lch1 lch2 l |
- - Function: CMC-DE lch1 lch2 |
- - Function: CMC:DE* color1 color2 l c
- - Function: CMC:DE* color1 color2
- `CMC:DE' is a L*C*h metric. The PARAMETRIC-FACTORS argument is a |
- list of 2 numbers L and C. L and C parameterize this metric. 1 |
- and 1 are recommended for perceptibility; the default, 2 and 1, |
+ -- Function: CMC-DE lch1 lch2 parametric-factors |
+ -- Function: CMC-DE lch1 lch2 l c |
+ -- Function: CMC-DE lch1 lch2 l |
+ -- Function: CMC-DE lch1 lch2 |
+ -- Function: CMC:DE* color1 color2 l c |
+ -- Function: CMC:DE* color1 color2 |
+ `CMC:DE' is a L*C*h metric. The PARAMETRIC-FACTORS argument is a
+ list of 2 numbers L and C. L and C parameterize this metric. 1
+ and 1 are recommended for perceptibility; the default, 2 and 1,
for acceptability.

File: slib.info, Node: Color Conversions, Next: Color Names, Prev: Color Difference Metrics, Up: Color
-Color Conversions
------------------
+5.9.5 Color Conversions |
+----------------------- |
This package contains the low-level color conversion and color metric
routines operating on lists of 3 numbers. There is no type or range
@@ -7422,54 +8102,54 @@ checking.
`(require 'color-space)'
- - Constant: CIEXYZ:D65
+ -- Constant: CIEXYZ:D65 |
Is the color of 6500.K (blackbody) illumination. D65 is close to
the average color of daylight.
- - Constant: CIEXYZ:D50
+ -- Constant: CIEXYZ:D50 |
Is the color of 5000.K (blackbody) illumination. D50 is the color
of indoor lighting by incandescent bulbs.
- - Constant: CIEXYZ:A
- - Constant: CIEXYZ:B
- - Constant: CIEXYZ:C
- - Constant: CIEXYZ:E
+ -- Constant: CIEXYZ:A |
+ -- Constant: CIEXYZ:B |
+ -- Constant: CIEXYZ:C |
+ -- Constant: CIEXYZ:E |
CIE 1931 illuminants normalized to 1 = y.
- - Function: color:linear-transform matrix row |
- |
- - Function: CIEXYZ->RGB709 xyz
- - Function: RGB709->CIEXYZ srgb
+ -- Function: color:linear-transform matrix row |
+
+ -- Function: CIEXYZ->RGB709 xyz |
+ -- Function: RGB709->CIEXYZ srgb |
- - Function: CIEXYZ->L*u*v* xyz white-point
- - Function: CIEXYZ->L*u*v* xyz
- - Function: L*u*v*->CIEXYZ L*u*v* white-point
- - Function: L*u*v*->CIEXYZ L*u*v*
+ -- Function: CIEXYZ->L*u*v* xyz white-point |
+ -- Function: CIEXYZ->L*u*v* xyz |
+ -- Function: L*u*v*->CIEXYZ L*u*v* white-point |
+ -- Function: L*u*v*->CIEXYZ L*u*v* |
The WHITE-POINT defaults to CIEXYZ:D65.
- - Function: CIEXYZ->L*a*b* xyz white-point
- - Function: CIEXYZ->L*a*b* xyz
- - Function: L*a*b*->CIEXYZ L*a*b* white-point
- - Function: L*a*b*->CIEXYZ L*a*b*
+ -- Function: CIEXYZ->L*a*b* xyz white-point |
+ -- Function: CIEXYZ->L*a*b* xyz |
+ -- Function: L*a*b*->CIEXYZ L*a*b* white-point |
+ -- Function: L*a*b*->CIEXYZ L*a*b* |
The XYZ WHITE-POINT defaults to CIEXYZ:D65.
- - Function: L*a*b*->L*C*h L*a*b*
- - Function: L*C*h->L*a*b* L*C*h
+ -- Function: L*a*b*->L*C*h L*a*b* |
+ -- Function: L*C*h->L*a*b* L*C*h |
- - Function: CIEXYZ->sRGB xyz
- - Function: sRGB->CIEXYZ srgb
+ -- Function: CIEXYZ->sRGB xyz |
+ -- Function: sRGB->CIEXYZ srgb |
- - Function: CIEXYZ->xRGB xyz |
- - Function: xRGB->CIEXYZ srgb |
- |
- - Function: sRGB->xRGB xyz |
- - Function: xRGB->sRGB srgb |
- |
- - Function: CIEXYZ->e-sRGB n xyz
- - Function: e-sRGB->CIEXYZ n srgb
+ -- Function: CIEXYZ->xRGB xyz |
+ -- Function: xRGB->CIEXYZ srgb |
+
+ -- Function: sRGB->xRGB xyz |
+ -- Function: xRGB->sRGB srgb |
- - Function: sRGB->e-sRGB n srgb
- - Function: e-sRGB->sRGB n srgb
+ -- Function: CIEXYZ->e-sRGB n xyz |
+ -- Function: e-sRGB->CIEXYZ n srgb |
+
+ -- Function: sRGB->e-sRGB n srgb |
+ -- Function: e-sRGB->sRGB n srgb |
The integer N must be 10, 12, or 16. Because sRGB and e-sRGB use
the same RGB709 chromaticities, conversion between them is simpler
than conversion through CIEXYZ.
@@ -7477,23 +8157,23 @@ checking.
Do not convert e-sRGB precision through `e-sRGB->sRGB' then
`sRGB->e-sRGB' - values would be truncated to 8-bits!
- - Function: e-sRGB->e-sRGB n1 srgb n2
+ -- Function: e-sRGB->e-sRGB n1 srgb n2 |
The integers N1 and N2 must be 10, 12, or 16. `e-sRGB->e-sRGB'
converts SRGB to e-sRGB of precision N2.
- |
+

File: slib.info, Node: Color Names, Next: Daylight, Prev: Color Conversions, Up: Color
-Color Names
------------
+5.9.6 Color Names |
+----------------- |
-`(require 'color-names)'
+`(require 'color-names)'
Rather than ballast the color dictionaries with numbered grays,
`file->color-dictionary' discards them. They are provided through the
`grey' procedure:
- - Function: grey k
+ -- Function: grey k |
Returns `(inexact->exact (round (* k 2.55)))', the X11 color
grey<k>.
@@ -7503,37 +8183,37 @@ to color-strings (*note External Representation: Color Data-Type.).
The column names in a color dictionary are unimportant; the first field
is the key, and the second is the color-string.
- - Function: color-name:canonicalize name
+ -- Function: color-name:canonicalize name |
Returns a downcased copy of the string or symbol NAME with `_',
`-', and whitespace removed.
- - Function: color-name->color name table1 table2 ...
+ -- Function: color-name->color name table1 table2 ... |
TABLE1, TABLE2, ... must be color-dictionary tables.
`color-name->color' searches for the canonical form of NAME in
TABLE1, TABLE2, ... in order; returning the color-string of the
first matching record; #f otherwise.
- - Function: color-dictionaries->lookup table1 table2 ...
+ -- Function: color-dictionaries->lookup table1 table2 ... |
TABLE1, TABLE2, ... must be color-dictionary tables.
`color-dictionaries->lookup' returns a procedure which searches
for the canonical form of its string argument in TABLE1, TABLE2,
...; returning the color-string of the first matching record; and
#f otherwise.
- - Function: color-dictionary name rdb base-table-type
+ -- Function: color-dictionary name rdb base-table-type |
RDB must be a string naming a relational database file; and the
symbol NAME a table therein. The database will be opened as
BASE-TABLE-TYPE. `color-dictionary' returns the read-only table
NAME in database NAME if it exists; #f otherwise.
- - Function: color-dictionary name rdb
+ -- Function: color-dictionary name rdb |
RDB must be an open relational database or a string naming a
relational database file; and the symbol NAME a table therein.
`color-dictionary' returns the read-only table NAME in database
NAME if it exists; #f otherwise.
- - Function: load-color-dictionary name rdb base-table-type
- - Function: load-color-dictionary name rdb
+ -- Function: load-color-dictionary name rdb base-table-type |
+ -- Function: load-color-dictionary name rdb |
RDB must be a string naming a relational database file; and the
symbol NAME a table therein. If the symbol BASE-TABLE-TYPE is
provided, the database will be opened as BASE-TABLE-TYPE.
@@ -7546,10 +8226,10 @@ is the key, and the second is the color-string.
Dictionary Creation
...................
-`(require 'color-database)' |
- |
- - Function: file->color-dictionary file table-name rdb base-table-type
- - Function: file->color-dictionary file table-name rdb
+`(require 'color-database)'
+
+ -- Function: file->color-dictionary file table-name rdb base-table-type |
+ -- Function: file->color-dictionary file table-name rdb |
RDB must be an open relational database or a string naming a
relational database file, TABLE-NAME a symbol, and the string FILE
must name an existing file with colornames and their corresponding
@@ -7557,8 +8237,8 @@ Dictionary Creation
table TABLE-NAME in RDB and enters the associations found in FILE
into it.
- - Function: url->color-dictionary url table-name rdb base-table-type
- - Function: url->color-dictionary url table-name rdb
+ -- Function: url->color-dictionary url table-name rdb base-table-type |
+ -- Function: url->color-dictionary url table-name rdb |
RDB must be an open relational database or a string naming a
relational database file and TABLE-NAME a symbol.
`url->color-dictionary' retrieves the resource named by the string
@@ -7568,27 +8248,28 @@ Dictionary Creation
This section has detailed the procedures for creating and loading color
dictionaries. So where are the dictionaries to load?
- `http://swissnet.ai.mit.edu/~jaffer/Color/Dictionaries.html'
+ `http://swiss.csail.mit.edu/~jaffer/Color/Dictionaries.html' |
Describes and evaluates several color-name dictionaries on the web.
The following procedure creates a database containing two of these
dictionaries.
- - Function: make-slib-color-name-db
+ -- Function: make-slib-color-name-db |
Creates an alist-table relational database in library-vicinity
containing the "Resene" and "saturate" color-name dictionaries.
- If the files `resenecolours.txt' and `saturate.txt' exist in the
- library-vicinity, then they used as the source of color-name data.
- Otherwise, `make-slib-color-name-db' calls url->color-dictionary
- with the URLs of appropriate source files.
+ If the files `resenecolours.txt', `nbs-iscc.txt', and |
+ `saturate.txt' exist in the library-vicinity, then they used as |
+ the source of color-name data. Otherwise, |
+ `make-slib-color-name-db' calls url->color-dictionary with the |
+ URLs of appropriate source files. |
The Short List
..............
-`(require 'saturate)'
+`(require 'saturate)'
- - Function: saturate name
+ -- Function: saturate name |
Looks for NAME among the 19 saturated colors from `Approximate
Colors on CIE Chromaticity Diagram':
@@ -7598,7 +8279,7 @@ The Short List
purplish blue bluish purple purple reddish purple
red purple purplish red red
- (<http://swissnet.ai.mit.edu/~jaffer/Color/saturate.pdf>). If
+ (`http://swiss.csail.mit.edu/~jaffer/Color/saturate.pdf'). If |
NAME is found, the corresponding color is returned. Otherwise #f
is returned. Use saturate only for light source colors.
@@ -7606,11 +8287,11 @@ Resene Paints Limited, New Zealand's largest privately-owned and
operated paint manufacturing company, has generously made their `Resene
RGB Values List' available.
- `(require 'resene)'
+ `(require 'resene)'
- - Function: resene name
+ -- Function: resene name |
Looks for NAME among the 1300 entries in the Resene color-name
- dictionary (<http://swissnet.ai.mit.edu/~jaffer/Color/resene.pdf>).
+ dictionary (`http://swiss.csail.mit.edu/~jaffer/Color/resene.pdf'). |
If NAME is found, the corresponding color is returned. Otherwise
#f is returned. The `Resene RGB Values List' is an excellent
source for surface colors.
@@ -7634,7 +8315,7 @@ program, then you must include its license with your program:
copyright notice in the documentation or other materials
provided with the distribution.
- 3. Resene Paints Ltd makes no warranty or representation that |
+ 3. Resene Paints Ltd makes no warranty or representation that
this dictionary is error-free, and is under no obligation to
provide any services, by way of maintenance, update, or
otherwise.
@@ -7649,26 +8330,26 @@ program, then you must include its license with your program:

File: slib.info, Node: Daylight, Prev: Color Names, Up: Color
-Daylight
---------
+5.9.7 Daylight |
+-------------- |
-`(require 'daylight)'
+`(require 'daylight)'
This package calculates the colors of sky as detailed in:
`http://www.cs.utah.edu/vissim/papers/sunsky/sunsky.pdf'
`A Practical Analytic Model for Daylight'
A. J. Preetham, Peter Shirley, Brian Smits
- - Function: solar-hour julian-day hour
+ -- Function: solar-hour julian-day hour |
Returns the solar-time in hours given the integer JULIAN-DAY in
the range 1 to 366, and the local time in hours.
To be meticulous, subtract 4 minutes for each degree of longitude
west of the standard meridian of your time zone.
- - Function: solar-declination julian-day
+ -- Function: solar-declination julian-day |
- - Function: solar-polar declination latitude solar-hour
+ -- Function: solar-polar declination latitude solar-hour |
Returns a list of THETA_S, the solar angle from the zenith, and
PHI_S, the solar azimuth. 0 <= THETA_S measured in degrees.
PHI_S is measured in degrees from due south; west of south being
@@ -7706,24 +8387,20 @@ turbidity values less than 1.3.
1 2 4 8 16 32 64
Meterorological range (km) versus Turbidity
- - Function: sunlight-spectrum turbidity theta_s
+ -- Function: sunlight-spectrum turbidity theta_s |
Returns a vector of 41 values, the spectrum of sunlight from
380.nm to 790.nm for a given TURBIDITY and THETA_S.
- - Function: sunlight-xyz turbidity theta_s
- Returns (unnormalized) XYZ values for color of sunlight for a
- given TURBIDITY and THETA_S.
+ -- Function: sunlight-chromaticity turbidity theta_s |
+ Given TURBIDITY and THETA_S, `sunlight-chromaticity' returns the |
+ CIEXYZ triple for color of sunlight scaled to be just inside the |
+ RGB709 gamut. |
- - Function: sunlight-ciexyz turbidity theta_s
- Given TURBIDITY and THETA_S, `sunlight-ciexyz' returns the CIEXYZ
- triple for color of sunlight scaled to be just inside the RGB709
- gamut.
-
- - Function: zenith-xyy turbidity theta_s
+ -- Function: zenith-xyy turbidity theta_s |
Returns the xyY (chromaticity and luminance) at the zenith. The
Luminance has units kcd/m^2.
- - Function: overcast-sky-color-xyy turbidity theta_s
+ -- Function: overcast-sky-color-xyy turbidity theta_s |
TURBIDITY is a positive real number expressing the amount of light
scattering. The real number THETA_S is the solar angle from the
zenith in degrees.
@@ -7733,8 +8410,8 @@ turbidity values less than 1.3.
and returning the xyY value for light coming from that elevation
of the sky.
- - Function: clear-sky-color-xyy turbidity theta_s phi_s
- - Function: sky-color-xyy turbidity theta_s phi_s
+ -- Function: clear-sky-color-xyy turbidity theta_s phi_s |
+ -- Function: sky-color-xyy turbidity theta_s phi_s |
TURBIDITY is a positive real number expressing the amount of light
scattering. The real number THETA_S is the solar angle from the
zenith in degrees. The real number PHI_S is the solar angle from
@@ -7751,33 +8428,33 @@ turbidity values less than 1.3.

File: slib.info, Node: Root Finding, Next: Minimizing, Prev: Color, Up: Mathematical Packages
-Root Finding
-============
+5.10 Root Finding |
+================= |
-`(require 'root)'
+`(require 'root)'
- - Function: newton:find-integer-root f df/dx x0
+ -- Function: newton:find-integer-root f df/dx x0 |
Given integer valued procedure F, its derivative (with respect to
its argument) DF/DX, and initial integer value X0 for which
DF/DX(X0) is non-zero, returns an integer X for which F(X) is
closer to zero than either of the integers adjacent to X; or
returns `#f' if such an integer can't be found.
- To find the closest integer to a given integers square root:
+ To find the closest integer to a given integer's square root: |
(define (integer-sqrt y)
(newton:find-integer-root
(lambda (x) (- (* x x) y))
(lambda (x) (* 2 x))
(ash 1 (quotient (integer-length y) 2))))
-
+
(integer-sqrt 15) => 4
- - Function: integer-sqrt y
+ -- Function: integer-sqrt y |
Given a non-negative integer Y, returns the rounded square-root of
Y.
- - Function: newton:find-root f df/dx x0 prec
+ -- Function: newton:find-root f df/dx x0 prec |
Given real valued procedures F, DF/DX of one (real) argument,
initial real value X0 for which DF/DX(X0) is non-zero, and
positive real number PREC, returns a real X for which `abs'(F(X))
@@ -7794,7 +8471,7 @@ Polynomials', IEEE Transactions on Circuits and Systems, Vol. 36, No.
value of 1000+j0 should have Z_k of 1.0475 + j4.1036 and line k=2
for starting value of 0+j1000 should have Z_k of 1.0988 + j4.0833.
- - Function: laguerre:find-root f df/dz ddf/dz^2 z0 prec
+ -- Function: laguerre:find-root f df/dz ddf/dz^2 z0 prec |
Given complex valued procedure F of one (complex) argument, its
derivative (with respect to its argument) DF/DX, its second
derivative DDF/DZ^2, initial complex value Z0, and positive real
@@ -7805,7 +8482,7 @@ Polynomials', IEEE Transactions on Circuits and Systems, Vol. 36, No.
If PREC is instead a negative integer, `laguerre:find-root'
returns the result of -PREC iterations.
- - Function: laguerre:find-polynomial-root deg f df/dz ddf/dz^2 z0 prec
+ -- Function: laguerre:find-polynomial-root deg f df/dz ddf/dz^2 z0 prec |
Given polynomial procedure F of integer degree DEG of one
argument, its derivative (with respect to its argument) DF/DX, its
second derivative DDF/DZ^2, initial complex value Z0, and positive
@@ -7817,8 +8494,8 @@ Polynomials', IEEE Transactions on Circuits and Systems, Vol. 36, No.
`laguerre:find-polynomial-root' returns the result of -PREC
iterations.
- - Function: secant:find-root f x0 x1 prec
- - Function: secant:find-bracketed-root f x0 x1 prec
+ -- Function: secant:find-root f x0 x1 prec |
+ -- Function: secant:find-bracketed-root f x0 x1 prec |
Given a real valued procedure F and two real valued starting
points X0 and X1, returns a real X for which `(abs (f x))' is less
than PREC; or returns `#f' if such a real can't be found.
@@ -7846,10 +8523,10 @@ Polynomials', IEEE Transactions on Circuits and Systems, Vol. 36, No.

File: slib.info, Node: Minimizing, Next: Commutative Rings, Prev: Root Finding, Up: Mathematical Packages
-Minimizing
-==========
+5.11 Minimizing |
+=============== |
-`(require 'minimize)'
+`(require 'minimize)'
The Golden Section Search (1) algorithm finds minima of functions which
are expensive to compute or for which derivatives are not available.
@@ -7860,7 +8537,7 @@ If the derivative is available, Newton-Raphson is probably a better
choice. If the function is inexpensive to compute, consider
approximating the derivative.
- - Function: golden-section-search f x0 x1 prec
+ -- Function: golden-section-search f x0 x1 prec |
X_0 are X_1 real numbers. The (single argument) procedure F is
unimodal over the open interval (X_0, X_1). That is, there is
exactly one point in the interval for which the derivative of F is
@@ -7893,27 +8570,27 @@ and Software' Prentice-Hall, 1989, ISBN 0-13-627258-4

File: slib.info, Node: Commutative Rings, Next: Matrix Algebra, Prev: Minimizing, Up: Mathematical Packages
-Commutative Rings
-=================
+5.12 Commutative Rings |
+====================== |
Scheme provides a consistent and capable set of numeric functions.
Inexacts implement a field; integers a commutative ring (and Euclidean
domain). This package allows one to use basic Scheme numeric functions
with symbols and non-numeric elements of commutative rings.
- `(require 'commutative-ring)'
+ `(require 'commutative-ring)'
The "commutative-ring" package makes the procedures `+', `-', `*',
`/', and `^' "careful" in the sense that any non-numeric arguments they
do not reduce appear in the expression output. In order to see what
working with this package is like, self-set all the single letter
-identifiers (to their corresponding symbols).
+identifiers (to their corresponding symbols).
(define a 'a)
...
(define z 'z)
- Or just `(require 'self-set)'. Now try some sample expressions:
+ Or just `(require 'self-set)'. Now try some sample expressions:
(+ (+ a b) (- a b)) => (* a 2)
(* (+ a b) (+ a b)) => (^ (+ a b) 2)
@@ -7930,7 +8607,7 @@ multiplication converted to multiplication and exponentiation.
We can enable distributive rules, thus expanding to sum of products
form:
(set! *ruleset* (combined-rulesets distribute* distribute/))
-
+
(* (+ a b) (+ a b)) => (+ (* 2 a b) (^ a 2) (^ b 2))
(* (+ a b) (- a b)) => (- (^ a 2) (^ b 2))
(* (- a b) (- a b)) => (- (+ (^ a 2) (^ b 2)) (* 2 a b))
@@ -7946,7 +8623,7 @@ form:
expressions:
(require 'determinant)
-
+
(determinant '((a b c) (d e f) (g h i))) =>
(- (+ (* a e i) (* b f g) (* c d h)) (* a f h) (* b d i) (* c e g))
@@ -7957,30 +8634,30 @@ expressions are handled similarly.
This list might be extended to include `quotient', `modulo',
`remainder', `lcm', and `gcd'; but these work only for the more
-restrictive Euclidean (Unique Factorization) Domain.
+restrictive Euclidean (Unique Factorization) Domain.
-Rules and Rulesets
-==================
+5.13 Rules and Rulesets |
+======================= |
The "commutative-ring" package allows control of ring properties
through the use of "rulesets".
- - Variable: *ruleset*
+ -- Variable: *ruleset* |
Contains the set of rules currently in effect. Rules defined by
`cring:define-rule' are stored within the value of *ruleset* at the
time `cring:define-rule' is called. If *RULESET* is `#f', then no
rules apply.
- - Function: make-ruleset rule1 ...
- - Function: make-ruleset name rule1 ...
+ -- Function: make-ruleset rule1 ... |
+ -- Function: make-ruleset name rule1 ... |
Returns a new ruleset containing the rules formed by applying
`cring:define-rule' to each 4-element list argument RULE. If the
first argument to `make-ruleset' is a symbol, then the database
table created for the new ruleset will be named NAME. Calling
`make-ruleset' with no rule arguments creates an empty ruleset.
- - Function: combined-rulesets ruleset1 ...
- - Function: combined-rulesets name ruleset1 ...
+ -- Function: combined-rulesets ruleset1 ... |
+ -- Function: combined-rulesets name ruleset1 ... |
Returns a new ruleset containing the rules contained in each
ruleset argument RULESET. If the first argument to
`combined-ruleset' is a symbol, then the database table created for
@@ -7989,11 +8666,11 @@ through the use of "rulesets".
Two rulesets are defined by this package.
- - Constant: distribute*
+ -- Constant: distribute* |
Contains the ruleset to distribute multiplication over addition and
subtraction.
- - Constant: distribute/
+ -- Constant: distribute/ |
Contains the ruleset to distribute division over addition and
subtraction.
@@ -8005,14 +8682,14 @@ elements simplify by specifying the rules for `+' or `*' for cases
where expressions involving objects reduce to numbers or to expressions
involving different non-numeric elements.
- - Function: cring:define-rule op sub-op1 sub-op2 reduction
+ -- Function: cring:define-rule op sub-op1 sub-op2 reduction |
Defines a rule for the case when the operation represented by
symbol OP is applied to lists whose `car's are SUB-OP1 and
SUB-OP2, respectively. The argument REDUCTION is a procedure
accepting 2 arguments which will be lists whose `car's are SUB-OP1
and SUB-OP2.
- - Function: cring:define-rule op sub-op1 'identity reduction
+ -- Function: cring:define-rule op sub-op1 'identity reduction |
Defines a rule for the case when the operation represented by
symbol OP is applied to a list whose `car' is SUB-OP1, and some
other argument. REDUCTION will be called with the list whose
@@ -8033,8 +8710,8 @@ involving different non-numeric elements.
(lambda (exp1 exp2)
(apply + (map (lambda (trm) (* trm exp2)) (cdr exp1))))))
-How to Create a Commutative Ring
-================================
+5.14 How to Create a Commutative Ring |
+===================================== |
The first step in creating your commutative ring is to write procedures
to create elements of the ring. A non-numeric element of the ring must
@@ -8050,9 +8727,9 @@ symbol whose top-level value is the procedure to create it.
((not (term< (first list1) (last1 list1)))
(apply n (reverse list1)))
(else (cons 'n list1))))
-
+
(define (s x y) (n x y))
-
+
(define (m . list1)
(cond ((neq? (first list1) (term_min list1))
(apply m (cyclicrotate list1)))
@@ -8113,7 +8790,7 @@ have _not_ been defined are not changed.
(eq? (first list1) (last1 list2)))
(butlast (splice list1 list2) 1))
(else (slib:error 'cyclicsplice list1 list2))))
-
+
(N*N (S a b) (S a b)) => (m a b)
Then register the rule for multiplying type N objects by type N
@@ -8172,21 +8849,21 @@ objects.

File: slib.info, Node: Matrix Algebra, Prev: Commutative Rings, Up: Mathematical Packages
-Matrix Algebra
-==============
+5.15 Matrix Algebra |
+=================== |
-`(require 'determinant)'
+`(require 'determinant)'
-A Matrix can be either a list of lists (rows) or an array. As with
-linear-algebra texts, this package uses 1-based coordinates.
+A Matrix can be either a list of lists (rows) or an array. Unlike |
+linear-algebra texts, this package uses 0-based coordinates. |
- - Function: matrix->lists matrix
+ -- Function: matrix->lists matrix |
Returns the list-of-lists form of MATRIX.
- - Function: matrix->array matrix
+ -- Function: matrix->array matrix |
Returns the (ones-based) array form of MATRIX.
- - Function: determinant matrix
+ -- Function: determinant matrix |
MATRIX must be a square matrix. `determinant' returns the
determinant of MATRIX.
@@ -8194,14 +8871,14 @@ linear-algebra texts, this package uses 1-based coordinates.
(determinant '((1 2) (3 4))) => -2
(determinant '((1 2 3) (4 5 6) (7 8 9))) => 0
- - Function: transpose matrix
+ -- Function: transpose matrix |
Returns a copy of MATRIX flipped over the diagonal containing the
1,1 element.
- - Function: matrix:product m1 m2
+ -- Function: matrix:product m1 m2 |
Returns the product of matrices M1 and M2.
- - Function: matrix:inverse matrix
+ -- Function: matrix:inverse matrix |
MATRIX must be a square matrix. If MATRIX is singlar, then
`matrix:inverse' returns #f; otherwise `matrix:inverse' returns the
`matrix:product' inverse of MATRIX.
@@ -8209,22 +8886,22 @@ linear-algebra texts, this package uses 1-based coordinates.

File: slib.info, Node: Database Packages, Next: Other Packages, Prev: Mathematical Packages, Up: Top
-Database Packages
-*****************
+6 Database Packages |
+******************* |
* Menu:
- |
+
* Relational Database:: 'relational-database
-* Relational Infrastructure:: |
+* Relational Infrastructure::
* Weight-Balanced Trees:: 'wt-tree

File: slib.info, Node: Relational Database, Next: Relational Infrastructure, Prev: Database Packages, Up: Database Packages
- |
-Relational Database
-===================
-`(require 'relational-database)'
+6.1 Relational Database |
+======================= |
+
+`(require 'relational-database)'
This package implements a database system inspired by the Relational
Model (`E. F. Codd, A Relational Model of Data for Large Shared Data
@@ -8232,24 +8909,24 @@ Banks'). An SLIB relational database implementation can be created
from any *Note Base Table:: implementation.
Why relational database? For motivations and design issues see
-`http://swissnet.ai.mit.edu/~jaffer/DBManifesto.html'.
+`http://swiss.csail.mit.edu/~jaffer/DBManifesto.html'. |
* Menu:
-* Using Databases:: 'databases |
+* Using Databases:: 'databases
* Table Operations::
-* Database Interpolation:: 'database-interpolate |
+* Database Interpolation:: 'database-interpolate
* Embedded Commands:: 'database-commands
-* Database Macros:: 'within-database |
+* Database Macros:: 'within-database
* Database Browser:: 'database-browse

File: slib.info, Node: Using Databases, Next: Table Operations, Prev: Relational Database, Up: Relational Database
- |
-Using Databases
----------------
-`(require 'databases)'
+6.1.1 Using Databases |
+--------------------- |
+
+`(require 'databases)'
This enhancement wraps a utility layer on `relational-database' which
provides:
@@ -8285,58 +8962,58 @@ Database Operations::. Except for `create-database', each procedure
will accept either a filename or database procedure for its first
argument.
- - Function: create-database filename base-table-type
- FILENAME should be a string naming a file; or `#f'. |
- BASE-TABLE-TYPE must be a symbol naming a feature which can be |
- passed to `require'. `create-database' returns a new, open |
- relational database (with base-table type BASE-TABLE-TYPE) |
- associated with FILENAME, or a new ephemeral database if FILENAME |
- is `#f'. |
+ -- Function: create-database filename base-table-type |
+ FILENAME should be a string naming a file; or `#f'.
+ BASE-TABLE-TYPE must be a symbol naming a feature which can be
+ passed to `require'. `create-database' returns a new, open
+ relational database (with base-table type BASE-TABLE-TYPE)
+ associated with FILENAME, or a new ephemeral database if FILENAME
+ is `#f'.
- `create-database' is the only run-time use of require in SLIB |
- which crosses module boundaries. When BASE-TABLE-TYPE is |
- `require'd by `create-database'; it adds an association of |
- BASE-TABLE-TYPE with its "relational-system" procedure to |
- MDBM:*DATABASES*. |
+ `create-database' is the only run-time use of require in SLIB
+ which crosses module boundaries. When BASE-TABLE-TYPE is
+ `require'd by `create-database'; it adds an association of
+ BASE-TABLE-TYPE with its "relational-system" procedure to
+ MDBM:*DATABASES*.
- alist-table is the default base-table type: |
- |
- (require 'databases) |
- (define my-rdb (create-database "my.db" 'alist-table)) |
- |
-Only `alist-table' and base-table modules which have been `require'd |
-will dispatch correctly from the `open-database' procedures. |
-Therefore, either pass two arguments to `open-database', or require the |
-base-table of your database file uses before calling `open-database' |
-with one argument. |
- |
- - Procedure: open-database! rdb base-table-type |
+ alist-table is the default base-table type:
+
+ (require 'databases)
+ (define my-rdb (create-database "my.db" 'alist-table))
+
+Only `alist-table' and base-table modules which have been `require'd
+will dispatch correctly from the `open-database' procedures.
+Therefore, either pass two arguments to `open-database', or require the
+base-table of your database file uses before calling `open-database'
+with one argument.
+
+ -- Procedure: open-database! rdb base-table-type |
Returns _mutable_ open relational database or #f.
- - Function: open-database rdb base-table-type
+ -- Function: open-database rdb base-table-type |
Returns an open relational database associated with RDB. The
database will be opened with base-table type BASE-TABLE-TYPE).
- - Function: open-database rdb
+ -- Function: open-database rdb |
Returns an open relational database associated with RDB.
`open-database' will attempt to deduce the correct base-table-type.
- - Function: write-database rdb filename
+ -- Function: write-database rdb filename |
Writes the mutable relational-database RDB to FILENAME.
- - Function: sync-database rdb
+ -- Function: sync-database rdb |
Writes the mutable relational-database RDB to the filename it was
opened with.
- - Function: solidify-database rdb
+ -- Function: solidify-database rdb |
Syncs RDB and makes it immutable.
- - Function: close-database rdb
+ -- Function: close-database rdb |
RDB will only be closed when the count of `open-database' -
`close-database' calls for RDB (and its filename) is 0.
`close-database' returns #t if successful; and #f otherwise.
- - Function: mdbm:report
+ -- Function: mdbm:report |
Prints a table of open database files. The columns are the
base-table type, number of opens, `!' for mutable, the filename,
and the lock certificate (if locked).
@@ -8346,37 +9023,37 @@ with one argument. |
alist-table 003 /usr/local/lib/slib/clrnamdb.scm
alist-table 001 ! sdram.db jaffer@aubrey.jaffer.3166:1038628199
-Opening Tables |
-.............. |
- |
- - Function: open-table rdb table-name |
- RDB must be a relational database and TABLE-NAME a symbol. |
- |
- `open-table' returns a "methods" procedure for an existing |
- relational table in RDB if it exists and can be opened for |
- reading, otherwise returns `#f'. |
- |
- - Procedure: open-table! rdb table-name |
- RDB must be a relational database and TABLE-NAME a symbol. |
- |
- `open-table!' returns a "methods" procedure for an existing |
- relational table in RDB if it exists and can be opened in mutable |
- mode, otherwise returns `#f'. |
- |
+Opening Tables
+..............
+
+ -- Function: open-table rdb table-name |
+ RDB must be a relational database and TABLE-NAME a symbol.
+
+ `open-table' returns a "methods" procedure for an existing
+ relational table in RDB if it exists and can be opened for
+ reading, otherwise returns `#f'.
+
+ -- Procedure: open-table! rdb table-name |
+ RDB must be a relational database and TABLE-NAME a symbol.
+
+ `open-table!' returns a "methods" procedure for an existing
+ relational table in RDB if it exists and can be opened in mutable
+ mode, otherwise returns `#f'.
+
Defining Tables
...............
- - Function: define-domains rdb row5 ... |
- Adds the domain rows ROW5 ... to the `*domains-data*' table in |
+ -- Function: define-domains rdb row5 ... |
+ Adds the domain rows ROW5 ... to the `*domains-data*' table in
RDB. The format of the row is given in *Note Catalog
- Representation::. |
- |
- (define-domains rdb '(permittivity #f complex? c64 #f)) |
- |
- - Function: add-domain rdb row5 |
- Use `define-domains' instead. |
- |
- - Function: define-tables rdb spec-0 ...
+ Representation::.
+
+ (define-domains rdb '(permittivity #f complex? c64 #f))
+
+ -- Function: add-domain rdb row5 |
+ Use `define-domains' instead.
+
+ -- Function: define-tables rdb spec-0 ... |
Adds tables as specified in SPEC-0 ... to the open
relational-database RDB. Each SPEC has the form:
@@ -8404,12 +9081,12 @@ Defining Tables
If <domain> is not a defined domain name and it matches the name of
this table or an already defined (in one of SPEC-0 ...) single key
- field table, a foreign-key domain will be created for it. |
+ field table, a foreign-key domain will be created for it.
Listing Tables
..............
- - Function: list-table-definition rdb table-name
+ -- Function: list-table-definition rdb table-name |
If symbol TABLE-NAME exists in the open relational-database RDB,
then returns a list of the table-name, its primary key names and
domains, its other key names and domains, and the table's records
@@ -8420,57 +9097,57 @@ Listing Tables

File: slib.info, Node: Table Operations, Next: Database Interpolation, Prev: Using Databases, Up: Relational Database
- |
-Table Operations |
----------------- |
+
+6.1.2 Table Operations |
+---------------------- |
These are the descriptions of the methods available from an open
-relational table. A method is retrieved from a table by calling the |
-table with the symbol name of the operation. For example: |
+relational table. A method is retrieved from a table by calling the
+table with the symbol name of the operation. For example:
- ((plat 'get 'processor) 'djgpp) => i386 |
+ ((plat 'get 'processor) 'djgpp) => i386
-Some operations described below require primary key arguments. Primary |
-keys arguments are denoted KEY1 KEY2 .... It is an error to call an |
-operation for a table which takes primary key arguments with the wrong |
-number of primary keys for that table. |
+Some operations described below require primary key arguments. Primary
+keys arguments are denoted KEY1 KEY2 .... It is an error to call an
+operation for a table which takes primary key arguments with the wrong
+number of primary keys for that table.
- - Operation on relational-table: get column-name |
- Returns a procedure of arguments KEY1 KEY2 ... which returns the |
- value for the COLUMN-NAME column of the row associated with |
- primary keys KEY1, KEY2 ... if that row exists in the table, or |
- `#f' otherwise. |
+ -- Operation on relational-table: get column-name |
+ Returns a procedure of arguments KEY1 KEY2 ... which returns the
+ value for the COLUMN-NAME column of the row associated with
+ primary keys KEY1, KEY2 ... if that row exists in the table, or
+ `#f' otherwise.
- ((plat 'get 'processor) 'djgpp) => i386 |
- ((plat 'get 'processor) 'be-os) => #f |
+ ((plat 'get 'processor) 'djgpp) => i386
+ ((plat 'get 'processor) 'be-os) => #f
-* Menu: |
+* Menu:
-* Single Row Operations:: |
-* Match-Keys:: |
-* Multi-Row Operations:: |
-* Indexed Sequential Access Methods:: |
-* Sequential Index Operations:: |
-* Table Administration:: |
+* Single Row Operations::
+* Match-Keys::
+* Multi-Row Operations::
+* Indexed Sequential Access Methods::
+* Sequential Index Operations::
+* Table Administration::

File: slib.info, Node: Single Row Operations, Next: Match-Keys, Prev: Table Operations, Up: Table Operations
- |
-Single Row Operations |
-..................... |
-The term "row" used below refers to a Scheme list of values (one for |
-each column) in the order specified in the descriptor (table) for this |
-table. Missing values appear as `#f'. Primary keys must not be |
-missing. |
- |
- - Operation on relational-table: row:insert |
- Adds the row ROW to this table. If a row for the primary key(s) |
- specified by ROW already exists in this table an error is |
- signaled. The value returned is unspecified. |
+6.1.2.1 Single Row Operations |
+............................. |
+
+The term "row" used below refers to a Scheme list of values (one for
+each column) in the order specified in the descriptor (table) for this
+table. Missing values appear as `#f'. Primary keys must not be
+missing.
+
+ -- Operation on relational-table: row:insert |
+ Adds the row ROW to this table. If a row for the primary key(s)
+ specified by ROW already exists in this table an error is
+ signaled. The value returned is unspecified.
(define telephone-table-desc
- ((my-database 'create-table) 'telephone-table-desc)) |
+ ((my-database 'create-table) 'telephone-table-desc))
(define ndrp (telephone-table-desc 'row:insert))
(ndrp '(1 #t name #f string))
(ndrp '(2 #f telephone
@@ -8483,93 +9160,93 @@ missing. |
(string->list d))))
string))
- - Operation on relational-table: row:update |
- Returns a procedure of one argument, ROW, which adds the row, ROW, |
- to this table. If a row for the primary key(s) specified by ROW |
- already exists in this table, it will be overwritten. The value |
- returned is unspecified. |
+ -- Operation on relational-table: row:update |
+ Returns a procedure of one argument, ROW, which adds the row, ROW,
+ to this table. If a row for the primary key(s) specified by ROW
+ already exists in this table, it will be overwritten. The value
+ returned is unspecified.
- - Operation on relational-table: row:retrieve |
+ -- Operation on relational-table: row:retrieve |
Returns a procedure of arguments KEY1 KEY2 ... which returns the
- row associated with primary keys KEY1, KEY2 ... if it exists, or |
+ row associated with primary keys KEY1, KEY2 ... if it exists, or
`#f' otherwise.
- ((plat 'row:retrieve) 'linux) => (linux i386 linux gcc) |
- ((plat 'row:retrieve) 'multics) => #f |
+ ((plat 'row:retrieve) 'linux) => (linux i386 linux gcc)
+ ((plat 'row:retrieve) 'multics) => #f
+
+ -- Operation on relational-table: row:remove |
+ Returns a procedure of arguments KEY1 KEY2 ... which removes and
+ returns the row associated with primary keys KEY1, KEY2 ... if it
+ exists, or `#f' otherwise.
+
+ -- Operation on relational-table: row:delete |
+ Returns a procedure of arguments KEY1 KEY2 ... which deletes the
+ row associated with primary keys KEY1, KEY2 ... if it exists. The
+ value returned is unspecified.
- - Operation on relational-table: row:remove |
- Returns a procedure of arguments KEY1 KEY2 ... which removes and |
- returns the row associated with primary keys KEY1, KEY2 ... if it |
- exists, or `#f' otherwise. |
- |
- - Operation on relational-table: row:delete |
- Returns a procedure of arguments KEY1 KEY2 ... which deletes the |
- row associated with primary keys KEY1, KEY2 ... if it exists. The |
- value returned is unspecified. |
- |

File: slib.info, Node: Match-Keys, Next: Multi-Row Operations, Prev: Single Row Operations, Up: Table Operations
- |
-Match-Keys |
-.......... |
- |
-The (optional) MATCH-KEY1 ... arguments are used to restrict actions of |
-a whole-table operation to a subset of that table. Those procedures |
-(returned by methods) which accept match-key arguments will accept any |
-number of match-key arguments between zero and the number of primary |
-keys in the table. Any unspecified MATCH-KEY arguments default to `#f'. |
- |
-The MATCH-KEY1 ... restrict the actions of the table command to those |
-records whose primary keys each satisfy the corresponding MATCH-KEY |
-argument. The arguments and their actions are: |
- |
- `#f' |
- The false value matches any key in the corresponding position. |
- |
- an object of type procedure |
- This procedure must take a single argument, the key in the |
- corresponding position. Any key for which the procedure |
- returns a non-false value is a match; Any key for which the |
- procedure returns a `#f' is not. |
- |
- other values |
- Any other value matches only those keys `equal?' to it. |
- |
- - Operation on relational-table: get* column-name |
+
+6.1.2.2 Match-Keys |
+.................. |
+
+The (optional) MATCH-KEY1 ... arguments are used to restrict actions of
+a whole-table operation to a subset of that table. Those procedures
+(returned by methods) which accept match-key arguments will accept any
+number of match-key arguments between zero and the number of primary
+keys in the table. Any unspecified MATCH-KEY arguments default to `#f'.
+
+The MATCH-KEY1 ... restrict the actions of the table command to those
+records whose primary keys each satisfy the corresponding MATCH-KEY
+argument. The arguments and their actions are:
+
+ `#f'
+ The false value matches any key in the corresponding position.
+
+ an object of type procedure
+ This procedure must take a single argument, the key in the
+ corresponding position. Any key for which the procedure
+ returns a non-false value is a match; Any key for which the
+ procedure returns a `#f' is not.
+
+ other values
+ Any other value matches only those keys `equal?' to it.
+
+ -- Operation on relational-table: get* column-name |
Returns a procedure of optional arguments MATCH-KEY1 ... which
returns a list of the values for the specified column for all rows
in this table. The optional MATCH-KEY1 ... arguments restrict
- actions to a subset of the table. |
+ actions to a subset of the table.
((plat 'get* 'processor)) =>
- (i386 i8086 i386 i8086 i386 i386 i8086 m68000 |
+ (i386 i8086 i386 i8086 i386 i386 i8086 m68000
m68000 m68000 m68000 m68000 powerpc)
-
+
((plat 'get* 'processor) #f) =>
- (i386 i8086 i386 i8086 i386 i386 i8086 m68000 |
+ (i386 i8086 i386 i8086 i386 i386 i8086 m68000
m68000 m68000 m68000 m68000 powerpc)
-
+
(define (a-key? key)
(char=? #\a (string-ref (symbol->string key) 0)))
-
+
((plat 'get* 'processor) a-key?) =>
(m68000 m68000 m68000 m68000 m68000 powerpc)
-
+
((plat 'get* 'name) a-key?) =>
(atari-st-turbo-c atari-st-gcc amiga-sas/c-5.10
amiga-aztec amiga-dice-c aix)

File: slib.info, Node: Multi-Row Operations, Next: Indexed Sequential Access Methods, Prev: Match-Keys, Up: Table Operations
- |
-Multi-Row Operations |
-.................... |
- - Operation on relational-table: row:retrieve* |
+6.1.2.3 Multi-Row Operations |
+............................ |
+
+ -- Operation on relational-table: row:retrieve* |
Returns a procedure of optional arguments MATCH-KEY1 ... which
returns a list of all rows in this table. The optional MATCH-KEY1
- ... arguments restrict actions to a subset of the table. For |
- details see *Note Match-Keys::. |
+ ... arguments restrict actions to a subset of the table. For
+ details see *Note Match-Keys::.
((plat 'row:retrieve*) a-key?) =>
((atari-st-turbo-c m68000 atari turbo-c)
@@ -8579,171 +9256,171 @@ Multi-Row Operations |
(amiga-dice-c m68000 amiga dice-c)
(aix powerpc aix -))
- - Operation on relational-table: row:remove* |
+ -- Operation on relational-table: row:remove* |
Returns a procedure of optional arguments MATCH-KEY1 ... which
removes and returns a list of all rows in this table. The optional
- MATCH-KEY1 ... arguments restrict actions to a subset of the table. |
+ MATCH-KEY1 ... arguments restrict actions to a subset of the table.
- - Operation on relational-table: row:delete* |
+ -- Operation on relational-table: row:delete* |
Returns a procedure of optional arguments MATCH-KEY1 ... which
Deletes all rows from this table. The optional MATCH-KEY1 ...
- arguments restrict deletions to a subset of the table. The value |
- returned is unspecified. The descriptor table and catalog entry |
- for this table are not affected. |
+ arguments restrict deletions to a subset of the table. The value
+ returned is unspecified. The descriptor table and catalog entry
+ for this table are not affected.
- - Operation on relational-table: for-each-row |
- Returns a procedure of arguments PROC MATCH-KEY1 ... which calls |
- PROC with each ROW in this table. The optional MATCH-KEY1 ... |
- arguments restrict actions to a subset of the table. For details |
- see *Note Match-Keys::. |
+ -- Operation on relational-table: for-each-row |
+ Returns a procedure of arguments PROC MATCH-KEY1 ... which calls
+ PROC with each ROW in this table. The optional MATCH-KEY1 ...
+ arguments restrict actions to a subset of the table. For details
+ see *Note Match-Keys::.
-Note that `row:insert*' and `row:update*' do _not_ use match-keys. |
- |
- - Operation on relational-table: row:insert* |
+Note that `row:insert*' and `row:update*' do _not_ use match-keys.
+
+ -- Operation on relational-table: row:insert* |
Returns a procedure of one argument, ROWS, which adds each row in
the list of rows, ROWS, to this table. If a row for the primary
key specified by an element of ROWS already exists in this table,
- an error is signaled. The value returned is unspecified. |
+ an error is signaled. The value returned is unspecified.
- - Operation on relational-table: row:update* |
+ -- Operation on relational-table: row:update* |
Returns a procedure of one argument, ROWS, which adds each row in
the list of rows, ROWS, to this table. If a row for the primary
key specified by an element of ROWS already exists in this table,
- it will be overwritten. The value returned is unspecified. |
+ it will be overwritten. The value returned is unspecified.

File: slib.info, Node: Indexed Sequential Access Methods, Next: Sequential Index Operations, Prev: Multi-Row Operations, Up: Table Operations
- |
-Indexed Sequential Access Methods |
-................................. |
- |
-"Indexed Sequential Access Methods" are a way of arranging database |
-information so that records can be accessed both by key and by key |
-sequence (ordering). "ISAM" is not part of Codd's relational model. |
-Hardcore relational programmers might use some least-upper-bound join |
-for every row to get them into an order. |
- |
-Associative memory in B-Trees is an example of a database |
-implementation which can support a native key ordering. SLIB's |
-`alist-table' implementation uses `sort' to implement |
-`for-each-row-in-order', but does not support `isam-next' and |
-`isam-prev'. |
- |
-The multi-primary-key ordering employed by these operations is the |
-lexicographic collation of those primary-key fields in their given |
-order. For example: |
- |
- (12 a 34) < (12 a 36) < (12 b 1) < (13 a 0) |
- |
+
+6.1.2.4 Indexed Sequential Access Methods |
+......................................... |
+
+"Indexed Sequential Access Methods" are a way of arranging database
+information so that records can be accessed both by key and by key
+sequence (ordering). "ISAM" is not part of Codd's relational model.
+Hardcore relational programmers might use some least-upper-bound join
+for every row to get them into an order.
+
+Associative memory in B-Trees is an example of a database
+implementation which can support a native key ordering. SLIB's
+`alist-table' implementation uses `sort' to implement
+`for-each-row-in-order', but does not support `isam-next' and
+`isam-prev'.
+
+The multi-primary-key ordering employed by these operations is the
+lexicographic collation of those primary-key fields in their given
+order. For example:
+
+ (12 a 34) < (12 a 36) < (12 b 1) < (13 a 0)
+

File: slib.info, Node: Sequential Index Operations, Next: Table Administration, Prev: Indexed Sequential Access Methods, Up: Table Operations
- |
-Sequential Index Operations |
-........................... |
- |
-The following procedures are individually optional depending on the |
-base-table implememtation. If an operation is _not_ supported, then |
-calling the table with that operation symbol will return false. |
- |
- - Operation on relational-table: for-each-row-in-order |
+
+6.1.2.5 Sequential Index Operations |
+................................... |
+
+The following procedures are individually optional depending on the
+base-table implememtation. If an operation is _not_ supported, then
+calling the table with that operation symbol will return false.
+
+ -- Operation on relational-table: for-each-row-in-order |
Returns a procedure of arguments PROC MATCH-KEY1 ... which calls
PROC with each ROW in this table in the (implementation-dependent)
- natural, repeatable ordering for rows. The optional MATCH-KEY1 |
- ... arguments restrict actions to a subset of the table. For |
- details see *Note Match-Keys::. |
-
- - Operation on relational-table: isam-next |
- Returns a procedure of arguments KEY1 KEY2 ... which returns the |
- key-list identifying the lowest record higher than KEY1 KEY2 ... |
- which is stored in the relational-table; or false if no higher |
- record is present. |
-
- - Operation on relational-table: isam-next column-name |
- The symbol COLUMN-NAME names a key field. In the list returned by |
- `isam-next', that field, or a field to its left, will be changed. |
- This allows one to skip over less significant key fields. |
-
- - Operation on relational-table: isam-prev |
- Returns a procedure of arguments KEY1 KEY2 ... which returns the |
- key-list identifying the highest record less than KEY1 KEY2 ... |
- which is stored in the relational-table; or false if no lower |
- record is present. |
-
- - Operation on relational-table: isam-prev index |
- The symbol COLUMN-NAME names a key field. In the list returned by |
- `isam-next', that field, or a field to its left, will be changed. |
- This allows one to skip over less significant key fields. |
-
- For example, if a table has key fields: |
- (col1 col2) |
- (9 5) |
- (9 6) |
- (9 7) |
- (9 8) |
- (12 5) |
- (12 6) |
- (12 7) |
-
- Then: |
- ((table 'isam-next) '(9 5)) => (9 6) |
- ((table 'isam-next 'col2) '(9 5)) => (9 6) |
- ((table 'isam-next 'col1) '(9 5)) => (12 5) |
- ((table 'isam-prev) '(12 7)) => (12 6) |
- ((table 'isam-prev 'col2) '(12 7)) => (12 6) |
- ((table 'isam-prev 'col1) '(12 7)) => (9 8) |
+ natural, repeatable ordering for rows. The optional MATCH-KEY1
+ ... arguments restrict actions to a subset of the table. For
+ details see *Note Match-Keys::.
+
+ -- Operation on relational-table: isam-next |
+ Returns a procedure of arguments KEY1 KEY2 ... which returns the
+ key-list identifying the lowest record higher than KEY1 KEY2 ...
+ which is stored in the relational-table; or false if no higher
+ record is present.
+
+ -- Operation on relational-table: isam-next column-name |
+ The symbol COLUMN-NAME names a key field. In the list returned by
+ `isam-next', that field, or a field to its left, will be changed.
+ This allows one to skip over less significant key fields.
+
+ -- Operation on relational-table: isam-prev |
+ Returns a procedure of arguments KEY1 KEY2 ... which returns the
+ key-list identifying the highest record less than KEY1 KEY2 ...
+ which is stored in the relational-table; or false if no lower
+ record is present.
+
+ -- Operation on relational-table: isam-prev column-name |
+ The symbol COLUMN-NAME names a key field. In the list returned by
+ `isam-next', that field, or a field to its left, will be changed.
+ This allows one to skip over less significant key fields.
+
+ For example, if a table has key fields:
+ (col1 col2)
+ (9 5)
+ (9 6)
+ (9 7)
+ (9 8)
+ (12 5)
+ (12 6)
+ (12 7)
+
+ Then:
+ ((table 'isam-next) '(9 5)) => (9 6)
+ ((table 'isam-next 'col2) '(9 5)) => (9 6)
+ ((table 'isam-next 'col1) '(9 5)) => (12 5)
+ ((table 'isam-prev) '(12 7)) => (12 6)
+ ((table 'isam-prev 'col2) '(12 7)) => (12 6)
+ ((table 'isam-prev 'col1) '(12 7)) => (9 8)

File: slib.info, Node: Table Administration, Prev: Sequential Index Operations, Up: Table Operations
- |
-Table Administration |
-.................... |
- |
- - Operation on relational-table: column-names |
- - Operation on relational-table: column-foreigns |
- - Operation on relational-table: column-domains |
- - Operation on relational-table: column-types |
+
+6.1.2.6 Table Administration |
+............................ |
+
+ -- Operation on relational-table: column-names |
+ -- Operation on relational-table: column-foreigns |
+ -- Operation on relational-table: column-domains |
+ -- Operation on relational-table: column-types |
Return a list of the column names, foreign-key table names, domain
names, or type names respectively for this table. These 4 methods
are different from the others in that the list is returned, rather
than a procedure to obtain the list.
- - Operation on relational-table: primary-limit |
+ -- Operation on relational-table: primary-limit |
Returns the number of primary keys fields in the relations in this
table.
- - Operation on relational-table: close-table |
- Subsequent operations to this table will signal an error. |
- |
+ -- Operation on relational-table: close-table |
+ Subsequent operations to this table will signal an error.
+

File: slib.info, Node: Database Interpolation, Next: Embedded Commands, Prev: Table Operations, Up: Relational Database
- |
-Database Interpolation |
-----------------------
-`(require 'database-interpolate)' |
+6.1.3 Database Interpolation |
+---------------------------- |
+
+`(require 'database-interpolate)'
-Indexed sequential access methods allow finding the keys (having |
-associations) closest to a given value. This facilitates the |
-interpolation of associations between those in the table. |
+Indexed sequential access methods allow finding the keys (having
+associations) closest to a given value. This facilitates the
+interpolation of associations between those in the table.
- - Function: interpolate-from-table table column |
- TABLE should be a relational table with one numeric primary key |
- field which supports the `isam-prev' and `isam-next' operations. |
- COLUMN should be a symbol or exact positive integer designating a |
- numerically valued column of TABLE. |
+ -- Function: interpolate-from-table table column |
+ TABLE should be a relational table with one numeric primary key
+ field which supports the `isam-prev' and `isam-next' operations.
+ COLUMN should be a symbol or exact positive integer designating a
+ numerically valued column of TABLE.
- `interpolate-from-table' calculates and returns a value |
- proportionally intermediate between its values in the next and |
- previous key records contained in TABLE. For keys larger than all |
- the stored keys the value associated with the largest stored key |
- is used. For keys smaller than all the stored keys the value |
- associated with the smallest stored key is used. |
+ `interpolate-from-table' calculates and returns a value
+ proportionally intermediate between its values in the next and
+ previous key records contained in TABLE. For keys larger than all
+ the stored keys the value associated with the largest stored key
+ is used. For keys smaller than all the stored keys the value
+ associated with the smallest stored key is used.

File: slib.info, Node: Embedded Commands, Next: Database Macros, Prev: Database Interpolation, Up: Relational Database
- |
-Embedded Commands
------------------
+
+6.1.4 Embedded Commands |
+----------------------- |
`(require 'database-commands)'
@@ -8786,19 +9463,19 @@ code in the `*commands*' table.

File: slib.info, Node: Database Extension, Next: Command Intrinsics, Prev: Embedded Commands, Up: Embedded Commands
-Database Extension
-..................
+6.1.4.1 Database Extension |
+.......................... |
- - Function: wrap-command-interface rdb
+ -- Function: wrap-command-interface rdb |
Returns relational database RDB wrapped with additional commands
defined in its *commands* table.
- - Function: add-command-tables rdb
+ -- Function: add-command-tables rdb |
The relational database RDB must be mutable. ADD-COMMAND-TABLES
adds a *command* table to RDB; then returns
`(wrap-command-interface RDB)'.
- - Function: define-*commands* rdb spec-0 ...
+ -- Function: define-*commands* rdb spec-0 ... |
Adds commands to the `*commands*' table as specified in SPEC-0 ...
to the open relational-database RDB. Each SPEC has the form:
@@ -8816,8 +9493,8 @@ Database Extension
(lambda (<name> <rdb>) <expression1> <expression2> ...)
- - Function: open-command-database filename
- - Function: open-command-database filename base-table-type
+ -- Function: open-command-database filename |
+ -- Function: open-command-database filename base-table-type |
Returns an open enhanced relational database associated with
FILENAME. The database will be opened with base-table type
BASE-TABLE-TYPE) if supplied. If BASE-TABLE-TYPE is not supplied,
@@ -8825,28 +9502,28 @@ Database Extension
base-table-type. If the database can not be opened or if it lacks
the `*commands*' table, `#f' is returned.
- - Function: open-command-database! filename
- - Function: open-command-database! filename base-table-type
+ -- Function: open-command-database! filename |
+ -- Function: open-command-database! filename base-table-type |
Returns _mutable_ open enhanced relational database ...
- - Function: open-command-database database
+ -- Function: open-command-database database |
Returns DATABASE if it is an immutable relational database; #f
otherwise.
- - Function: open-command-database! database
+ -- Function: open-command-database! database |
Returns DATABASE if it is a mutable relational database; #f
otherwise.

File: slib.info, Node: Command Intrinsics, Next: Define-tables Example, Prev: Database Extension, Up: Embedded Commands
-Command Intrinsics
-..................
+6.1.4.2 Command Intrinsics |
+.......................... |
Some commands are defined in all extended relational-databases. The are
called just like *Note Database Operations::.
- - Operation on relational-database: add-domain domain-row |
+ -- Operation on relational-database: add-domain domain-row |
Adds DOMAIN-ROW to the "domains" table if there is no row in the
domains table associated with key `(car DOMAIN-ROW)' and returns
`#t'. Otherwise returns `#f'.
@@ -8875,18 +9552,18 @@ called just like *Note Database Operations::.
(filename #f #f string #f)
(build-whats #f #f symbol #f)))
- - Operation on relational-database: delete-domain domain-name |
+ -- Operation on relational-database: delete-domain domain-name |
Removes and returns the DOMAIN-NAME row from the "domains" table.
- - Operation on relational-database: domain-checker domain |
+ -- Operation on relational-database: domain-checker domain |
Returns a procedure to check an argument for conformance to domain
DOMAIN.

File: slib.info, Node: Define-tables Example, Next: The *commands* Table, Prev: Command Intrinsics, Up: Embedded Commands
-Define-tables Example
-.....................
+6.1.4.3 Define-tables Example |
+............................. |
The following example shows a new database with the name of `foo.db'
being created with tables describing processor families and
@@ -8901,10 +9578,10 @@ saved and changed to immutable.
((also-ran processor-family))
((m68000 #f)
(m68030 m68000)
- (i386 i8086) |
- (i8086 #f) |
+ (i386 i8086)
+ (i8086 #f)
(powerpc #f)))
-
+
'(platform
((name symbol))
((processor processor-family)
@@ -8916,21 +9593,21 @@ saved and changed to immutable.
(amiga-sas/c-5.10 m68000 amiga sas/c)
(atari-st-gcc m68000 atari gcc)
(atari-st-turbo-c m68000 atari turbo-c)
- (borland-c-3.1 i8086 ms-dos borland-c) |
+ (borland-c-3.1 i8086 ms-dos borland-c)
(djgpp i386 ms-dos gcc)
(linux i386 linux gcc)
- (microsoft-c i8086 ms-dos microsoft-c) |
+ (microsoft-c i8086 ms-dos microsoft-c)
(os/2-emx i386 os/2 gcc)
- (turbo-c-2 i8086 ms-dos turbo-c) |
+ (turbo-c-2 i8086 ms-dos turbo-c)
(watcom-9.0 i386 ms-dos watcom))))
-
+
(solidify-database my-rdb)

File: slib.info, Node: The *commands* Table, Next: Command Service, Prev: Define-tables Example, Up: Embedded Commands
-The *commands* Table
-....................
+6.1.4.4 The *commands* Table |
+............................ |
The table `*commands*' in an "enhanced" relational-database has the
fields (with domains):
@@ -8947,7 +9624,7 @@ The intent of this table is to be of a form such that different
user-interfaces (for instance, pull-down menus or plain-text queries)
can operate from the same table. A `parameter-list' table has the
following fields:
- PRI index ordinal |
+ PRI index ordinal
name symbol
arity parameter-arity
domain domain
@@ -8991,10 +9668,10 @@ shared state with the domain-integrity-rule.

File: slib.info, Node: Command Service, Next: Command Example, Prev: The *commands* Table, Up: Embedded Commands
-Command Service
-...............
+6.1.4.5 Command Service |
+....................... |
- - Function: make-command-server rdb table-name
+ -- Function: make-command-server rdb table-name |
Returns a procedure of 2 arguments, a (symbol) command and a
call-back procedure. When this returned procedure is called, it
looks up COMMAND in table TABLE-NAME and calls the call-back
@@ -9044,8 +9721,8 @@ For information about parameters, *Note Parameter lists::.

File: slib.info, Node: Command Example, Prev: Command Service, Up: Embedded Commands
-Command Example
-...............
+6.1.4.6 Command Example |
+....................... |
Here is an example of setting up a command with arguments and parsing
those arguments from a `getopt' style argument list (*note Getopt::).
@@ -9057,9 +9734,9 @@ those arguments from a `getopt' style argument list (*note Getopt::).
(require 'getopt)
(require 'fluid-let)
(require 'printf)
-
+
(define my-rdb (add-command-tables (create-database #f 'alist-table)))
-
+
(define-tables my-rdb
'(foo-params
*parameter-columns*
@@ -9070,13 +9747,13 @@ those arguments from a `getopt' style argument list (*note Getopt::).
(lambda (pl) '()) #f "zero or more symbols")
(3 nary1-symbols nary1 symbol
(lambda (pl) '(symb)) #f "one or more symbols")
- (4 optional-number optional ordinal |
+ (4 optional-number optional ordinal
(lambda (pl) '()) #f "zero or one number")
(5 flag boolean boolean
(lambda (pl) '(#f)) #f "a boolean flag")))
'(foo-pnames
((name string))
- ((parameter-index ordinal)) |
+ ((parameter-index ordinal))
(("s" 1)
("single-string" 1)
("n" 2)
@@ -9098,7 +9775,7 @@ those arguments from a `getopt' style argument list (*note Getopt::).
foo-pnames
(lambda (rdb) (lambda args (print args)))
"test command arguments"))))
-
+
(define (dbutil:serve-command-line rdb command-table command argv)
(set! *argv* (if (vector? argv) (vector->list argv) argv))
((make-command-server rdb command-table)
@@ -9107,7 +9784,7 @@ those arguments from a `getopt' style argument list (*note Getopt::).
arities types defaulters dirs aliases)
(apply comval (getopt->arglist options positions
arities types defaulters dirs aliases)))))
-
+
(define (cmd . opts)
(fluid-let ((*optind* 1))
(printf "%-34s => "
@@ -9117,7 +9794,7 @@ those arguments from a `getopt' style argument list (*note Getopt::).
(force-output)
(dbutil:serve-command-line
my-rdb 'my-commands 'foo (length opts) opts)))
-
+
(cmd) => ("str" () (symb) () #f)
(cmd "-f") => ("str" () (symb) () #t)
(cmd "--flag") => ("str" () (symb) () #t)
@@ -9144,20 +9821,20 @@ those arguments from a `getopt' style argument list (*note Getopt::).
(cmd "-?")
-|
Usage: cmd [OPTION ARGUMENT ...] ...
-
+
-f, --flag
-o, --optional[=]<number>
-n, --nary[=]<symbols> ...
-N, --nary1[=]<symbols> ...
-s, --single[=]<string>
-
+
ERROR: getopt->parameter-list "unrecognized option" "-?"

File: slib.info, Node: Database Macros, Next: Database Browser, Prev: Embedded Commands, Up: Relational Database
- |
-Database Macros
----------------
+
+6.1.5 Database Macros |
+--------------------- |
`(require 'within-database)'
@@ -9178,27 +9855,36 @@ emacs:
* Menu:
+* Within-database:: |
* Within-database Example::
- - Function: within-database database statement-1 ...
+
+File: slib.info, Node: Within-database, Next: Within-database Example, Prev: Database Macros, Up: Database Macros
+ |
+6.1.5.1 Within-database |
+....................... |
+ |
+ -- Function: within-database database statement-1 ... |
`within-database' creates a lexical scope in which the commands
`define-table' and `define-command' create tables and
`*commands*'-table entries respectively in open relational
- database DATABASE.
+ database DATABASE. The expressions in `within-database' form are |
+ executed in order. |
`within-database' Returns DATABASE.
- - Syntax: define-command (<name> <rdb>) "comment" <expression1>
+ -- Syntax: define-command (<name> <rdb>) "comment" <expression1> |
<expression2> ...
- - Syntax: define-command (<name> <rdb>) <expression1> <expression2> ...
+ -- Syntax: define-command (<name> <rdb>) <expression1> <expression2> |
+ ... |
Adds to the `*commands*' table a command <name>:
(lambda (<name> <rdb>) <expression1> <expression2> ...)
- - Syntax: define-table <name> <descriptor-name> <descriptor-name>
+ -- Syntax: define-table <name> <descriptor-name> <descriptor-name> |
<rows>
- - Syntax: define-table <name> <primary-key-fields> <other-fields>
+ -- Syntax: define-table <name> <primary-key-fields> <other-fields> |
<rows>
where <name> is the table name, <descriptor-name> is the symbol
name of a descriptor table, <primary-key-fields> and
@@ -9220,23 +9906,50 @@ emacs:
If <domain> is not a defined domain name and it matches the name of
this table or an already defined (in one of SPEC-0 ...) single key
- field table, a foreign-key domain will be created for it. |
-
-
+ field table, a foreign-key domain will be created for it.
+
+
+ -- Function: add-macro-support database |
+ The relational database DATABASE must be mutable. |
+ `add-macro-support' adds a `*macros*' table and `define-macro' |
+ macro to DATABASE; then DATABASE is returned. |
+ |
+ -- Syntax: define-macro (<name> arg1 ...) "comment" <expression1> |
+ <expression2> ... |
+ -- Syntax: define-macro (<name> arg1 ...) <expression1> <expression2> |
+ ... |
+ Adds a macro <name> to the `*macros*'. |
+ |
+ _Note:_ `within-database' creates lexical scope where not only |
+ `define-command' and `define-table', but every command and macro |
+ are defined, ie.: |
+ |
+ (within-database my-rdb |
+ (define-command (message rdb) |
+ (lambda (msg) |
+ (display "message: ") |
+ (display msg) |
+ (newline))) |
+ (message "Defining FOO...") |
+ ;; ... defining FOO ... |
+ (message "Defining BAR...") |
+ ;; ... defining BAR ... |
+ ) |
+ |

-File: slib.info, Node: Within-database Example, Prev: Database Macros, Up: Database Macros
-
-Within-database Example
-.......................
+File: slib.info, Node: Within-database Example, Prev: Within-database, Up: Database Macros
+ |
+6.1.5.2 Within-database Example |
+............................... |
Here is an example of `within-database' macros:
(require 'within-database)
-
+
(define my-rdb
(add-command-tables
(create-database "foo.db" 'alist-table)))
-
+
(within-database my-rdb
(define-command (*initialize* rdb)
"Print Welcome"
@@ -9251,8 +9964,8 @@ Here is an example of `within-database' macros:
((also-ran processor-family)))
(m68000 #f)
(m68030 m68000)
- (i386 i8086) |
- (i8086 #f) |
+ (i386 i8086)
+ (i8086 #f)
(powerpc #f))
(define-table (platform
((name symbol))
@@ -9269,627 +9982,627 @@ Here is an example of `within-database' macros:
(define-command (get-processor rdb)
"Get processor for given platform."
(((rdb 'open-table) 'platform #f) 'get 'processor)))
-
+
(close-database my-rdb)
-
+
(set! my-rdb (open-command-database! "foo.db"))
-|
Welcome
-
+
(my-rdb 'without-documentation)
-|
without-documentation called
-
+
((my-rdb 'get-processor) 'amiga-sas/c-5.10)
=> m68000
-
+
(close-database my-rdb)

File: slib.info, Node: Database Browser, Prev: Database Macros, Up: Relational Database
- |
-Database Browser |
-----------------
-(require 'database-browse) |
+6.1.6 Database Browser |
+---------------------- |
- - Procedure: browse database |
- Prints the names of all the tables in DATABASE and sets browse's |
- default to DATABASE. |
+(require 'database-browse)
- - Procedure: browse |
- Prints the names of all the tables in the default database. |
+ -- Procedure: browse database |
+ Prints the names of all the tables in DATABASE and sets browse's
+ default to DATABASE.
- - Procedure: browse table-name |
- For each record of the table named by the symbol TABLE-NAME, |
- prints a line composed of all the field values. |
+ -- Procedure: browse |
+ Prints the names of all the tables in the default database.
- - Procedure: browse pathname |
- Opens the database named by the string PATHNAME, prints the names |
- of all its tables, and sets browse's default to the database. |
+ -- Procedure: browse table-name |
+ For each record of the table named by the symbol TABLE-NAME,
+ prints a line composed of all the field values.
- - Procedure: browse database table-name |
- Sets browse's default to DATABASE and prints the records of the |
- table named by the symbol TABLE-NAME. |
+ -- Procedure: browse pathname |
+ Opens the database named by the string PATHNAME, prints the names
+ of all its tables, and sets browse's default to the database.
+
+ -- Procedure: browse database table-name |
+ Sets browse's default to DATABASE and prints the records of the
+ table named by the symbol TABLE-NAME.
+
+ -- Procedure: browse pathname table-name |
+ Opens the database named by the string PATHNAME and sets browse's
+ default to it; `browse' prints the records of the table named by
+ the symbol TABLE-NAME.
- - Procedure: browse pathname table-name |
- Opens the database named by the string PATHNAME and sets browse's |
- default to it; `browse' prints the records of the table named by |
- the symbol TABLE-NAME. |
- |

File: slib.info, Node: Relational Infrastructure, Next: Weight-Balanced Trees, Prev: Relational Database, Up: Database Packages
- |
-Relational Infrastructure |
-========================= |
-* Menu: |
+6.2 Relational Infrastructure |
+============================= |
+
+* Menu:
-* Base Table:: |
-* Catalog Representation:: |
-* Relational Database Objects:: |
-* Database Operations:: |
+* Base Table::
+* Catalog Representation::
+* Relational Database Objects::
+* Database Operations::

File: slib.info, Node: Base Table, Next: Catalog Representation, Prev: Relational Infrastructure, Up: Relational Infrastructure
- |
-Base Table |
----------- |
-A "base-table" is the primitive database layer upon which SLIB |
-relational databases are built. At the minimum, it must support the |
-types integer, symbol, string, and boolean. The base-table may restrict |
-the size of integers, symbols, and strings it supports. |
+6.2.1 Base Table |
+---------------- |
- A base table implementation is available as the value of the |
-identifier naming it (eg. ALIST-TABLE) after requiring the symbol of |
-that name. |
+A "base-table" is the primitive database layer upon which SLIB
+relational databases are built. At the minimum, it must support the
+types integer, symbol, string, and boolean. The base-table may restrict
+the size of integers, symbols, and strings it supports.
- - Feature: alist-table |
- `(require 'alist-table)' |
+ A base table implementation is available as the value of the
+identifier naming it (eg. ALIST-TABLE) after requiring the symbol of
+that name.
- Association-list base tables support all Scheme types and are |
- suitable for small databases. In order to be retrieved after |
- being written to a file, the data stored should include only |
- objects which are readable and writeable in the Scheme |
- implementation. |
+ -- Feature: alist-table |
+ `(require 'alist-table)'
- The "alist-table" base-table implementation is included in the |
- SLIB distribution. |
+ Association-list base tables support all Scheme types and are
+ suitable for small databases. In order to be retrieved after
+ being written to a file, the data stored should include only
+ objects which are readable and writeable in the Scheme
+ implementation.
- "WB" is a B-tree database package with SCM interfaces. Being |
-disk-based, WB databases readily store and access hundreds of megabytes |
-of data. WB comes with two base-table embeddings. |
- |
- - Feature: wb-table |
- `(require 'wb-table)' |
- |
- `wb-table' supports scheme expressions for keys and values whose |
- text representations are less than 255 characters in length. |
- *Note wb-table: (wb)wb-table. |
- |
- - Feature: rwb-isam |
- `(require 'rwb-isam)' |
- |
- "rwb-isam" is a sophisticated base-table implementation built on |
- WB and SCM which uses binary numerical formats for key and non-key |
- fields. It supports IEEE floating-point and fixed-precision |
- integer keys with the correct numerical collation order. |
- |
- This rest of this section documents the interface for a base table |
-implementation from which the *Note Relational Database:: package |
-constructs a Relational system. It will be of interest primarily to |
-those wishing to port or write new base-table implementations. |
- |
- - Variable: *base-table-implementations* |
- To support automatic dispatch for `open-database', each base-table |
- module adds an association to *BASE-TABLE-IMPLEMENTATIONS* when |
- loaded. This association is the list of the base-table symbol and |
- the value returned by `(make-relational-system BASE-TABLE)'. |
- |
-* Menu: |
- |
-* The Base:: |
-* Base Tables:: |
-* Base Field Types:: |
-* Composite Keys:: |
-* Base Record Operations:: |
-* Match Keys:: |
-* Aggregate Base Operations:: |
-* Base ISAM Operations:: |
+ The "alist-table" base-table implementation is included in the
+ SLIB distribution.
+
+ "WB" is a B-tree database package with SCM interfaces. Being
+disk-based, WB databases readily store and access hundreds of megabytes
+of data. WB comes with two base-table embeddings.
+
+ -- Feature: wb-table |
+ `(require 'wb-table)'
+
+ `wb-table' supports scheme expressions for keys and values whose
+ text representations are less than 255 characters in length.
+ *Note wb-table: (wb)wb-table.
+
+ -- Feature: rwb-isam |
+ `(require 'rwb-isam)'
+
+ "rwb-isam" is a sophisticated base-table implementation built on
+ WB and SCM which uses binary numerical formats for key and non-key
+ fields. It supports IEEE floating-point and fixed-precision
+ integer keys with the correct numerical collation order.
+
+ This rest of this section documents the interface for a base table
+implementation from which the *Note Relational Database:: package
+constructs a Relational system. It will be of interest primarily to
+those wishing to port or write new base-table implementations.
+
+ -- Variable: *base-table-implementations* |
+ To support automatic dispatch for `open-database', each base-table
+ module adds an association to *BASE-TABLE-IMPLEMENTATIONS* when
+ loaded. This association is the list of the base-table symbol and
+ the value returned by `(make-relational-system BASE-TABLE)'.
+
+* Menu:
+
+* The Base::
+* Base Tables::
+* Base Field Types::
+* Composite Keys::
+* Base Record Operations::
+* Match Keys::
+* Aggregate Base Operations::
+* Base ISAM Operations::

File: slib.info, Node: The Base, Next: Base Tables, Prev: Base Table, Up: Base Table
- |
-The Base |
-........ |
-
-All of these functions are accessed through a single procedure by |
-calling that procedure with the symbol name of the operation. A |
-procedure will be returned if that operation is supported and `#f' |
-otherwise. For example: |
-
- (require 'alist-table) |
- (define my-base (alist-table 'make-base)) |
- my-base => *a procedure* |
- (define foo (alist-table 'foo)) |
- foo => #f |
-
- - Operation on base-table: make-base filename key-dimension |
- column-types |
- Returns a new, open, low-level database (collection of tables) |
- associated with FILENAME. This returned database has an empty |
- table associated with CATALOG-ID. The positive integer |
- KEY-DIMENSION is the number of keys composed to make a PRIMARY-KEY |
- for the catalog table. The list of symbols COLUMN-TYPES describes |
- the types of each column for that table. If the database cannot |
- be created as specified, `#f' is returned. |
-
- Calling the `close-base' method on this database and possibly other |
- operations will cause FILENAME to be written to. If FILENAME is |
- `#f' a temporary, non-disk based database will be created if such |
- can be supported by the base table implelentation. |
-
- - Operation on base-table: open-base filename mutable |
- Returns an open low-level database associated with FILENAME. If |
- MUTABLE is `#t', this database will have methods capable of |
- effecting change to the database. If MUTABLE is `#f', only |
- methods for inquiring the database will be available. If the |
- database cannot be opened as specified `#f' is returned. |
-
- Calling the `close-base' (and possibly other) method on a MUTABLE |
- database will cause FILENAME to be written to. |
-
- - Operation on base-table: write-base lldb filename |
- Causes the low-level database LLDB to be written to FILENAME. If |
- the write is successful, also causes LLDB to henceforth be |
- associated with FILENAME. Calling the `close-database' (and |
- possibly other) method on LLDB may cause FILENAME to be written |
- to. If FILENAME is `#f' this database will be changed to a |
- temporary, non-disk based database if such can be supported by the |
- underlying base table implelentation. If the operations completed |
- successfully, `#t' is returned. Otherwise, `#f' is returned. |
-
- - Operation on base-table: sync-base lldb |
- Causes the file associated with the low-level database LLDB to be |
- updated to reflect its current state. If the associated filename |
- is `#f', no action is taken and `#f' is returned. If this |
- operation completes successfully, `#t' is returned. Otherwise, |
- `#f' is returned. |
- |
- - Operation on base-table: close-base lldb |
- Causes the low-level database LLDB to be written to its associated |
- file (if any). If the write is successful, subsequent operations |
- to LLDB will signal an error. If the operations complete |
- successfully, `#t' is returned. Otherwise, `#f' is returned. |
+
+6.2.1.1 The Base |
+................ |
+
+All of these functions are accessed through a single procedure by
+calling that procedure with the symbol name of the operation. A
+procedure will be returned if that operation is supported and `#f'
+otherwise. For example:
+
+ (require 'alist-table)
+ (define my-base (alist-table 'make-base))
+ my-base => *a procedure*
+ (define foo (alist-table 'foo))
+ foo => #f
+
+ -- Operation on base-table: make-base filename key-dimension |
+ column-types
+ Returns a new, open, low-level database (collection of tables)
+ associated with FILENAME. This returned database has an empty
+ table associated with CATALOG-ID. The positive integer
+ KEY-DIMENSION is the number of keys composed to make a PRIMARY-KEY
+ for the catalog table. The list of symbols COLUMN-TYPES describes
+ the types of each column for that table. If the database cannot
+ be created as specified, `#f' is returned.
+
+ Calling the `close-base' method on this database and possibly other
+ operations will cause FILENAME to be written to. If FILENAME is
+ `#f' a temporary, non-disk based database will be created if such
+ can be supported by the base table implelentation.
+
+ -- Operation on base-table: open-base filename mutable |
+ Returns an open low-level database associated with FILENAME. If
+ MUTABLE is `#t', this database will have methods capable of
+ effecting change to the database. If MUTABLE is `#f', only
+ methods for inquiring the database will be available. If the
+ database cannot be opened as specified `#f' is returned.
+
+ Calling the `close-base' (and possibly other) method on a MUTABLE
+ database will cause FILENAME to be written to.
+
+ -- Operation on base-table: write-base lldb filename |
+ Causes the low-level database LLDB to be written to FILENAME. If
+ the write is successful, also causes LLDB to henceforth be
+ associated with FILENAME. Calling the `close-database' (and
+ possibly other) method on LLDB may cause FILENAME to be written
+ to. If FILENAME is `#f' this database will be changed to a
+ temporary, non-disk based database if such can be supported by the
+ underlying base table implelentation. If the operations completed
+ successfully, `#t' is returned. Otherwise, `#f' is returned.
+
+ -- Operation on base-table: sync-base lldb |
+ Causes the file associated with the low-level database LLDB to be
+ updated to reflect its current state. If the associated filename
+ is `#f', no action is taken and `#f' is returned. If this
+ operation completes successfully, `#t' is returned. Otherwise,
+ `#f' is returned.
+
+ -- Operation on base-table: close-base lldb |
+ Causes the low-level database LLDB to be written to its associated
+ file (if any). If the write is successful, subsequent operations
+ to LLDB will signal an error. If the operations complete
+ successfully, `#t' is returned. Otherwise, `#f' is returned.

File: slib.info, Node: Base Tables, Next: Base Field Types, Prev: The Base, Up: Base Table
- |
-Base Tables |
-........... |
- |
- - Operation on base-table: make-table lldb key-dimension column-types |
- Returns the ordinal BASE-ID for a new base table, otherwise |
- returns `#f'. The base table can then be opened using |
- `(open-table LLDB BASE-ID)'. The positive integer KEY-DIMENSION |
- is the number of keys composed to make a PRIMARY-KEY for this |
- table. The list of symbols COLUMN-TYPES describes the types of |
- each column. |
- |
- - Operation on base-table: open-table lldb base-id key-dimension |
- column-types |
- Returns a HANDLE for an existing base table in the low-level |
- database LLDB if that table exists and can be opened in the mode |
- indicated by MUTABLE, otherwise returns `#f'. |
- |
- As with `make-table', the positive integer KEY-DIMENSION is the |
- number of keys composed to make a PRIMARY-KEY for this table. The |
- list of symbols COLUMN-TYPES describes the types of each column. |
- |
- - Operation on base-table: kill-table lldb base-id key-dimension |
- column-types |
- Returns `#t' if the base table associated with BASE-ID was removed |
- from the low level database LLDB, and `#f' otherwise. |
- |
- - Operation on base-table: catalog-id |
- A constant BASE-ID ordinal suitable for passing as a parameter to |
- `open-table'. CATALOG-ID will be used as the base table for the |
- system catalog. |
- |
+
+6.2.1.2 Base Tables |
+................... |
+
+ -- Operation on base-table: make-table lldb key-dimension column-types |
+ Returns the ordinal BASE-ID for a new base table, otherwise
+ returns `#f'. The base table can then be opened using
+ `(open-table LLDB BASE-ID)'. The positive integer KEY-DIMENSION
+ is the number of keys composed to make a PRIMARY-KEY for this
+ table. The list of symbols COLUMN-TYPES describes the types of
+ each column.
+
+ -- Operation on base-table: open-table lldb base-id key-dimension |
+ column-types
+ Returns a HANDLE for an existing base table in the low-level
+ database LLDB if that table exists and can be opened in the mode
+ indicated by MUTABLE, otherwise returns `#f'.
+
+ As with `make-table', the positive integer KEY-DIMENSION is the
+ number of keys composed to make a PRIMARY-KEY for this table. The
+ list of symbols COLUMN-TYPES describes the types of each column.
+
+ -- Operation on base-table: kill-table lldb base-id key-dimension |
+ column-types
+ Returns `#t' if the base table associated with BASE-ID was removed
+ from the low level database LLDB, and `#f' otherwise.
+
+ -- Operation on base-table: catalog-id |
+ A constant BASE-ID ordinal suitable for passing as a parameter to
+ `open-table'. CATALOG-ID will be used as the base table for the
+ system catalog.
+

File: slib.info, Node: Base Field Types, Next: Composite Keys, Prev: Base Tables, Up: Base Table
- |
-Base Field Types |
-................ |
- |
- - Operation on base-table: supported-type? symbol |
- Returns `#t' if SYMBOL names a type allowed as a column value by |
- the implementation, and `#f' otherwise. At a minimum, an |
- implementation must support the types `integer', `ordinal', |
- `symbol', `string', and `boolean'. |
- |
- - Operation on base-table: supported-key-type? symbol |
- Returns `#t' if SYMBOL names a type allowed as a key value by the |
- implementation, and `#f' otherwise. At a minimum, an |
- implementation must support the types `ordinal', and `symbol'. |
- |
-An "ordinal" is an exact positive integer. The other types are |
-standard Scheme. |
- |
+
+6.2.1.3 Base Field Types |
+........................ |
+
+ -- Operation on base-table: supported-type? symbol |
+ Returns `#t' if SYMBOL names a type allowed as a column value by
+ the implementation, and `#f' otherwise. At a minimum, an
+ implementation must support the types `integer', `ordinal',
+ `symbol', `string', and `boolean'.
+
+ -- Operation on base-table: supported-key-type? symbol |
+ Returns `#t' if SYMBOL names a type allowed as a key value by the
+ implementation, and `#f' otherwise. At a minimum, an
+ implementation must support the types `ordinal', and `symbol'.
+
+An "ordinal" is an exact positive integer. The other types are
+standard Scheme.
+

File: slib.info, Node: Composite Keys, Next: Base Record Operations, Prev: Base Field Types, Up: Base Table
- |
-Composite Keys |
-.............. |
- |
- - Operation on base-table: make-keyifier-1 type |
- Returns a procedure which accepts a single argument which must be |
- of type TYPE. This returned procedure returns an object suitable |
- for being a KEY argument in the functions whose descriptions |
- follow. |
- |
- Any 2 arguments of the supported type passed to the returned |
- function which are not `equal?' must result in returned values |
- which are not `equal?'. |
- |
- - Operation on base-table: make-list-keyifier key-dimension types |
- The list of symbols TYPES must have at least KEY-DIMENSION |
- elements. Returns a procedure which accepts a list of length |
- KEY-DIMENSION and whose types must corresopond to the types named |
- by TYPES. This returned procedure combines the elements of its |
- list argument into an object suitable for being a KEY argument in |
- the functions whose descriptions follow. |
- |
- Any 2 lists of supported types (which must at least include |
- symbols and non-negative integers) passed to the returned function |
- which are not `equal?' must result in returned values which are not |
- `equal?'. |
- |
- - Operation on base-table: make-key-extractor key-dimension types |
- column-number |
- Returns a procedure which accepts objects produced by application |
- of the result of `(make-list-keyifier KEY-DIMENSION TYPES)'. This |
- procedure returns a KEY which is `equal?' to the COLUMN-NUMBERth |
- element of the list which was passed to create COMPOSITE-KEY. The |
- list TYPES must have at least KEY-DIMENSION elements. |
- |
- - Operation on base-table: make-key->list key-dimension types |
- Returns a procedure which accepts objects produced by application |
- of the result of `(make-list-keyifier KEY-DIMENSION TYPES)'. This |
- procedure returns a list of KEYs which are elementwise `equal?' to |
- the list which was passed to create COMPOSITE-KEY. |
- |
+
+6.2.1.4 Composite Keys |
+...................... |
+
+ -- Operation on base-table: make-keyifier-1 type |
+ Returns a procedure which accepts a single argument which must be
+ of type TYPE. This returned procedure returns an object suitable
+ for being a KEY argument in the functions whose descriptions
+ follow.
+
+ Any 2 arguments of the supported type passed to the returned
+ function which are not `equal?' must result in returned values
+ which are not `equal?'.
+
+ -- Operation on base-table: make-list-keyifier key-dimension types |
+ The list of symbols TYPES must have at least KEY-DIMENSION
+ elements. Returns a procedure which accepts a list of length
+ KEY-DIMENSION and whose types must corresopond to the types named
+ by TYPES. This returned procedure combines the elements of its
+ list argument into an object suitable for being a KEY argument in
+ the functions whose descriptions follow.
+
+ Any 2 lists of supported types (which must at least include
+ symbols and non-negative integers) passed to the returned function
+ which are not `equal?' must result in returned values which are not
+ `equal?'.
+
+ -- Operation on base-table: make-key-extractor key-dimension types |
+ column-number
+ Returns a procedure which accepts objects produced by application
+ of the result of `(make-list-keyifier KEY-DIMENSION TYPES)'. This
+ procedure returns a KEY which is `equal?' to the COLUMN-NUMBERth
+ element of the list which was passed to create COMPOSITE-KEY. The
+ list TYPES must have at least KEY-DIMENSION elements.
+
+ -- Operation on base-table: make-key->list key-dimension types |
+ Returns a procedure which accepts objects produced by application
+ of the result of `(make-list-keyifier KEY-DIMENSION TYPES)'. This
+ procedure returns a list of KEYs which are elementwise `equal?' to
+ the list which was passed to create COMPOSITE-KEY.
+

File: slib.info, Node: Base Record Operations, Next: Match Keys, Prev: Composite Keys, Up: Base Table
- |
-Base Record Operations |
-...................... |
- |
-In the following functions, the KEY argument can always be assumed to |
-be the value returned by a call to a _keyify_ routine. |
- |
- - Operation on base-table: present? handle key |
- Returns a non-`#f' value if there is a row associated with KEY in |
- the table opened in HANDLE and `#f' otherwise. |
- |
- - Operation on base-table: make-getter key-dimension types |
- Returns a procedure which takes arguments HANDLE and KEY. This |
- procedure returns a list of the non-primary values of the relation |
- (in the base table opened in HANDLE) whose primary key is KEY if |
- it exists, and `#f' otherwise. |
- |
-`make-getter-1' is a new operation. The relational-database module |
-works with older base-table implementations by using `make-getter'. |
- |
- - Operation on base-table: make-getter-1 key-dimension types index |
- Returns a procedure which takes arguments HANDLE and KEY. This |
- procedure returns the value of the INDEXth field (in the base |
- table opened in HANDLE) whose primary key is KEY if it exists, and |
- `#f' otherwise. |
- |
- INDEX must be larger than KEY-DIMENSION. |
- |
- - Operation on base-table: make-putter key-dimension types |
- Returns a procedure which takes arguments HANDLE and KEY and |
- VALUE-LIST. This procedure associates the primary key KEY with |
- the values in VALUE-LIST (in the base table opened in HANDLE) and |
- returns an unspecified value. |
- |
- - Operation on base-table: delete handle key |
- Removes the row associated with KEY from the table opened in |
- HANDLE. An unspecified value is returned. |
- |
+
+6.2.1.5 Base Record Operations |
+.............................. |
+
+In the following functions, the KEY argument can always be assumed to
+be the value returned by a call to a _keyify_ routine.
+
+ -- Operation on base-table: present? handle key |
+ Returns a non-`#f' value if there is a row associated with KEY in
+ the table opened in HANDLE and `#f' otherwise.
+
+ -- Operation on base-table: make-getter key-dimension types |
+ Returns a procedure which takes arguments HANDLE and KEY. This
+ procedure returns a list of the non-primary values of the relation
+ (in the base table opened in HANDLE) whose primary key is KEY if
+ it exists, and `#f' otherwise.
+
+`make-getter-1' is a new operation. The relational-database module
+works with older base-table implementations by using `make-getter'.
+
+ -- Operation on base-table: make-getter-1 key-dimension types index |
+ Returns a procedure which takes arguments HANDLE and KEY. This
+ procedure returns the value of the INDEXth field (in the base
+ table opened in HANDLE) whose primary key is KEY if it exists, and
+ `#f' otherwise.
+
+ INDEX must be larger than KEY-DIMENSION.
+
+ -- Operation on base-table: make-putter key-dimension types |
+ Returns a procedure which takes arguments HANDLE and KEY and
+ VALUE-LIST. This procedure associates the primary key KEY with
+ the values in VALUE-LIST (in the base table opened in HANDLE) and
+ returns an unspecified value.
+
+ -- Operation on base-table: delete handle key |
+ Removes the row associated with KEY from the table opened in
+ HANDLE. An unspecified value is returned.
+

File: slib.info, Node: Match Keys, Next: Aggregate Base Operations, Prev: Base Record Operations, Up: Base Table
- |
-Match Keys |
-.......... |
- |
-A MATCH-KEYS argument is a list of length equal to the number of |
-primary keys. The MATCH-KEYS restrict the actions of the table command |
-to those records whose primary keys all satisfy the corresponding |
-element of the MATCH-KEYS list. The elements and their actions are: |
- |
- `#f' |
- The false value matches any key in the corresponding position. |
- |
- an object of type procedure |
- This procedure must take a single argument, the key in the |
- corresponding position. Any key for which the procedure |
- returns a non-false value is a match; Any key for which the |
- procedure returns a `#f' is not. |
- |
- other values |
- Any other value matches only those keys `equal?' to it. |
- |
+
+6.2.1.6 Match Keys |
+.................. |
+
+A MATCH-KEYS argument is a list of length equal to the number of
+primary keys. The MATCH-KEYS restrict the actions of the table command
+to those records whose primary keys all satisfy the corresponding
+element of the MATCH-KEYS list. The elements and their actions are:
+
+ `#f'
+ The false value matches any key in the corresponding position.
+
+ an object of type procedure
+ This procedure must take a single argument, the key in the
+ corresponding position. Any key for which the procedure
+ returns a non-false value is a match; Any key for which the
+ procedure returns a `#f' is not.
+
+ other values
+ Any other value matches only those keys `equal?' to it.
+

File: slib.info, Node: Aggregate Base Operations, Next: Base ISAM Operations, Prev: Match Keys, Up: Base Table
- |
-Aggregate Base Operations |
-......................... |
- |
-The KEY-DIMENSION and COLUMN-TYPES arguments are needed to decode the |
-composite-keys for matching with MATCH-KEYS. |
- |
- - Operation on base-table: delete* handle key-dimension column-types |
- match-keys |
- Removes all rows which satisfy MATCH-KEYS from the table opened in |
- HANDLE. An unspecified value is returned. |
- |
- - Operation on base-table: for-each-key handle procedure key-dimension |
- column-types match-keys |
- Calls PROCEDURE once with each KEY in the table opened in HANDLE |
- which satisfy MATCH-KEYS in an unspecified order. An unspecified |
- value is returned. |
- |
- - Operation on base-table: map-key handle procedure key-dimension |
- column-types match-keys |
- Returns a list of the values returned by calling PROCEDURE once |
- with each KEY in the table opened in HANDLE which satisfy |
- MATCH-KEYS in an unspecified order. |
- |
+
+6.2.1.7 Aggregate Base Operations |
+................................. |
+
+The KEY-DIMENSION and COLUMN-TYPES arguments are needed to decode the
+composite-keys for matching with MATCH-KEYS.
+
+ -- Operation on base-table: delete* handle key-dimension column-types |
+ match-keys
+ Removes all rows which satisfy MATCH-KEYS from the table opened in
+ HANDLE. An unspecified value is returned.
+
+ -- Operation on base-table: for-each-key handle procedure |
+ key-dimension column-types match-keys |
+ Calls PROCEDURE once with each KEY in the table opened in HANDLE
+ which satisfy MATCH-KEYS in an unspecified order. An unspecified
+ value is returned.
+
+ -- Operation on base-table: map-key handle procedure key-dimension |
+ column-types match-keys
+ Returns a list of the values returned by calling PROCEDURE once
+ with each KEY in the table opened in HANDLE which satisfy
+ MATCH-KEYS in an unspecified order.
+

File: slib.info, Node: Base ISAM Operations, Prev: Aggregate Base Operations, Up: Base Table
- |
-Base ISAM Operations |
-.................... |
- |
-These operations are optional for a Base-Table implementation. |
- |
- - Operation on base-table: ordered-for-each-key handle procedure |
- key-dimension column-types match-keys |
- Calls PROCEDURE once with each KEY in the table opened in HANDLE |
- which satisfy MATCH-KEYS in the natural order for the types of the |
- primary key fields of that table. An unspecified value is |
- returned. |
- |
- - Operation on base-table: make-nexter handle key-dimension |
- column-types index |
- Returns a procedure of arguments KEY1 KEY2 ... which returns the |
- key-list identifying the lowest record higher than KEY1 KEY2 ... |
- which is stored in the base-table and which differs in column |
- INDEX or a lower indexed key; or false if no higher record is |
- present. |
- |
- - Operation on base-table: make-prever handle key-dimension |
- column-types index |
- Returns a procedure of arguments KEY1 KEY2 ... which returns the |
- key-list identifying the highest record less than KEY1 KEY2 ... |
- which is stored in the base-table and which differs in column |
- INDEX or a lower indexed key; or false if no higher record is |
- present. |
- |
+
+6.2.1.8 Base ISAM Operations |
+............................ |
+
+These operations are optional for a Base-Table implementation.
+
+ -- Operation on base-table: ordered-for-each-key handle procedure |
+ key-dimension column-types match-keys
+ Calls PROCEDURE once with each KEY in the table opened in HANDLE
+ which satisfy MATCH-KEYS in the natural order for the types of the
+ primary key fields of that table. An unspecified value is
+ returned.
+
+ -- Operation on base-table: make-nexter handle key-dimension |
+ column-types index
+ Returns a procedure of arguments KEY1 KEY2 ... which returns the
+ key-list identifying the lowest record higher than KEY1 KEY2 ...
+ which is stored in the base-table and which differs in column
+ INDEX or a lower indexed key; or false if no higher record is
+ present.
+
+ -- Operation on base-table: make-prever handle key-dimension |
+ column-types index
+ Returns a procedure of arguments KEY1 KEY2 ... which returns the
+ key-list identifying the highest record less than KEY1 KEY2 ...
+ which is stored in the base-table and which differs in column
+ INDEX or a lower indexed key; or false if no higher record is
+ present.
+

File: slib.info, Node: Catalog Representation, Next: Relational Database Objects, Prev: Base Table, Up: Relational Infrastructure
- |
-Catalog Representation |
----------------------- |
- |
-Each database (in an implementation) has a "system catalog" which |
-describes all the user accessible tables in that database (including |
-itself). |
- |
-The system catalog base table has the following fields. `PRI' |
-indicates a primary key for that table. |
- |
- PRI table-name |
- column-limit the highest column number |
- coltab-name descriptor table name |
- bastab-id data base table identifier |
- user-integrity-rule |
- view-procedure A scheme thunk which, when called, |
- produces a handle for the view. coltab |
- and bastab are specified if and only if |
- view-procedure is not. |
- |
-Descriptors for base tables (not views) are tables (pointed to by |
-system catalog). Descriptor (base) tables have the fields: |
- |
- PRI column-number sequential integers from 1 |
- primary-key? boolean TRUE for primary key components |
- column-name |
- column-integrity-rule |
- domain-name |
- |
-A "primary key" is any column marked as `primary-key?' in the |
-corresponding descriptor table. All the `primary-key?' columns must |
-have lower column numbers than any non-`primary-key?' columns. Every |
-table must have at least one primary key. Primary keys must be |
-sufficient to distinguish all rows from each other in the table. All of |
-the system defined tables have a single primary key. |
- |
-A "domain" is a category describing the allowable values to occur in a |
-column. It is described by a (base) table with the fields: |
- |
- PRI domain-name |
- foreign-table |
- domain-integrity-rule |
- type-id |
- type-param |
- |
-The "type-id" field value is a symbol. This symbol may be used by the |
-underlying base table implementation in storing that field. |
- |
-If the `foreign-table' field is non-`#f' then that field names a table |
-from the catalog. The values for that domain must match a primary key |
-of the table referenced by the TYPE-PARAM (or `#f', if allowed). This |
-package currently does not support composite foreign-keys. |
- |
-The types for which support is planned are: |
- atom |
- symbol |
- string [<length>] |
- number [<base>] |
- money <currency> |
- date-time |
- boolean |
- |
- foreign-key <table-name> |
- expression |
- virtual <expression> |
- |
+
+6.2.2 Catalog Representation |
+---------------------------- |
+
+Each database (in an implementation) has a "system catalog" which
+describes all the user accessible tables in that database (including
+itself).
+
+The system catalog base table has the following fields. `PRI'
+indicates a primary key for that table.
+
+ PRI table-name
+ column-limit the highest column number
+ coltab-name descriptor table name
+ bastab-id data base table identifier
+ user-integrity-rule
+ view-procedure A scheme thunk which, when called,
+ produces a handle for the view. coltab
+ and bastab are specified if and only if
+ view-procedure is not.
+
+Descriptors for base tables (not views) are tables (pointed to by
+system catalog). Descriptor (base) tables have the fields:
+
+ PRI column-number sequential integers from 1
+ primary-key? boolean TRUE for primary key components
+ column-name
+ column-integrity-rule
+ domain-name
+
+A "primary key" is any column marked as `primary-key?' in the
+corresponding descriptor table. All the `primary-key?' columns must
+have lower column numbers than any non-`primary-key?' columns. Every
+table must have at least one primary key. Primary keys must be
+sufficient to distinguish all rows from each other in the table. All of
+the system defined tables have a single primary key.
+
+A "domain" is a category describing the allowable values to occur in a
+column. It is described by a (base) table with the fields:
+
+ PRI domain-name
+ foreign-table
+ domain-integrity-rule
+ type-id
+ type-param
+
+The "type-id" field value is a symbol. This symbol may be used by the
+underlying base table implementation in storing that field.
+
+If the `foreign-table' field is non-`#f' then that field names a table
+from the catalog. The values for that domain must match a primary key
+of the table referenced by the TYPE-PARAM (or `#f', if allowed). This
+package currently does not support composite foreign-keys.
+
+The types for which support is planned are:
+ atom
+ symbol
+ string [<length>]
+ number [<base>]
+ money <currency>
+ date-time
+ boolean
+
+ foreign-key <table-name>
+ expression
+ virtual <expression>
+

File: slib.info, Node: Relational Database Objects, Next: Database Operations, Prev: Catalog Representation, Up: Relational Infrastructure
- |
-Relational Database Objects |
---------------------------- |
- |
-This object-oriented interface is deprecated for typical database |
-applications; *Note Using Databases:: provides an application programmer |
-interface which is easier to understand and use. |
- |
- - Function: make-relational-system base-table-implementation |
- Returns a procedure implementing a relational database using the |
- BASE-TABLE-IMPLEMENTATION. |
- |
- All of the operations of a base table implementation are accessed |
- through a procedure defined by `require'ing that implementation. |
- Similarly, all of the operations of the relational database |
- implementation are accessed through the procedure returned by |
- `make-relational-system'. For instance, a new relational database |
- could be created from the procedure returned by |
- `make-relational-system' by: |
- |
- (require 'alist-table) |
- (define relational-alist-system |
- (make-relational-system alist-table)) |
- (define create-alist-database |
- (relational-alist-system 'create-database)) |
- (define my-database |
- (create-alist-database "mydata.db")) |
- |
-What follows are the descriptions of the methods available from |
-relational system returned by a call to `make-relational-system'. |
- |
- - Operation on relational-system: create-database filename |
- Returns an open, nearly empty relational database associated with |
- FILENAME. The only tables defined are the system catalog and |
- domain table. Calling the `close-database' method on this database |
- and possibly other operations will cause FILENAME to be written |
- to. If FILENAME is `#f' a temporary, non-disk based database will |
- be created if such can be supported by the underlying base table |
- implelentation. If the database cannot be created as specified |
- `#f' is returned. For the fields and layout of descriptor tables, |
- *Note Catalog Representation:: |
- |
- - Operation on relational-system: open-database filename mutable? |
- Returns an open relational database associated with FILENAME. If |
- MUTABLE? is `#t', this database will have methods capable of |
- effecting change to the database. If MUTABLE? is `#f', only |
- methods for inquiring the database will be available. Calling the |
- `close-database' (and possibly other) method on a MUTABLE? |
- database will cause FILENAME to be written to. If the database |
- cannot be opened as specified `#f' is returned. |
- |
+
+6.2.3 Relational Database Objects |
+--------------------------------- |
+
+This object-oriented interface is deprecated for typical database
+applications; *Note Using Databases:: provides an application programmer
+interface which is easier to understand and use.
+
+ -- Function: make-relational-system base-table-implementation |
+ Returns a procedure implementing a relational database using the
+ BASE-TABLE-IMPLEMENTATION.
+
+ All of the operations of a base table implementation are accessed
+ through a procedure defined by `require'ing that implementation.
+ Similarly, all of the operations of the relational database
+ implementation are accessed through the procedure returned by
+ `make-relational-system'. For instance, a new relational database
+ could be created from the procedure returned by
+ `make-relational-system' by:
+
+ (require 'alist-table)
+ (define relational-alist-system
+ (make-relational-system alist-table))
+ (define create-alist-database
+ (relational-alist-system 'create-database))
+ (define my-database
+ (create-alist-database "mydata.db"))
+
+What follows are the descriptions of the methods available from
+relational system returned by a call to `make-relational-system'.
+
+ -- Operation on relational-system: create-database filename |
+ Returns an open, nearly empty relational database associated with
+ FILENAME. The only tables defined are the system catalog and
+ domain table. Calling the `close-database' method on this database
+ and possibly other operations will cause FILENAME to be written
+ to. If FILENAME is `#f' a temporary, non-disk based database will
+ be created if such can be supported by the underlying base table
+ implelentation. If the database cannot be created as specified
+ `#f' is returned. For the fields and layout of descriptor tables,
+ *Note Catalog Representation::
+
+ -- Operation on relational-system: open-database filename mutable? |
+ Returns an open relational database associated with FILENAME. If
+ MUTABLE? is `#t', this database will have methods capable of
+ effecting change to the database. If MUTABLE? is `#f', only
+ methods for inquiring the database will be available. Calling the
+ `close-database' (and possibly other) method on a MUTABLE?
+ database will cause FILENAME to be written to. If the database
+ cannot be opened as specified `#f' is returned.
+

File: slib.info, Node: Database Operations, Prev: Relational Database Objects, Up: Relational Infrastructure
- |
-Database Operations |
-------------------- |
- |
-This object-oriented interface is deprecated for typical database |
-applications; *Note Using Databases:: provides an application programmer |
-interface which is easier to understand and use. |
- |
-These are the descriptions of the methods available from an open |
-relational database. A method is retrieved from a database by calling |
-the database with the symbol name of the operation. For example: |
- |
- (define my-database |
- (create-alist-database "mydata.db")) |
- (define telephone-table-desc |
- ((my-database 'create-table) 'telephone-table-desc)) |
- |
- - Operation on relational-database: close-database |
- Causes the relational database to be written to its associated |
- file (if any). If the write is successful, subsequent operations |
- to this database will signal an error. If the operations completed |
- successfully, `#t' is returned. Otherwise, `#f' is returned. |
- |
- - Operation on relational-database: write-database filename |
- Causes the relational database to be written to FILENAME. If the |
- write is successful, also causes the database to henceforth be |
- associated with FILENAME. Calling the `close-database' (and |
- possibly other) method on this database will cause FILENAME to be |
- written to. If FILENAME is `#f' this database will be changed to |
- a temporary, non-disk based database if such can be supported by |
- the underlying base table implelentation. If the operations |
- completed successfully, `#t' is returned. Otherwise, `#f' is |
- returned. |
- |
- - Operation on relational-database: sync-database |
- Causes any pending updates to the database file to be written out. |
- If the operations completed successfully, `#t' is returned. |
- Otherwise, `#f' is returned. |
- |
- - Operation on relational-database: solidify-database |
- Causes any pending updates to the database file to be written out. |
- If the writes completed successfully, then the database is |
- changed to be immutable and `#t' is returned. Otherwise, `#f' is |
- returned. |
- |
- - Operation on relational-database: table-exists? table-name |
- Returns `#t' if TABLE-NAME exists in the system catalog, otherwise |
- returns `#f'. |
- |
- - Operation on relational-database: open-table table-name mutable? |
- Returns a "methods" procedure for an existing relational table in |
- this database if it exists and can be opened in the mode indicated |
- by MUTABLE?, otherwise returns `#f'. |
- |
-These methods will be present only in mutable databases. |
- |
- - Operation on relational-database: delete-table table-name |
- Removes and returns the TABLE-NAME row from the system catalog if |
- the table or view associated with TABLE-NAME gets removed from the |
- database, and `#f' otherwise. |
- |
- - Operation on relational-database: create-table table-desc-name |
- Returns a methods procedure for a new (open) relational table for |
- describing the columns of a new base table in this database, |
- otherwise returns `#f'. For the fields and layout of descriptor |
- tables, *Note Catalog Representation::. |
- |
- - Operation on relational-database: create-table table-name |
- table-desc-name |
- Returns a methods procedure for a new (open) relational table with |
- columns as described by TABLE-DESC-NAME, otherwise returns `#f'. |
- |
- - Operation on relational-database: create-view ?? |
- - Operation on relational-database: project-table ?? |
- - Operation on relational-database: restrict-table ?? |
- - Operation on relational-database: cart-prod-tables ?? |
- Not yet implemented. |
- |
+
+6.2.4 Database Operations |
+------------------------- |
+
+This object-oriented interface is deprecated for typical database
+applications; *Note Using Databases:: provides an application programmer
+interface which is easier to understand and use.
+
+These are the descriptions of the methods available from an open
+relational database. A method is retrieved from a database by calling
+the database with the symbol name of the operation. For example:
+
+ (define my-database
+ (create-alist-database "mydata.db"))
+ (define telephone-table-desc
+ ((my-database 'create-table) 'telephone-table-desc))
+
+ -- Operation on relational-database: close-database |
+ Causes the relational database to be written to its associated
+ file (if any). If the write is successful, subsequent operations
+ to this database will signal an error. If the operations completed
+ successfully, `#t' is returned. Otherwise, `#f' is returned.
+
+ -- Operation on relational-database: write-database filename |
+ Causes the relational database to be written to FILENAME. If the
+ write is successful, also causes the database to henceforth be
+ associated with FILENAME. Calling the `close-database' (and
+ possibly other) method on this database will cause FILENAME to be
+ written to. If FILENAME is `#f' this database will be changed to
+ a temporary, non-disk based database if such can be supported by
+ the underlying base table implelentation. If the operations
+ completed successfully, `#t' is returned. Otherwise, `#f' is
+ returned.
+
+ -- Operation on relational-database: sync-database |
+ Causes any pending updates to the database file to be written out.
+ If the operations completed successfully, `#t' is returned.
+ Otherwise, `#f' is returned.
+
+ -- Operation on relational-database: solidify-database |
+ Causes any pending updates to the database file to be written out.
+ If the writes completed successfully, then the database is
+ changed to be immutable and `#t' is returned. Otherwise, `#f' is
+ returned.
+
+ -- Operation on relational-database: table-exists? table-name |
+ Returns `#t' if TABLE-NAME exists in the system catalog, otherwise
+ returns `#f'.
+
+ -- Operation on relational-database: open-table table-name mutable? |
+ Returns a "methods" procedure for an existing relational table in
+ this database if it exists and can be opened in the mode indicated
+ by MUTABLE?, otherwise returns `#f'.
+
+These methods will be present only in mutable databases.
+
+ -- Operation on relational-database: delete-table table-name |
+ Removes and returns the TABLE-NAME row from the system catalog if
+ the table or view associated with TABLE-NAME gets removed from the
+ database, and `#f' otherwise.
+
+ -- Operation on relational-database: create-table table-desc-name |
+ Returns a methods procedure for a new (open) relational table for
+ describing the columns of a new base table in this database,
+ otherwise returns `#f'. For the fields and layout of descriptor
+ tables, *Note Catalog Representation::.
+
+ -- Operation on relational-database: create-table table-name |
+ table-desc-name
+ Returns a methods procedure for a new (open) relational table with
+ columns as described by TABLE-DESC-NAME, otherwise returns `#f'.
+
+ -- Operation on relational-database: create-view ?? |
+ -- Operation on relational-database: project-table ?? |
+ -- Operation on relational-database: restrict-table ?? |
+ -- Operation on relational-database: cart-prod-tables ?? |
+ Not yet implemented.
+

File: slib.info, Node: Weight-Balanced Trees, Prev: Relational Infrastructure, Up: Database Packages
- |
-Weight-Balanced Trees
-=====================
-`(require 'wt-tree)'
+6.3 Weight-Balanced Trees |
+========================= |
+
+`(require 'wt-tree)'
Balanced binary trees are a useful data structure for maintaining
large sets of ordered objects or sets of associations whose keys are
@@ -9956,7 +10669,7 @@ based on interpreting the trees as sets, hence the name
To use weight balanced trees, execute
(load-option 'wt-tree)
-
+
once before calling any of the procedures defined here.
* Menu:
@@ -9969,8 +10682,8 @@ once before calling any of the procedures defined here.

File: slib.info, Node: Construction of Weight-Balanced Trees, Next: Basic Operations on Weight-Balanced Trees, Prev: Weight-Balanced Trees, Up: Weight-Balanced Trees
-Construction of Weight-Balanced Trees
--------------------------------------
+6.3.1 Construction of Weight-Balanced Trees |
+------------------------------------------- |
Binary trees require there to be a total order on the keys used to
arrange the elements in the tree. Weight balanced trees are organized
@@ -9984,7 +10697,7 @@ compatibility between trees in operations taking two trees. Usually a
small number of tree types are created at the beginning of a program and
used many times throughout the program's execution.
- - procedure+: make-wt-tree-type key<?
+ -- procedure+: make-wt-tree-type key<? |
This procedure creates and returns a new tree type based on the
ordering predicate KEY<?. KEY<? must be a total ordering, having
the property that for all key values `a', `b' and `c':
@@ -10004,33 +10717,33 @@ used many times throughout the program's execution.
tree operations must all be created with a tree type originating
from the same call to `make-wt-tree-type'.
- - variable+: number-wt-type
+ -- variable+: number-wt-type |
A standard tree type for trees with numeric keys. `Number-wt-type'
could have been defined by
(define number-wt-type (make-wt-tree-type <))
- - variable+: string-wt-type
+ -- variable+: string-wt-type |
A standard tree type for trees with string keys. `String-wt-type'
could have been defined by
(define string-wt-type (make-wt-tree-type string<?))
- - procedure+: make-wt-tree wt-tree-type
+ -- procedure+: make-wt-tree wt-tree-type |
This procedure creates and returns a newly allocated weight
balanced tree. The tree is empty, i.e. it contains no
associations. WT-TREE-TYPE is a weight balanced tree type
obtained by calling `make-wt-tree-type'; the returned tree has
this type.
- - procedure+: singleton-wt-tree wt-tree-type key datum
+ -- procedure+: singleton-wt-tree wt-tree-type key datum |
This procedure creates and returns a newly allocated weight
balanced tree. The tree contains a single association, that of
DATUM with KEY. WT-TREE-TYPE is a weight balanced tree type
obtained by calling `make-wt-tree-type'; the returned tree has
this type.
- - procedure+: alist->wt-tree tree-type alist
+ -- procedure+: alist->wt-tree tree-type alist |
Returns a newly allocated weight-balanced tree that contains the
same associations as ALIST. This procedure is equivalent to:
@@ -10046,23 +10759,23 @@ used many times throughout the program's execution.

File: slib.info, Node: Basic Operations on Weight-Balanced Trees, Next: Advanced Operations on Weight-Balanced Trees, Prev: Construction of Weight-Balanced Trees, Up: Weight-Balanced Trees
-Basic Operations on Weight-Balanced Trees
------------------------------------------
+6.3.2 Basic Operations on Weight-Balanced Trees |
+----------------------------------------------- |
This section describes the basic tree operations on weight balanced
trees. These operations are the usual tree operations for insertion,
deletion and lookup, some predicates and a procedure for determining the
number of associations in a tree.
- |
- - procedure+: wt-tree/empty? wt-tree
+
+ -- procedure+: wt-tree/empty? wt-tree |
Returns `#t' if WT-TREE contains no associations, otherwise
returns `#f'.
- - procedure+: wt-tree/size wt-tree
+ -- procedure+: wt-tree/size wt-tree |
Returns the number of associations in WT-TREE, an exact
non-negative integer. This operation takes constant time.
- - procedure+: wt-tree/add wt-tree key datum
+ -- procedure+: wt-tree/add wt-tree key datum |
Returns a new tree containing all the associations in WT-TREE and
the association of DATUM with KEY. If WT-TREE already had an
association for KEY, the new association overrides the old. The
@@ -10070,34 +10783,34 @@ number of associations in a tree.
proportional to the logarithm of the number of associations in
WT-TREE.
- - procedure+: wt-tree/add! wt-tree key datum
+ -- procedure+: wt-tree/add! wt-tree key datum |
Associates DATUM with KEY in WT-TREE and returns an unspecified
value. If WT-TREE already has an association for KEY, that
association is replaced. The average and worst-case times
required by this operation are proportional to the logarithm of
the number of associations in WT-TREE.
- - procedure+: wt-tree/member? key wt-tree
+ -- procedure+: wt-tree/member? key wt-tree |
Returns `#t' if WT-TREE contains an association for KEY, otherwise
returns `#f'. The average and worst-case times required by this
operation are proportional to the logarithm of the number of
associations in WT-TREE.
- - procedure+: wt-tree/lookup wt-tree key default
+ -- procedure+: wt-tree/lookup wt-tree key default |
Returns the datum associated with KEY in WT-TREE. If WT-TREE
doesn't contain an association for KEY, DEFAULT is returned. The
average and worst-case times required by this operation are
proportional to the logarithm of the number of associations in
WT-TREE.
- - procedure+: wt-tree/delete wt-tree key
+ -- procedure+: wt-tree/delete wt-tree key |
Returns a new tree containing all the associations in WT-TREE,
except that if WT-TREE contains an association for KEY, it is
removed from the result. The average and worst-case times required
by this operation are proportional to the logarithm of the number
of associations in WT-TREE.
- - procedure+: wt-tree/delete! wt-tree key
+ -- procedure+: wt-tree/delete! wt-tree key |
If WT-TREE contains an association for KEY the association is
removed. Returns an unspecified value. The average and worst-case
times required by this operation are proportional to the logarithm
@@ -10106,28 +10819,28 @@ number of associations in a tree.

File: slib.info, Node: Advanced Operations on Weight-Balanced Trees, Next: Indexing Operations on Weight-Balanced Trees, Prev: Basic Operations on Weight-Balanced Trees, Up: Weight-Balanced Trees
-Advanced Operations on Weight-Balanced Trees
---------------------------------------------
+6.3.3 Advanced Operations on Weight-Balanced Trees |
+-------------------------------------------------- |
In the following the _size_ of a tree is the number of associations
that the tree contains, and a _smaller_ tree contains fewer
associations.
- - procedure+: wt-tree/split< wt-tree bound
+ -- procedure+: wt-tree/split< wt-tree bound |
Returns a new tree containing all and only the associations in
WT-TREE which have a key that is less than BOUND in the ordering
relation of the tree type of WT-TREE. The average and worst-case
times required by this operation are proportional to the logarithm
of the size of WT-TREE.
- - procedure+: wt-tree/split> wt-tree bound
+ -- procedure+: wt-tree/split> wt-tree bound |
Returns a new tree containing all and only the associations in
WT-TREE which have a key that is greater than BOUND in the
ordering relation of the tree type of WT-TREE. The average and
worst-case times required by this operation are proportional to the
logarithm of size of WT-TREE.
- - procedure+: wt-tree/union wt-tree-1 wt-tree-2
+ -- procedure+: wt-tree/union wt-tree-1 wt-tree-2 |
Returns a new tree containing all the associations from both trees.
This operation is asymmetric: when both trees have an association
for the same key, the returned tree associates the datum from
@@ -10140,7 +10853,7 @@ associations.
the other tree then the time required is at worst proportional to
the logarithm of the size of the larger tree.
- - procedure+: wt-tree/intersection wt-tree-1 wt-tree-2
+ -- procedure+: wt-tree/intersection wt-tree-1 wt-tree-2 |
Returns a new tree containing all and only those associations from
WT-TREE-1 which have keys appearing as the key of an association
in WT-TREE-2. Thus the associated data in the result are those
@@ -10151,7 +10864,7 @@ associations.
this operation is never worse that proportional to the sum of the
sizes of the trees.
- - procedure+: wt-tree/difference wt-tree-1 wt-tree-2
+ -- procedure+: wt-tree/difference wt-tree-1 wt-tree-2 |
Returns a new tree containing all and only those associations from
WT-TREE-1 which have keys that _do not_ appear as the key of an
association in WT-TREE-2. If the trees are viewed as sets the
@@ -10161,7 +10874,7 @@ associations.
time required by this operation is never worse that proportional to
the sum of the sizes of the trees.
- - procedure+: wt-tree/subset? wt-tree-1 wt-tree-2
+ -- procedure+: wt-tree/subset? wt-tree-1 wt-tree-2 |
Returns `#t' iff the key of each association in WT-TREE-1 is the
key of some association in WT-TREE-2, otherwise returns `#f'.
Viewed as a set operation, `wt-tree/subset?' is the improper subset
@@ -10176,7 +10889,7 @@ associations.
required by this operation is proportional to the size of
WT-TREE-1.
- - procedure+: wt-tree/set-equal? wt-tree-1 wt-tree-2
+ -- procedure+: wt-tree/set-equal? wt-tree-1 wt-tree-2 |
Returns `#t' iff for every association in WT-TREE-1 there is an
association in WT-TREE-2 that has the same key, and _vice versa_.
@@ -10193,7 +10906,7 @@ associations.
In the worst-case the time required by this operation is
proportional to the size of the smaller tree.
- - procedure+: wt-tree/fold combiner initial wt-tree
+ -- procedure+: wt-tree/fold combiner initial wt-tree |
This procedure reduces WT-TREE by combining all the associations,
using an reverse in-order traversal, so the associations are
visited in reverse order. COMBINER is a procedure of three
@@ -10214,7 +10927,7 @@ associations.
0
WT-TREE)
- - procedure+: wt-tree/for-each action wt-tree
+ -- procedure+: wt-tree/for-each action wt-tree |
This procedure traverses the tree in-order, applying ACTION to
each association. The associations are processed in increasing
order of their keys. ACTION is a procedure of two arguments which
@@ -10230,17 +10943,17 @@ associations.

File: slib.info, Node: Indexing Operations on Weight-Balanced Trees, Prev: Advanced Operations on Weight-Balanced Trees, Up: Weight-Balanced Trees
-Indexing Operations on Weight-Balanced Trees
---------------------------------------------
+6.3.4 Indexing Operations on Weight-Balanced Trees |
+-------------------------------------------------- |
Weight balanced trees support operations that view the tree as sorted
sequence of associations. Elements of the sequence can be accessed by
position, and the position of an element in the sequence can be
determined, both in logarthmic time.
- - procedure+: wt-tree/index wt-tree index
- - procedure+: wt-tree/index-datum wt-tree index
- - procedure+: wt-tree/index-pair wt-tree index
+ -- procedure+: wt-tree/index wt-tree index |
+ -- procedure+: wt-tree/index-datum wt-tree index |
+ -- procedure+: wt-tree/index-pair wt-tree index |
Returns the 0-based INDEXth association of WT-TREE in the sorted
sequence under the tree's ordering relation on the keys.
`wt-tree/index' returns the INDEXth key, `wt-tree/index-datum'
@@ -10258,10 +10971,10 @@ determined, both in logarthmic time.
tree as follows:
median: (wt-tree/index WT-TREE (quotient (wt-tree/size WT-TREE) 2))
-
+
maximum: (wt-tree/index WT-TREE (-1+ (wt-tree/size WT-TREE)))
- - procedure+: wt-tree/rank wt-tree key
+ -- procedure+: wt-tree/rank wt-tree key |
Determines the 0-based position of KEY in the sorted sequence of
the keys under the tree's ordering relation, or `#f' if the tree
has no association with for KEY. This procedure returns either an
@@ -10269,9 +10982,9 @@ determined, both in logarthmic time.
times required by this operation are proportional to the logarithm
of the number of associations in the tree.
- - procedure+: wt-tree/min wt-tree
- - procedure+: wt-tree/min-datum wt-tree
- - procedure+: wt-tree/min-pair wt-tree
+ -- procedure+: wt-tree/min wt-tree |
+ -- procedure+: wt-tree/min-datum wt-tree |
+ -- procedure+: wt-tree/min-pair wt-tree |
Returns the association of WT-TREE that has the least key under
the tree's ordering relation. `wt-tree/min' returns the least key,
`wt-tree/min-datum' returns the datum associated with the least key
@@ -10286,7 +10999,7 @@ determined, both in logarthmic time.
(define (wt-tree/min-datum tree) (wt-tree/index-datum tree 0))
(define (wt-tree/min-pair tree) (wt-tree/index-pair tree 0))
- - procedure+: wt-tree/delete-min wt-tree
+ -- procedure+: wt-tree/delete-min wt-tree |
Returns a new tree containing all of the associations in WT-TREE
except the association with the least key under the WT-TREE's
ordering relation. An error is signalled if the tree is empty.
@@ -10296,7 +11009,7 @@ determined, both in logarthmic time.
(wt-tree/delete WT-TREE (wt-tree/min WT-TREE))
- - procedure+: wt-tree/delete-min! wt-tree
+ -- procedure+: wt-tree/delete-min! wt-tree |
Removes the association with the least key under the WT-TREE's
ordering relation. An error is signalled if the tree is empty.
The average and worst-case times required by this operation are
@@ -10308,8 +11021,8 @@ determined, both in logarthmic time.

File: slib.info, Node: Other Packages, Next: About SLIB, Prev: Database Packages, Up: Top
-Other Packages
-**************
+7 Other Packages |
+**************** |
* Menu:
@@ -10319,13 +11032,13 @@ Other Packages
* Standards Support:: Support for Scheme Standards.
* Session Support:: REPL and Debugging.
* System Interface:: 'system, 'getenv, and other programs.
-* Extra-SLIB Packages:: Outside the envelope. |
+* Extra-SLIB Packages:: Outside the envelope.

File: slib.info, Node: Data Structures, Next: Sorting and Searching, Prev: Other Packages, Up: Other Packages
-Data Structures
-===============
+7.1 Data Structures |
+=================== |
* Menu:
@@ -10334,7 +11047,7 @@ Data Structures
* Array Mapping:: 'array-for-each
* Association Lists:: 'alist
* Byte:: 'byte
-* Byte/Number Conversions:: 'byte-number |
+* Byte/Number Conversions:: 'byte-number
* MAT-File Format:: 'matfile
* Portable Image Files:: 'pnm
* Collections:: 'collect
@@ -10348,122 +11061,79 @@ Data Structures

File: slib.info, Node: Arrays, Next: Subarrays, Prev: Data Structures, Up: Data Structures
-Arrays
-------
+7.1.1 Arrays |
+------------ |
-`(require 'array)'
+`(require 'array)' or `(require 'srfi-63)' |
- - Function: array? obj
+ -- Function: array? obj |
Returns `#t' if the OBJ is an array, and `#f' if not.
-_Note:_ Arrays are not disjoint from other Scheme types. Strings and
-vectors also satisfy `array?'. A disjoint array predicate can be
-written:
+_Note:_ Arrays are not disjoint from other Scheme types. Vectors and |
+possibly strings also satisfy `array?'. A disjoint array predicate can |
+be written: |
(define (strict-array? obj)
(and (array? obj) (not (string? obj)) (not (vector? obj))))
- - Function: array=? array1 array2
- Returns `#t' if ARRAY1 and ARRAY2 have the same rank and shape and
- the corresponding elements of ARRAY1 and ARRAY2 are `equal?'.
-
- (array=? (create-array '#(foo) 3 3)
- (create-array '#(foo) '(0 2) '(0 2)))
- => #t
-
- - Function: create-array prototype bound1 bound2 ...
- Creates and returns an array of type PROTOTYPE with dimensions
- BOUND1, BOUND2, ... and filled with elements from PROTOTYPE.
- PROTOTYPE must be an array, vector, or string. The
- implementation-dependent type of the returned array will be the
- same as the type of PROTOTYPE; except if that would be a vector or
- string with non-zero origin, in which case some variety of array
- will be returned.
-
- If the PROTOTYPE has no elements, then the initial contents of the
- returned array are unspecified. Otherwise, the returned array
- will be filled with the element at the origin of PROTOTYPE.
-
-These functions return a prototypical uniform-array enclosing the |
-optional argument (which must be of the correct type). If the |
-uniform-array type is supported by the implementation, then it is |
-returned; defaulting to the next larger precision type; resorting |
-finally to vector. |
-
- - Function: ac64 z
- - Function: ac64
- Returns a high-precision complex uniform-array prototype.
-
- - Function: ac32 z
- - Function: ac32
- Returns a complex uniform-array prototype.
-
- - Function: ar64 x
- - Function: ar64
- Returns a high-precision real uniform-array prototype.
-
- - Function: ar32 x
- - Function: ar32
- Returns a real uniform-array prototype.
-
- - Function: as64 n
- - Function: as64
- Returns an exact signed integer uniform-array prototype with at
- least 64 bits of precision.
-
- - Function: as32 n
- - Function: as32
- Returns an exact signed integer uniform-array prototype with at
- least 32 bits of precision.
-
- - Function: as16 n
- - Function: as16
- Returns an exact signed integer uniform-array prototype with at
- least 16 bits of precision.
-
- - Function: as8 n
- - Function: as8
- Returns an exact signed integer uniform-array prototype with at
- least 8 bits of precision.
-
- - Function: au64 k
- - Function: au64
- Returns an exact non-negative integer uniform-array prototype with
- at least 64 bits of precision.
-
- - Function: au32 k
- - Function: au32
- Returns an exact non-negative integer uniform-array prototype with
- at least 32 bits of precision.
-
- - Function: au16 k
- - Function: au16
- Returns an exact non-negative integer uniform-array prototype with
- at least 16 bits of precision.
-
- - Function: au8 k
- - Function: au8
- Returns an exact non-negative integer uniform-array prototype with
- at least 8 bits of precision.
-
- - Function: at1 bool
- - Function: at1
- Returns a boolean uniform-array prototype.
-
-When constructing an array, BOUND is either an inclusive range of
-indices expressed as a two element list, or an upper bound expressed as
-a single integer. So
-
- (create-array '#(foo) 3 3) == (create-array '#(foo) '(0 2) '(0 2))
-
- - Function: make-shared-array array mapper bound1 bound2 ...
+ -- Function: equal? obj1 obj2 |
+ Returns `#t' if OBJ1 and OBJ2 have the same rank and dimensions |
+ and the corresponding elements of OBJ1 and OBJ2 are `equal?'. |
+
+ `equal?' recursively compares the contents of pairs, vectors, |
+ strings, and _arrays_, applying `eqv?' on other objects such as |
+ numbers and symbols. A rule of thumb is that objects are |
+ generally `equal?' if they print the same. `equal?' may fail to |
+ terminate if its arguments are circular data structures. |
+
+ (equal? 'a 'a) => #t |
+ (equal? '(a) '(a)) => #t |
+ (equal? '(a (b) c) |
+ '(a (b) c)) => #t |
+ (equal? "abc" "abc") => #t |
+ (equal? 2 2) => #t |
+ (equal? (make-vector 5 'a) |
+ (make-vector 5 'a)) => #t |
+ (equal? (make-array (A:fixN32b 4) 5 3) |
+ (make-array (A:fixN32b 4) 5 3)) => #t |
+ (equal? (make-array '#(foo) 3 3) |
+ (make-array '#(foo) 3 3)) => #t |
+ (equal? (lambda (x) x) |
+ (lambda (y) y)) => _unspecified_ |
+
+ -- Function: array-rank obj |
+ Returns the number of dimensions of OBJ. If OBJ is not an array, |
+ 0 is returned. |
+
+ -- Function: array-dimensions array |
+ Returns a list of dimensions. |
+
+ (array-dimensions (make-array '#() 3 5)) |
+ => (3 5) |
+
+ -- Function: make-array prototype k1 ... |
+ Creates and returns an array of type PROTOTYPE with dimensions K1, |
+ ... and filled with elements from PROTOTYPE. PROTOTYPE must be |
+ an array, vector, or string. The implementation-dependent type of |
+ the returned array will be the same as the type of PROTOTYPE; |
+ except if that would be a vector or string with rank not equal to |
+ one, in which case some variety of array will be returned. |
+
+ If the PROTOTYPE has no elements, then the initial contents of the |
+ returned array are unspecified. Otherwise, the returned array |
+ will be filled with the element at the origin of PROTOTYPE. |
+
+ -- Function: create-array prototype k1 ... |
+ `create-array' is an alias for `make-array'. |
+
+ -- Function: make-shared-array array mapper k1 ... |
`make-shared-array' can be used to create shared subarrays of other
arrays. The MAPPER is a function that translates coordinates in
the new array into coordinates in the old array. A MAPPER must be
linear, and its range must stay within the bounds of the old
array, but it can be otherwise arbitrary. A simple example:
- (define fred (create-array '#(#f) 8 8))
+ (define fred (make-array '#(#f) 8 8)) |
(define freds-diagonal
(make-shared-array fred (lambda (i) (list i i)) 8))
(array-set! freds-diagonal 'foo 3)
@@ -10475,42 +11145,167 @@ a single integer. So
(array-ref freds-center 0 0)
=> FOO
- - Function: array-rank obj
- Returns the number of dimensions of OBJ. If OBJ is not an array,
- 0 is returned.
+ -- Function: list->array rank proto list |
+ LIST must be a rank-nested list consisting of all the elements, in |
+ row-major order, of the array to be created. |
- - Function: array-shape array
- Returns a list of inclusive bounds.
+ `list->array' returns an array of rank RANK and type PROTO |
+ consisting of all the elements, in row-major order, of LIST. When |
+ RANK is 0, LIST is the lone array element; not necessarily a list. |
- (array-shape (create-array '#() 3 5))
- => ((0 2) (0 4))
+ (list->array 2 '#() '((1 2) (3 4))) |
+ => #2A((1 2) (3 4)) |
+ (list->array 0 '#() 3) |
+ => #0A 3 |
- - Function: array-dimensions array
- `array-dimensions' is similar to `array-shape' but replaces
- elements with a 0 minimum with one greater than the maximum.
+ -- Function: array->list array |
+ Returns a rank-nested list consisting of all the elements, in |
+ row-major order, of ARRAY. In the case of a rank-0 array, |
+ `array->list' returns the single element. |
- (array-dimensions (create-array '#() 3 5))
- => (3 5)
+ (array->list #2A((ho ho ho) (ho oh oh))) |
+ => ((ho ho ho) (ho oh oh)) |
+ (array->list #0A ho) |
+ => ho |
- - Function: array-in-bounds? array index1 index2 ...
+ -- Function: vector->array vect proto dim1 ... |
+ VECT must be a vector of length equal to the product of exact |
+ nonnegative integers DIM1, .... |
+ |
+ `vector->array' returns an array of type PROTO consisting of all |
+ the elements, in row-major order, of VECT. In the case of a |
+ rank-0 array, VECT has a single element. |
+ |
+ (vector->array #(1 2 3 4) #() 2 2) |
+ => #2A((1 2) (3 4)) |
+ (vector->array '#(3) '#()) |
+ => #0A 3 |
+ |
+ -- Function: array->vector array |
+ Returns a new vector consisting of all the elements of ARRAY in |
+ row-major order. |
+ |
+ (array->vector #2A ((1 2)( 3 4))) |
+ => #(1 2 3 4) |
+ (array->vector #0A ho) |
+ => #(ho) |
+ |
+ -- Function: array-in-bounds? array index1 ... |
Returns `#t' if its arguments would be acceptable to `array-ref'.
- - Function: array-ref array index1 index2 ...
- Returns the (INDEX1, INDEX2, ...) element of ARRAY.
+ -- Function: array-ref array k1 ... |
+ Returns the (K1, ...) element of ARRAY. |
- - Procedure: array-set! array obj index1 index2 ... |
- Stores OBJ in the (INDEX1, INDEX2, ...) element of ARRAY. The
- value returned by `array-set!' is unspecified.
+ -- Procedure: array-set! array obj k1 ... |
+ Stores OBJ in the (K1, ...) element of ARRAY. The value returned |
+ by `array-set!' is unspecified. |
+ |
+These functions return a prototypical uniform-array enclosing the |
+optional argument (which must be of the correct type). If the |
+uniform-array type is supported by the implementation, then it is |
+returned; defaulting to the next larger precision type; resorting |
+finally to vector. |
+ |
+ -- Function: a:floc128b z |
+ -- Function: a:floc128b |
+ Returns an inexact 128.bit flonum complex uniform-array prototype. |
+ |
+ -- Function: a:floc64b z |
+ -- Function: a:floc64b |
+ Returns an inexact 64.bit flonum complex uniform-array prototype. |
+ |
+ -- Function: a:floc32b z |
+ -- Function: a:floc32b |
+ Returns an inexact 32.bit flonum complex uniform-array prototype. |
+ |
+ -- Function: a:floc16b z |
+ -- Function: a:floc16b |
+ Returns an inexact 16.bit flonum complex uniform-array prototype. |
+ |
+ -- Function: a:flor128b z |
+ -- Function: a:flor128b |
+ Returns an inexact 128.bit flonum real uniform-array prototype. |
+ |
+ -- Function: a:flor64b z |
+ -- Function: a:flor64b |
+ Returns an inexact 64.bit flonum real uniform-array prototype. |
+ |
+ -- Function: a:flor32b z |
+ -- Function: a:flor32b |
+ Returns an inexact 32.bit flonum real uniform-array prototype. |
+ |
+ -- Function: a:flor16b z |
+ -- Function: a:flor16b |
+ Returns an inexact 16.bit flonum real uniform-array prototype. |
+ |
+ -- Function: a:flor128b z |
+ -- Function: a:flor128b |
+ Returns an exact 128.bit decimal flonum rational uniform-array |
+ prototype. |
+ |
+ -- Function: a:flor64b z |
+ -- Function: a:flor64b |
+ Returns an exact 64.bit decimal flonum rational uniform-array |
+ prototype. |
+ |
+ -- Function: a:flor32b z |
+ -- Function: a:flor32b |
+ Returns an exact 32.bit decimal flonum rational uniform-array |
+ prototype. |
+ |
+ -- Function: a:fixz64b n |
+ -- Function: a:fixz64b |
+ Returns an exact binary fixnum uniform-array prototype with at |
+ least 64 bits of precision. |
+ |
+ -- Function: a:fixz32b n |
+ -- Function: a:fixz32b |
+ Returns an exact binary fixnum uniform-array prototype with at |
+ least 32 bits of precision. |
+ |
+ -- Function: a:fixz16b n |
+ -- Function: a:fixz16b |
+ Returns an exact binary fixnum uniform-array prototype with at |
+ least 16 bits of precision. |
+ |
+ -- Function: a:fixz8b n |
+ -- Function: a:fixz8b |
+ Returns an exact binary fixnum uniform-array prototype with at |
+ least 8 bits of precision. |
+ |
+ -- Function: a:fixn64b k |
+ -- Function: a:fixn64b |
+ Returns an exact non-negative binary fixnum uniform-array |
+ prototype with at least 64 bits of precision. |
+ |
+ -- Function: a:fixn32b k |
+ -- Function: a:fixn32b |
+ Returns an exact non-negative binary fixnum uniform-array |
+ prototype with at least 32 bits of precision. |
+ |
+ -- Function: a:fixn16b k |
+ -- Function: a:fixn16b |
+ Returns an exact non-negative binary fixnum uniform-array |
+ prototype with at least 16 bits of precision. |
+ |
+ -- Function: a:fixn8b k |
+ -- Function: a:fixn8b |
+ Returns an exact non-negative binary fixnum uniform-array |
+ prototype with at least 8 bits of precision. |
+ |
+ -- Function: a:bool bool |
+ -- Function: a:bool |
+ Returns a boolean uniform-array prototype. |

File: slib.info, Node: Subarrays, Next: Array Mapping, Prev: Arrays, Up: Data Structures
-Subarrays
----------
+7.1.2 Subarrays |
+--------------- |
-`(require 'subarray)'
+`(require 'subarray)'
- - Function: subarray array select ...
+ -- Function: subarray array select ... |
selects a subset of an array. For ARRAY of rank n, there must be
at least n SELECTS arguments. For 0 <= j < n, SELECTSj is either
an integer, a list of two integers within the range for the jth
@@ -10542,26 +11337,10 @@ Subarrays
> (subarray ra #f '(1 2))
#2A((b c) (e f))
- - Function: subarray0 array select ...
- Behaves like subarray, but aligns the returned array origin to 0
- ....
-
- - Function: array-align array coord ...
- Returns an array shared with ARRAY but with a different origin.
- The COORDS are the exact integer coordinates of the new origin.
- Indexes corresponding to missing or #f coordinates are not
- realigned.
+ -- Variable: subarray0 |
+ Legacy alias for subarray. |
- For example:
- (define ra2 (create-array '#(5) '(5 9) '(-4 0)))
- (array-shape ra2) => ((5 9) (-4 0))
- (array-shape (array-align ra2 0 0)) => ((0 4) (0 4))
- (array-shape (array-align ra2 0)) => ((0 4) (-4 0))
- (array-shape (array-align ra2)) => ((5 9) (-4 0))
- (array-shape (array-align ra2 0 #f)) => ((0 4) (-4 0))
- (array-shape (array-align ra2 #f 0)) => ((5 9) (0 4))
-
- - Function: array-trim array trim ...
+ -- Function: array-trim array trim ... |
Returns a subarray sharing contents with ARRAY except for slices
removed from either side of each dimension. Each of the TRIMS is
an exact integer indicating how much to trim. A positive S trims
@@ -10570,33 +11349,25 @@ Subarrays
lower bound.
For example:
- (array-trim '#(0 1 2 3 4) 1) => #1A(1 2 3 4) ;; shape is ((0 3))
- (array-trim '#(0 1 2 3 4) -1) => #1A(0 1 2 3) ;; shape is ((1 4))
-
+ (array-trim '#(0 1 2 3 4) 1) => #1A(1 2 3 4) |
+ (array-trim '#(0 1 2 3 4) -1) => #1A(0 1 2 3) |
+
(require 'array-for-each)
(define (centered-difference ra)
- (array-map - (array-trim ra 1) (array-trim ra -1)))
- (define (forward-difference ra)
- (array-map - (array-trim ra 1) ra))
- (define (backward-difference ra)
- (array-map - ra (array-trim ra -1)))
-
+ (array-map ra - (array-trim ra 1) (array-trim ra -1))) |
+
(centered-difference '#(0 1 3 5 9 22))
- => #1A(3 4 6 17) ;;shape is ((1 4))
- (backward-difference '#(0 1 3 5 9 22))
- => #1A(1 2 2 4 13) ;; shape is ((1 5))
- (forward-difference '#(0 1 3 5 9 22))
- => #(1 2 2 4 13) ;; shape is ((0 4))
+ => #(1 2 2 4 13) |

File: slib.info, Node: Array Mapping, Next: Association Lists, Prev: Subarrays, Up: Data Structures
-Array Mapping
--------------
+7.1.3 Array Mapping |
+------------------- |
-`(require 'array-for-each)'
+`(require 'array-for-each)'
- - Procedure: array-map! array0 proc array1 ... |
+ -- Procedure: array-map! array0 proc array1 ... |
ARRAY1, ... must have the same number of dimensions as ARRAY0 and
have a range for each index which includes the range for the
corresponding index in ARRAY0. PROC is applied to each tuple of
@@ -10604,31 +11375,31 @@ Array Mapping
corresponding element in ARRAY0. The value returned is
unspecified. The order of application is unspecified.
- - Function: array-map prototype proc array1 array2 ... |
- ARRAY2, ... must have the same number of dimensions as ARRAY1 and |
- have a range for each index which includes the range for the |
- corresponding index in ARRAY1. PROC is applied to each tuple of |
- elements of ARRAY1, ARRAY2, ... and the result is stored as the |
- corresponding element in a new array of type PROTOTYPE. The new |
- array is returned. The order of application is unspecified. |
- |
- - Function: array-for-each proc array0 ... |
+ -- Function: array-map prototype proc array1 array2 ... |
+ ARRAY2, ... must have the same number of dimensions as ARRAY1 and
+ have a range for each index which includes the range for the
+ corresponding index in ARRAY1. PROC is applied to each tuple of
+ elements of ARRAY1, ARRAY2, ... and the result is stored as the
+ corresponding element in a new array of type PROTOTYPE. The new
+ array is returned. The order of application is unspecified.
+
+ -- Function: array-for-each proc array0 ... |
PROC is applied to each tuple of elements of ARRAY0 ... in
row-major order. The value returned is unspecified.
- - Function: array-indexes array |
+ -- Function: array-indexes array |
Returns an array of lists of indexes for ARRAY such that, if LI is
a list of indexes for which ARRAY is defined, (equal? LI (apply
array-ref (array-indexes ARRAY) LI)).
- - Procedure: array-index-map! array proc |
+ -- Procedure: array-index-map! array proc |
applies PROC to the indices of each element of ARRAY in turn,
storing the result in the corresponding element. The value
returned and the order of application are unspecified.
One can implement ARRAY-INDEXES as
(define (array-indexes array)
- (let ((ra (apply create-array '#() (array-shape array))))
+ (let ((ra (apply make-array '#() (array-dimensions array)))) |
(array-index-map! ra (lambda x x))
ra))
Another example:
@@ -10637,7 +11408,7 @@ Array Mapping
(array-index-map! v (lambda (i) i))
v))
- - Procedure: array-copy! source destination |
+ -- Procedure: array:copy! destination source |
Copies every element from vector or array SOURCE to the
corresponding element of DESTINATION. DESTINATION must have the
same rank as SOURCE, and be at least as large in each dimension.
@@ -10646,10 +11417,10 @@ Array Mapping

File: slib.info, Node: Association Lists, Next: Byte, Prev: Array Mapping, Up: Data Structures
-Association Lists
------------------
+7.1.4 Association Lists |
+----------------------- |
-`(require 'alist)'
+`(require 'alist)'
Alist functions provide utilities for treating a list of key-value
pairs as an associative database. These functions take an equality
@@ -10659,18 +11430,18 @@ symmetric, and transitive.
Alist functions can be used with a secondary index method such as hash
tables for improved performance.
- - Function: predicate->asso pred
- Returns an "association function" (like `assq', `assv', or
- `assoc') corresponding to PRED. The returned function returns a
- key-value pair whose key is `pred'-equal to its first argument or
- `#f' if no key in the alist is PRED-equal to the first argument.
+ -- Function: predicate->asso pred |
+ Returns an "association function" (like `assq', `assv', or `assoc') |
+ corresponding to PRED. The returned function returns a key-value |
+ pair whose key is `pred'-equal to its first argument or `#f' if no |
+ key in the alist is PRED-equal to the first argument. |
- - Function: alist-inquirer pred
+ -- Function: alist-inquirer pred |
Returns a procedure of 2 arguments, ALIST and KEY, which returns
the value associated with KEY in ALIST or `#f' if KEY does not
appear in ALIST.
- - Function: alist-associator pred
+ -- Function: alist-associator pred |
Returns a procedure of 3 arguments, ALIST, KEY, and VALUE, which
returns an alist with KEY and VALUE associated. Any previous
value associated with KEY will be lost. This returned procedure
@@ -10681,7 +11452,7 @@ tables for improved performance.
(define alist '())
(set! alist (put alist "Foo" 9))
- - Function: alist-remover pred
+ -- Function: alist-remover pred |
Returns a procedure of 2 arguments, ALIST and KEY, which returns
an alist with an association whose KEY is key removed. This
returned procedure may or may not have side effects on its ALIST
@@ -10690,302 +11461,302 @@ tables for improved performance.
(define rem (alist-remover string-ci=?))
(set! alist (rem alist "foo"))
- - Function: alist-map proc alist
+ -- Function: alist-map proc alist |
Returns a new association list formed by mapping PROC over the
keys and values of ALIST. PROC must be a function of 2 arguments
which returns the new value part.
- - Function: alist-for-each proc alist
+ -- Function: alist-for-each proc alist |
Applies PROC to each pair of keys and values of ALIST. PROC must
be a function of 2 arguments. The returned value is unspecified.

File: slib.info, Node: Byte, Next: Byte/Number Conversions, Prev: Association Lists, Up: Data Structures
- |
-Byte
-----
-`(require 'byte)'
+7.1.5 Byte |
+---------- |
+
+`(require 'byte)'
Some algorithms are expressed in terms of arrays of small integers.
Using Scheme strings to implement these arrays is not portable vis-a-vis
the correspondence between integers and characters and non-ascii
-character sets. These functions abstract the notion of a "byte".
+character sets. These functions abstract the notion of a "byte".
- - Function: byte-ref bytes k
+ -- Function: byte-ref bytes k |
K must be a valid index of BYTES. `byte-ref' returns byte K of
BYTES using zero-origin indexing.
- - Procedure: byte-set! bytes k byte
- K must be a valid index of BYTES, and BYTE must be a small |
- nonnegative integer. `byte-set!' stores BYTE in element K of |
- BYTES and returns an unspecified value. |
- |
- - Function: make-bytes k byte
- - Function: make-bytes k |
- `make-bytes' returns a newly allocated byte-array of length K. If |
+ -- Procedure: byte-set! bytes k byte |
+ K must be a valid index of BYTES, and BYTE must be a small
+ nonnegative integer. `byte-set!' stores BYTE in element K of
+ BYTES and returns an unspecified value.
+
+ -- Function: make-bytes k byte |
+ -- Function: make-bytes k |
+ `make-bytes' returns a newly allocated byte-array of length K. If
BYTE is given, then all elements of the byte-array are initialized
to BYTE, otherwise the contents of the byte-array are unspecified.
- - Function: bytes-length bytes
+ -- Function: bytes-length bytes |
`bytes-length' returns length of byte-array BYTES.
- - Function: bytes byte ...
- Returns a newly allocated byte-array composed of the small |
- nonnegative arguments. |
+ -- Function: bytes byte ... |
+ Returns a newly allocated byte-array composed of the small
+ nonnegative arguments.
- - Function: bytes->list bytes
- `bytes->list' returns a newly allocated list of the bytes that |
- make up the given byte-array. |
- |
- - Function: list->bytes bytes
- `list->bytes' returns a newly allocated byte-array formed from the |
- small nonnegative integers in the list BYTES. |
+ -- Function: bytes->list bytes |
+ `bytes->list' returns a newly allocated list of the bytes that
+ make up the given byte-array.
-`Bytes->list' and `list->bytes' are inverses so far as `equal?' is |
-concerned. |
+ -- Function: list->bytes bytes |
+ `list->bytes' returns a newly allocated byte-array formed from the
+ small nonnegative integers in the list BYTES.
- - Function: bytes-copy bytes |
- Returns a newly allocated copy of the given BYTES. |
- |
- - Procedure: bytes-reverse! bytes |
- Reverses the order of byte-array BYTES. |
- |
- - Function: bytes-reverse bytes |
- Returns a newly allocated bytes-array consisting of the elements of |
- BYTES in reverse order. |
- |
-Input and output of bytes should be with ports opened in "binary" mode |
-(*note Input/Output::). Calling `open-file' with 'rb or 'wb modes |
+`Bytes->list' and `list->bytes' are inverses so far as `equal?' is
+concerned.
+
+ -- Function: bytes-copy bytes |
+ Returns a newly allocated copy of the given BYTES.
+
+ -- Procedure: bytes-reverse! bytes |
+ Reverses the order of byte-array BYTES.
+
+ -- Function: bytes-reverse bytes |
+ Returns a newly allocated bytes-array consisting of the elements of
+ BYTES in reverse order.
+
+Input and output of bytes should be with ports opened in "binary" mode
+(*note Input/Output::). Calling `open-file' with 'rb or 'wb modes
argument will return a binary port if the Scheme implementation
supports it.
- |
- - Function: write-byte byte port
- - Function: write-byte byte |
+
+ -- Function: write-byte byte port |
+ -- Function: write-byte byte |
Writes the byte BYTE (not an external representation of the byte)
to the given PORT and returns an unspecified value. The PORT
argument may be omitted, in which case it defaults to the value
- returned by `current-output-port'.
- |
- - Function: read-byte port
- - Function: read-byte |
+ returned by `current-output-port'.
+
+ -- Function: read-byte port |
+ -- Function: read-byte |
Returns the next byte available from the input PORT, updating the
PORT to point to the following byte. If no more bytes are
- available, an end-of-file object is returned. PORT may be |
+ available, an end-of-file object is returned. PORT may be
omitted, in which case it defaults to the value returned by
- `current-input-port'.
+ `current-input-port'.
+
+When reading and writing binary numbers with `read-bytes' and
+`write-bytes', the sign of the length argument determines the
+endianness (order) of bytes. Positive treats them as big-endian, the
+first byte input or output is highest order. Negative treats them as
+little-endian, the first byte input or output is the lowest order.
+
+Once read in, SLIB treats byte sequences as big-endian. The multi-byte
+sequences produced and used by number conversion routines *note
+Byte/Number Conversions:: are always big-endian.
+
+ -- Function: read-bytes n port |
+ -- Function: read-bytes n |
+ `read-bytes' returns a newly allocated bytes-array filled with
+ `(abs N)' bytes read from PORT. If N is positive, then the first
+ byte read is stored at index 0; otherwise the last byte read is
+ stored at index 0. Note that the length of the returned string
+ will be less than `(abs N)' if PORT reaches end-of-file.
+
+ PORT may be omitted, in which case it defaults to the value
+ returned by `current-input-port'.
+
+ -- Function: write-bytes bytes n port |
+ -- Function: write-bytes bytes n |
+ `write-bytes' writes `(abs N)' bytes to output-port PORT. If N is
+ positive, then the first byte written is index 0 of BYTES;
+ otherwise the last byte written is index 0 of BYTES.
+ `write-bytes' returns an unspecified value.
+
+ PORT may be omitted, in which case it defaults to the value
+ returned by `current-output-port'.
-When reading and writing binary numbers with `read-bytes' and |
-`write-bytes', the sign of the length argument determines the |
-endianness (order) of bytes. Positive treats them as big-endian, the |
-first byte input or output is highest order. Negative treats them as |
-little-endian, the first byte input or output is the lowest order. |
- |
-Once read in, SLIB treats byte sequences as big-endian. The multi-byte |
-sequences produced and used by number conversion routines *note |
-Byte/Number Conversions:: are always big-endian. |
- |
- - Function: read-bytes n port |
- - Function: read-bytes n |
- `read-bytes' returns a newly allocated bytes-array filled with |
- `(abs N)' bytes read from PORT. If N is positive, then the first |
- byte read is stored at index 0; otherwise the last byte read is |
- stored at index 0. Note that the length of the returned string |
- will be less than `(abs N)' if PORT reaches end-of-file. |
- |
- PORT may be omitted, in which case it defaults to the value |
- returned by `current-input-port'. |
- |
- - Function: write-bytes bytes n port |
- - Function: write-bytes bytes n |
- `write-bytes' writes `(abs N)' bytes to output-port PORT. If N is |
- positive, then the first byte written is index 0 of BYTES; |
- otherwise the last byte written is index 0 of BYTES. |
- `write-bytes' returns an unspecified value. |
- |
- PORT may be omitted, in which case it defaults to the value |
- returned by `current-output-port'. |
- |
-`substring-read!' and `substring-write' provide lower-level procedures |
-for reading and writing blocks of bytes. The relative size of START |
-and END determines the order of writing. |
- |
- - Procedure: substring-read! string start end port |
- - Procedure: substring-read! string start end |
- Fills STRING with up to `(abs (- START END))' bytes read from |
- PORT. The first byte read is stored at index STRING. |
- `substring-read!' returns the number of bytes read. |
- |
- PORT may be omitted, in which case it defaults to the value |
- returned by `current-input-port'. |
- |
- - Function: substring-write string start end port |
- - Function: substring-write string start end |
- `substring-write' writes `(abs (- START END))' bytes to |
- output-port PORT. The first byte written is index START of |
- STRING. `substring-write' returns the number of bytes written. |
- |
- PORT may be omitted, in which case it defaults to the value |
- returned by `current-output-port'. |
+`substring-read!' and `substring-write' provide lower-level procedures
+for reading and writing blocks of bytes. The relative size of START
+and END determines the order of writing.
+
+ -- Procedure: substring-read! string start end port |
+ -- Procedure: substring-read! string start end |
+ Fills STRING with up to `(abs (- START END))' bytes read from
+ PORT. The first byte read is stored at index STRING.
+ `substring-read!' returns the number of bytes read.
+
+ PORT may be omitted, in which case it defaults to the value
+ returned by `current-input-port'.
+
+ -- Function: substring-write string start end port |
+ -- Function: substring-write string start end |
+ `substring-write' writes `(abs (- START END))' bytes to
+ output-port PORT. The first byte written is index START of
+ STRING. `substring-write' returns the number of bytes written.
+
+ PORT may be omitted, in which case it defaults to the value
+ returned by `current-output-port'.

File: slib.info, Node: Byte/Number Conversions, Next: MAT-File Format, Prev: Byte, Up: Data Structures
- |
-Byte/Number Conversions |
------------------------ |
- |
-`(require 'byte-number)' |
- |
-The multi-byte sequences produced and used by numeric conversion |
-routines are always big-endian. Endianness can be changed during |
-reading and writing bytes using `read-bytes' and `write-bytes' *Note |
-read-bytes: Byte. |
- |
-The sign of the length argument to bytes/integer conversion procedures |
-determines the signedness of the number. |
- |
- - Function: bytes->integer bytes n |
- Converts the first `(abs N)' bytes of big-endian BYTES array to an |
- integer. If N is negative then the integer coded by the bytes are |
- treated as two's-complement (can be negative). |
- |
- (bytes->integer (bytes 0 0 0 15) -4) => 15 |
- (bytes->integer (bytes 0 0 0 15) 4) => 15 |
- (bytes->integer (bytes 255 255 255 255) -4) => -1 |
- (bytes->integer (bytes 255 255 255 255) 4) => 4294967295 |
- (bytes->integer (bytes 128 0 0 0) -4) => -2147483648 |
- (bytes->integer (bytes 128 0 0 0) 4) => 2147483648 |
- |
- - Function: integer->bytes n len |
- Converts the integer N to a byte-array of `(abs N)' bytes. If N |
- and LEN are both negative, then the bytes in the returned array |
- are coded two's-complement. |
- |
- (bytes->list (integer->bytes 15 -4)) => (0 0 0 15) |
- (bytes->list (integer->bytes 15 4)) => (0 0 0 15) |
+
+7.1.6 Byte/Number Conversions |
+----------------------------- |
+
+`(require 'byte-number)'
+
+The multi-byte sequences produced and used by numeric conversion
+routines are always big-endian. Endianness can be changed during
+reading and writing bytes using `read-bytes' and `write-bytes' *Note
+read-bytes: Byte.
+
+The sign of the length argument to bytes/integer conversion procedures
+determines the signedness of the number.
+
+ -- Function: bytes->integer bytes n |
+ Converts the first `(abs N)' bytes of big-endian BYTES array to an
+ integer. If N is negative then the integer coded by the bytes are
+ treated as two's-complement (can be negative).
+
+ (bytes->integer (bytes 0 0 0 15) -4) => 15
+ (bytes->integer (bytes 0 0 0 15) 4) => 15
+ (bytes->integer (bytes 255 255 255 255) -4) => -1
+ (bytes->integer (bytes 255 255 255 255) 4) => 4294967295
+ (bytes->integer (bytes 128 0 0 0) -4) => -2147483648
+ (bytes->integer (bytes 128 0 0 0) 4) => 2147483648
+
+ -- Function: integer->bytes n len |
+ Converts the integer N to a byte-array of `(abs N)' bytes. If N
+ and LEN are both negative, then the bytes in the returned array
+ are coded two's-complement.
+
+ (bytes->list (integer->bytes 15 -4)) => (0 0 0 15)
+ (bytes->list (integer->bytes 15 4)) => (0 0 0 15)
(bytes->list (integer->bytes -1 -4)) => (255 255 255 255)
(bytes->list (integer->bytes 4294967295 4)) => (255 255 255 255)
- (bytes->list (integer->bytes -2147483648 -4)) => (128 0 0 0) |
- (bytes->list (integer->bytes 2147483648 4)) => (128 0 0 0) |
- |
- - Function: bytes->ieee-float bytes |
- BYTES must be a 4-element byte-array. `bytes->ieee-float' |
- calculates and returns the value of BYTES interpreted as a |
- big-endian IEEE 4-byte (32-bit) number. |
- |
- (bytes->ieee-float (bytes #x40 0 0 0)) => 2.0 |
- (bytes->ieee-float (bytes #x40 #xd0 0 0)) => 6.5 |
- (bytes->ieee-float (bytes #xc0 #xd0 0 0)) => -6.5 |
- |
- (bytes->ieee-float (bytes 0 #x80 0 0)) => 11.754943508222875e-39 |
- (bytes->ieee-float (bytes 0 #x40 0 0)) => 5.877471754111437e-39 |
- (bytes->ieee-float (bytes 0 0 0 1)) => 1.401298464324817e-45 |
- |
- (bytes->ieee-float (bytes #xff #x80 0 0)) => -1/0 |
- (bytes->ieee-float (bytes #x7f #x80 0 0)) => 1/0 |
- (bytes->ieee-float (bytes #x7f #x80 0 1)) => 0/0 |
- |
- - Function: bytes->ieee-double bytes |
- BYTES must be a 8-element byte-array. `bytes->ieee-double' |
- calculates and returns the value of BYTES interpreted as a |
- big-endian IEEE 8-byte (64-bit) number. |
- |
- (bytes->ieee-double (bytes 0 0 0 0 0 0 0 0)) => 0.0 |
- (bytes->ieee-double (bytes #x40 0 0 0 0 0 0 0)) => 2 |
- (bytes->ieee-double (bytes #x40 #x1A 0 0 0 0 0 0)) => 6.5 |
- (bytes->ieee-double (bytes #xC0 #x1A 0 0 0 0 0 0)) => -6.5 |
- |
- (bytes->ieee-double (bytes 0 8 0 0 0 0 0 0)) => 11.125369292536006e-309 |
- (bytes->ieee-double (bytes 0 4 0 0 0 0 0 0)) => 5.562684646268003e-309 |
- (bytes->ieee-double (bytes 0 0 0 0 0 0 0 1)) => 4.0e-324 |
- |
- (bytes->ieee-double (bytes #xFF #xF0 0 0 0 0 0 0)) => -1/0 |
- (bytes->ieee-double (bytes #x7F #xF0 0 0 0 0 0 0)) => 1/0 |
- (bytes->ieee-double (bytes #x7F #xF8 0 0 0 0 0 0)) => 0/0 |
- |
- - Function: ieee-float->bytes x |
- Returns a 4-element byte-array encoding the IEEE single-precision |
- floating-point of X. |
- |
+ (bytes->list (integer->bytes -2147483648 -4)) => (128 0 0 0)
+ (bytes->list (integer->bytes 2147483648 4)) => (128 0 0 0)
+
+ -- Function: bytes->ieee-float bytes |
+ BYTES must be a 4-element byte-array. `bytes->ieee-float'
+ calculates and returns the value of BYTES interpreted as a
+ big-endian IEEE 4-byte (32-bit) number.
+
+ (bytes->ieee-float (bytes #x40 0 0 0)) => 2.0
+ (bytes->ieee-float (bytes #x40 #xd0 0 0)) => 6.5
+ (bytes->ieee-float (bytes #xc0 #xd0 0 0)) => -6.5
+
+ (bytes->ieee-float (bytes 0 #x80 0 0)) => 11.754943508222875e-39
+ (bytes->ieee-float (bytes 0 #x40 0 0)) => 5.877471754111437e-39
+ (bytes->ieee-float (bytes 0 0 0 1)) => 1.401298464324817e-45
+
+ (bytes->ieee-float (bytes #xff #x80 0 0)) => -1/0
+ (bytes->ieee-float (bytes #x7f #x80 0 0)) => 1/0
+ (bytes->ieee-float (bytes #x7f #x80 0 1)) => 0/0
+
+ -- Function: bytes->ieee-double bytes |
+ BYTES must be a 8-element byte-array. `bytes->ieee-double'
+ calculates and returns the value of BYTES interpreted as a
+ big-endian IEEE 8-byte (64-bit) number.
+
+ (bytes->ieee-double (bytes 0 0 0 0 0 0 0 0)) => 0.0
+ (bytes->ieee-double (bytes #x40 0 0 0 0 0 0 0)) => 2
+ (bytes->ieee-double (bytes #x40 #x1A 0 0 0 0 0 0)) => 6.5
+ (bytes->ieee-double (bytes #xC0 #x1A 0 0 0 0 0 0)) => -6.5
+
+ (bytes->ieee-double (bytes 0 8 0 0 0 0 0 0)) => 11.125369292536006e-309
+ (bytes->ieee-double (bytes 0 4 0 0 0 0 0 0)) => 5.562684646268003e-309
+ (bytes->ieee-double (bytes 0 0 0 0 0 0 0 1)) => 4.0e-324
+
+ (bytes->ieee-double (bytes #xFF #xF0 0 0 0 0 0 0)) => -1/0
+ (bytes->ieee-double (bytes #x7F #xF0 0 0 0 0 0 0)) => 1/0
+ (bytes->ieee-double (bytes #x7F #xF8 0 0 0 0 0 0)) => 0/0
+
+ -- Function: ieee-float->bytes x |
+ Returns a 4-element byte-array encoding the IEEE single-precision
+ floating-point of X.
+
(bytes->list (ieee-float->bytes 2.0)) => (64 0 0 0)
(bytes->list (ieee-float->bytes 6.5)) => (64 208 0 0)
(bytes->list (ieee-float->bytes -6.5)) => (192 208 0 0)
- |
+
(bytes->list (ieee-float->bytes 11.754943508222875e-39)) => ( 0 128 0 0)
(bytes->list (ieee-float->bytes 5.877471754111438e-39)) => ( 0 64 0 0)
(bytes->list (ieee-float->bytes 1.401298464324817e-45)) => ( 0 0 0 1)
- |
+
(bytes->list (ieee-float->bytes -1/0)) => (255 128 0 0)
(bytes->list (ieee-float->bytes 1/0)) => (127 128 0 0)
(bytes->list (ieee-float->bytes 0/0)) => (127 128 0 1)
- |
- - Function: ieee-double->bytes x |
- Returns a 8-element byte-array encoding the IEEE double-precision |
- floating-point of X. |
- |
- (bytes->list (ieee-double->bytes 2.0)) => (64 0 0 0 0 0 0 0) |
- (bytes->list (ieee-double->bytes 6.5)) => (64 26 0 0 0 0 0 0) |
- (bytes->list (ieee-double->bytes -6.5)) => (192 26 0 0 0 0 0 0) |
- |
- (bytes->list (ieee-double->bytes 11.125369292536006e-309)) |
- => ( 0 8 0 0 0 0 0 0) |
- (bytes->list (ieee-double->bytes 5.562684646268003e-309)) |
- => ( 0 4 0 0 0 0 0 0) |
- (bytes->list (ieee-double->bytes 4.0e-324)) |
- => ( 0 0 0 0 0 0 0 1) |
- |
- (bytes->list (ieee-double->bytes -1/0)) => (255 240 0 0 0 0 0 0) |
- (bytes->list (ieee-double->bytes 1/0)) => (127 240 0 0 0 0 0 0) |
- (bytes->list (ieee-double->bytes 0/0)) => (127 248 0 0 0 0 0 0) |
- |
-Byte Collation Order |
-.................... |
- |
-The `string<?' ordering of big-endian byte-array representations of |
-fixed and IEEE floating-point numbers agrees with the numerical |
-ordering only when those numbers are non-negative. |
- |
-Straighforward modification of these formats can extend the |
-byte-collating order to work for their entire ranges. This agreement |
-enables the full range of numbers as keys in |
-"indexed-sequential-access-method" databases. |
- |
- - Procedure: integer-byte-collate! byte-vector |
- Modifies sign bit of BYTE-VECTOR so that `string<?' ordering of |
- two's-complement byte-vectors matches numerical order. |
- `integer-byte-collate!' returns BYTE-VECTOR and is its own |
- functional inverse. |
- |
- - Function: integer-byte-collate byte-vector |
- Returns copy of BYTE-VECTOR with sign bit modified so that |
- `string<?' ordering of two's-complement byte-vectors matches |
- numerical order. `integer-byte-collate' is its own functional |
- inverse. |
- |
- - Procedure: ieee-byte-collate! byte-vector |
- Modifies BYTE-VECTOR so that `string<?' ordering of IEEE |
- floating-point byte-vectors matches numerical order. |
- `ieee-byte-collate!' returns BYTE-VECTOR. |
- |
- - Procedure: ieee-byte-decollate! byte-vector |
- Given BYTE-VECTOR modified by `IEEE-byte-collate!', reverses the |
- BYTE-VECTOR modifications. |
- |
- - Function: ieee-byte-collate byte-vector |
- Returns copy of BYTE-VECTOR encoded so that `string<?' ordering of |
- IEEE floating-point byte-vectors matches numerical order. |
- |
- - Function: ieee-byte-decollate byte-vector |
- Given BYTE-VECTOR returned by `IEEE-byte-collate', reverses the |
- BYTE-VECTOR modifications. |
- |
+
+ -- Function: ieee-double->bytes x |
+ Returns a 8-element byte-array encoding the IEEE double-precision
+ floating-point of X.
+
+ (bytes->list (ieee-double->bytes 2.0)) => (64 0 0 0 0 0 0 0)
+ (bytes->list (ieee-double->bytes 6.5)) => (64 26 0 0 0 0 0 0)
+ (bytes->list (ieee-double->bytes -6.5)) => (192 26 0 0 0 0 0 0)
+
+ (bytes->list (ieee-double->bytes 11.125369292536006e-309))
+ => ( 0 8 0 0 0 0 0 0)
+ (bytes->list (ieee-double->bytes 5.562684646268003e-309))
+ => ( 0 4 0 0 0 0 0 0)
+ (bytes->list (ieee-double->bytes 4.0e-324))
+ => ( 0 0 0 0 0 0 0 1)
+
+ (bytes->list (ieee-double->bytes -1/0)) => (255 240 0 0 0 0 0 0)
+ (bytes->list (ieee-double->bytes 1/0)) => (127 240 0 0 0 0 0 0)
+ (bytes->list (ieee-double->bytes 0/0)) => (127 248 0 0 0 0 0 0)
+
+Byte Collation Order
+....................
+
+The `string<?' ordering of big-endian byte-array representations of
+fixed and IEEE floating-point numbers agrees with the numerical
+ordering only when those numbers are non-negative.
+
+Straighforward modification of these formats can extend the
+byte-collating order to work for their entire ranges. This agreement
+enables the full range of numbers as keys in
+"indexed-sequential-access-method" databases.
+
+ -- Procedure: integer-byte-collate! byte-vector |
+ Modifies sign bit of BYTE-VECTOR so that `string<?' ordering of
+ two's-complement byte-vectors matches numerical order.
+ `integer-byte-collate!' returns BYTE-VECTOR and is its own
+ functional inverse.
+
+ -- Function: integer-byte-collate byte-vector |
+ Returns copy of BYTE-VECTOR with sign bit modified so that
+ `string<?' ordering of two's-complement byte-vectors matches
+ numerical order. `integer-byte-collate' is its own functional
+ inverse.
+
+ -- Procedure: ieee-byte-collate! byte-vector |
+ Modifies BYTE-VECTOR so that `string<?' ordering of IEEE
+ floating-point byte-vectors matches numerical order.
+ `ieee-byte-collate!' returns BYTE-VECTOR.
+
+ -- Procedure: ieee-byte-decollate! byte-vector |
+ Given BYTE-VECTOR modified by `IEEE-byte-collate!', reverses the
+ BYTE-VECTOR modifications.
+
+ -- Function: ieee-byte-collate byte-vector |
+ Returns copy of BYTE-VECTOR encoded so that `string<?' ordering of
+ IEEE floating-point byte-vectors matches numerical order.
+
+ -- Function: ieee-byte-decollate byte-vector |
+ Given BYTE-VECTOR returned by `IEEE-byte-collate', reverses the
+ BYTE-VECTOR modifications.
+

File: slib.info, Node: MAT-File Format, Next: Portable Image Files, Prev: Byte/Number Conversions, Up: Data Structures
- |
-MAT-File Format
----------------
-`(require 'matfile)'
+7.1.7 MAT-File Format |
+--------------------- |
+
+`(require 'matfile)'
`http://www.mathworks.com/access/helpdesk/help/pdf_doc/matlab/matfile_format.pdf'
@@ -10994,16 +11765,16 @@ files. MAT-files written from big-endian or little-endian computers
having IEEE format numbers are currently supported. Support for files
written from VAX or Cray machines could also be added.
-The numeric and text matrix types handled; support for "sparse"
-matrices awaits a sample file.
+The numeric and text matrix types handled; support for "sparse" matrices |
+awaits a sample file. |
- - Function: matfile:read filename
+ -- Function: matfile:read filename |
FILENAME should be a string naming an existing file containing a
MATLAB Version 4 MAT-File. The `matfile:read' procedure reads
matrices from the file and returns a list of the results; a list
of the name string and array for each matrix.
- - Function: matfile:load filename
+ -- Function: matfile:load filename |
FILENAME should be a string naming an existing file containing a
MATLAB Version 4 MAT-File. The `matfile:load' procedure reads
matrices from the file and defines the `string-ci->symbol' for
@@ -11013,14 +11784,14 @@ matrices awaits a sample file.

File: slib.info, Node: Portable Image Files, Next: Collections, Prev: MAT-File Format, Up: Data Structures
-Portable Image Files
---------------------
+7.1.8 Portable Image Files |
+-------------------------- |
-`(require 'pnm)'
+`(require 'pnm)'
- - Function: pnm:type-dimensions path
- The string PATH must name a "portable bitmap graphics" file.
- `pnm:type-dimensions' returns a list of 4 items:
+ -- Function: pnm:type-dimensions path |
+ The string PATH must name a "portable bitmap graphics" file. `pnm:type-dimensions'
+ returns a list of 4 items: |
1. A symbol describing the type of the file named by PATH.
2. The image width in pixels.
@@ -11044,16 +11815,16 @@ Portable Image Files
RGB (full color) image; red, green, and blue interleaved
pixel values are from 0 to MAXVAL
- - Function: pnm:image-file->array path array
- Reads the "portable bitmap graphics" file named by PATH into
- ARRAY. ARRAY must be the correct size and type for PATH. ARRAY
- is returned.
+ -- Function: pnm:image-file->array path array |
+ Reads the "portable bitmap graphics" file named by PATH into ARRAY. |
+ ARRAY must be the correct size and type for PATH. ARRAY is |
+ returned. |
- - Function: pnm:image-file->array path
+ -- Function: pnm:image-file->array path |
`pnm:image-file->array' creates and returns an array with the
- "portable bitmap graphics" file named by PATH read into it.
+ "portable bitmap graphics" file named by PATH read into it.
- - Function: pnm:array-write type array maxval path comment ... |
+ -- Function: pnm:array-write type array maxval path comment ... |
Writes the contents of ARRAY to a TYPE image file named PATH. The
file will have pixel values between 0 and MAXVAL, which must be
compatible with TYPE. For `pbm' files, MAXVAL must be `1'.
@@ -11062,10 +11833,10 @@ Portable Image Files

File: slib.info, Node: Collections, Next: Dynamic Data Type, Prev: Portable Image Files, Up: Data Structures
-Collections
------------
+7.1.9 Collections |
+----------------- |
-`(require 'collect)'
+`(require 'collect)'
Routines for managing collections. Collections are aggregate data
structures supporting iteration over their elements, similar to the
@@ -11094,12 +11865,12 @@ Yasos::). They must support the following operations:
They might support specialized `for-each-key' and `for-each-elt'
operations.
- - Function: collection? obj
+ -- Function: collection? obj |
A predicate, true initially of lists, vectors and strings. New
sorts of collections must answer `#t' to `collection?'.
- - Procedure: map-elts proc collection1 ...
- - Procedure: do-elts proc collection1 ...
+ -- Procedure: map-elts proc collection1 ... |
+ -- Procedure: do-elts proc collection1 ... |
PROC is a procedure taking as many arguments as there are
COLLECTIONS (at least one). The COLLECTIONS are iterated over in
their natural order and PROC is applied to the elements yielded by
@@ -11114,8 +11885,8 @@ operations.
(map-elts + (list 1 2 3) (vector 1 2 3))
=> #(2 4 6)
- - Procedure: map-keys proc collection1 ...
- - Procedure: do-keys proc collection1 ...
+ -- Procedure: map-keys proc collection1 ... |
+ -- Procedure: do-keys proc collection1 ... |
These are analogous to `map-elts' and `do-elts', but each
iteration is over the COLLECTIONS' _keys_ rather than their
elements.
@@ -11124,16 +11895,16 @@ operations.
(map-keys + (list 1 2 3) (vector 1 2 3))
=> #(0 2 4)
- - Procedure: for-each-key collection proc
- - Procedure: for-each-elt collection proc
+ -- Procedure: for-each-key collection proc |
+ -- Procedure: for-each-elt collection proc |
These are like `do-keys' and `do-elts' but only for a single
collection; they are potentially more efficient.
- - Function: reduce proc seed collection1 ...
- A generalization of the list-based `reduce-init' (*note Lists as |
- sequences::) to collections which will shadow the list-based |
- version if `(require 'collect)' follows `(require |
- 'common-list-functions)' (*note Common List Functions::).
+ -- Function: reduce proc seed collection1 ... |
+ A generalization of the list-based `reduce-init' (*note Lists as
+ sequences::) to collections which will shadow the list-based
+ version if `(require 'collect)' follows `(require
+ 'common-list-functions)' (*note Common List Functions::).
Examples:
(reduce + 0 (vector 1 2 3))
@@ -11141,7 +11912,7 @@ operations.
(reduce union '() '((a b c) (b c d) (d a)))
=> (c b d a).
- - Function: any? pred collection1 ...
+ -- Function: any? pred collection1 ... |
A generalization of the list-based `some' (*note Lists as
sequences::) to collections.
@@ -11149,7 +11920,7 @@ operations.
(any? odd? (list 2 3 4 5))
=> #t
- - Function: every? pred collection1 ...
+ -- Function: every? pred collection1 ... |
A generalization of the list-based `every' (*note Lists as
sequences::) to collections.
@@ -11157,15 +11928,15 @@ operations.
(every? collection? '((1 2) #(1 2)))
=> #t
- - Function: empty? collection
+ -- Function: empty? collection |
Returns `#t' iff there are no elements in COLLECTION.
`(empty? COLLECTION) == (zero? (size COLLECTION))'
- - Function: size collection
+ -- Function: size collection |
Returns the number of elements in COLLECTION.
- - Function: Setter list-ref
+ -- Function: Setter list-ref |
See *Note Setters:: for a definition of "setter". N.B. `(setter
list-ref)' doesn't work properly for element 0 of a list.
@@ -11174,7 +11945,7 @@ operations.
(define-operation (LOOKUP table key failure-object))
(define-operation (ASSOCIATE! table key value)) ;; returns key
(define-operation (REMOVE! table key)) ;; returns value
-
+
(define (MAKE-SIMPLE-TABLE)
(let ( (table (list)) )
(object
@@ -11231,28 +12002,28 @@ operations.

File: slib.info, Node: Dynamic Data Type, Next: Hash Tables, Prev: Collections, Up: Data Structures
-Dynamic Data Type
------------------
+7.1.10 Dynamic Data Type |
+------------------------ |
-`(require 'dynamic)'
+`(require 'dynamic)'
- - Function: make-dynamic obj
+ -- Function: make-dynamic obj |
Create and returns a new "dynamic" whose global value is OBJ.
- - Function: dynamic? obj
+ -- Function: dynamic? obj |
Returns true if and only if OBJ is a dynamic. No object
satisfying `dynamic?' satisfies any of the other standard type
predicates.
- - Function: dynamic-ref dyn
+ -- Function: dynamic-ref dyn |
Return the value of the given dynamic in the current dynamic
environment.
- - Procedure: dynamic-set! dyn obj
+ -- Procedure: dynamic-set! dyn obj |
Change the value of the given dynamic to OBJ in the current
dynamic environment. The returned value is unspecified.
- - Function: call-with-dynamic-binding dyn obj thunk
+ -- Function: call-with-dynamic-binding dyn obj thunk |
Invoke and return the value of the given thunk in a new, nested
dynamic environment in which the given dynamic has been bound to a
new location whose initial contents are the value OBJ. This
@@ -11266,12 +12037,12 @@ Dynamic Data Type

File: slib.info, Node: Hash Tables, Next: Object, Prev: Dynamic Data Type, Up: Data Structures
-Hash Tables
------------
+7.1.11 Hash Tables |
+------------------ |
-`(require 'hash-table)'
+`(require 'hash-table)'
- - Function: predicate->hash pred
+ -- Function: predicate->hash pred |
Returns a hash function (like `hashq', `hashv', or `hash')
corresponding to the equality predicate PRED. PRED should be
`eq?', `eqv?', `equal?', `=', `char=?', `char-ci=?', `string=?', or
@@ -11279,7 +12050,7 @@ Hash Tables
A hash table is a vector of association lists.
- - Function: make-hash-table k
+ -- Function: make-hash-table k |
Returns a vector of K empty (association) lists.
Hash table functions provide utilities for an associative database.
@@ -11287,61 +12058,61 @@ These functions take an equality predicate, PRED, as an argument. PRED
should be `eq?', `eqv?', `equal?', `=', `char=?', `char-ci=?',
`string=?', or `string-ci=?'.
- - Function: predicate->hash-asso pred
+ -- Function: predicate->hash-asso pred |
Returns a hash association function of 2 arguments, KEY and
HASHTAB, corresponding to PRED. The returned function returns a
key-value pair whose key is PRED-equal to its first argument or
`#f' if no key in HASHTAB is PRED-equal to the first argument.
- - Function: hash-inquirer pred
+ -- Function: hash-inquirer pred |
Returns a procedure of 2 arguments, HASHTAB and KEY, which returns
the value associated with KEY in HASHTAB or `#f' if KEY does not
appear in HASHTAB.
- - Function: hash-associator pred
+ -- Function: hash-associator pred |
Returns a procedure of 3 arguments, HASHTAB, KEY, and VALUE, which
modifies HASHTAB so that KEY and VALUE associated. Any previous
value associated with KEY will be lost.
- - Function: hash-remover pred
+ -- Function: hash-remover pred |
Returns a procedure of 2 arguments, HASHTAB and KEY, which
modifies HASHTAB so that the association whose key is KEY is
removed.
- - Function: hash-map proc hash-table
+ -- Function: hash-map proc hash-table |
Returns a new hash table formed by mapping PROC over the keys and
values of HASH-TABLE. PROC must be a function of 2 arguments
which returns the new value part.
- - Function: hash-for-each proc hash-table
+ -- Function: hash-for-each proc hash-table |
Applies PROC to each pair of keys and values of HASH-TABLE. PROC
must be a function of 2 arguments. The returned value is
unspecified.
- - Function: hash-rehasher pred |
- `hash-rehasher' accepts a hash table predicate and returns a |
- function of two arguments HASHTAB and NEW-K which is specialized |
- for that predicate. |
- |
- This function is used for nondestrutively resizing a hash table. |
- HASHTAB should be an existing hash-table using PRED, NEW-K is the |
- size of a new hash table to be returned. The new hash table will |
- have all of the associations of the old hash table. |
- |
+ -- Function: hash-rehasher pred |
+ `hash-rehasher' accepts a hash table predicate and returns a
+ function of two arguments HASHTAB and NEW-K which is specialized
+ for that predicate.
+
+ This function is used for nondestrutively resizing a hash table.
+ HASHTAB should be an existing hash-table using PRED, NEW-K is the
+ size of a new hash table to be returned. The new hash table will
+ have all of the associations of the old hash table.
+

File: slib.info, Node: Object, Next: Priority Queues, Prev: Hash Tables, Up: Data Structures
-Macroless Object System
------------------------
+7.1.12 Macroless Object System |
+------------------------------ |
-`(require 'object)'
+`(require 'object)'
This is the Macroless Object System written by Wade Humeniuk
(whumeniu@datap.ca). Conceptual Tributes: *Note Yasos::, MacScheme's
%object, CLOS, Lack of R4RS macros.
-Concepts
---------
+7.1.13 Concepts |
+--------------- |
OBJECT
An object is an ordered association-list (by `eq?') of methods
@@ -11370,10 +12141,10 @@ PREDICATE
A object's method asscociated with a generic-predicate. Returns
`#t'.
-Procedures
-----------
+7.1.14 Procedures |
+----------------- |
- - Function: make-object ancestor ...
+ -- Function: make-object ancestor ... |
Returns an object. Current object implementation is a tagged
vector. ANCESTORs are optional and must be objects in terms of
object?. ANCESTORs methods are included in the object. Multiple
@@ -11381,48 +12152,48 @@ Procedures
In this case the method of the ANCESTOR first appearing in the
list is the one returned by `get-method'.
- - Function: object? obj
+ -- Function: object? obj |
Returns boolean value whether OBJ was created by make-object.
- - Function: make-generic-method exception-procedure
+ -- Function: make-generic-method exception-procedure |
Returns a procedure which be associated with an object's methods.
If EXCEPTION-PROCEDURE is specified then it is used to process
non-objects.
- - Function: make-generic-predicate
+ -- Function: make-generic-predicate |
Returns a boolean procedure for any scheme object.
- - Function: make-method! object generic-method method
+ -- Function: make-method! object generic-method method |
Associates METHOD to the GENERIC-METHOD in the object. The METHOD
overrides any previous association with the GENERIC-METHOD within
the object. Using `unmake-method!' will restore the object's
previous association with the GENERIC-METHOD. METHOD must be a
procedure.
- - Function: make-predicate! object generic-preciate
+ -- Function: make-predicate! object generic-preciate |
Makes a predicate method associated with the GENERIC-PREDICATE.
- - Function: unmake-method! object generic-method
+ -- Function: unmake-method! object generic-method |
Removes an object's association with a GENERIC-METHOD .
- - Function: get-method object generic-method
+ -- Function: get-method object generic-method |
Returns the object's method associated (if any) with the
GENERIC-METHOD. If no associated method exists an error is
flagged.
-Examples
---------
+7.1.15 Examples |
+--------------- |
(require 'object)
(define instantiate (make-generic-method))
-
+
(define (make-instance-object . ancestors)
(define self (apply make-object
(map (lambda (obj) (instantiate obj)) ancestors)))
(make-method! self instantiate (lambda (self) self))
self)
-
+
(define who (make-generic-method))
(define imigrate! (make-generic-method))
(define emigrate! (make-generic-method))
@@ -11430,7 +12201,7 @@ Examples
(define name (make-generic-method))
(define address (make-generic-method))
(define members (make-generic-method))
-
+
(define society
(let ()
(define self (make-instance-object))
@@ -11454,7 +12225,7 @@ Examples
population)))
(make-method! self members (lambda (self) population))
self))
-
+
(define (make-person %name %address)
(define self (make-instance-object society))
(make-method! self name (lambda (self) %name))
@@ -11469,8 +12240,8 @@ Examples
(imigrate! self)
self)
-Inverter Documentation
-......................
+7.1.15.1 Inverter Documentation |
+............................... |
Inheritance:
<inverter>::(<number> <description>)
@@ -11482,8 +12253,8 @@ Inheritance:
<inverter>::invert
<inverter>::inverter?
-Number Documention
-..................
+7.1.15.2 Number Documention |
+........................... |
Inheritance
<number>::()
@@ -11493,8 +12264,8 @@ Inheritance
<number>::value
<number>::set-value!
-Inverter code
-.............
+7.1.15.3 Inverter code |
+...................... |
(require 'object)
@@ -11509,20 +12280,20 @@ Inverter code
(define inverter? (make-generic-predicate))
(define describe (make-generic-method))
(define help (make-generic-method))
-
+
(define (make-number x)
(define self (make-object))
(make-method! self value (lambda (this) x))
(make-method! self set-value!
(lambda (this new-value) (set! x new-value)))
self)
-
+
(define (make-description str)
(define self (make-object))
(make-method! self describe (lambda (this) str))
(make-method! self help (lambda (this) "Help not available"))
self)
-
+
(define (make-inverter)
(let* ((self (make-object
(make-number 1)
@@ -11536,106 +12307,107 @@ Inverter code
(display "Inverter Methods:") (newline)
(display " (value inverter) ==> n") (newline)))
self))
-
+
;;;; Try it out
-
+
(define invert! (make-generic-method))
-
+
(define x (make-inverter))
-
+
(make-method! x invert! (lambda (x) (set-value! x (/ 1 (value x)))))
-
+
(value x) => 1
(set-value! x 33) => undefined
(invert! x) => undefined
(value x) => 1/33
-
+
(unmake-method! x invert!) => undefined
-
+
(invert! x) error--> ERROR: Method not supported: x

File: slib.info, Node: Priority Queues, Next: Queues, Prev: Object, Up: Data Structures
-Priority Queues
----------------
+7.1.16 Priority Queues |
+---------------------- |
-`(require 'priority-queue)'
+`(require 'priority-queue)'
-This algorithm for priority queues is due to `Introduction to |
-Algorithms' by T. Cormen, C. Leiserson, R. Rivest. 1989 MIT Press. |
- |
- - Function: make-heap pred<?
+This algorithm for priority queues is due to `Introduction to
+Algorithms' by T. Cormen, C. Leiserson, R. Rivest. 1989 MIT Press.
+
+ -- Function: make-heap pred<? |
Returns a binary heap suitable which can be used for priority queue
operations.
- - Function: heap-length heap
+ -- Function: heap-length heap |
Returns the number of elements in HEAP.
- - Procedure: heap-insert! heap item
+ -- Procedure: heap-insert! heap item |
Inserts ITEM into HEAP. ITEM can be inserted multiple times. The
value returned is unspecified.
- - Procedure: heap-extract-max! heap |
+ -- Procedure: heap-extract-max! heap |
Returns the item which is larger than all others according to the
PRED<? argument to `make-heap'. If there are no items in HEAP, an
error is signaled.
- |
+

File: slib.info, Node: Queues, Next: Records, Prev: Priority Queues, Up: Data Structures
-Queues
-------
+7.1.17 Queues |
+------------- |
-`(require 'queue)'
+`(require 'queue)'
A "queue" is a list where elements can be added to both the front and
rear, and removed from the front (i.e., they are what are often called
-"dequeues"). A queue may also be used like a stack.
+"dequeues"). A queue may also be used like a stack.
- - Function: make-queue
+ -- Function: make-queue |
Returns a new, empty queue.
- - Function: queue? obj
+ -- Function: queue? obj |
Returns `#t' if OBJ is a queue.
- - Function: queue-empty? q
+ -- Function: queue-empty? q |
Returns `#t' if the queue Q is empty.
- - Procedure: queue-push! q datum
+ -- Procedure: queue-push! q datum |
Adds DATUM to the front of queue Q.
- - Procedure: enqueue! q datum
+ -- Procedure: enqueue! q datum |
Adds DATUM to the rear of queue Q.
- - Procedure: dequeue! q |
- - Procedure: queue-pop! q |
- Both of these procedures remove and return the datum at the front |
- of the queue. `queue-pop!' is used to suggest that the queue is |
- being used like a stack. |
- All of the following functions raise an error if the queue Q is empty. |
- |
- - Procedure: dequeue-all! q
+ -- Procedure: dequeue! q |
+ -- Procedure: queue-pop! q |
+ Both of these procedures remove and return the datum at the front
+ of the queue. `queue-pop!' is used to suggest that the queue is
+ being used like a stack.
+
+ All of the following functions raise an error if the queue Q is empty.
+
+ -- Procedure: dequeue-all! q |
Removes and returns (the list) of all contents of queue Q.
- |
- - Function: queue-front q
+
+ -- Function: queue-front q |
Returns the datum at the front of the queue Q.
- - Function: queue-rear q
+ -- Function: queue-rear q |
Returns the datum at the rear of the queue Q.
- |
+

File: slib.info, Node: Records, Prev: Queues, Up: Data Structures
-Records
--------
+7.1.18 Records |
+-------------- |
-`(require 'record)'
+`(require 'record)'
The Record package provides a facility for user to define their own
record data types.
- - Function: make-record-type type-name field-names
+ -- Function: make-record-type type-name field-names |
Returns a "record-type descriptor", a value representing a new data
type disjoint from all others. The TYPE-NAME argument must be a
string, but is only used for debugging purposes (such as the
@@ -11645,7 +12417,7 @@ record data types.
duplicates. It is unspecified how record-type descriptors are
represented.
- - Function: record-constructor rtd [field-names]
+ -- Function: record-constructor rtd [field-names] |
Returns a procedure for constructing new members of the type
represented by RTD. The returned procedure accepts exactly as
many arguments as there are symbols in the given list,
@@ -11658,13 +12430,13 @@ record data types.
it is an error if it contains any duplicates or any symbols not in
the default list.
- - Function: record-predicate rtd
+ -- Function: record-predicate rtd |
Returns a procedure for testing membership in the type represented
by RTD. The returned procedure accepts exactly one argument and
returns a true value if the argument is a member of the indicated
record type; it returns a false value otherwise.
- - Function: record-accessor rtd field-name
+ -- Function: record-accessor rtd field-name |
Returns a procedure for reading the value of a particular field of
a member of the type represented by RTD. The returned procedure
accepts exactly one argument which must be a record of the
@@ -11673,7 +12445,7 @@ record data types.
must be a member of the list of field-names in the call to
`make-record-type' that created the type represented by RTD.
- - Function: record-modifier rtd field-name
+ -- Function: record-modifier rtd field-name |
Returns a procedure for writing the value of a particular field of
a member of the type represented by RTD. The returned procedure
accepts exactly two arguments: first, a record of the appropriate
@@ -11699,8 +12471,8 @@ supported.

File: slib.info, Node: Sorting and Searching, Next: Procedures, Prev: Data Structures, Up: Other Packages
-Sorting and Searching
-=====================
+7.2 Sorting and Searching |
+========================= |
* Menu:
@@ -11718,10 +12490,10 @@ Sorting and Searching

File: slib.info, Node: Common List Functions, Next: Tree Operations, Prev: Sorting and Searching, Up: Sorting and Searching
-Common List Functions
----------------------
+7.2.1 Common List Functions |
+--------------------------- |
-`(require 'common-list-functions)'
+`(require 'common-list-functions)'
The procedures below follow the Common LISP equivalents apart from
optional arguments in some cases.
@@ -11737,11 +12509,11 @@ optional arguments in some cases.

File: slib.info, Node: List construction, Next: Lists as sets, Prev: Common List Functions, Up: Common List Functions
-List construction
-.................
+7.2.1.1 List construction |
+......................... |
- - Function: make-list k
- - Function: make-list k init
+ -- Function: make-list k |
+ -- Function: make-list k init |
`make-list' creates and returns a list of K elements. If INIT is
included, all elements in the list are initialized to INIT.
@@ -11751,7 +12523,7 @@ List construction
(make-list 5 'foo)
=> (foo foo foo foo foo)
- - Function: list* obj1 obj2 ...
+ -- Function: list* obj1 obj2 ... |
Works like `list' except that the cdr of the last pair is the last
argument unless there is only one argument, when the result is
just that argument. Sometimes called `cons*'. E.g.:
@@ -11765,7 +12537,7 @@ List construction
(list* ARGS '())
== (list ARGS)
- - Function: copy-list lst
+ -- Function: copy-list lst |
`copy-list' makes a copy of LST using new pairs and returns it.
Only the top level of the list is copied, i.e., pairs forming
elements of the copied list remain `eq?' to the corresponding
@@ -11791,13 +12563,13 @@ List construction

File: slib.info, Node: Lists as sets, Next: Lists as sequences, Prev: List construction, Up: Common List Functions
-Lists as sets
-.............
+7.2.1.2 Lists as sets |
+..................... |
`eqv?' is used to test for membership by procedures which treat lists
as sets.
- - Function: adjoin e l
+ -- Function: adjoin e l |
`adjoin' returns the adjoint of the element E and the list L.
That is, if E is in L, `adjoin' returns L, otherwise, it returns
`(cons E L)'.
@@ -11808,7 +12580,7 @@ as sets.
(adjoin 'foo '(bar baz bang))
=> (foo bar baz bang)
- - Function: union l1 l2
+ -- Function: union l1 l2 |
`union' returns a list of all elements that are in L1 or L2.
Duplicates between L1 and L2 are culled. Duplicates within L1 or
within L2 may or may not be removed.
@@ -11819,7 +12591,7 @@ as sets.
(union '(0 1 2 3 4) '(3 4 5 6))
=> (5 6 0 1 2 3 4)
- - Function: intersection l1 l2
+ -- Function: intersection l1 l2 |
`intersection' returns a list of all elements that are in both L1
and L2.
@@ -11829,7 +12601,7 @@ as sets.
(intersection '(1 2 3 4) '(5 6 7 8))
=> ()
- - Function: set-difference l1 l2
+ -- Function: set-difference l1 l2 |
`set-difference' returns a list of all elements that are in L1 but
not in L2.
@@ -11839,7 +12611,7 @@ as sets.
(set-difference '(1 2 3 4) '(1 2 3 4 5 6))
=> ()
- - Function: subset? list1 list2
+ -- Function: subset? list1 list2 |
Returns `#t' if every element of LIST1 is `eqv?' an element of
LIST2; otherwise returns `#f'.
@@ -11849,7 +12621,7 @@ as sets.
(subset? '(1 2 3 4) '(6 5 4 3 2 1 0))
=> #t
- - Function: member-if pred lst
+ -- Function: member-if pred lst |
`member-if' returns the list headed by the first element of LST to
satisfy `(PRED ELEMENT)'. `Member-if' returns `#f' if PRED
returns `#f' for every ELEMENT in LST.
@@ -11860,7 +12632,7 @@ as sets.
(member-if number? '(a 2 b 4))
=> (2 b 4)
- - Function: some pred lst1 lst2 ...
+ -- Function: some pred lst1 lst2 ... |
PRED is a boolean function of as many arguments as there are list
arguments to `some' i.e., LST plus any optional arguments. PRED
is applied to successive elements of the list arguments in order.
@@ -11871,53 +12643,53 @@ as sets.
Example:
(some odd? '(1 2 3 4))
=> #t
-
+
(some odd? '(2 4 6 8))
=> #f
-
+
(some > '(1 3) '(2 4))
=> #f
- - Function: every pred lst1 lst2 ...
+ -- Function: every pred lst1 lst2 ... |
`every' is analogous to `some' except it returns `#t' if every
application of PRED is `#t' and `#f' otherwise.
Example:
(every even? '(1 2 3 4))
=> #f
-
+
(every even? '(2 4 6 8))
=> #t
-
+
(every > '(2 3) '(1 4))
=> #f
- - Function: notany pred lst1 ...
+ -- Function: notany pred lst1 ... |
`notany' is analogous to `some' but returns `#t' if no application
of PRED returns `#t' or `#f' as soon as any one does.
- - Function: notevery pred lst1 ...
+ -- Function: notevery pred lst1 ... |
`notevery' is analogous to `some' but returns `#t' as soon as an
application of PRED returns `#f', and `#f' otherwise.
Example:
(notevery even? '(1 2 3 4))
=> #t
-
+
(notevery even? '(2 4 6 8))
=> #f
- - Function: list-of?? predicate
+ -- Function: list-of?? predicate |
Returns a predicate which returns true if its argument is a list
every element of which satisfies PREDICATE.
- - Function: list-of?? predicate low-bound high-bound
+ -- Function: list-of?? predicate low-bound high-bound |
LOW-BOUND and HIGH-BOUND are non-negative integers. `list-of??'
returns a predicate which returns true if its argument is a list
of length between LOW-BOUND and HIGH-BOUND (inclusive); every
element of which satisfies PREDICATE.
- - Function: list-of?? predicate bound
+ -- Function: list-of?? predicate bound |
BOUND is an integer. If BOUND is negative, `list-of??' returns a
predicate which returns true if its argument is a list of length
greater than `(- BOUND)'; every element of which satisfies
@@ -11925,7 +12697,7 @@ as sets.
returns true if its argument is a list of length less than or
equal to BOUND; every element of which satisfies PREDICATE.
- - Function: find-if pred lst
+ -- Function: find-if pred lst |
`find-if' searches for the first ELEMENT in LST such that `(PRED
ELEMENT)' returns `#t'. If it finds any such ELEMENT in LST,
ELEMENT is returned. Otherwise, `#f' is returned.
@@ -11933,14 +12705,14 @@ as sets.
Example:
(find-if number? '(foo 1 bar 2))
=> 1
-
+
(find-if number? '(foo bar baz bang))
=> #f
-
+
(find-if symbol? '(1 2 foo bar))
=> foo
- - Function: remove elt lst
+ -- Function: remove elt lst |
`remove' removes all occurrences of ELT from LST using `eqv?' to
test for equality and returns everything that's left. N.B.: other
implementations (Chez, Scheme->C and T, at least) use `equal?' as
@@ -11949,22 +12721,22 @@ as sets.
Example:
(remove 1 '(1 2 1 3 1 4 1 5))
=> (2 3 4 5)
-
+
(remove 'foo '(bar baz bang))
=> (bar baz bang)
- - Function: remove-if pred lst
+ -- Function: remove-if pred lst |
`remove-if' removes all ELEMENTs from LST where `(PRED ELEMENT)'
is `#t' and returns everything that's left.
Example:
(remove-if number? '(1 2 3 4))
=> ()
-
+
(remove-if even? '(1 2 3 4 5 6 7 8))
=> (1 3 5 7)
- - Function: remove-if-not pred lst
+ -- Function: remove-if-not pred lst |
`remove-if-not' removes all ELEMENTs from LST for which `(PRED
ELEMENT)' is `#f' and returns everything that's left.
@@ -11974,36 +12746,36 @@ as sets.
(remove-if-not odd? '(1 2 3 4 5 6 7 8))
=> (1 3 5 7)
- - Function: has-duplicates? lst
+ -- Function: has-duplicates? lst |
returns `#t' if 2 members of LST are `equal?', `#f' otherwise.
Example:
(has-duplicates? '(1 2 3 4))
=> #f
-
+
(has-duplicates? '(2 4 3 4))
=> #t
The procedure `remove-duplicates' uses `member' (rather than `memv').
- - Function: remove-duplicates lst
+ -- Function: remove-duplicates lst |
returns a copy of LST with its duplicate members removed.
Elements are considered duplicate if they are `equal?'.
Example:
(remove-duplicates '(1 2 3 4))
=> (1 2 3 4)
-
+
(remove-duplicates '(2 4 3 4))
=> (2 4 3)

File: slib.info, Node: Lists as sequences, Next: Destructive list operations, Prev: Lists as sets, Up: Common List Functions
-Lists as sequences
-..................
+7.2.1.3 Lists as sequences |
+.......................... |
- - Function: position obj lst
+ -- Function: position obj lst |
`position' returns the 0-based position of OBJ in LST, or `#f' if
OBJ does not occur in LST.
@@ -12015,7 +12787,7 @@ Lists as sequences
(position 'oops '(foo bar baz bang))
=> #f
- - Function: reduce p lst
+ -- Function: reduce p lst |
`reduce' combines all the elements of a sequence using a binary
operation (the combination is left-associative). For example,
using `+', one can add up all the elements. `reduce' allows you to
@@ -12047,17 +12819,17 @@ Lists as sequences
in terms of `reduce' and a combinator elsewhere called "C".
;;; Contributed by Jussi Piitulainen (jpiitula @ ling.helsinki.fi)
-
+
(define commute
(lambda (f)
(lambda (x y)
(f y x))))
-
+
(define reverse
(lambda (args)
(reduce-init (commute cons) '() args)))
- - Function: reduce-init p init lst
+ -- Function: reduce-init p init lst |
`reduce-init' is the same as reduce, except that it implicitly
inserts INIT at the start of the list. `reduce-init' is preferred
if you want to handle the null list, the one-element, and lists
@@ -12074,7 +12846,7 @@ Lists as sequences
(sum)
== (reduce-init + 0 '())
=> 0
-
+
(reduce-init string-append "@" '("hello" "cruel" "world"))
==
(string-append (string-append (string-append "@" "hello")
@@ -12089,7 +12861,7 @@ Lists as sequences
Example:
;;; Real-world example: Insertion sort using reduce-init.
-
+
(define (insert l item)
(if (null? l)
(list item)
@@ -12097,7 +12869,7 @@ Lists as sequences
(cons (car l) (insert (cdr l) item))
(cons item l))))
(define (insertion-sort l) (reduce-init insert '() l))
-
+
(insertion-sort '(3 1 4 1 5)
== (reduce-init insert () (3 1 4 1 5))
== (insert (insert (insert (insert (insert () 3) 1) 4) 1) 5)
@@ -12107,7 +12879,7 @@ Lists as sequences
== (insert (1 1 3 4) 5)
=> (1 1 3 4 5)
- - Function: last lst n
+ -- Function: last lst n |
`last' returns the last N elements of LST. N must be a
non-negative integer.
@@ -12117,7 +12889,7 @@ Lists as sequences
(last '(1 2 3) 0)
=> 0
- - Function: butlast lst n
+ -- Function: butlast lst n |
`butlast' returns all but the last N elements of LST.
Example:
@@ -12127,13 +12899,13 @@ Lists as sequences
=> ()
`last' and `butlast' split a list into two parts when given identical
-arugments.
+arguments. |
(last '(a b c d e) 2)
=> (d e)
(butlast '(a b c d e) 2)
=> (a b c)
- - Function: nthcdr n lst
+ -- Function: nthcdr n lst |
`nthcdr' takes N `cdr's of LST and returns the result. Thus
`(nthcdr 3 LST)' == `(cdddr LST)'
@@ -12143,7 +12915,7 @@ arugments.
(nthcdr 0 '(a b c d))
=> (a b c d)
- - Function: butnthcdr n lst
+ -- Function: butnthcdr n lst |
`butnthcdr' returns all but the nthcdr N elements of LST.
Example:
@@ -12153,7 +12925,7 @@ arugments.
=> (a b c d)
`nthcdr' and `butnthcdr' split a list into two parts when given
-identical arugments.
+identical arguments. |
(nthcdr 2 '(a b c d e))
=> (c d e)
(butnthcdr 2 '(a b c d e))
@@ -12162,13 +12934,13 @@ identical arugments.

File: slib.info, Node: Destructive list operations, Next: Non-List functions, Prev: Lists as sequences, Up: Common List Functions
-Destructive list operations
-...........................
+7.2.1.4 Destructive list operations |
+................................... |
These procedures may mutate the list they operate on, but any such
mutation is undefined.
- - Procedure: nconc args
+ -- Procedure: nconc args |
`nconc' destructively concatenates its arguments. (Compare this
with `append', which copies arguments rather than destroying them.)
Sometimes called `append!' (*note Rev2 Procedures::).
@@ -12196,7 +12968,7 @@ mutation is undefined.
`nconc' is the same as `append!' in `sc2.scm'.
- - Procedure: nreverse lst
+ -- Procedure: nreverse lst |
`nreverse' reverses the order of elements in LST by mutating
`cdr's of the list. Sometimes called `reverse!'.
@@ -12212,14 +12984,13 @@ mutation is undefined.
out that
(set! lst (nreverse lst))
-
is the proper usage, not
(nreverse lst)
The example should suffice to show why this is the case.
- - Procedure: delete elt lst
- - Procedure: delete-if pred lst
- - Procedure: delete-if-not pred lst
+ -- Procedure: delete elt lst |
+ -- Procedure: delete-if pred lst |
+ -- Procedure: delete-if-not pred lst |
Destructive versions of `remove' `remove-if', and `remove-if-not'.
Example:
@@ -12228,7 +12999,7 @@ mutation is undefined.
=> (bar baz bang)
lst
=> (foo bar baz bang)
-
+
(define lst (list 1 2 3 4 5 6 7 8 9))
(delete-if odd? lst)
=> (2 4 6 8)
@@ -12240,7 +13011,6 @@ mutation is undefined.
value. It needs to be pointed out that
(set! lst (delete el lst))
-
is the proper usage, not
(delete el lst)
The examples should suffice to show why this is the case.
@@ -12248,10 +13018,10 @@ mutation is undefined.

File: slib.info, Node: Non-List functions, Prev: Destructive list operations, Up: Common List Functions
-Non-List functions
-..................
+7.2.1.5 Non-List functions |
+.......................... |
- - Function: and? arg1 ...
+ -- Function: and? arg1 ... |
`and?' checks to see if all its arguments are true. If they are,
`and?' returns `#t', otherwise, `#f'. (In contrast to `and', this
is a function, so all arguments are always evaluated and in an
@@ -12263,7 +13033,7 @@ Non-List functions
(and #f 1 2)
=> #f
- - Function: or? arg1 ...
+ -- Function: or? arg1 ... |
`or?' checks to see if any of its arguments are true. If any is
true, `or?' returns `#t', and `#f' otherwise. (To `or' as `and?'
is to `and'.)
@@ -12274,7 +13044,7 @@ Non-List functions
(or? #f #f #f)
=> #f
- - Function: atom? object
+ -- Function: atom? object |
Returns `#t' if OBJECT is not a pair and `#f' if it is pair.
(Called `atom' in Common LISP.)
(atom? 1)
@@ -12287,17 +13057,17 @@ Non-List functions

File: slib.info, Node: Tree Operations, Next: Chapter Ordering, Prev: Common List Functions, Up: Sorting and Searching
-Tree operations
----------------
+7.2.2 Tree operations |
+--------------------- |
-`(require 'tree)'
+`(require 'tree)'
These are operations that treat lists a representations of trees.
- - Function: subst new old tree |
- - Function: substq new old tree
- - Function: substv new old tree
- - Function: subst new old tree equ? |
+ -- Function: subst new old tree |
+ -- Function: substq new old tree |
+ -- Function: substv new old tree |
+ -- Function: subst new old tree equ? |
`subst' makes a copy of TREE, substituting NEW for every subtree
or leaf of TREE which is `equal?' to OLD and returns a modified
tree. The original TREE is unchanged, but may share parts with
@@ -12316,7 +13086,7 @@ Tree operations
'((old . spice) ((old . shoes) old . pair) (old . pair)))
=> ((old . spice) ((old . shoes) a . cons) (a . cons))
- - Function: copy-tree tree
+ -- Function: copy-tree tree |
Makes a copy of the nested list structure TREE using new pairs and
returns it. All levels are copied, so that none of the pairs in
the tree are `eq?' to the original ones - only the leaves are.
@@ -12331,17 +13101,17 @@ Tree operations

File: slib.info, Node: Chapter Ordering, Next: Sorting, Prev: Tree Operations, Up: Sorting and Searching
-Chapter Ordering
-----------------
+7.2.3 Chapter Ordering |
+---------------------- |
-`(require 'chapter-order)'
+`(require 'chapter-order)'
The `chap:' functions deal with strings which are ordered like
chapter numbers (or letters) in a book. Each section of the string
consists of consecutive numeric or consecutive aphabetic characters of
like case.
- - Function: chap:string<? string1 string2
+ -- Function: chap:string<? string1 string2 |
Returns #t if the first non-matching run of alphabetic upper-case
or the first non-matching run of alphabetic lower-case or the first
non-matching run of numeric characters of STRING1 is `string<?'
@@ -12351,12 +13121,12 @@ like case.
(chap:string<? "4c" "4aa") => #t
(chap:string<? "Revised^{3.99}" "Revised^{4}") => #t
- - Function: chap:string>? string1 string2
- - Function: chap:string<=? string1 string2
- - Function: chap:string>=? string1 string2
+ -- Function: chap:string>? string1 string2 |
+ -- Function: chap:string<=? string1 string2 |
+ -- Function: chap:string>=? string1 string2 |
Implement the corresponding chapter-order predicates.
- - Function: chap:next-string string
+ -- Function: chap:next-string string |
Returns the next string in the _chapter order_. If STRING has no
alphabetic or numeric characters, `(string-append STRING "0")' is
returnd. The argument to chap:next-string will always be
@@ -12370,10 +13140,10 @@ like case.

File: slib.info, Node: Sorting, Next: Topological Sort, Prev: Chapter Ordering, Up: Sorting and Searching
-Sorting
--------
+7.2.4 Sorting |
+------------- |
-`(require 'sort)'
+`(require 'sort)'
Many Scheme systems provide some kind of sorting functions. They do
not, however, always provide the _same_ sorting functions, and those
@@ -12387,14 +13157,11 @@ Dybvig says that Chez Scheme provides
(merge! predicate list1 list2)
(sort predicate list)
(sort! predicate list)
-
-while MIT Scheme 7.1, following Common LISP, offers unstable
+ while MIT Scheme 7.1, following Common LISP, offers unstable
(sort list predicate)
-
-TI PC Scheme offers
+ TI PC Scheme offers
(sort! list/vector predicate?)
-
-and Elk offers
+ and Elk offers
(sort list/vector predicate?)
(sort! list/vector predicate?)
@@ -12457,16 +13224,16 @@ arguments which acts like `<'. For example,
are suitable for use as comparison functions. Think of `(less? x y)'
as saying when `x' must _not_ precede `y'.
- - Function: sorted? sequence less?
+ -- Function: sorted? sequence less? |
Returns `#t' when the sequence argument is in non-decreasing order
according to LESS? (that is, there is no adjacent pair `... x y
...' for which `(less? y x)').
Returns `#f' when the sequence contains at least one out-of-order
- pair. It is an error if the sequence is not a list, vector, or |
- string. |
+ pair. It is an error if the sequence is not a list, vector, or
+ string.
- - Function: merge list1 list2 less?
+ -- Function: merge list1 list2 less? |
This merges two lists, producing a completely new list as result.
I gave serious consideration to producing a Common-LISP-compatible
version. However, Common LISP's `sort' is our `sort!' (well, in
@@ -12475,7 +13242,7 @@ as saying when `x' must _not_ precede `y'.
bit of work anyway. I did, however, appeal to CL to determine the
_order_ of the arguments.
- - Procedure: merge! list1 list2 less?
+ -- Procedure: merge! list1 list2 less? |
Merges two lists, re-using the pairs of LIST1 and LIST2 to build
the result. If the code is compiled, and LESS? constructs no new
pairs, no pairs at all will be allocated. The first pair of the
@@ -12488,23 +13255,22 @@ as saying when `x' must _not_ precede `y'.
per iteration.)
- - Function: sort sequence less?
- Accepts either a list, vector, or string; and returns a new |
- sequence which is sorted. The new sequence is the same type as |
- the input. Always `(sorted? (sort sequence less?) less?)'. The |
- original sequence is not altered in any way. The new sequence |
- shares its _elements_ with the old one; no elements are copied. |
+ -- Function: sort sequence less? |
+ Accepts either a list, vector, or string; and returns a new
+ sequence which is sorted. The new sequence is the same type as
+ the input. Always `(sorted? (sort sequence less?) less?)'. The
+ original sequence is not altered in any way. The new sequence
+ shares its _elements_ with the old one; no elements are copied.
- - Procedure: sort! sequence less?
+ -- Procedure: sort! sequence less? |
Returns its sorted result in the original boxes. If the original
sequence is a list, no new storage is allocated at all. If the
- original sequence is a vector or string, the sorted elements are |
- put back in the same vector or string. |
+ original sequence is a vector or string, the sorted elements are
+ put back in the same vector or string.
Some people have been confused about how to use `sort!', thinking
that it doesn't return a value. It needs to be pointed out that
(set! slist (sort! slist <))
-
is the proper usage, not
(sort! slist <)
@@ -12513,28 +13279,25 @@ A simple device for obtaining the same expressiveness is to define
(define (keyed less? key)
(lambda (x y) (less? (key x) (key y))))
-
-and then, when you would have written
+ and then, when you would have written
(sort a-sequence #'my-less :key #'my-key)
-
-in Common LISP, just write
+ in Common LISP, just write
(sort! a-sequence (keyed my-less? my-key))
-
-in Scheme.
+ in Scheme.

File: slib.info, Node: Topological Sort, Next: Hashing, Prev: Sorting, Up: Sorting and Searching
-Topological Sort
-----------------
+7.2.5 Topological Sort |
+---------------------- |
-`(require 'topological-sort)' or `(require 'tsort)'
+`(require 'topological-sort)' or `(require 'tsort)'
The algorithm is inspired by Cormen, Leiserson and Rivest (1990)
`Introduction to Algorithms', chapter 23.
- - Function: tsort dag pred
- - Function: topological-sort dag pred
+ -- Function: tsort dag pred |
+ -- Function: topological-sort dag pred |
where
DAG
is a list of sublists. The car of each sublist is a vertex.
@@ -12576,17 +13339,17 @@ The algorithm is inspired by Cormen, Leiserson and Rivest (1990)

File: slib.info, Node: Hashing, Next: Space-Filling Curves, Prev: Topological Sort, Up: Sorting and Searching
-Hashing
--------
+7.2.6 Hashing |
+------------- |
-`(require 'hash)'
+`(require 'hash)'
These hashing functions are for use in quickly classifying objects.
Hash tables use these functions.
- - Function: hashq obj k
- - Function: hashv obj k
- - Function: hash obj k
+ -- Function: hashq obj k |
+ -- Function: hashv obj k |
+ -- Function: hash obj k |
Returns an exact non-negative integer less than K. For each
non-negative integer less than K there are arguments OBJ for which
the hashing functions applied to OBJ and K returns that integer.
@@ -12607,54 +13370,159 @@ Hash tables use these functions.

File: slib.info, Node: Space-Filling Curves, Next: Soundex, Prev: Hashing, Up: Sorting and Searching
-Space-Filling Curves
---------------------
+7.2.7 Space-Filling Curves |
+-------------------------- |
* Menu:
-* Peano-Hilbert Space-Filling Curve::
+* Hilbert Space-Filling Curve:: Non-negative coordinates |
+* Peano Space-Filling Curve:: Integer coordinates |
* Sierpinski Curve::

-File: slib.info, Node: Peano-Hilbert Space-Filling Curve, Next: Sierpinski Curve, Prev: Space-Filling Curves, Up: Space-Filling Curves
-
-Peano-Hilbert Space-Filling Curve
-.................................
+File: slib.info, Node: Hilbert Space-Filling Curve, Next: Peano Space-Filling Curve, Prev: Space-Filling Curves, Up: Space-Filling Curves
+ |
+7.2.7.1 Hilbert Space-Filling Curve |
+................................... |
-`(require 'hilbert-fill)'
+`(require 'hilbert-fill)'
-The "Peano-Hilbert Space-Filling Curve" is a one-to-one mapping between
-a unit line segment and an N-dimensional unit cube.
+The "Hilbert Space-Filling Curve" is a one-to-one mapping between a |
+unit line segment and an N-dimensional unit cube. This implementation |
+treats the nonnegative integers either as fractional bits of a given |
+width or as nonnegative integers. |
The integer procedures map the non-negative integers to an arbitrarily
large N-dimensional cube with its corner at the origin and all
coordinates are non-negative.
-For any exact nonnegative integers SCALAR and RANK,
+For any exact nonnegative integer SCALAR and exact integer RANK > 2, |
(= SCALAR (hilbert-coordinates->integer
(integer->hilbert-coordinates SCALAR RANK)))
=> #t
- - Function: integer->hilbert-coordinates scalar rank
+ When treating integers as K fractional bits, |
+ |
+ (= SCALAR (hilbert-coordinates->integer |
+ (integer->hilbert-coordinates SCALAR RANK K)) K) |
+ => #t |
+ |
+ -- Function: integer->hilbert-coordinates scalar rank |
Returns a list of RANK integer coordinates corresponding to exact
non-negative integer SCALAR. The lists returned by
`integer->hilbert-coordinates' for SCALAR arguments 0 and 1 will
differ in the first element.
- - Function: hilbert-coordinates->integer coords
+ -- Function: integer->hilbert-coordinates scalar rank k |
+ SCALAR must be a nonnegative integer of no more than `RANK*K' bits. |
+ |
+ `integer->hilbert-coordinates' Returns a list of RANK K-bit |
+ nonnegative integer coordinates corresponding to exact |
+ non-negative integer SCALAR. The curves generated by |
+ `integer->hilbert-coordinates' have the same alignment independent |
+ of K. |
+ |
+ -- Function: hilbert-coordinates->integer coords |
+ -- Function: hilbert-coordinates->integer coords k |
Returns an exact non-negative integer corresponding to COORDS, a
list of non-negative integer coordinates.
+7.2.7.2 Gray code |
+................. |
+ |
+A "Gray code" is an ordering of non-negative integers in which exactly |
+one bit differs between each pair of successive elements. There are |
+multiple Gray codings. An n-bit Gray code corresponds to a Hamiltonian |
+cycle on an n-dimensional hypercube. |
+ |
+Gray codes find use communicating incrementally changing values between |
+asynchronous agents. De-laminated Gray codes comprise the coordinates |
+of Hilbert space-filling curves. |
+ |
+ -- Function: integer->gray-code k |
+ Converts K to a Gray code of the same `integer-length' as K. |
+ |
+ -- Function: gray-code->integer k |
+ Converts the Gray code K to an integer of the same |
+ `integer-length' as K. |
+ |
+ For any non-negative integer K, |
+ (eqv? k (gray-code->integer (integer->gray-code k))) |
+ |
+ -- Function: = k1 k2 |
+ -- Function: gray-code<? k1 k2 |
+ -- Function: gray-code>? k1 k2 |
+ -- Function: gray-code<=? k1 k2 |
+ -- Function: gray-code>=? k1 k2 |
+ These procedures return #t if their Gray code arguments are |
+ (respectively): equal, monotonically increasing, monotonically |
+ decreasing, monotonically nondecreasing, or monotonically |
+ nonincreasing. |
+ |
+ For any non-negative integers K1 and K2, the Gray code predicate |
+ of `(integer->gray-code k1)' and `(integer->gray-code k2)' will |
+ return the same value as the corresponding predicate of K1 and K2. |
+ |
+7.2.7.3 Bitwise Lamination |
+.......................... |
+ |
+ -- Function: bitwise-laminate k1 ... |
+ -- Function: bitwise-delaminate count k |
+ Returns an integer composed of the bits of K1 ... interlaced in |
+ argument order. Given K1, ... KN, the n low-order bits of the |
+ returned value will be the lowest-order bit of each argument. |
+ |
+ -- Function: bitwise-laminate count k |
+ Returns a list of COUNT integers comprised of every COUNTh bit of |
+ the integer K. |
+ |
+ (map (lambda (k) (number->string k 2)) |
+ (bitwise-delaminate 4 #x7654)) |
+ => ("0" "1111" "1100" "1010") |
+ (number->string (bitwise-laminate 0 #b1111 #b1100 #b1010) 16) |
+ => "7654" |
+ |
+ For any non-negative integers K and COUNT: |
+ (eqv? k (bitwise-laminate (bitwise-delaminate count k))) |
+ |
+ -- Function: delaminate-list count ks |
+ Returns a list of COUNT integers comprised of the Jth bit of the |
+ integers KS where J ranges from COUNT-1 to 0. |
+ |
+ (map (lambda (k) (number->string k 2)) |
+ (delaminate-list 4 '(7 6 5 4 0 0 0 0))) |
+ => ("0" "11110000" "11000000" "10100000") |
+ |
+ `delaminate-list' is its own inverse: |
+ (delaminate-list 8 (delaminate-list 4 '(7 6 5 4 0 0 0 0))) |
+ => (7 6 5 4 0 0 0 0) |
+ |

-File: slib.info, Node: Sierpinski Curve, Prev: Peano-Hilbert Space-Filling Curve, Up: Space-Filling Curves
-
-Sierpinski Curve
-................
+File: slib.info, Node: Peano Space-Filling Curve, Next: Sierpinski Curve, Prev: Hilbert Space-Filling Curve, Up: Space-Filling Curves
+ |
+7.2.7.4 Peano Space-Filling Curve |
+................................. |
+ |
+ -- Function: integer->peano-coordinates scalar rank |
+ Returns a list of RANK nonnegative integer coordinates |
+ corresponding to exact nonnegative integer SCALAR. The lists |
+ returned by `integer->peano-coordinates' for SCALAR arguments 0 |
+ and 1 will differ in the first element. |
+ |
+ -- Function: peano-coordinates->integer coords |
+ Returns an exact nonnegative integer corresponding to COORDS, a |
+ list of nonnegative integer coordinates. |
+ |
+
+File: slib.info, Node: Sierpinski Curve, Prev: Peano Space-Filling Curve, Up: Space-Filling Curves
+ |
+7.2.7.5 Sierpinski Curve |
+........................ |
-`(require 'sierpinski)'
+`(require 'sierpinski)'
- - Function: make-sierpinski-indexer max-coordinate
+ -- Function: make-sierpinski-indexer max-coordinate |
Returns a procedure (eg hash-function) of 2 numeric arguments which
preserves _nearness_ in its mapping from NxN to N.
@@ -12701,12 +13569,12 @@ Sierpinski Curve

File: slib.info, Node: Soundex, Next: String Search, Prev: Space-Filling Curves, Up: Sorting and Searching
-Soundex
--------
+7.2.8 Soundex |
+------------- |
-`(require 'soundex)'
+`(require 'soundex)'
- - Function: soundex name
+ -- Function: soundex name |
Computes the _soundex_ hash of NAME. Returns a string of an
initial letter and up to three digits between 0 and 6. Soundex
supposedly has the property that names that sound similar in normal
@@ -12729,7 +13597,7 @@ Soundex
(map soundex '("Euler" "Gauss" "Hilbert" "Knuth"
"Lloyd" "Lukasiewicz"))
=> ("E460" "G200" "H416" "K530" "L300" "L222")
-
+
(map soundex '("Ellery" "Ghosh" "Heilbronn" "Kant"
"Ladd" "Lissajous"))
=> ("E460" "G200" "H416" "K530" "L300" "L222")
@@ -12737,31 +13605,31 @@ Soundex
Some cases in which the algorithm fails (Knuth):
(map soundex '("Rogers" "Rodgers")) => ("R262" "R326")
-
+
(map soundex '("Sinclair" "St. Clair")) => ("S524" "S324")
-
+
(map soundex '("Tchebysheff" "Chebyshev")) => ("T212" "C121")

File: slib.info, Node: String Search, Next: Sequence Comparison, Prev: Soundex, Up: Sorting and Searching
-String Search
--------------
+7.2.9 String Search |
+------------------- |
-`(require 'string-search)'
+`(require 'string-search)'
- - Procedure: string-index string char
- - Procedure: string-index-ci string char
+ -- Procedure: string-index string char |
+ -- Procedure: string-index-ci string char |
Returns the index of the first occurence of CHAR within STRING, or
`#f' if the STRING does not contain a character CHAR.
- - Procedure: string-reverse-index string char
- - Procedure: string-reverse-index-ci string char
+ -- Procedure: string-reverse-index string char |
+ -- Procedure: string-reverse-index-ci string char |
Returns the index of the last occurence of CHAR within STRING, or
`#f' if the STRING does not contain a character CHAR.
- - Procedure: substring? pattern string |
- - Procedure: substring-ci? pattern string |
+ -- Procedure: substring? pattern string |
+ -- Procedure: substring-ci? pattern string |
Searches STRING to see if some substring of STRING is equal to
PATTERN. `substring?' returns the index of the first character of
the first substring of STRING that is equal to PATTERN; or `#f' if
@@ -12771,18 +13639,18 @@ String Search
(substring? "rat" "outrage") => #f
(substring? "" any-string) => 0
- - Procedure: find-string-from-port? str in-port max-no-chars
+ -- Procedure: find-string-from-port? str in-port max-no-chars |
Looks for a string STR within the first MAX-NO-CHARS chars of the
input port IN-PORT.
- - Procedure: find-string-from-port? str in-port
+ -- Procedure: find-string-from-port? str in-port |
When called with two arguments, the search span is limited by the
end of the input stream.
- - Procedure: find-string-from-port? str in-port char
+ -- Procedure: find-string-from-port? str in-port char |
Searches up to the first occurrence of character CHAR in STR.
- - Procedure: find-string-from-port? str in-port proc
+ -- Procedure: find-string-from-port? str in-port proc |
Searches up to the first occurrence of the procedure PROC
returning non-false when called with a character (from IN-PORT)
argument.
@@ -12797,47 +13665,48 @@ String Search
can be used even if the IN-PORT is open to a pipe or other
communication channel.
- - Function: string-subst txt old1 new1 ...
+ -- Function: string-subst txt old1 new1 ... |
Returns a copy of string TXT with all occurrences of string OLD1
in TXT replaced with NEW1; then OLD2 replaced with NEW2 ....
Matches are found from the left. Matches do not overlap.
- - Function: count-newlines str |
+ -- Function: count-newlines str |
Returns the number of `#\newline' characters in string STR.

File: slib.info, Node: Sequence Comparison, Prev: String Search, Up: Sorting and Searching
-Sequence Comparison
--------------------
+7.2.10 Sequence Comparison |
+-------------------------- |
-`(require 'diff)'
+`(require 'diff)'
`diff:edit-length' implements the algorithm:
S. Wu, E. Myers, U. Manber, and W. Miller,
"An O(NP) Sequence Comparison Algorithm,"
Information Processing Letters 35, 6 (1990), 317-323.
- <http://www.cs.arizona.edu/people/gene/vita.html>
+ `http://www.cs.arizona.edu/people/gene/PAPERS/np_diff.ps' |
The values returned by `diff:edit-length' can be used to gauge the
degree of match between two sequences.
-Surprisingly, "An O(NP) Sequence Comparison Algorithm" does not derive
-the edit sequence; only the sequence length. Developing this |
-linear-space sub-quadratic-time algorithm for computing the edit |
-sequence required hundreds of hours of work. I have submitted a paper |
-describing the algorithm to the Journal of Computational Biology. |
+`diff:edits' and `diff:longest-common-subsequence' combine the |
+algorithm with the divide-and-conquer method outlined in: |
+ |
+ E. Myers and W. Miller, |
+ "Optimal alignments in linear space", |
+ Computer Application in the Biosciences (CABIOS), 4(1):11-17, 1988. |
+ `http://www.cs.arizona.edu/people/gene/PAPERS/linear.ps' |
If the items being sequenced are text lines, then the computed
edit-list is equivalent to the output of the "diff" utility program.
If the items being sequenced are words, then it is like the lesser
-known "spiff" program.
+known "spiff" program.
- - Function: diff:longest-common-subsequence array1 array2 =? p-lim
- - Function: diff:longest-common-subsequence array1 array2 =?
- ARRAY1 and ARRAY2 are one-dimensional arrays. The procedure =? is
- used to compare sequence tokens for equality.
+ -- Function: diff:longest-common-subsequence array1 array2 p-lim |
+ -- Function: diff:longest-common-subsequence array1 array2 |
+ ARRAY1 and ARRAY2 are one-dimensional arrays. |
The non-negative integer P-LIM, if provided, is maximum number of
deletions of the shorter sequence to allow.
@@ -12848,10 +13717,9 @@ known "spiff" program.
of length `(quotient (- (+ len1 len2) (diff:edit-length ARRAY1
ARRAY2)) 2)' holding the longest sequence common to both ARRAYs.
- - Function: diff:edits array1 array2 =? p-lim
- - Function: diff:edits array1 array2 =?
- ARRAY1 and ARRAY2 are one-dimensional arrays. The procedure =? is
- used to compare sequence tokens for equality.
+ -- Function: diff:edits array1 array2 p-lim |
+ -- Function: diff:edits array1 array2 |
+ ARRAY1 and ARRAY2 are one-dimensional arrays. |
The non-negative integer P-LIM, if provided, is maximum number of
deletions of the shorter sequence to allow. `diff:edits' will
@@ -12868,10 +13736,9 @@ known "spiff" program.
K < 0
Deletes `(array-ref ARRAY2 (- -1 K))' from the sequence.
- - Function: diff:edit-length array1 array2 =? p-lim
- - Function: diff:edit-length array1 array2 =?
- ARRAY1 and ARRAY2 are one-dimensional arrays. The procedure =? is
- used to compare sequence tokens for equality.
+ -- Function: diff:edit-length array1 array2 p-lim |
+ -- Function: diff:edit-length array1 array2 |
+ ARRAY1 and ARRAY2 are one-dimensional arrays. |
The non-negative integer P-LIM, if provided, is maximum number of
deletions of the shorter sequence to allow. `diff:edit-length'
@@ -12880,21 +13747,21 @@ known "spiff" program.
`diff:edit-length' returns the length of the shortest sequence of
edits transformaing ARRAY1 to ARRAY2.
- (diff:longest-common-subsequence "fghiejcklm" "fgehijkpqrlm" eqv?)
+ (diff:longest-common-subsequence "fghiejcklm" "fgehijkpqrlm") |
=> "fghijklm"
-
- (diff:edit-length "fghiejcklm" "fgehijkpqrlm" eqv?)
+
+ (diff:edit-length "fghiejcklm" "fgehijkpqrlm") |
=> 6
-
- (diff:edits "fghiejcklm" "fgehijkpqrlm" eqv?)
- => #As32(3 -5 -7 8 9 10)
+
+ (diff:edits "fghiejcklm" "fgehijkpqrlm") |
+ => #A:fixZ32b(3 -5 -7 8 9 10) |
; e c h p q r

File: slib.info, Node: Procedures, Next: Standards Support, Prev: Sorting and Searching, Up: Other Packages
-Procedures
-==========
+7.3 Procedures |
+============== |
Anything that doesn't fall neatly into any of the other categories winds
up here.
@@ -12911,15 +13778,15 @@ up here.

File: slib.info, Node: Type Coercion, Next: String-Case, Prev: Procedures, Up: Procedures
-Type Coercion
--------------
+7.3.1 Type Coercion |
+------------------- |
-`(require 'coerce)'
+`(require 'coerce)'
- - Function: type-of obj
+ -- Function: type-of obj |
Returns a symbol name for the type of OBJ.
- - Function: coerce obj result-type
+ -- Function: coerce obj result-type |
Converts and returns OBJ of type `char', `number', `string',
`symbol', `list', or `vector' to RESULT-TYPE (which must be one of
these symbols).
@@ -12927,33 +13794,33 @@ Type Coercion

File: slib.info, Node: String-Case, Next: String Ports, Prev: Type Coercion, Up: Procedures
-String-Case
------------
+7.3.2 String-Case |
+----------------- |
-`(require 'string-case)'
+`(require 'string-case)'
- - Procedure: string-upcase str
- - Procedure: string-downcase str
- - Procedure: string-capitalize str
+ -- Procedure: string-upcase str |
+ -- Procedure: string-downcase str |
+ -- Procedure: string-capitalize str |
The obvious string conversion routines. These are non-destructive.
- - Function: string-upcase! str
- - Function: string-downcase! str
- - Function: string-capitalize! str |
+ -- Function: string-upcase! str |
+ -- Function: string-downcase! str |
+ -- Function: string-capitalize! str |
The destructive versions of the functions above.
- - Function: string-ci->symbol str
+ -- Function: string-ci->symbol str |
Converts string STR to a symbol having the same case as if the
symbol had been `read'.
- - Function: symbol-append obj1 ...
+ -- Function: symbol-append obj1 ... |
Converts OBJ1 ... to strings, appends them, and converts to a
symbol which is returned. Strings and numbers are converted to
read's symbol case; the case of symbol characters is not changed.
#f is converted to the empty string (symbol).
- - Function: StudlyCapsExpand str delimiter
- - Function: StudlyCapsExpand str
+ -- Function: StudlyCapsExpand str delimiter |
+ -- Function: StudlyCapsExpand str |
DELIMITER must be a string or character. If absent, DELIMITER
defaults to `-'. `StudlyCapsExpand' returns a copy of STR where
DELIMITER is inserted between each lower-case character
@@ -12975,18 +13842,18 @@ String-Case

File: slib.info, Node: String Ports, Next: Line I/O, Prev: String-Case, Up: Procedures
-String Ports
-------------
+7.3.3 String Ports |
+------------------ |
-`(require 'string-port)'
+`(require 'string-port)'
- - Procedure: call-with-output-string proc
+ -- Procedure: call-with-output-string proc |
PROC must be a procedure of one argument. This procedure calls
PROC with one argument: a (newly created) output port. When the
function returns, the string composed of the characters written
into the port is returned.
- - Procedure: call-with-input-string string proc
+ -- Procedure: call-with-input-string string proc |
PROC must be a procedure of one argument. This procedure calls
PROC with one argument: an (newly created) input port from which
STRING's contents may be read. When PROC returns, the port is
@@ -12995,13 +13862,13 @@ String Ports

File: slib.info, Node: Line I/O, Next: Multi-Processing, Prev: String Ports, Up: Procedures
-Line I/O
---------
+7.3.4 Line I/O |
+-------------- |
-`(require 'line-i/o)'
+`(require 'line-i/o)'
- - Function: read-line
- - Function: read-line port
+ -- Function: read-line |
+ -- Function: read-line port |
Returns a string of the characters up to, but not including a
newline or end of file, updating PORT to point to the character
following the newline. If no characters are available, an end of
@@ -13009,8 +13876,8 @@ Line I/O
which case it defaults to the value returned by
`current-input-port'.
- - Procedure: read-line! string |
- - Procedure: read-line! string port |
+ -- Procedure: read-line! string |
+ -- Procedure: read-line! string port |
Fills STRING with characters up to, but not including a newline or
end of file, updating the PORT to point to the last character read
or following the newline if it was read. If no characters are
@@ -13020,44 +13887,44 @@ Line I/O
which case it defaults to the value returned by
`current-input-port'.
- - Function: write-line string
- - Function: write-line string port
+ -- Function: write-line string |
+ -- Function: write-line string port |
Writes STRING followed by a newline to the given PORT and returns
an unspecified value. The PORT argument may be omitted, in which
case it defaults to the value returned by `current-input-port'.
- - Function: system->line command tmp |
- - Function: system->line command |
- COMMAND must be a string. The string TMP, if supplied, is a path |
- to use as a temporary file. `system->line' calls `system' with |
- COMMAND as argument, redirecting stdout to file TMP. |
- `system->line' returns a string containing the first line of |
- output from TMP. |
+ -- Function: system->line command tmp |
+ -- Function: system->line command |
+ COMMAND must be a string. The string TMP, if supplied, is a path
+ to use as a temporary file. `system->line' calls `system' with
+ COMMAND as argument, redirecting stdout to file TMP.
+ `system->line' returns a string containing the first line of
+ output from TMP.

File: slib.info, Node: Multi-Processing, Next: Metric Units, Prev: Line I/O, Up: Procedures
-Multi-Processing
-----------------
+7.3.5 Multi-Processing |
+---------------------- |
-`(require 'process)'
+`(require 'process)'
This module implements asynchronous (non-polled) time-sliced
multi-processing in the SCM Scheme implementation using procedures
`alarm' and `alarm-interrupt'. Until this is ported to another
implementation, consider it an example of writing schedulers in Scheme.
- - Procedure: add-process! proc
+ -- Procedure: add-process! proc |
Adds proc, which must be a procedure (or continuation) capable of
accepting accepting one argument, to the `process:queue'. The
value returned is unspecified. The argument to PROC should be
ignored. If PROC returns, the process is killed.
- - Procedure: process:schedule!
+ -- Procedure: process:schedule! |
Saves the current process on `process:queue' and runs the next
process from `process:queue'. The value returned is unspecified.
- - Procedure: kill-process!
+ -- Procedure: kill-process! |
Kills the current process and runs the next process from
`process:queue'. If there are no more processes on
`process:queue', `(slib:exit)' is called (*note System::).
@@ -13065,12 +13932,12 @@ implementation, consider it an example of writing schedulers in Scheme.

File: slib.info, Node: Metric Units, Prev: Multi-Processing, Up: Procedures
-Metric Units
-------------
+7.3.6 Metric Units |
+------------------ |
-`(require 'metric-units)'
+`(require 'metric-units)'
- <http://swissnet.ai.mit.edu/~jaffer/MIXF.html>
+ `http://swiss.csail.mit.edu/~jaffer/MIXF' |
"Metric Interchange Format" is a character string encoding for
numerical values and units which:
@@ -13132,8 +13999,8 @@ used with the unit symbols t (metric ton), r (revolution), or Bd (baud).
Exponents may be positive or negative. Fractional exponents must be
parenthesized.
-SI Prefixes
-...........
+7.3.6.1 SI Prefixes |
+................... |
Factor Name Symbol | Factor Name Symbol
====== ==== ====== | ====== ==== ======
@@ -13148,8 +14015,8 @@ SI Prefixes
1e2 hecto h | 1e-21 zepto z
1e1 deka da | 1e-24 yocto y
-Binary Prefixes
-...............
+7.3.6.2 Binary Prefixes |
+....................... |
These binary prefixes are valid only with the units B (byte) and bit.
However, decimal prefixes can also be used with bit; and decimal
@@ -13164,8 +14031,8 @@ multiple (not submultiple) prefixes can also be used with B (byte).
1.048576e6 (2^20) mebi Mi
1.024e3 (2^10) kibi Ki
-Unit Symbols
-............
+7.3.6.3 Unit Symbols |
+.................... |
Type of Quantity Name Symbol Equivalent
================ ==== ====== ==========
@@ -13221,7 +14088,7 @@ Unit Symbols
* db/Np = ln(10) / 20
- - Function: si:conversion-factor to-unit from-unit
+ -- Function: si:conversion-factor to-unit from-unit |
If the strings FROM-UNIT and TO-UNIT express valid unit
expressions for quantities of the same unit-dimensions, then the
value returned by `si:conversion-factor' will be such that
@@ -13259,8 +14126,8 @@ Unit Symbols

File: slib.info, Node: Standards Support, Next: Session Support, Prev: Procedures, Up: Other Packages
-Standards Support
-=================
+7.4 Standards Support |
+===================== |
* Menu:
@@ -13272,7 +14139,7 @@ Standards Support
* Multi-argument / and -:: 'multiarg/and-
* Multi-argument Apply:: 'multiarg-apply
* Rationalize:: 'rationalize
-* Promises:: 'delay |
+* Promises:: 'delay
* Dynamic-Wind:: 'dynamic-wind
* Eval:: 'eval
* Values:: 'values
@@ -13281,19 +14148,19 @@ Standards Support

File: slib.info, Node: RnRS, Next: With-File, Prev: Standards Support, Up: Standards Support
-RnRS
-----
+7.4.1 RnRS |
+---------- |
The `r2rs', `r3rs', `r4rs', and `r5rs' features attempt to provide
procedures and macros to bring a Scheme implementation to the desired
version of Scheme.
- - Feature: r2rs
+ -- Feature: r2rs |
Requires features implementing procedures and optional procedures
specified by `Revised^2 Report on the Algorithmic Language Scheme';
namely `rev3-procedures' and `rev2-procedures'.
- - Feature: r3rs
+ -- Feature: r3rs |
Requires features implementing procedures and optional procedures
specified by `Revised^3 Report on the Algorithmic Language Scheme';
namely `rev3-procedures'.
@@ -13301,12 +14168,12 @@ version of Scheme.
_Note:_ SLIB already mandates the `r3rs' procedures which can be
portably implemented in `r4rs' implementations.
- - Feature: r4rs
+ -- Feature: r4rs |
Requires features implementing procedures and optional procedures
specified by `Revised^4 Report on the Algorithmic Language Scheme';
namely `rev4-optional-procedures'.
- - Feature: r5rs
+ -- Feature: r5rs |
Requires features implementing procedures and optional procedures
specified by `Revised^5 Report on the Algorithmic Language Scheme';
namely `values', `macro', and `eval'.
@@ -13314,42 +14181,42 @@ version of Scheme.

File: slib.info, Node: With-File, Next: Transcripts, Prev: RnRS, Up: Standards Support
-With-File
----------
+7.4.2 With-File |
+--------------- |
-`(require 'with-file)'
+`(require 'with-file)'
- - Function: with-input-from-file file thunk
- - Function: with-output-to-file file thunk
+ -- Function: with-input-from-file file thunk |
+ -- Function: with-output-to-file file thunk |
Description found in R4RS.

File: slib.info, Node: Transcripts, Next: Rev2 Procedures, Prev: With-File, Up: Standards Support
-Transcripts
------------
+7.4.3 Transcripts |
+----------------- |
-`(require 'transcript)'
+`(require 'transcript)'
- - Function: transcript-on filename
- - Function: transcript-off filename
+ -- Function: transcript-on filename |
+ -- Function: transcript-off filename |
Redefines `read-char', `read', `write-char', `write', `display',
and `newline'.

File: slib.info, Node: Rev2 Procedures, Next: Rev4 Optional Procedures, Prev: Transcripts, Up: Standards Support
-Rev2 Procedures
----------------
+7.4.4 Rev2 Procedures |
+--------------------- |
-`(require 'rev2-procedures)'
+`(require 'rev2-procedures)'
The procedures below were specified in the `Revised^2 Report on
Scheme'. *N.B.*: The symbols `1+' and `-1+' are not `R4RS' syntax.
Scheme->C, for instance, chokes on this module.
- - Procedure: substring-move-left! string1 start1 end1 string2 start2
- - Procedure: substring-move-right! string1 start1 end1 string2 start2
+ -- Procedure: substring-move-left! string1 start1 end1 string2 start2 |
+ -- Procedure: substring-move-right! string1 start1 end1 string2 start2 |
STRING1 and STRING2 must be a strings, and START1, START2 and END1
must be exact integers satisfying
@@ -13365,110 +14232,103 @@ Scheme->C, for instance, chokes on this module.
increasing indices. `substring-move-right!' stores characters in
time order of increasing indeces.
- - Procedure: substring-fill! string start end char
+ -- Procedure: substring-fill! string start end char |
Fills the elements START-END of STRING with the character CHAR.
- - Function: string-null? str
+ -- Function: string-null? str |
== `(= 0 (string-length STR))'
- - Procedure: append! pair1 ...
+ -- Procedure: append! pair1 ... |
Destructively appends its arguments. Equivalent to `nconc'.
- - Function: 1+ n
+ -- Function: 1+ n |
Adds 1 to N.
- - Function: -1+ n
+ -- Function: -1+ n |
Subtracts 1 from N.
- - Function: <?
- - Function: <=?
- - Function: =?
- - Function: >?
- - Function: >=?
+ -- Function: <? |
+ -- Function: <=? |
+ -- Function: =? |
+ -- Function: >? |
+ -- Function: >=? |
These are equivalent to the procedures of the same name but
without the trailing `?'.

File: slib.info, Node: Rev4 Optional Procedures, Next: Multi-argument / and -, Prev: Rev2 Procedures, Up: Standards Support
-Rev4 Optional Procedures
-------------------------
+7.4.5 Rev4 Optional Procedures |
+------------------------------ |
-`(require 'rev4-optional-procedures)'
+`(require 'rev4-optional-procedures)'
For the specification of these optional procedures, *Note Standard
procedures: (r4rs)Standard procedures.
- - Function: list-tail l p
-
- - Function: string->list s
+ -- Function: list-tail l p |
- - Function: list->string l
+ -- Function: string-copy |
- - Function: string-copy
+ -- Procedure: string-fill! s obj |
- - Procedure: string-fill! s obj
-
- - Function: list->vector l
-
- - Function: vector->list s
-
- - Procedure: vector-fill! s obj
+ -- Procedure: vector-fill! s obj |

File: slib.info, Node: Multi-argument / and -, Next: Multi-argument Apply, Prev: Rev4 Optional Procedures, Up: Standards Support
-Multi-argument / and -
-----------------------
+7.4.6 Multi-argument / and - |
+---------------------------- |
-`(require 'multiarg/and-)'
+`(require 'multiarg/and-)'
For the specification of these optional forms, *Note Numerical
-operations: (r4rs)Numerical operations. |
+operations: (r4rs)Numerical operations.
- - Function: / dividend divisor1 ...
- |
- - Function: - minuend subtrahend1 ...
+ -- Function: / dividend divisor1 ... |
+
+ -- Function: - minuend subtrahend1 ... |

File: slib.info, Node: Multi-argument Apply, Next: Rationalize, Prev: Multi-argument / and -, Up: Standards Support
-Multi-argument Apply
---------------------
+7.4.7 Multi-argument Apply |
+-------------------------- |
-`(require 'multiarg-apply)'
+`(require 'multiarg-apply)'
For the specification of this optional form, *Note Control features:
(r4rs)Control features.
- |
- - Function: apply proc arg1 ...
+
+ -- Function: apply proc arg1 ... |

File: slib.info, Node: Rationalize, Next: Promises, Prev: Multi-argument Apply, Up: Standards Support
-Rationalize
------------
+7.4.8 Rationalize |
+----------------- |
-`(require 'rationalize)'
+`(require 'rationalize)'
- - Function: rationalize x e |
+ -- Function: rationalize x e |
Computes the correct result for exact arguments (provided the
implementation supports exact rational numbers of unlimited
precision); and produces a reasonable answer for inexact arguments
when inexact arithmetic is implemented using floating-point.
+
`Rationalize' has limited use in implementations lacking exact
(non-integer) rational numbers. The following procedures return a list
of the numerator and denominator.
- - Function: find-ratio x e |
+ -- Function: find-ratio x e |
`find-ratio' returns the list of the _simplest_ numerator and
- denominator whose quotient differs from X by no more than E. |
+ denominator whose quotient differs from X by no more than E.
(find-ratio 3/97 .0001) => (3 97)
(find-ratio 3/97 .001) => (1 32)
- - Function: find-ratio-between x y
+ -- Function: find-ratio-between x y |
`find-ratio-between' returns the list of the _simplest_ numerator
and denominator between X and Y.
@@ -13478,38 +14338,38 @@ of the numerator and denominator.

File: slib.info, Node: Promises, Next: Dynamic-Wind, Prev: Rationalize, Up: Standards Support
-Promises
---------
+7.4.9 Promises |
+-------------- |
-`(require 'promise)'
+`(require 'promise)'
- - Function: make-promise proc
+ -- Function: make-promise proc |
+
+ -- Function: force promise |
+
+ `(require 'delay)' provides `force' and `delay':
+
+ -- Macro: delay obj |
+ Change occurrences of `(delay EXPRESSION)' to
+
+ (make-promise (lambda () EXPRESSION))
- - Function: force promise |
- |
- `(require 'delay)' provides `force' and `delay': |
- |
- - Macro: delay obj |
- Change occurrences of `(delay EXPRESSION)' to |
- |
- (make-promise (lambda () EXPRESSION)) |
- |
- |
- (*note Control features: (r4rs)Control features.). |
+
+ (*note Control features: (r4rs)Control features.).

File: slib.info, Node: Dynamic-Wind, Next: Eval, Prev: Promises, Up: Standards Support
-Dynamic-Wind
-------------
+7.4.10 Dynamic-Wind |
+------------------- |
-`(require 'dynamic-wind)'
+`(require 'dynamic-wind)'
This facility is a generalization of Common LISP `unwind-protect',
designed to take into account the fact that continuations produced by
`call-with-current-continuation' may be reentered.
- - Procedure: dynamic-wind thunk1 thunk2 thunk3
+ -- Procedure: dynamic-wind thunk1 thunk2 thunk3 |
The arguments THUNK1, THUNK2, and THUNK3 must all be procedures of
no arguments (thunks).
@@ -13530,12 +14390,12 @@ designed to take into account the fact that continuations produced by

File: slib.info, Node: Eval, Next: Values, Prev: Dynamic-Wind, Up: Standards Support
-Eval
-----
+7.4.11 Eval |
+----------- |
-`(require 'eval)'
+`(require 'eval)'
- - Function: eval expression environment-specifier
+ -- Function: eval expression environment-specifier |
Evaluates EXPRESSION in the specified environment and returns its
value. EXPRESSION must be a valid Scheme expression represented
as data, and ENVIRONMENT-SPECIFIER must be a value returned by one
@@ -13548,15 +14408,15 @@ Eval
(eval '(* 7 3) (scheme-report-environment 5))
=> 21
-
+
(let ((f (eval '(lambda (f x) (f x x))
(null-environment))))
(f + 10))
=> 20
- - Function: scheme-report-environment version
- - Function: null-environment version
- - Function: null-environment
+ -- Function: scheme-report-environment version |
+ -- Function: null-environment version |
+ -- Function: null-environment |
VERSION must be an exact non-negative integer N corresponding to a
version of one of the Revised^N Reports on Scheme.
`Scheme-report-environment' returns a specifier for an environment
@@ -13577,7 +14437,7 @@ Eval
`scheme-report-environment' may be immutable.
- - Function: interaction-environment
+ -- Function: interaction-environment |
This optional procedure returns a specifier for the environment
that contains implementation-defined bindings, typically a
superset of those listed in the report. The intent is that this
@@ -13613,16 +14473,16 @@ Here are some more `eval' examples:

File: slib.info, Node: Values, Next: SRFI, Prev: Eval, Up: Standards Support
-Values
-------
+7.4.12 Values |
+------------- |
-`(require 'values)'
+`(require 'values)'
- - Function: values obj ...
+ -- Function: values obj ... |
`values' takes any number of arguments, and passes (returns) them
to its continuation.
- - Function: call-with-values thunk proc
+ -- Function: call-with-values thunk proc |
THUNK must be a procedure of no arguments, and PROC must be a
procedure. `call-with-values' calls THUNK with a continuation
that, when passed some values, calls PROC with those values as
@@ -13637,13 +14497,13 @@ Values

File: slib.info, Node: SRFI, Prev: Values, Up: Standards Support
-SRFI
-----
+7.4.13 SRFI |
+----------- |
-`(require 'srfi)'
+`(require 'srfi)'
Implements "Scheme Request For Implementation" (SRFI) as described at
-<http://srfi.schemers.org/>
+`http://srfi.schemers.org/' |
The Copyright terms of each SRFI states:
@@ -13653,7 +14513,7 @@ Therefore, the specification of SRFI constructs must not be quoted
without including the complete SRFI document containing discussion and
a sample implementation program.
- - Macro: cond-expand <clause1> <clause2> ...
+ -- Macro: cond-expand <clause1> <clause2> ... |
_Syntax:_ Each <clause> should be of the form
(<feature> <expression1> ...)
@@ -13669,230 +14529,292 @@ a sample implementation program.
an error is signaled.
SLIB `cond-expand' is an extension of SRFI-0,
- <http://srfi.schemers.org/srfi-0/srfi-0.html>.
+ `http://srfi.schemers.org/srfi-0/srfi-0.html'. |
* Menu:
* SRFI-1:: list-processing
-* SRFI-2:: guarded LET* special form |
-* SRFI-8:: Binding to multiple values |
-* SRFI-9:: Defining Record Types |
+* SRFI-2:: guarded LET* special form
+* SRFI-8:: Binding to multiple values
+* SRFI-9:: Defining Record Types
+ SRFI-47 is the same as *Note Arrays::. |
+ |

File: slib.info, Node: SRFI-1, Next: SRFI-2, Prev: SRFI, Up: SRFI
- |
-SRFI-1
-......
-`(require 'srfi-1)'
+7.4.13.1 SRFI-1 |
+............... |
+
+`(require 'srfi-1)'
Implements the "SRFI-1" "list-processing library" as described at
-<http://srfi.schemers.org/srfi-1/srfi-1.html>
+`http://srfi.schemers.org/srfi-1/srfi-1.html' |
Constructors
------------
- - Function: xcons d a
+ -- Function: xcons d a |
`(define (xcons d a) (cons a d))'.
- - Function: list-tabulate len proc
+ -- Function: list-tabulate len proc |
Returns a list of length LEN. Element I is `(PROC I)' for 0 <= I
< LEN.
- - Function: cons* obj1 obj2
+ -- Function: cons* obj1 obj2 |
- - Function: list-copy flist |
- |
- - Function: iota count start step
- - Function: iota count start
- - Function: iota count
+ -- Function: list-copy flist |
+
+ -- Function: iota count start step |
+ -- Function: iota count start |
+ -- Function: iota count |
Returns a list of COUNT numbers: (START, START+STEP, ...,
START+(COUNT-1)*STEP).
- - Function: circular-list obj1 obj2 ...
+ -- Function: circular-list obj1 obj2 ... |
Returns a circular list of OBJ1, OBJ2, ....
Predicates
----------
- - Function: proper-list? obj
+ -- Function: proper-list? obj |
- - Function: circular-list? x
+ -- Function: circular-list? x |
- - Function: dotted-list? obj
+ -- Function: dotted-list? obj |
- - Function: null-list? obj
+ -- Function: null-list? obj |
- - Function: not-pair? obj
+ -- Function: not-pair? obj |
- - Function: list= =pred list ...
+ -- Function: list= =pred list ... |
Selectors
---------
- - Function: first pair
- |
- - Function: second pair |
- |
- - Function: third pair |
- |
- - Function: fourth pair |
- |
- - Function: fifth pair |
- - Function: sixth obj
- - Function: seventh obj
- - Function: eighth obj
- - Function: ninth obj
- - Function: tenth obj
+ -- Function: first pair |
- - Function: car+cdr pair
- |
- - Function: drop lst k
- - Function: take lst k |
- |
- - Procedure: take! lst k |
+ -- Function: second pair |
- - Function: take-right lst k
+ -- Function: third pair |
- - Function: drop-right lst k |
- |
- - Procedure: drop-right! lst k |
- |
- - Function: split-at lst k
+ -- Function: fourth pair |
- - Procedure: split-at! lst k |
- |
- - Function: last lst
- (car (last-pair lst))
+ -- Function: fifth pair |
+ -- Function: sixth pair |
+ -- Function: seventh pair |
+ -- Function: eighth pair |
+ -- Function: ninth pair |
+ -- Function: tenth pair |
+
+ -- Function: car+cdr pair |
+
+ -- Function: drop lst k |
+ -- Function: take lst k |
+ -- Function: take! lst k |
+
+ -- Function: take-right lst k |
+
+ -- Function: drop-right lst k |
+
+ -- Procedure: drop-right! lst k |
+
+ -- Function: split-at lst k |
+ -- Function: split-at! lst k |
+
+ -- Function: last lst k ... |
Miscellaneous
-------------
- - Function: length+ obj
+ -- Function: length+ clist |
- - Function: concatenate lists
- - Function: concatenate! lists
+ -- Function: concatenate lists |
+ -- Function: concatenate! lists |
- - Procedure: reverse! lst |
+ -- Procedure: reverse! lst |
- - Function: append-reverse rev-head tail
- - Function: append-reverse! rev-head tail
+ -- Function: append-reverse rev-head tail |
+ -- Function: append-reverse! rev-head tail |
- - Function: zip list1 list2 ...
+ -- Function: zip list1 list2 ... |
- - Function: unzip1 lst
- - Function: unzip2 lst
- - Function: unzip3 lst
- - Function: unzip4 lst
- - Function: unzip5 lst
+ -- Function: unzip1 lst |
+ -- Function: unzip2 lst |
+ -- Function: unzip3 lst |
+ -- Function: unzip4 lst |
+ -- Function: unzip5 lst |
- - Function: count pred list1 list2 ...
+ -- Function: count pred list1 list2 ... |
Fold and Unfold
---------------
- - Procedure: map! f list1 clist2 ... |
+ -- Function: fold kons knil clist1 clist2 ... |
+
+ -- Function: fold-right kons knil clist1 clist2 ... |
+ |
+ -- Function: pair-fold kons knil clist1 clist2 ... |
+ |
+ -- Function: pair-fold-right kons knil clist1 clist2 ... |
|
- - Function: pair-for-each f clist1 clist2 ... |
+ -- Function: reduce f ridentity list |
+ -- Function: reduce-right f ridentity list |
|
+ -- Procedure: map! f clist1 clist2 ... |
+ |
+ -- Function: pair-for-each f clist1 clist2 ... |
+
Filtering and Partitioning
--------------------------
- - Function: filter pred lis |
+ -- Function: filter pred list |
+
+ -- Procedure: filter! pred list |
+
+ -- Function: partition pred list |
|
- - Procedure: filter! pred l |
+ -- Function: remove pred list |
|
- - Function: partition pred list |
+ -- Procedure: partition! pred list |
|
+ -- Procedure: remove! pred list |
+
Searching
---------
- - Function: find pred list
+ -- Function: find pred clist |
- - Function: find-tail pred list
+ -- Function: find-tail pred clist |
- - Function: remove pred l |
- |
- - Procedure: remove! pred l |
- |
- - Function: any pred clist1 clist2 ... |
- |
- - Function: list-index pred clist1 clist2 ... |
- |
- - Function: span pred list |
+ -- Function: span pred list |
+
+ -- Procedure: span! pred list |
+
+ -- Function: break pred list |
+
+ -- Procedure: break! pred list |
+
+ -- Function: any pred clist1 clist2 ... |
+
+ -- Function: list-index pred clist1 clist2 ... |
|
- - Function: member obj list pred
- - Function: member obj list
- `member' returns the first sublist of LIST whose car is OBJ, where
- the sublists of LIST are the non-empty lists returned by
- (list-tail LIST K) for K less than the length of LIST. If OBJ
- does not occur in LIST, then #f (not the empty list) is returned.
- The procedure PRED is used for testing equality. If PRED is not
- provided, `equal?' is used.
+ -- Function: member obj list = |
+ -- Function: member obj list |
Deleting
--------
+ -- Function: delete-duplicates x list = |
+ -- Function: delete-duplicates x list |
+ |
+ -- Procedure: delete-duplicates! x list = |
+ -- Procedure: delete-duplicates! x list |
+ |
Association lists
-----------------
- - Function: assoc obj alist pred
- - Function: assoc obj alist
- ALIST (for "association list") must be a list of pairs. These
- procedures find the first pair in ALIST whose car field is OBJ, and
- returns that pair. If no pair in ALIST has OBJ as its car, then #f
- (not the empty list) is returned. The procedure PRED is used for
- testing equality. If PRED is not provided, `equal?' is used.
+ -- Function: assoc obj alist pred |
+ -- Function: assoc obj alist |
+ |
+ -- Function: alist-cons key datum alist |
+ |
+ -- Function: alist-copy alist |
+ |
+ -- Function: alist-delete key alist = |
+ -- Function: alist-delete key alist |
+ |
+ -- Procedure: alist-delete! key alist = |
+ -- Procedure: alist-delete! key alist |
Set operations
--------------
-
-File: slib.info, Node: SRFI-2, Next: SRFI-8, Prev: SRFI-1, Up: SRFI
+ -- Function: lset<= = list1 ... |
+ Determine if a transitive subset relation exists between the |
+ lists LIST1 ..., using = to determine equality of list members. |
|
-SRFI-2 |
-...... |
+ -- Function: lset= = list1 list2 ... |
|
-`(require 'srfi-2)' |
+ -- Function: lset-adjoin list elt1 ... |
|
- - Macro: and-let* claws body ... |
- <http://srfi.schemers.org/srfi-2/srfi-2.html> |
+ -- Function: lset-union = list1 ... |
|
-
-File: slib.info, Node: SRFI-8, Next: SRFI-9, Prev: SRFI-2, Up: SRFI
+ -- Function: lset-intersection = list1 list2 ... |
|
-SRFI-8 |
-...... |
+ -- Function: lset-difference = list1 list2 ... |
|
-`(require 'srfi-8)' |
+ -- Function: lset-xor = list1 ... |
|
- - Special Form: receive formals expression body ... |
- <http://srfi.schemers.org/srfi-8/srfi-8.html> |
+ -- Function: lset-diff+intersection = list1 list2 ... |
|
-
-File: slib.info, Node: SRFI-9, Prev: SRFI-8, Up: SRFI
+These are linear-update variants. They are allowed, but not required, |
+to use the cons cells in their first list parameter to construct their |
+answer. `lset-union!' is permitted to recycle cons cells from any of |
+its list arguments. |
|
-SRFI-9 |
-...... |
+ -- Procedure: lset-intersection! = list1 list2 ... |
|
-`(require 'srfi-9)' |
+ -- Procedure: lset-difference! = list1 list2 ... |
|
- <http://srfi.schemers.org/srfi-9/srfi-9.html> |
+ -- Procedure: lset-union! = list1 ... |
|
- - Special Form: define-record-type <type-name> (<constructor-name> |
- <field-tag> ...) <predicate-name> <field spec> ... |
- Where |
- <field-spec> == (<field-tag> <accessor-name>) |
- == (<field-tag> <accessor-name> <modifier-name>) |
+ -- Procedure: lset-xor! = list1 ... |
|
- `define-record-type' is a syntax wrapper for the SLIB `record' |
- module. |
+ -- Procedure: lset-diff+intersection! = list1 list2 ... |
|

+File: slib.info, Node: SRFI-2, Next: SRFI-8, Prev: SRFI-1, Up: SRFI
+
+7.4.13.2 SRFI-2 |
+............... |
+
+`(require 'srfi-2)'
+
+ -- Macro: and-let* claws body ... |
+ `http://srfi.schemers.org/srfi-2/srfi-2.html' |
+
+
+File: slib.info, Node: SRFI-8, Next: SRFI-9, Prev: SRFI-2, Up: SRFI
+
+7.4.13.3 SRFI-8 |
+............... |
+
+`(require 'srfi-8)'
+
+ -- Special Form: receive formals expression body ... |
+ `http://srfi.schemers.org/srfi-8/srfi-8.html' |
+
+
+File: slib.info, Node: SRFI-9, Prev: SRFI-8, Up: SRFI
+
+7.4.13.4 SRFI-9 |
+............... |
+
+`(require 'srfi-9)'
+
+ `http://srfi.schemers.org/srfi-9/srfi-9.html' |
+
+ -- Special Form: define-record-type <type-name> (<constructor-name> |
+ <field-tag> ...) <predicate-name> <field spec> ...
+ Where
+ <field-spec> == (<field-tag> <accessor-name>)
+ == (<field-tag> <accessor-name> <modifier-name>)
+
+ `define-record-type' is a syntax wrapper for the SLIB `record'
+ module.
+
+
File: slib.info, Node: Session Support, Next: System Interface, Prev: Standards Support, Up: Other Packages
+
+7.5 Session Support |
+=================== |
+ |
+If `(provided? 'abort)': |
|
-Session Support
-===============
+ -- Function: abort |
+ Resumes the top level Read-Eval-Print loop. If provided, `abort' |
+ is used by the `break' and `debug' packages. |
* Menu:
@@ -13905,20 +14827,20 @@ Session Support

File: slib.info, Node: Repl, Next: Quick Print, Prev: Session Support, Up: Session Support
-Repl
-----
+7.5.1 Repl |
+---------- |
-`(require 'repl)'
+`(require 'repl)'
Here is a read-eval-print-loop which, given an eval, evaluates forms.
- - Procedure: repl:top-level repl:eval
+ -- Procedure: repl:top-level repl:eval |
`read's, `repl:eval's and `write's expressions from
`(current-input-port)' to `(current-output-port)' until an
end-of-file is encountered. `load', `slib:eval', `slib:error',
and `repl:quit' dynamically bound during `repl:top-level'.
- - Procedure: repl:quit
+ -- Procedure: repl:quit |
Exits from the invocation of `repl:top-level'.
The `repl:' procedures establish, as much as is possible to do
@@ -13940,10 +14862,10 @@ catching lines and the following lines to your Scheme init file:

File: slib.info, Node: Quick Print, Next: Debug, Prev: Repl, Up: Session Support
-Quick Print
------------
+7.5.2 Quick Print |
+----------------- |
-`(require 'qp)'
+`(require 'qp)'
When displaying error messages and warnings, it is paramount that the
output generated for circular lists and large data structures be
@@ -13955,16 +14877,16 @@ much improved.
variables `*print-level*' and `*print-level*' are set, huge
strings and bit-vectors are _not_ limited.
- - Procedure: qp arg1 ...
- - Procedure: qpn arg1 ...
- - Procedure: qpr arg1 ...
+ -- Procedure: qp arg1 ... |
+ -- Procedure: qpn arg1 ... |
+ -- Procedure: qpr arg1 ... |
`qp' writes its arguments, separated by spaces, to
`(current-output-port)'. `qp' compresses printing by substituting
`...' for substructure it does not have sufficient room to print.
`qpn' is like `qp' but outputs a newline before returning. `qpr'
is like `qpn' except that it returns its last argument.
- - Variable: *qp-width*
+ -- Variable: *qp-width* |
*QP-WIDTH* is the largest number of characters that `qp' should
use. If *QP-WIDTH* is #f, then all items will be `write'n. If
*QP-WIDTH* is 0, then all items except procedures will be
@@ -13973,10 +14895,10 @@ much improved.

File: slib.info, Node: Debug, Next: Breakpoints, Prev: Quick Print, Up: Session Support
-Debug
------
+7.5.3 Debug |
+----------- |
-`(require 'debug)'
+`(require 'debug)'
Requiring `debug' automatically requires `trace' and `break'.
@@ -13986,94 +14908,92 @@ printer for `qp'. This example shows how to do this:
(define qpn (lambda args) ...)
(provide 'qp)
(require 'debug)
-
- - Procedure: trace-all file ...
+
+ |
+ -- Procedure: trace-all file ... |
Traces (*note Trace::) all procedures `define'd at top-level in
`file' ....
- - Procedure: track-all file ...
+ -- Procedure: track-all file ... |
Tracks (*note Trace::) all procedures `define'd at top-level in
`file' ....
- - Procedure: stack-all file ...
+ -- Procedure: stack-all file ... |
Stacks (*note Trace::) all procedures `define'd at top-level in
`file' ....
- - Procedure: break-all file ...
+ -- Procedure: break-all file ... |
Breakpoints (*note Breakpoints::) all procedures `define'd at
top-level in `file' ....

File: slib.info, Node: Breakpoints, Next: Trace, Prev: Debug, Up: Session Support
-Breakpoints
------------
+7.5.4 Breakpoints |
+----------------- |
-`(require 'break)'
+`(require 'break)'
- - Function: init-debug
+ -- Function: init-debug |
If your Scheme implementation does not support `break' or `abort',
a message will appear when you `(require 'break)' or `(require
'debug)' telling you to type `(init-debug)'. This is in order to
establish a top-level continuation. Typing `(init-debug)' at top
level sets up a continuation for `break'.
- - Function: breakpoint arg1 ...
+ -- Function: breakpoint arg1 ... |
Returns from the top level continuation and pushes the
continuation from which it was called on a continuation stack.
- - Function: continue
+ -- Function: continue |
Pops the topmost continuation off of the continuation stack and
returns an unspecified value to it.
- - Function: continue arg1 ...
+ -- Function: continue arg1 ... |
Pops the topmost continuation off of the continuation stack and
returns ARG1 ... to it.
- - Macro: break proc1 ...
+ -- Macro: break proc1 ... |
Redefines the top-level named procedures given as arguments so that
`breakpoint' is called before calling PROC1 ....
- - Macro: break
+ -- Macro: break |
With no arguments, makes sure that all the currently broken
identifiers are broken (even if those identifiers have been
redefined) and returns a list of the broken identifiers.
- - Macro: unbreak proc1 ...
+ -- Macro: unbreak proc1 ... |
Turns breakpoints off for its arguments.
- - Macro: unbreak
+ -- Macro: unbreak |
With no arguments, unbreaks all currently broken identifiers and
returns a list of these formerly broken identifiers.
These are _procedures_ for breaking. If defmacros are not natively
supported by your implementation, these might be more convenient to use.
- - Function: breakf proc
- - Function: breakf proc name
+ -- Function: breakf proc |
+ -- Function: breakf proc name |
To break, type
(set! SYMBOL (breakf SYMBOL))
-
or
(set! SYMBOL (breakf SYMBOL 'SYMBOL))
-
or
(define SYMBOL (breakf FUNCTION))
-
or
(define SYMBOL (breakf FUNCTION 'SYMBOL))
- - Function: unbreakf proc
+ -- Function: unbreakf proc |
To unbreak, type
(set! SYMBOL (unbreakf SYMBOL))

File: slib.info, Node: Trace, Prev: Breakpoints, Up: Session Support
-Tracing
--------
+7.5.5 Tracing |
+------------- |
-`(require 'trace)'
+`(require 'trace)'
This feature provides three ways to monitor procedure invocations:
@@ -14090,101 +15010,98 @@ trace
...' when the procdure is called; pops and prints `RETN
PROCEDURE-NAME VALUE' when the procedure returns.
- - Variable: debug:max-count
+ -- Variable: debug:max-count |
If a traced procedure calls itself or untraced procedures which
call it, stack, track, and trace will limit the number of stack
pushes to DEBUG:MAX-COUNT.
- - Function: print-call-stack
- - Function: print-call-stack port
+ -- Function: print-call-stack |
+ -- Function: print-call-stack port |
Prints the call-stack to PORT or the current-error-port.
- - Macro: trace proc1 ...
+ -- Macro: trace proc1 ... |
Traces the top-level named procedures given as arguments.
- - Macro: trace
+ -- Macro: trace |
With no arguments, makes sure that all the currently traced
identifiers are traced (even if those identifiers have been
redefined) and returns a list of the traced identifiers.
- - Macro: track proc1 ...
+ -- Macro: track proc1 ... |
Traces the top-level named procedures given as arguments.
- - Macro: track
+ -- Macro: track |
With no arguments, makes sure that all the currently tracked
identifiers are tracked (even if those identifiers have been
redefined) and returns a list of the tracked identifiers.
- - Macro: stack proc1 ...
+ -- Macro: stack proc1 ... |
Traces the top-level named procedures given as arguments.
- - Macro: stack
+ -- Macro: stack |
With no arguments, makes sure that all the currently stacked
identifiers are stacked (even if those identifiers have been
redefined) and returns a list of the stacked identifiers.
- - Macro: untrace proc1 ...
+ -- Macro: untrace proc1 ... |
Turns tracing, tracking, and off for its arguments.
- - Macro: untrace
+ -- Macro: untrace |
With no arguments, untraces all currently traced identifiers and
returns a list of these formerly traced identifiers.
- - Macro: untrack proc1 ...
+ -- Macro: untrack proc1 ... |
Turns tracing, tracking, and off for its arguments.
- - Macro: untrack
+ -- Macro: untrack |
With no arguments, untracks all currently tracked identifiers and
returns a list of these formerly tracked identifiers.
- - Macro: unstack proc1 ...
+ -- Macro: unstack proc1 ... |
Turns tracing, stacking, and off for its arguments.
- - Macro: unstack
+ -- Macro: unstack |
With no arguments, unstacks all currently stacked identifiers and
returns a list of these formerly stacked identifiers.
These are _procedures_ for tracing. If defmacros are not natively
supported by your implementation, these might be more convenient to use.
- - Function: tracef proc
- - Function: tracef proc name
- - Function: trackf proc |
- - Function: trackf proc name |
- - Function: stackf proc |
- - Function: stackf proc name |
+ -- Function: tracef proc |
+ -- Function: tracef proc name |
+ -- Function: trackf proc |
+ -- Function: trackf proc name |
+ -- Function: stackf proc |
+ -- Function: stackf proc name |
To trace, type
(set! SYMBOL (tracef SYMBOL))
-
or
(set! SYMBOL (tracef SYMBOL 'SYMBOL))
-
or
(define SYMBOL (tracef FUNCTION))
-
or
(define SYMBOL (tracef FUNCTION 'SYMBOL))
- - Function: untracef proc
+ -- Function: untracef proc |
Removes tracing, tracking, or stacking for PROC. To untrace, type
(set! SYMBOL (untracef SYMBOL))

File: slib.info, Node: System Interface, Next: Extra-SLIB Packages, Prev: Session Support, Up: Other Packages
-System Interface
-================
+7.6 System Interface |
+==================== |
If `(provided? 'getenv)':
- - Function: getenv name
+ -- Function: getenv name |
Looks up NAME, a string, in the program environment. If NAME is
found a string of its value is returned. Otherwise, `#f' is
returned.
If `(provided? 'system)':
- - Function: system command-string
+ -- Function: system command-string |
Executes the COMMAND-STRING on the computer and returns the
integer status code.
@@ -14197,12 +15114,12 @@ If `(provided? 'system)':

File: slib.info, Node: Directories, Next: Transactions, Prev: System Interface, Up: System Interface
-Directories
------------
+7.6.1 Directories |
+----------------- |
-`(require 'directory)'
+`(require 'directory)'
- - Function: current-directory
+ -- Function: current-directory |
`current-directory' returns a string containing the absolute file
name representing the current working directory. If this string
cannot be obtained, #f is returned.
@@ -14210,22 +15127,22 @@ Directories
If `current-directory' cannot be supported by the platform, then
#f is returned.
- - Function: make-directory name
+ -- Function: make-directory name |
Creates a sub-directory NAME of the current-directory. If
successful, `make-directory' returns #t; otherwise #f.
- - Function: directory-for-each proc directory
+ -- Function: directory-for-each proc directory |
PROC must be a procedure taking one argument.
`Directory-For-Each' applies PROC to the (string) name of each
file in DIRECTORY. The dynamic order in which PROC is applied to
the filenames is unspecified. The value returned by
`directory-for-each' is unspecified.
- - Function: directory-for-each proc directory pred
+ -- Function: directory-for-each proc directory pred |
Applies PROC only to those filenames for which the procedure PRED
returns a non-false value.
- - Function: directory-for-each proc directory match
+ -- Function: directory-for-each proc directory match |
Applies PROC only to those filenames for which `(filename:match??
MATCH)' would return a non-false value (*note Filenames:
(slib)Filenames.).
@@ -14239,15 +15156,15 @@ Directories

File: slib.info, Node: Transactions, Next: CVS, Prev: Directories, Up: System Interface
-Transactions
-------------
+7.6.2 Transactions |
+------------------ |
If `system' is provided by the Scheme implementation, the "transact"
package provides functions for file-locking and file-replacement
transactions.
- `(require 'transact)'
- |
+ `(require 'transact)'
+
File Locking
............
@@ -14268,9 +15185,9 @@ operating system development efforts. There is further irony that both
camps support contention detection and resolution only through weak
conventions of some their document editing programs.
-The "file-lock" procedures implement a transaction method for file
-replacement compatible with the methods used by the GNU "emacs" text
-editor on Unix systems and the Microsoft "Word" editor.
+The "file-lock" procedures implement a transaction method for file replacement
+compatible with the methods used by the GNU "emacs" text editor on Unix |
+systems and the Microsoft "Word" editor. |
Both protocols employ what I term a "certificate" containing the user,
hostname, time, and (on Unix) process-id. Intent to replace FILE is
@@ -14283,12 +15200,12 @@ link to a certificate named for the visited FILE prefixed with `.#'.
Because Unix systems can import Microsoft file systems, these routines
maintain and check both Emacs and Word certificates.
- - Function: file-lock-owner path
+ -- Function: file-lock-owner path |
Returns the string `USER@HOSTNAME' associated with the lock owner
of file PATH if locked; and #f otherwise.
- - Procedure: file-lock! path email |
- - Procedure: file-lock! path |
+ -- Procedure: file-lock! path email |
+ -- Procedure: file-lock! path |
PATH must be a string naming the file to be locked. If supplied,
EMAIL must be a string formatted as `USER@HOSTNAME'. If absent,
EMAIL defaults to the value returned by `user-email-address'.
@@ -14297,7 +15214,7 @@ maintain and check both Emacs and Word certificates.
PATH is unlocked, then `file-lock!' returns the certificate string
associated with the new lock for file PATH.
- - Procedure: file-unlock! path certificate |
+ -- Procedure: file-unlock! path certificate |
PATH must be a string naming the file to be unlocked. CERTIFICATE
must be the string returned by `file-lock!' for PATH.
@@ -14308,7 +15225,7 @@ maintain and check both Emacs and Word certificates.
File Transactions
.................
- - Function: emacs:backup-name path backup-style
+ -- Function: emacs:backup-name path backup-style |
PATH must be a string. BACKUP-STYLE must be a symbol. Depending
on BACKUP-STYLE, `emacs:backup-name' returns:
none
@@ -14332,10 +15249,10 @@ File Transactions
bak
the string "PATH.bak"
- - Function: transact-file-replacement proc path backup-style
+ -- Function: transact-file-replacement proc path backup-style |
certificate
- - Function: transact-file-replacement proc path backup-style
- - Function: transact-file-replacement proc path
+ -- Function: transact-file-replacement proc path backup-style |
+ -- Function: transact-file-replacement proc path |
PATH must be a string naming an existing file. BACKUP-STYLE is
one of the symbols none, simple, numbered, existing, orig, bak or
#f; with meanings described above; or a string naming the location
@@ -14368,7 +15285,7 @@ File Transactions
Identification
..............
- - Function: user-email-address
+ -- Function: user-email-address |
`user-email-address' returns a string of the form
`username@hostname'. If this e-mail address cannot be obtained,
#f is returned.
@@ -14376,42 +15293,45 @@ Identification

File: slib.info, Node: CVS, Prev: Transactions, Up: System Interface
-CVS
----
+7.6.3 CVS |
+--------- |
-`(require 'cvs)'
+`(require 'cvs)'
- - Function: cvs-files directory/
+ -- Function: cvs-files directory/ |
Returns a list of the local pathnames (with prefix DIRECTORY/) of
all CVS controlled files in DIRECTORY/ and in DIRECTORY/'s
subdirectories.
- - Function: cvs-directories directory/
+ -- Function: cvs-directories directory/ |
Returns a list of all of DIRECTORY/ and all DIRECTORY/'s CVS
controlled subdirectories.
- - Function: cvs-root path/
+ -- Function: cvs-root path/ |
Returns the (string) contents of PATH/CVS/Root; or `(getenv
"CVSROOT")' if Root doesn't exist.
- - Function: cvs-repository directory/
+ -- Function: cvs-repository directory/ |
Returns the (string) contents of DIRECTORY/CVS/Root appended with
DIRECTORY/CVS/Repository; or #f if DIRECTORY/CVS/Repository
doesn't exist.
- - Procedure: cvs-set-root! new-root directory/ |
- Writes NEW-ROOT to file CVS/Root of DIRECTORY/ and all its
+ -- Procedure: cvs-set-root! new-root directory/ |
+ Writes NEW-ROOT to file CVS/Root of DIRECTORY/. |
+ |
+ -- Procedure: cvs-set-roots! new-root directory/ |
+ Writes NEW-ROOT to file CVS/Root of DIRECTORY/ and all its CVS |
subdirectories.
- - Function: cvs-vet directory/
+ -- Function: cvs-vet directory/ |
Signals an error if CVS/Repository or CVS/Root files in DIRECTORY/
or any subdirectory do not match.

File: slib.info, Node: Extra-SLIB Packages, Prev: System Interface, Up: Other Packages
-Extra-SLIB Packages
-===================
+7.7 Extra-SLIB Packages |
+======================= |
Several Scheme packages have been written using SLIB. There are several
reasons why a package might not be included in the SLIB distribution:
@@ -14435,9 +15355,9 @@ as easily as any other SLIB package. Some optional packages (for which
SLIB-PSD
is a portable debugger for Scheme (requires emacs editor).
- http://swissnet.ai.mit.edu/ftpdir/scm/slib-psd1-3.tar.gz
+ http://swiss.csail.mit.edu/ftpdir/scm/slib-psd1-3.tar.gz |
- swissnet.ai.mit.edu:/pub/scm/slib-psd1-3.tar.gz
+ swiss.csail.mit.edu:/pub/scm/slib-psd1-3.tar.gz |
ftp.maths.tcd.ie:pub/bosullvn/jacal/slib-psd1-3.tar.gz
@@ -14467,35 +15387,38 @@ JFILTER

File: slib.info, Node: About SLIB, Next: Index, Prev: Other Packages, Up: Top
-About SLIB
-**********
+8 About SLIB |
+************ |
More people than I can name have contributed to SLIB. Thanks to all of
you!
- SLIB 3a1, released November 2003. |
+ SLIB 3a2, released June 2005. |
Aubrey Jaffer <agj @ alum.mit.edu>
Hyperactive Software - The Maniac Inside!
- <http://swissnet.ai.mit.edu/~jaffer/SLIB.html>
+ `http://swiss.csail.mit.edu/~jaffer/SLIB.html' |
* Menu:
* Installation:: How to install SLIB on your system.
+* The SLIB script:: Run interactive SLIB sessions. |
* Porting:: SLIB to new platforms.
* Coding Guidelines:: How to write modules for SLIB.
* Copyrights:: Intellectual propery issues.
-* About this manual:: |
+* About this manual::

-File: slib.info, Node: Installation, Next: Porting, Prev: About SLIB, Up: About SLIB
-
-Installation
-============
+File: slib.info, Node: Installation, Next: The SLIB script, Prev: About SLIB, Up: About SLIB
+ |
+8.1 Installation |
+================ |
-There are four parts to installation:
+There are five parts to installation: |
* Unpack the SLIB distribution.
+ * Install documentation and `slib' script. |
+ |
* Configure the Scheme implementation(s) to locate the SLIB
directory.
@@ -14504,8 +15427,8 @@ There are four parts to installation:
* Build the SLIB catalog for the Scheme implementation.
-Unpacking the SLIB Distribution
--------------------------------
+8.1.1 Unpacking the SLIB Distribution |
+------------------------------------- |
If the SLIB distribution is a Linux RPM, it will create the SLIB
directory `/usr/share/slib'.
@@ -14518,8 +15441,14 @@ this might be `/usr/share/slib', `/usr/local/lib/slib', or
`/usr/lib/slib'. If you know where SLIB should go on other platforms,
please inform agj @ alum.mit.edu.
-Configure Scheme Implementation to Locate SLIB
-----------------------------------------------
+8.1.2 Install documentation and slib script |
+------------------------------------------- |
+ |
+ make infoz |
+ make install |
+ |
+8.1.3 Configure Scheme Implementation to Locate SLIB |
+---------------------------------------------------- |
If the Scheme implementation supports `getenv', then the value of the
shell environment variable SCHEME_LIBRARY_PATH will be used for
@@ -14531,8 +15460,8 @@ supports `getenv' but does not use it for determining
The `(library-vicinity)' can also be specified from the SLIB
initialization file or by implementation-specific means.
-Loading SLIB Initialization File
---------------------------------
+8.1.4 Loading SLIB Initialization File |
+-------------------------------------- |
Check the manifest in `README' to find a configuration file for your
Scheme implementation. Initialization files for most IEEE P1178
@@ -14546,8 +15475,8 @@ the file for how to configure it.
Once this is done, modify the startup file for your Scheme
implementation to `load' this initialization file.
-Build New SLIB Catalog for Implementation
------------------------------------------
+8.1.5 Build New SLIB Catalog for Implementation |
+----------------------------------------------- |
When SLIB is first used from an implementation, a file named `slibcat'
is written to the `implementation-vicinity' for that implementation.
@@ -14567,19 +15496,65 @@ SLIB-installed scheme implementation, type:
(require 'new-catalog)
(slib:exit)
-Implementation-specific Instructions
-------------------------------------
+8.1.6 Implementation-specific Instructions |
+------------------------------------------ |
Multiple implementations of Scheme can all use the same SLIB directory.
Simply configure each implementation's initialization file as outlined
above.
- - Implementation: SCM
+ -- Implementation: SCM |
The SCM implementation does not require any initialization file as
SLIB support is already built into SCM. See the documentation
with SCM for installation instructions.
- - Implementation: VSCM
+ -- Implementation: PLT Scheme |
+ -- Implementation: DrScheme |
+ -- Implementation: MzScheme |
+ The `init.ss' file in the _slibinit_ collection is an SLIB |
+ initialization file. |
+ |
+ To use SLIB in MzScheme, set the SCHEME_LIBRARY_PATH environment |
+ variable to the installed SLIB location; then invoke MzScheme thus: |
+ |
+ `mzscheme -f ${SCHEME_LIBRARY_PATH}DrScheme.init' |
+ |
+ -- Implementation: MIT Scheme |
+ `scheme -load ${SCHEME_LIBRARY_PATH}mitscheme.init' |
+ |
+ -- Implementation: Gambit-C 3.0 |
+ `$command -:s ${SCHEME_LIBRARY_PATH}gambit.init -' |
+ |
+ -- Implementation: Guile |
+ Guile versions 1.6 and earlier link to an archaic SLIB version. In |
+ RedHat or Fedora installations: |
+ |
+ rm /usr/share/guile/slib |
+ ln -s ${SCHEME_LIBRARY_PATH} /usr/share/guile/slib |
+ |
+ In Debian installations: |
+ |
+ rm /usr/share/guile/1.6/slib |
+ ln -s ${SCHEME_LIBRARY_PATH} /usr/share/guile/1.6/slib |
+ |
+ `${SCHEME_LIBRARY_PATH}' is where SLIB gets installed. |
+ |
+ Guile with SLIB can then be started thus: |
+ |
+ `guile -l ${SCHEME_LIBRARY_PATH}guile.init' |
+ |
+ -- Implementation: Scheme48 |
+ To make a Scheme48 image for an installation under `<prefix>', |
+ |
+ 1. `cd' to the SLIB directory |
+ |
+ 2. type `make prefix=<prefix> slib48'. |
+ |
+ 3. To install the image, type `make prefix=<prefix> install48'. |
+ This will also create a shell script with the name `slib48' |
+ which will invoke the saved image. |
+ |
+ -- Implementation: VSCM |
From: Matthias Blume <blume @ cs.Princeton.EDU>
Date: Tue, 1 Mar 1994 11:42:31 -0500
@@ -14603,48 +15578,36 @@ above.
Makefile (definition of DDP) for details.)
- - Implementation: Scheme48
- To make a Scheme48 image for an installation under `<prefix>',
-
- 1. `cd' to the SLIB directory
-
- 2. type `make prefix=<prefix> slib48'.
-
- 3. To install the image, type `make prefix=<prefix> install48'.
- This will also create a shell script with the name `slib48'
- which will invoke the saved image.
-
- - Implementation: PLT Scheme
- - Implementation: DrScheme
- - Implementation: MzScheme
- The `init.ss' file in the _slibinit_ collection is an SLIB
- initialization file.
+
+File: slib.info, Node: The SLIB script, Next: Porting, Prev: Installation, Up: About SLIB
+ |
+8.2 The SLIB script |
+=================== |
- To use SLIB in MzScheme, set the SCHEME_LIBRARY_PATH environment
- variable to the installed SLIB location; then invoke MzScheme thus:
+SLIB comes with shell script for Unix platforms. |
- `mzscheme -f ${SCHEME_LIBRARY_PATH}DrScheme.init'
+ slib [ scm | gsi | mzscheme | guile | slib48 | scheme48 | scmlit ] |
+ |
- - Implementation: MIT Scheme
- `scheme -load ${SCHEME_LIBRARY_PATH}mitscheme.init'
+Starts an interactive Scheme-with-SLIB session. |
- - Implementation: Guile
- `guile -l ${SCHEME_LIBRARY_PATH}guile.init'
+The optional argument to the `slib' script is the Scheme implementation |
+to run. Absent the argument, it searches for implementations in the |
+above order. |

-File: slib.info, Node: Porting, Next: Coding Guidelines, Prev: Installation, Up: About SLIB
-
-Porting
-=======
+File: slib.info, Node: Porting, Next: Coding Guidelines, Prev: The SLIB script, Up: About SLIB
+ |
+8.3 Porting |
+=========== |
If there is no initialization file for your Scheme implementation, you
will have to create one. Your Scheme implementation must be largely
-compliant with |
- `IEEE Std 1178-1990', |
- `Revised^4 Report on the Algorithmic Language Scheme', or |
- `Revised^5 Report on the Algorithmic Language Scheme' |
- |
-in order to support SLIB. (1) |
+compliant with
+ `IEEE Std 1178-1990',
+ `Revised^4 Report on the Algorithmic Language Scheme', or
+ `Revised^5 Report on the Algorithmic Language Scheme'
+ in order to support SLIB. (1)
`Template.scm' is an example configuration file. The comments inside
will direct you on how to customize it to reflect your system. Give
@@ -14656,9 +15619,9 @@ initialization file might be called `foo.init'.
implementation's initialization. It will load `require.scm' from the
library; this will allow the use of `provide', `provided?', and
`require' along with the "vicinity" functions (these functions are
-documented in the sections *Note Feature:: and *Note Require::). The |
-rest of the library will then be accessible in a system independent |
-fashion. |
+documented in the sections *Note Feature:: and *Note Require::). The
+rest of the library will then be accessible in a system independent
+fashion.
Please mail new working configuration files to `agj @ alum.mit.edu'
so that they can be included in the SLIB distribution.
@@ -14672,43 +15635,43 @@ Language Scheme' implementation, then you will need to finish writing

File: slib.info, Node: Coding Guidelines, Next: Copyrights, Prev: Porting, Up: About SLIB
-Coding Guidelines
-=================
+8.4 Coding Guidelines |
+===================== |
All library packages are written in IEEE P1178 Scheme and assume that a
configuration file and `require.scm' package have already been loaded.
Other versions of Scheme can be supported in library packages as well
-by using, for example, `(provided? 'r3rs)' or `(require 'r3rs)' (*note |
-Require::). |
+by using, for example, `(provided? 'r3rs)' or `(require 'r3rs)' (*note
+Require::).
- If a procedure defined in a module is called by other procedures in |
-that module, then those procedures should instead call an alias defined |
-in that module: |
+ If a procedure defined in a module is called by other procedures in
+that module, then those procedures should instead call an alias defined
+in that module:
- (define module-name:foo foo) |
- |
- The module name and `:' should prefix that symbol for the internal |
-name. Do not export internal aliases. |
- |
- A procedure is exported from a module by putting Schmooz-style |
-comments (*note Schmooz::) or `;@' at the beginning of the line |
-immediately preceding the definition (`define', `define-syntax', or |
-`defmacro'). Modules, exports and other relevant issues are discussed |
-in *Note Compiling Scheme::. |
- |
- Code submitted for inclusion in SLIB should not duplicate (more than |
-one) routines already in SLIB files. Use `require' to force those |
-library routines to be used by your package. |
+ (define module-name:foo foo)
+
+ The module name and `:' should prefix that symbol for the internal
+name. Do not export internal aliases.
+
+ A procedure is exported from a module by putting Schmooz-style
+comments (*note Schmooz::) or `;@' at the beginning of the line
+immediately preceding the definition (`define', `define-syntax', or
+`defmacro'). Modules, exports and other relevant issues are discussed
+in *Note Compiling Scheme::.
+
+ Code submitted for inclusion in SLIB should not duplicate (more than
+one) routines already in SLIB files. Use `require' to force those
+library routines to be used by your package.
Documentation should be provided in Emacs Texinfo format if possible,
-but documentation must be provided. |
+but documentation must be provided.
Your package will be released sooner with SLIB if you send me a file
which tests your code. Please run this test _before_ you send me the
code!
-Modifications
--------------
+8.4.1 Modifications |
+------------------- |
Please document your changes. A line or two for `ChangeLog' is
sufficient for simple fixes or extensions. Look at the format of
@@ -14730,11 +15693,11 @@ fixes.

File: slib.info, Node: Copyrights, Next: About this manual, Prev: Coding Guidelines, Up: About SLIB
- |
-Copyrights
-==========
-This section has instructions for SLIB authors regarding copyrights.
+8.5 Copyrights |
+============== |
+
+This section has instructions for SLIB authors regarding copyrights.
Each package in SLIB must either be in the public domain, or come
with a statement of terms permitting users to copy, redistribute and
@@ -14744,8 +15707,8 @@ modify it. The comments at the beginning of `require.scm' and
If your code or changes amount to less than about 10 lines, you do not
need to add your copyright or send a disclaimer.
-Putting code into the Public Domain
------------------------------------
+8.5.1 Putting code into the Public Domain |
+----------------------------------------- |
In order to put code in the public domain you should sign a copyright
disclaimer and send it to the SLIB maintainer. Contact agj @
@@ -14772,8 +15735,8 @@ and have your employer sign it. Mail the signed disclaimer to the SLIB
maintainer. Contact agj @ alum.mit.edu for the address to mail the
disclaimer to. An example disclaimer follows.
-Explicit copying terms
-----------------------
+8.5.2 Explicit copying terms |
+---------------------------- |
If you submit more than about 10 lines of code which you are not
placing into the Public Domain (by sending me a disclaimer) you need to:
@@ -14790,8 +15753,8 @@ placing into the Public Domain (by sending me a disclaimer) you need to:
disclaim to the SLIB maintainer. Contact agj @ alum.mit.edu for
the address to mail the disclaimer to.
-Example: Company Copyright Disclaimer
--------------------------------------
+8.5.3 Example: Company Copyright Disclaimer |
+------------------------------------------- |
This disclaimer should be signed by a vice president or general manager
of the company. If you can't get at them, anyone else authorized to
@@ -14809,1653 +15772,1950 @@ license out software produced there will do. Here is a sample wording:

File: slib.info, Node: About this manual, Prev: Copyrights, Up: About SLIB
- |
-About this manual |
-================= |
- |
- * Entries that are labeled as Functions are called for their return |
- values. Entries that are labeled as Procedures are called |
- primarily for their side effects. |
- |
- * Examples in this text were produced using the `scm' Scheme |
- implementation. |
- |
- * At the beginning of each section, there is a line that looks like |
- `(require 'feature)'. Include this line in your code prior to |
- using the package. |
- |
+
+8.6 About this manual |
+===================== |
+
+ * Entries that are labeled as Functions are called for their return
+ values. Entries that are labeled as Procedures are called
+ primarily for their side effects.
+
+ * Examples in this text were produced using the `scm' Scheme
+ implementation.
+
+ * At the beginning of each section, there is a line that looks like `(require
+ 'feature)'. Include this line in your code prior to using the |
+ package. |
+

File: slib.info, Node: Index, Prev: About SLIB, Up: Top
+
+Index |
+***** |
|
Procedure and Macro Index
*************************
This is an alphabetical list of all the procedures and macros in SLIB.
+
* Menu:
* -: Multi-argument / and -.
-* -1+: Rev2 Procedures.
+ (line 14) |
+* -1+: Rev2 Procedures. (line 42) |
* /: Multi-argument / and -.
-* 1+: Rev2 Procedures.
-* <=?: Rev2 Procedures.
-* <?: Rev2 Procedures.
-* =: Bit-Twiddling.
-* =?: Rev2 Procedures.
-* >=?: Rev2 Procedures.
-* >?: Rev2 Procedures.
-* absolute-path?: URI.
-* absolute-uri?: URI.
-* ac32: Arrays.
-* ac64: Arrays.
-* add-command-tables: Database Extension.
-* add-domain: Using Databases. |
-* add-domain on relational-database: Command Intrinsics. |
-* add-process!: Multi-Processing.
-* add-setter: Setters.
-* adjoin: Lists as sets.
-* adjoin-parameters!: Parameter lists. |
+ (line 12) |
+* 1+: Rev2 Procedures. (line 39) |
+* <=?: Rev2 Procedures. (line 46) |
+* <?: Rev2 Procedures. (line 45) |
+* =: Hilbert Space-Filling Curve. |
+ (line 72) |
+* =?: Rev2 Procedures. (line 47) |
+* >=?: Rev2 Procedures. (line 49) |
+* >?: Rev2 Procedures. (line 48) |
+* a:bool: Arrays. (line 236) |
+* a:fixn16b: Arrays. (line 226) |
+* a:fixn32b: Arrays. (line 221) |
+* a:fixn64b: Arrays. (line 216) |
+* a:fixn8b: Arrays. (line 231) |
+* a:fixz16b: Arrays. (line 206) |
+* a:fixz32b: Arrays. (line 201) |
+* a:fixz64b: Arrays. (line 196) |
+* a:fixz8b: Arrays. (line 211) |
+* a:floc128b: Arrays. (line 149) |
+* a:floc16b: Arrays. (line 161) |
+* a:floc32b: Arrays. (line 157) |
+* a:floc64b: Arrays. (line 153) |
+* a:flor128b: Arrays. (line 165) |
+* a:flor16b: Arrays. (line 177) |
+* a:flor32b: Arrays. (line 173) |
+* a:flor64b: Arrays. (line 169) |
+* abort: Session Support. (line 9) |
+* absolute-path?: URI. (line 102) |
+* absolute-uri?: URI. (line 98) |
+* add-command-tables: Database Extension. (line 11) |
+* add-domain: Using Databases. (line 131) |
+* add-domain on relational-database: Command Intrinsics. (line 10) |
+* add-macro-support: Within-database. (line 52) |
+* add-process!: Multi-Processing. (line 14) |
+* add-setter: Setters. (line 43) |
+* adjoin: Lists as sets. (line 10) |
+* adjoin-parameters!: Parameter lists. (line 38) |
* alist->wt-tree: Construction of Weight-Balanced Trees.
-* alist-associator: Association Lists.
-* alist-for-each: Association Lists.
-* alist-inquirer: Association Lists.
-* alist-map: Association Lists.
-* alist-remover: Association Lists.
-* alist-table: The Base. |
-* and-let*: SRFI-2. |
-* and?: Non-List functions.
-* any: SRFI-1. |
-* any?: Collections.
-* append!: Rev2 Procedures.
-* append-reverse: SRFI-1.
-* append-reverse!: SRFI-1.
+ (line 65) |
+* alist-associator: Association Lists. (line 28) |
+* alist-cons: SRFI-1. (line 178) |
+* alist-copy: SRFI-1. (line 180) |
+* alist-delete: SRFI-1. (line 182) |
+* alist-delete!: SRFI-1. (line 185) |
+* alist-for-each: Association Lists. (line 53) |
+* alist-inquirer: Association Lists. (line 23) |
+* alist-map: Association Lists. (line 48) |
+* alist-remover: Association Lists. (line 39) |
+* alist-table: The Base. (line 12) |
+* and-let*: SRFI-2. (line 9) |
+* and?: Non-List functions. (line 7) |
+* any: SRFI-1. (line 156) |
+* any-bits-set?: Bit-Twiddling. (line 64) |
+* any?: Collections. (line 83) |
+* append!: Rev2 Procedures. (line 36) |
+* append-reverse: SRFI-1. (line 95) |
+* append-reverse!: SRFI-1. (line 96) |
* apply: Multi-argument Apply.
-* ar32: Arrays.
-* ar64: Arrays.
-* array-align: Subarrays.
-* array-copy!: Array Mapping.
-* array-dimensions: Arrays.
-* array-for-each: Array Mapping.
-* array-in-bounds?: Arrays.
-* array-index-map!: Array Mapping.
-* array-indexes: Array Mapping.
-* array-map: Array Mapping. |
-* array-map!: Array Mapping.
-* array-rank: Arrays.
-* array-ref: Arrays.
-* array-set!: Arrays.
-* array-shape: Arrays.
-* array-trim: Subarrays.
-* array=?: Arrays.
-* array?: Arrays.
-* as16: Arrays.
-* as32: Arrays.
-* as64: Arrays.
-* as8: Arrays.
-* asctime: Posix Time.
-* ash: Bit-Twiddling.
-* assoc: SRFI-1.
-* at1: Arrays.
-* atom?: Non-List functions.
-* au16: Arrays.
-* au32: Arrays.
-* au64: Arrays.
-* au8: Arrays.
-* batch:call-with-output-script: Batch.
-* batch:command: Batch.
-* batch:comment: Batch.
-* batch:delete-file: Batch.
-* batch:initialize!: Batch.
-* batch:lines->file: Batch.
-* batch:rename-file: Batch.
-* batch:run-script: Batch.
-* batch:try-chopped-command: Batch.
-* batch:try-command: Batch. |
-* bit-field: Bit-Twiddling.
-* bit-reverse: Bit-Twiddling.
-* bitwise-if: Bit-Twiddling.
-* bitwise:delaminate: Bit-Twiddling.
-* bitwise:laminate: Bit-Twiddling.
-* blackbody-spectrum: Spectra.
-* booleans->integer: Bit-Twiddling.
-* break: Breakpoints.
-* break-all: Debug.
-* breakf: Breakpoints.
-* breakpoint: Breakpoints.
-* browse: Database Browser.
-* browse-url: System.
-* butlast: Lists as sequences.
-* butnthcdr: Lists as sequences.
-* byte-ref: Byte.
-* byte-set!: Byte.
-* bytes: Byte.
-* bytes->ieee-double: Byte/Number Conversions. |
-* bytes->ieee-float: Byte/Number Conversions. |
-* bytes->integer: Byte/Number Conversions. |
-* bytes->list: Byte.
-* bytes-copy: Byte. |
-* bytes-length: Byte.
-* bytes-reverse: Byte. |
-* bytes-reverse!: Byte. |
-* call-with-dynamic-binding: Dynamic Data Type.
-* call-with-input-string: String Ports.
-* call-with-open-ports: Input/Output.
-* call-with-output-string: String Ports.
-* call-with-tmpnam: Filenames. |
-* call-with-values: Values.
-* capture-syntactic-environment: Syntactic Closures.
-* car+cdr: SRFI-1.
-* cart-prod-tables on relational-database: Database Operations. |
-* catalog->html: HTML Tables.
-* catalog-id on base-table: Base Tables. |
-* catalog:read: Catalog Vicinities. |
-* cdna:base-count: NCBI-DNA.
-* cdna:report-base-count: NCBI-DNA.
-* cgi:serve-query: HTTP and CGI.
-* chap:next-string: Chapter Ordering.
-* chap:string<=?: Chapter Ordering.
-* chap:string<?: Chapter Ordering.
-* chap:string>=?: Chapter Ordering.
-* chap:string>?: Chapter Ordering.
-* check-parameters: Parameter lists.
-* chromaticity->CIEXYZ: Spectra.
-* chromaticity->whitepoint: Spectra.
+ (line 12) |
+* arithmetic-shift: Bit-Twiddling. (line 182) |
+* array->list: Arrays. (line 101) |
+* array->vector: Arrays. (line 124) |
+* array-dimensions: Arrays. (line 48) |
+* array-for-each: Array Mapping. (line 25) |
+* array-in-bounds?: Arrays. (line 133) |
+* array-index-map!: Array Mapping. (line 34) |
+* array-indexes: Array Mapping. (line 29) |
+* array-map: Array Mapping. (line 17) |
+* array-map!: Array Mapping. (line 9) |
+* array-rank: Arrays. (line 44) |
+* array-ref: Arrays. (line 136) |
+* array-set!: Arrays. (line 139) |
+* array-trim: Subarrays. (line 44) |
+* array:copy!: Array Mapping. (line 50) |
+* array?: Arrays. (line 9) |
+* asctime: Posix Time. (line 62) |
+* ash: Bit-Twiddling. (line 181) |
+* assoc: SRFI-1. (line 175) |
+* atom?: Non-List functions. (line 30) |
+* batch:call-with-output-script: Batch. (line 47) |
+* batch:command: Batch. (line 64) |
+* batch:comment: Batch. (line 95) |
+* batch:delete-file: Batch. (line 102) |
+* batch:initialize!: Batch. (line 36) |
+* batch:lines->file: Batch. (line 98) |
+* batch:rename-file: Batch. (line 106) |
+* batch:run-script: Batch. (line 88) |
+* batch:try-chopped-command: Batch. (line 76) |
+* batch:try-command: Batch. (line 72) |
+* bit-count: Bit-Twiddling. (line 74) |
+* bit-field: Bit-Twiddling. (line 156) |
+* bit-set?: Bit-Twiddling. (line 135) |
+* bitwise-and: Bit-Twiddling. (line 19) |
+* bitwise-delaminate: Hilbert Space-Filling Curve. |
+ (line 90) |
+* bitwise-if: Bit-Twiddling. (line 56) |
+* bitwise-ior: Bit-Twiddling. (line 28) |
+* bitwise-laminate: Hilbert Space-Filling Curve. |
+ (line 89) |
+* bitwise-merge: Bit-Twiddling. (line 57) |
+* bitwise-not: Bit-Twiddling. (line 46) |
+* bitwise-xor: Bit-Twiddling. (line 37) |
+* blackbody-spectrum: Spectra. (line 125) |
+* booleans->integer: Bit-Twiddling. (line 229) |
+* break <1>: Breakpoints. (line 28) |
+* break: SRFI-1. (line 152) |
+* break!: SRFI-1. (line 154) |
+* break-all: Debug. (line 31) |
+* breakf: Breakpoints. (line 47) |
+* breakpoint: Breakpoints. (line 16) |
+* browse: Database Browser. (line 9) |
+* browse-url: System. (line 60) |
+* butlast: Lists as sequences. (line 121) |
+* butnthcdr: Lists as sequences. (line 147) |
+* byte-ref: Byte. (line 14) |
+* byte-set!: Byte. (line 18) |
+* bytes: Byte. (line 32) |
+* bytes->ieee-double: Byte/Number Conversions.
+ (line 58) |
+* bytes->ieee-float: Byte/Number Conversions.
+ (line 41) |
+* bytes->integer: Byte/Number Conversions.
+ (line 17) |
+* bytes->list: Byte. (line 36) |
+* bytes-copy: Byte. (line 47) |
+* bytes-length: Byte. (line 29) |
+* bytes-reverse: Byte. (line 53) |
+* bytes-reverse!: Byte. (line 50) |
+* call-with-dynamic-binding: Dynamic Data Type. (line 25) |
+* call-with-input-string: String Ports. (line 15) |
+* call-with-open-ports: Input/Output. (line 54) |
+* call-with-output-string: String Ports. (line 9) |
+* call-with-tmpnam: Filenames. (line 74) |
+* call-with-values: Values. (line 13) |
+* capture-syntactic-environment: Syntactic Closures. (line 211) |
+* car+cdr: SRFI-1. (line 68) |
+* cart-prod-tables on relational-database: Database Operations.
+ (line 78) |
+* catalog->html: HTML Tables. (line 49) |
+* catalog-id on base-table: Base Tables. (line 30) |
+* catalog:read: Catalog Vicinities. (line 57) |
+* cdna:base-count: NCBI-DNA. (line 35) |
+* cdna:report-base-count: NCBI-DNA. (line 39) |
+* cgi:serve-query: HTTP and CGI. (line 69) |
+* chap:next-string: Chapter Ordering. (line 29) |
+* chap:string<=?: Chapter Ordering. (line 25) |
+* chap:string<?: Chapter Ordering. (line 14) |
+* chap:string>=?: Chapter Ordering. (line 26) |
+* chap:string>?: Chapter Ordering. (line 24) |
+* check-parameters: Parameter lists. (line 59) |
+* chromaticity->CIEXYZ: Spectra. (line 169) |
+* chromaticity->whitepoint: Spectra. (line 172) |
* CIE:DE*: Color Difference Metrics.
+ (line 20) |
* CIE:DE*94: Color Difference Metrics.
-* ciexyz->color: Color Spaces.
-* CIEXYZ->e-sRGB: Color Conversions.
-* CIEXYZ->L*a*b*: Color Conversions.
-* CIEXYZ->L*u*v*: Color Conversions.
-* CIEXYZ->RGB709: Color Conversions.
-* CIEXYZ->sRGB: Color Conversions.
-* CIEXYZ->xRGB: Color Conversions. |
-* circular-list: SRFI-1.
-* circular-list?: SRFI-1.
-* cksum: Cyclic Checksum. |
-* clear-sky-color-xyy: Daylight.
-* clip-to-rect: Rectangles. |
-* close-base on base-table: The Base. |
-* close-database: Using Databases.
-* close-database on relational-database: Database Operations. |
-* close-port: Input/Output.
-* close-table on relational-table: Table Administration. |
-* CMC-DE: Color Difference Metrics. |
+ (line 27) |
+* ciexyz->color: Color Spaces. (line 25) |
+* CIEXYZ->e-sRGB: Color Conversions. (line 56) |
+* CIEXYZ->L*a*b*: Color Conversions. (line 38) |
+* CIEXYZ->L*u*v*: Color Conversions. (line 32) |
+* CIEXYZ->RGB709: Color Conversions. (line 29) |
+* CIEXYZ->sRGB: Color Conversions. (line 47) |
+* CIEXYZ->xRGB: Color Conversions. (line 50) |
+* circular-list: SRFI-1. (line 32) |
+* circular-list?: SRFI-1. (line 40) |
+* cksum: Cyclic Checksum. (line 149) |
+* clear-sky-color-xyy: Daylight. (line 84) |
+* clip-to-rect: Rectangles. (line 36) |
+* close-base on base-table: The Base. (line 60) |
+* close-database: Using Databases. (line 89) |
+* close-database on relational-database: Database Operations. (line 20) |
+* close-port: Input/Output. (line 47) |
+* close-table on relational-table: Table Administration.
+ (line 20) |
+* CMC-DE: Color Difference Metrics.
+ (line 61) |
* CMC:DE*: Color Difference Metrics.
-* codons<-cdna: NCBI-DNA.
-* coerce: Type Coercion.
-* collection?: Collections.
-* color->ciexyz: Color Spaces.
-* color->e-srgb: Color Spaces.
-* color->l*a*b*: Color Spaces.
-* color->l*c*h: Color Spaces.
-* color->l*u*v*: Color Spaces.
-* color->rgb709: Color Spaces.
-* color->srgb: Color Spaces.
-* color->string: Color Data-Type.
-* color->xrgb: Color Spaces.
-* color-dictionaries->lookup: Color Names.
-* color-dictionary: Color Names.
-* color-name->color: Color Names.
-* color-name:canonicalize: Color Names.
-* color-precision: Color Data-Type.
-* color-space: Color Data-Type.
-* color-white-point: Color Data-Type.
-* color:ciexyz: Color Spaces.
-* color:e-srgb: Color Spaces.
-* color:l*a*b*: Color Spaces.
-* color:l*c*h: Color Spaces.
-* color:l*u*v*: Color Spaces.
-* color:linear-transform: Color Conversions. |
-* color:rgb709: Color Spaces.
-* color:srgb: Color Spaces.
-* color?: Color Data-Type.
-* column-domains on relational-table: Table Administration. |
-* column-foreigns on relational-table: Table Administration. |
-* column-names on relational-table: Table Administration. |
-* column-range: Column Ranges. |
-* column-types on relational-table: Table Administration. |
-* combine-ranges: Column Ranges. |
-* combined-rulesets: Commutative Rings.
-* command->p-specs: HTML.
-* command:make-editable-table: HTML Tables.
-* command:modify-table: HTML Tables.
-* concatenate: SRFI-1.
-* concatenate!: SRFI-1.
-* cond-expand: SRFI.
-* cons*: SRFI-1.
-* continue: Breakpoints.
-* convert-color: Color Data-Type.
-* copy-bit: Bit-Twiddling.
-* copy-bit-field: Bit-Twiddling.
-* copy-list: List construction.
-* copy-random-state: Exact Random Numbers. |
-* copy-tree: Tree Operations.
-* count: SRFI-1.
-* count-newlines: String Search. |
-* crc16: Cyclic Checksum.
-* crc5: Cyclic Checksum.
-* crc:make-table: Cyclic Checksum.
-* create-array: Arrays. |
-* create-database: Using Databases.
-* create-database on relational-system: Relational Database Objects. |
-* create-postscript-graph: PostScript Graphing. |
-* create-table on relational-database: Database Operations. |
-* create-view on relational-database: Database Operations. |
-* cring:define-rule: Commutative Rings.
-* ctime: Posix Time.
-* current-directory: Directories.
-* current-error-port: Input/Output.
-* current-input-port <1>: Byte.
+ (line 65) |
+* codons<-cdna: NCBI-DNA. (line 18) |
+* coerce: Type Coercion. (line 12) |
+* collection?: Collections. (line 36) |
+* color->ciexyz: Color Spaces. (line 34) |
+* color->e-srgb: Color Spaces. (line 252) |
+* color->l*a*b*: Color Spaces. (line 91) |
+* color->l*c*h: Color Spaces. (line 166) |
+* color->l*u*v*: Color Spaces. (line 115) |
+* color->rgb709: Color Spaces. (line 55) |
+* color->srgb: Color Spaces. (line 209) |
+* color->string: Color Data-Type. (line 95) |
+* color->xrgb: Color Spaces. (line 212) |
+* color-dictionaries->lookup: Color Names. (line 33) |
+* color-dictionary: Color Names. (line 40) |
+* color-name->color: Color Names. (line 27) |
+* color-name:canonicalize: Color Names. (line 23) |
+* color-precision: Color Data-Type. (line 46) |
+* color-space: Color Data-Type. (line 43) |
+* color-white-point: Color Data-Type. (line 51) |
+* color:ciexyz: Color Spaces. (line 30) |
+* color:e-srgb: Color Spaces. (line 241) |
+* color:l*a*b*: Color Spaces. (line 83) |
+* color:l*c*h: Color Spaces. (line 159) |
+* color:l*u*v*: Color Spaces. (line 107) |
+* color:linear-transform: Color Conversions. (line 27) |
+* color:rgb709: Color Spaces. (line 51) |
+* color:srgb: Color Spaces. (line 200) |
+* color?: Color Data-Type. (line 9) |
+* column-domains on relational-table: Table Administration.
+ (line 9) |
+* column-foreigns on relational-table: Table Administration.
+ (line 8) |
+* column-names on relational-table: Table Administration.
+ (line 7) |
+* column-range: Column Ranges. (line 10) |
+* column-types on relational-table: Table Administration.
+ (line 10) |
+* combine-ranges: Column Ranges. (line 19) |
+* combined-rulesets: Commutative Rings. (line 90) |
+* command->p-specs: HTML. (line 149) |
+* command:make-editable-table: HTML Tables. (line 98) |
+* command:modify-table: HTML Tables. (line 87) |
+* concatenate: SRFI-1. (line 90) |
+* concatenate!: SRFI-1. (line 91) |
+* cond-expand: SRFI. (line 20) |
+* cons*: SRFI-1. (line 22) |
+* continue: Breakpoints. (line 20) |
+* convert-color: Color Data-Type. (line 54) |
+* copy-bit: Bit-Twiddling. (line 144) |
+* copy-bit-field: Bit-Twiddling. (line 167) |
+* copy-list: List construction. (line 32) |
+* copy-random-state: Exact Random Numbers.
+ (line 29) |
+* copy-tree: Tree Operations. (line 33) |
+* count: SRFI-1. (line 106) |
+* count-newlines: String Search. (line 61) |
+* crc16: Cyclic Checksum. (line 167) |
+* crc5: Cyclic Checksum. (line 178) |
+* crc:make-table: Cyclic Checksum. (line 131) |
+* create-array: Arrays. (line 66) |
+* create-database: Using Databases. (line 43) |
+* create-database on relational-system: Relational Database Objects.
+ (line 34) |
+* create-postscript-graph: PostScript Graphing. (line 17) |
+* create-table on relational-database: Database Operations. (line 64) |
+* create-view on relational-database: Database Operations. (line 75) |
+* cring:define-rule: Commutative Rings. (line 116) |
+* ctime: Posix Time. (line 68) |
+* current-directory: Directories. (line 9) |
+* current-error-port: Input/Output. (line 70) |
+* current-input-port <1>: Byte. (line 74) |
* current-input-port: Ruleset Definition and Use.
-* current-output-port: Byte.
-* current-time: Time and Date.
-* cvs-directories: CVS.
-* cvs-files: CVS.
-* cvs-repository: CVS.
-* cvs-root: CVS.
-* cvs-set-root!: CVS.
-* cvs-vet: CVS.
-* db->html-directory: HTML Tables.
-* db->html-files: HTML Tables.
-* db->netscape: HTML Tables.
-* decode-universal-time: Common-Lisp Time.
-* define-*commands*: Database Extension.
-* define-access-operation: Setters.
-* define-command: Database Macros.
-* define-domains: Using Databases. |
-* define-operation: Yasos interface.
-* define-predicate: Yasos interface.
-* define-record-type: SRFI-9. |
-* define-structure: Syntax-Case Macros. |
-* define-syntax: Macro by Example.
-* define-table: Database Macros.
-* define-tables: Using Databases.
-* defmacro: Defmacro.
-* defmacro:eval: Defmacro.
-* defmacro:expand*: Defmacro.
-* defmacro:load: Defmacro.
-* defmacro?: Defmacro.
-* delay: Promises. |
-* delete: Destructive list operations. |
-* delete on base-table: Base Record Operations. |
-* delete* on base-table: Aggregate Base Operations. |
-* delete-domain on relational-database: Command Intrinsics. |
-* delete-file: Input/Output.
+ (line 57) |
+* current-output-port: Byte. (line 66) |
+* current-time: Time and Date. (line 20) |
+* cvs-directories: CVS. (line 14) |
+* cvs-files: CVS. (line 9) |
+* cvs-repository: CVS. (line 22) |
+* cvs-root: CVS. (line 18) |
+* cvs-set-root!: CVS. (line 27) |
+* cvs-set-roots!: CVS. (line 30) |
+* cvs-vet: CVS. (line 34) |
+* db->html-directory: HTML Tables. (line 147) |
+* db->html-files: HTML Tables. (line 137) |
+* db->netscape: HTML Tables. (line 158) |
+* decode-universal-time: Common-Lisp Time. (line 15) |
+* define-*commands*: Database Extension. (line 16) |
+* define-access-operation: Setters. (line 53) |
+* define-command: Within-database. (line 17) |
+* define-domains: Using Databases. (line 124) |
+* define-macro: Within-database. (line 58) |
+* define-operation: Yasos interface. (line 7) |
+* define-predicate: Yasos interface. (line 12) |
+* define-record-type: SRFI-9. (line 12) |
+* define-structure: Define-Structure. (line 12) |
+* define-syntax: Macro by Example. (line 39) |
+* define-table: Within-database. (line 26) |
+* define-tables: Using Databases. (line 134) |
+* defmacro: Defmacro. (line 40) |
+* defmacro:eval: Defmacro. (line 15) |
+* defmacro:expand*: Defmacro. (line 51) |
+* defmacro:load: Defmacro. (line 19) |
+* defmacro?: Defmacro. (line 27) |
+* delaminate-list: Hilbert Space-Filling Curve. |
+ (line 108) |
+* delay: Promises. (line 15) |
+* delete: Destructive list operations.
+ (line 58) |
+* delete on base-table: Base Record Operations.
+ (line 37) |
+* delete* on base-table: Aggregate Base Operations.
+ (line 11) |
+* delete-domain on relational-database: Command Intrinsics. (line 39) |
+* delete-duplicates: SRFI-1. (line 166) |
+* delete-duplicates!: SRFI-1. (line 169) |
+* delete-file: Input/Output. (line 14) |
* delete-if: Destructive list operations.
+ (line 59) |
* delete-if-not: Destructive list operations.
-* delete-table on relational-database: Database Operations. |
-* dequeue!: Queues.
-* dequeue-all!: Queues.
-* determinant: Matrix Algebra.
-* diff:edit-length: Sequence Comparison.
-* diff:edits: Sequence Comparison.
-* diff:longest-common-subsequence: Sequence Comparison.
-* difftime: Time and Date.
-* directory-for-each: Directories. |
-* do-elts: Collections.
-* do-keys: Collections.
-* domain-checker on relational-database: Command Intrinsics. |
-* dotted-list?: SRFI-1.
-* drop: SRFI-1.
-* drop-right: SRFI-1. |
-* drop-right!: SRFI-1. |
-* dynamic-ref: Dynamic Data Type.
-* dynamic-set!: Dynamic Data Type.
-* dynamic-wind: Dynamic-Wind.
-* dynamic?: Dynamic Data Type.
-* e-sRGB->CIEXYZ: Color Conversions.
-* e-srgb->color: Color Spaces.
-* e-sRGB->e-sRGB: Color Conversions.
-* e-sRGB->sRGB: Color Conversions.
-* eighth: SRFI-1.
-* emacs:backup-name: Transactions.
-* empty?: Collections.
-* encode-universal-time: Common-Lisp Time.
-* enqueue!: Queues.
-* equal?: Byte.
-* eval: Eval.
-* every: Lists as sets.
-* every?: Collections.
-* exports<-info-index: Top-level Variable References. |
-* extended-euclid: Modular Arithmetic.
-* factor: Prime Numbers.
-* feature->export-alist: Module Manifests. |
-* feature->exports: Module Manifests. |
-* feature->requires: Module Manifests. |
-* feature-eval: Feature. |
+ (line 60) |
+* delete-table on relational-database: Database Operations. (line 59) |
+* dequeue!: Queues. (line 28) |
+* dequeue-all!: Queues. (line 36) |
+* determinant: Matrix Algebra. (line 18) |
+* diff:edit-length: Sequence Comparison. (line 64) |
+* diff:edits: Sequence Comparison. (line 45) |
+* diff:longest-common-subsequence: Sequence Comparison. (line 32) |
+* difftime: Time and Date. (line 26) |
+* directory-for-each: Directories. (line 21) |
+* do-elts: Collections. (line 41) |
+* do-keys: Collections. (line 57) |
+* domain-checker on relational-database: Command Intrinsics. (line 42) |
+* dotted-list?: SRFI-1. (line 42) |
+* drop: SRFI-1. (line 70) |
+* drop-right: SRFI-1. (line 76) |
+* drop-right!: SRFI-1. (line 78) |
+* dynamic-ref: Dynamic Data Type. (line 17) |
+* dynamic-set!: Dynamic Data Type. (line 21) |
+* dynamic-wind: Dynamic-Wind. (line 13) |
+* dynamic?: Dynamic Data Type. (line 12) |
+* e-sRGB->CIEXYZ: Color Conversions. (line 57) |
+* e-srgb->color: Color Spaces. (line 235) |
+* e-sRGB->e-sRGB: Color Conversions. (line 68) |
+* e-sRGB->sRGB: Color Conversions. (line 60) |
+* eighth: SRFI-1. (line 64) |
+* emacs:backup-name: Transactions. (line 73) |
+* empty?: Collections. (line 99) |
+* encode-universal-time: Common-Lisp Time. (line 40) |
+* enqueue!: Queues. (line 25) |
+* equal? <1>: Byte. (line 44) |
+* equal?: Arrays. (line 19) |
+* eval: Eval. (line 9) |
+* every: Lists as sets. (line 91) |
+* every?: Collections. (line 91) |
+* exports<-info-index: Top-level Variable References.
+ (line 35) |
+* expt: Miscellany. (line 20) |
+* extended-euclid: Modular Arithmetic. (line 28) |
+* factor: Prime Numbers. (line 41) |
+* feature->export-alist: Module Manifests. (line 100) |
+* feature->exports: Module Manifests. (line 105) |
+* feature->requires: Module Manifests. (line 29) |
+* feature->requires*: Module Manifests. (line 45) |
+* feature-eval: Feature. (line 52) |
* fft: Fast Fourier Transform.
+ (line 9) |
* fft-1: Fast Fourier Transform.
-* fifth: SRFI-1.
-* file->color-dictionary: Color Names.
-* file->definitions: Module Manifests. |
-* file->exports: Module Manifests. |
-* file->loads: Module Manifests. |
-* file->requires: Module Manifests. |
-* file-exists?: Input/Output.
-* file-lock!: Transactions.
-* file-lock-owner: Transactions.
-* file-unlock!: Transactions. |
-* filename:match-ci??: Filenames.
-* filename:match??: Filenames.
-* filename:substitute-ci??: Filenames.
-* filename:substitute??: Filenames.
-* fill-empty-parameters: Parameter lists.
-* fill-rect: Rectangles. |
-* filter: SRFI-1. |
-* filter!: SRFI-1. |
-* find: SRFI-1.
-* find-if: Lists as sets.
-* find-ratio: Rationalize.
-* find-ratio-between: Rationalize.
-* find-string-from-port?: String Search.
-* find-tail: SRFI-1.
-* first: SRFI-1.
-* fluid-let: Fluid-Let.
-* for-each-elt: Collections.
-* for-each-key: Collections. |
-* for-each-key on base-table: Aggregate Base Operations. |
-* for-each-row on relational-table: Multi-Row Operations. |
-* for-each-row-in-order on relational-table: Sequential Index Operations. |
-* force: Promises. |
-* force-output: Input/Output.
-* form:delimited: HTML.
-* form:element: HTML.
-* form:image: HTML.
-* form:reset: HTML.
-* form:submit: HTML.
-* fourth: SRFI-1. |
+ (line 14) |
+* fifth: SRFI-1. (line 61) |
+* file->color-dictionary: Color Names. (line 68) |
+* file->definitions: Module Manifests. (line 72) |
+* file->exports: Module Manifests. (line 84) |
+* file->loads: Module Manifests. (line 53) |
+* file->requires: Module Manifests. (line 15) |
+* file->requires*: Module Manifests. (line 49) |
+* file-exists?: Input/Output. (line 9) |
+* file-lock!: Transactions. (line 52) |
+* file-lock-owner: Transactions. (line 48) |
+* file-unlock!: Transactions. (line 62) |
+* filename:match-ci??: Filenames. (line 10) |
+* filename:match??: Filenames. (line 9) |
+* filename:substitute-ci??: Filenames. (line 35) |
+* filename:substitute??: Filenames. (line 34) |
+* fill-empty-parameters: Parameter lists. (line 51) |
+* fill-rect: Rectangles. (line 30) |
+* filter: SRFI-1. (line 129) |
+* filter!: SRFI-1. (line 131) |
+* find: SRFI-1. (line 144) |
+* find-if: Lists as sets. (line 138) |
+* find-ratio: Rationalize. (line 20) |
+* find-ratio-between: Rationalize. (line 27) |
+* find-string-from-port?: String Search. (line 30) |
+* find-tail: SRFI-1. (line 146) |
+* first: SRFI-1. (line 53) |
+* first-set-bit: Bit-Twiddling. (line 100) |
+* fluid-let: Fluid-Let. (line 9) |
+* fold: SRFI-1. (line 111) |
+* fold-right: SRFI-1. (line 113) |
+* for-each-elt: Collections. (line 67) |
+* for-each-key: Collections. (line 66) |
+* for-each-key on base-table: Aggregate Base Operations.
+ (line 16) |
+* for-each-row on relational-table: Multi-Row Operations.
+ (line 33) |
+* for-each-row-in-order on relational-table: Sequential Index Operations.
+ (line 11) |
+* force: Promises. (line 11) |
+* force-output: Input/Output. (line 74) |
+* form:delimited: HTML. (line 138) |
+* form:element: HTML. (line 98) |
+* form:image: HTML. (line 92) |
+* form:reset: HTML. (line 95) |
+* form:submit: HTML. (line 84) |
+* format: Format Interface. (line 7) |
+* fourth: SRFI-1. (line 59) |
* fprintf: Standard Formatted Output.
+ (line 10) |
* fscanf: Standard Formatted Input.
-* gen-elts: Collections. |
-* gen-keys: Collections. |
-* generic-write: Generic-Write.
-* gentemp: Defmacro.
-* get on relational-table: Table Operations. |
-* get* on relational-table: Match-Keys. |
-* get-decoded-time: Common-Lisp Time.
-* get-foreign-choices: HTML. |
-* get-method: Object.
-* get-universal-time: Common-Lisp Time.
-* getenv: System Interface.
-* getopt: Getopt.
-* getopt--: Getopt. |
+ (line 14) |
+* gen-elts: Collections. (line 25) |
+* gen-keys: Collections. (line 29) |
+* generic-write: Generic-Write. (line 15) |
+* gentemp: Defmacro. (line 9) |
+* get on relational-table: Table Operations. (line 18) |
+* get* on relational-table: Match-Keys. (line 29) |
+* get-decoded-time: Common-Lisp Time. (line 7) |
+* get-foreign-choices: HTML. (line 146) |
+* get-method: Object. (line 78) |
+* get-universal-time: Common-Lisp Time. (line 10) |
+* getenv: System Interface. (line 9) |
+* getopt: Getopt. (line 39) |
+* getopt--: Getopt. (line 125) |
* getopt->arglist: Getopt Parameter lists.
+ (line 37) |
* getopt->parameter-list: Getopt Parameter lists.
-* glob-pattern?: URI.
-* gmktime: Posix Time.
-* gmtime: Posix Time.
-* golden-section-search: Minimizing.
-* gray-code->integer: Bit-Twiddling.
-* gray-code<=?: Bit-Twiddling.
-* gray-code<?: Bit-Twiddling.
-* gray-code>=?: Bit-Twiddling.
-* gray-code>?: Bit-Twiddling.
-* grey: Color Names.
-* grid-horizontals: Legending. |
-* grid-verticals: Legending. |
-* gtime: Posix Time.
-* has-duplicates?: Lists as sets.
-* hash: Hashing.
-* hash-associator: Hash Tables.
-* hash-for-each: Hash Tables.
-* hash-inquirer: Hash Tables.
-* hash-map: Hash Tables.
-* hash-rehasher: Hash Tables. |
-* hash-remover: Hash Tables.
-* hashq: Hashing.
-* hashv: Hashing.
-* heap-extract-max!: Priority Queues.
-* heap-insert!: Priority Queues.
-* heap-length: Priority Queues.
-* hilbert-coordinates->integer: Peano-Hilbert Space-Filling Curve.
-* histograph: Character Plotting. |
-* home-vicinity: Vicinity.
-* htm-fields: Parsing HTML.
-* html-for-each: Parsing HTML.
-* html:anchor: URI.
-* html:atval: HTML.
-* html:base: URI.
-* html:body: HTML.
-* html:buttons: HTML.
-* html:caption: HTML Tables.
-* html:checkbox: HTML.
-* html:comment: HTML.
-* html:delimited-list: HTML. |
-* html:editable-row-converter: HTML Tables.
-* html:form: HTML.
-* html:head: HTML.
-* html:heading: HTML Tables.
-* html:hidden: HTML.
-* html:href-heading: HTML Tables.
-* html:http-equiv: HTML.
-* html:isindex: URI.
-* html:link: URI.
-* html:linked-row-converter: HTML Tables.
-* html:meta: HTML.
-* html:meta-refresh: HTML.
-* html:plain: HTML.
-* html:pre: HTML.
-* html:read-title: Parsing HTML.
-* html:select: HTML.
-* html:table: HTML Tables.
-* html:text: HTML.
-* html:text-area: HTML.
-* http:content: HTTP and CGI.
-* http:error-page: HTTP and CGI.
-* http:forwarding-page: HTTP and CGI.
-* http:header: HTTP and CGI.
-* http:serve-query: HTTP and CGI.
-* identifier=?: Syntactic Closures.
-* identifier?: Syntactic Closures.
-* identity: Miscellany.
-* ieee-byte-collate: Byte/Number Conversions. |
-* ieee-byte-collate!: Byte/Number Conversions. |
-* ieee-byte-decollate: Byte/Number Conversions. |
-* ieee-byte-decollate!: Byte/Number Conversions. |
-* ieee-double->bytes: Byte/Number Conversions. |
-* ieee-float->bytes: Byte/Number Conversions. |
-* implementation-vicinity: Vicinity.
-* in-graphic-context: Graphics Context. |
-* in-vicinity: Vicinity.
-* init-debug: Breakpoints.
-* integer->bytes: Byte/Number Conversions. |
-* integer->gray-code: Bit-Twiddling.
-* integer->hilbert-coordinates: Peano-Hilbert Space-Filling Curve.
-* integer->list: Bit-Twiddling.
-* integer-byte-collate: Byte/Number Conversions. |
-* integer-byte-collate!: Byte/Number Conversions. |
-* integer-expt: Bit-Twiddling.
-* integer-length: Bit-Twiddling.
-* integer-sqrt: Root Finding.
-* interaction-environment: Eval.
-* interpolate-from-table: Database Interpolation. |
-* intersection: Lists as sets.
-* iota: SRFI-1.
-* isam-next on relational-table: Sequential Index Operations. |
-* isam-prev on relational-table: Sequential Index Operations. |
-* jacobi-symbol: Prime Numbers.
-* kill-process!: Multi-Processing.
-* kill-table on base-table: Base Tables. |
-* L*a*b*->CIEXYZ: Color Conversions.
-* l*a*b*->color: Color Spaces.
-* L*a*b*->L*C*h: Color Conversions.
-* L*a*b*:DE*: Color Difference Metrics. |
-* l*c*h->color: Color Spaces.
-* L*C*h->L*a*b*: Color Conversions.
-* L*C*h:DE*94: Color Difference Metrics. |
-* L*u*v*->CIEXYZ: Color Conversions.
-* l*u*v*->color: Color Spaces.
-* laguerre:find-polynomial-root: Root Finding.
-* laguerre:find-root: Root Finding.
-* last <1>: SRFI-1.
-* last: Lists as sequences.
-* last-pair: Miscellany.
-* length+: SRFI-1.
-* library-vicinity: Vicinity.
-* light:ambient: Solid Modeling.
-* light:beam: Solid Modeling.
-* light:directional: Solid Modeling.
-* light:point: Solid Modeling.
-* light:spot: Solid Modeling.
-* list*: List construction.
-* list->bytes: Byte.
-* list->integer: Bit-Twiddling.
-* list->string: Rev4 Optional Procedures.
-* list->vector: Rev4 Optional Procedures.
-* list-copy: SRFI-1. |
-* list-index: SRFI-1. |
-* list-of??: Lists as sets.
-* list-table-definition: Using Databases.
-* list-tabulate: SRFI-1.
+ (line 10) |
+* glob-pattern?: URI. (line 110) |
+* gmktime: Posix Time. (line 50) |
+* gmtime: Posix Time. (line 36) |
+* golden-section-search: Minimizing. (line 18) |
+* gray-code->integer: Hilbert Space-Filling Curve. |
+ (line 65) |
+* gray-code<=?: Hilbert Space-Filling Curve. |
+ (line 75) |
+* gray-code<?: Hilbert Space-Filling Curve. |
+ (line 73) |
+* gray-code>=?: Hilbert Space-Filling Curve. |
+ (line 76) |
+* gray-code>?: Hilbert Space-Filling Curve. |
+ (line 74) |
+* grey: Color Names. (line 13) |
+* grid-horizontals: Legending. (line 58) |
+* grid-verticals: Legending. (line 54) |
+* gtime: Posix Time. (line 67) |
+* has-duplicates?: Lists as sets. (line 187) |
+* hash: Hashing. (line 14) |
+* hash-associator: Hash Tables. (line 36) |
+* hash-for-each: Hash Tables. (line 51) |
+* hash-inquirer: Hash Tables. (line 31) |
+* hash-map: Hash Tables. (line 46) |
+* hash-rehasher: Hash Tables. (line 56) |
+* hash-remover: Hash Tables. (line 41) |
+* hashq: Hashing. (line 12) |
+* hashv: Hashing. (line 13) |
+* heap-extract-max!: Priority Queues. (line 23) |
+* heap-insert!: Priority Queues. (line 19) |
+* heap-length: Priority Queues. (line 16) |
+* hilbert-coordinates->integer: Hilbert Space-Filling Curve. |
+ (line 45) |
+* histograph: Character Plotting. (line 83) |
+* home-vicinity: Vicinity. (line 51) |
+* htm-fields: Parsing HTML. (line 58) |
+* html-for-each: Parsing HTML. (line 10) |
+* html:anchor: URI. (line 24) |
+* html:atval: HTML. (line 9) |
+* html:base: URI. (line 39) |
+* html:body: HTML. (line 47) |
+* html:buttons: HTML. (line 81) |
+* html:caption: HTML Tables. (line 11) |
+* html:checkbox: HTML. (line 69) |
+* html:comment: HTML. (line 55) |
+* html:delimited-list: HTML. (line 143) |
+* html:editable-row-converter: HTML Tables. (line 117) |
+* html:form: HTML. (line 61) |
+* html:head: HTML. (line 39) |
+* html:heading: HTML Tables. (line 15) |
+* html:hidden: HTML. (line 66) |
+* html:href-heading: HTML Tables. (line 18) |
+* html:http-equiv: HTML. (line 24) |
+* html:isindex: URI. (line 43) |
+* html:link: URI. (line 32) |
+* html:linked-row-converter: HTML Tables. (line 22) |
+* html:meta: HTML. (line 17) |
+* html:meta-refresh: HTML. (line 30) |
+* html:plain: HTML. (line 13) |
+* html:pre: HTML. (line 50) |
+* html:read-title: Parsing HTML. (line 44) |
+* html:select: HTML. (line 78) |
+* html:table: HTML Tables. (line 9) |
+* html:text: HTML. (line 72) |
+* html:text-area: HTML. (line 75) |
+* http:content: HTTP and CGI. (line 13) |
+* http:error-page: HTTP and CGI. (line 20) |
+* http:forwarding-page: HTTP and CGI. (line 26) |
+* http:header: HTTP and CGI. (line 9) |
+* http:serve-query: HTTP and CGI. (line 36) |
+* identifier=?: Syntactic Closures. (line 369) |
+* identifier?: Syntactic Closures. (line 334) |
+* identity: Miscellany. (line 9) |
+* ieee-byte-collate: Byte/Number Conversions.
+ (line 144) |
+* ieee-byte-collate!: Byte/Number Conversions.
+ (line 135) |
+* ieee-byte-decollate: Byte/Number Conversions.
+ (line 148) |
+* ieee-byte-decollate!: Byte/Number Conversions.
+ (line 140) |
+* ieee-double->bytes: Byte/Number Conversions.
+ (line 92) |
+* ieee-float->bytes: Byte/Number Conversions.
+ (line 76) |
+* illuminant-map: Spectra. (line 77) |
+* illuminant-map->XYZ: Spectra. (line 82) |
+* implementation-vicinity: Vicinity. (line 42) |
+* in-graphic-context: Graphics Context. (line 7) |
+* in-vicinity: Vicinity. (line 62) |
+* init-debug: Breakpoints. (line 9) |
+* integer->bytes: Byte/Number Conversions.
+ (line 29) |
+* integer->gray-code: Hilbert Space-Filling Curve. |
+ (line 62) |
+* integer->hilbert-coordinates: Hilbert Space-Filling Curve. |
+ (line 30) |
+* integer->list: Bit-Twiddling. (line 215) |
+* integer->peano-coordinates: Peano Space-Filling Curve. |
+ (line 7) |
+* integer-byte-collate: Byte/Number Conversions.
+ (line 129) |
+* integer-byte-collate!: Byte/Number Conversions.
+ (line 123) |
+* integer-length: Bit-Twiddling. (line 88) |
+* integer-sqrt: Root Finding. (line 26) |
+* interaction-environment: Eval. (line 51) |
+* interpolate-from-table: Database Interpolation.
+ (line 13) |
+* intersection: Lists as sets. (line 32) |
+* iota: SRFI-1. (line 26) |
+* isam-next on relational-table: Sequential Index Operations.
+ (line 18) |
+* isam-prev on relational-table: Sequential Index Operations.
+ (line 29) |
+* jacobi-symbol: Prime Numbers. (line 20) |
+* kill-process!: Multi-Processing. (line 24) |
+* kill-table on base-table: Base Tables. (line 26) |
+* L*a*b*->CIEXYZ: Color Conversions. (line 40) |
+* l*a*b*->color: Color Spaces. (line 78) |
+* L*a*b*->L*C*h: Color Conversions. (line 44) |
+* L*a*b*:DE*: Color Difference Metrics.
+ (line 17) |
+* l*c*h->color: Color Spaces. (line 154) |
+* L*C*h->L*a*b*: Color Conversions. (line 45) |
+* L*C*h:DE*94: Color Difference Metrics.
+ (line 25) |
+* L*u*v*->CIEXYZ: Color Conversions. (line 34) |
+* l*u*v*->color: Color Spaces. (line 102) |
+* laguerre:find-polynomial-root: Root Finding. (line 58) |
+* laguerre:find-root: Root Finding. (line 47) |
+* last <1>: SRFI-1. (line 83) |
+* last: Lists as sequences. (line 111) |
+* last-pair: Miscellany. (line 73) |
+* length+: SRFI-1. (line 88) |
+* library-vicinity: Vicinity. (line 39) |
+* light:ambient: Solid Modeling. (line 110) |
+* light:beam: Solid Modeling. (line 144) |
+* light:directional: Solid Modeling. (line 122) |
+* light:point: Solid Modeling. (line 158) |
+* light:spot: Solid Modeling. (line 176) |
+* list*: List construction. (line 18) |
+* list->array: Arrays. (line 88) |
+* list->bytes: Byte. (line 40) |
+* list->integer: Bit-Twiddling. (line 221) |
+* list-copy: SRFI-1. (line 24) |
+* list-index: SRFI-1. (line 158) |
+* list-of??: Lists as sets. (line 120) |
+* list-table-definition: Using Databases. (line 167) |
+* list-tabulate: SRFI-1. (line 18) |
* list-tail: Rev4 Optional Procedures.
-* list=: SRFI-1.
-* load->path: Module Manifests. |
-* load-ciexyz: Spectra. |
-* load-color-dictionary: Color Names. |
-* localtime: Posix Time.
-* logand: Bit-Twiddling.
-* logbit?: Bit-Twiddling.
-* logcount: Bit-Twiddling.
-* logical:ones: Bit-Twiddling. |
-* logical:rotate: Bit-Twiddling.
-* logior: Bit-Twiddling.
-* lognot: Bit-Twiddling.
-* logtest: Bit-Twiddling.
-* logxor: Bit-Twiddling.
-* macro:eval <1>: Syntax-Case Macros.
-* macro:eval <2>: Syntactic Closures.
-* macro:eval <3>: Macros That Work.
-* macro:eval: R4RS Macros.
-* macro:expand <1>: Syntax-Case Macros.
-* macro:expand <2>: Syntactic Closures.
-* macro:expand <3>: Macros That Work.
-* macro:expand: R4RS Macros.
-* macro:load <1>: Syntax-Case Macros.
-* macro:load <2>: Syntactic Closures.
-* macro:load <3>: Macros That Work.
-* macro:load: R4RS Macros.
-* macroexpand: Defmacro.
-* macroexpand-1: Defmacro.
-* macwork:eval: Macros That Work.
-* macwork:expand: Macros That Work.
-* macwork:load: Macros That Work.
-* make-base on base-table: The Base. |
-* make-bytes: Byte.
-* make-color: Color Data-Type.
-* make-command-server: Command Service.
-* make-directory: Directories.
-* make-dynamic: Dynamic Data Type.
-* make-exchanger: Miscellany.
-* make-generic-method: Object.
-* make-generic-predicate: Object.
-* make-getter on base-table: Base Record Operations. |
-* make-getter-1 on base-table: Base Record Operations. |
-* make-hash-table: Hash Tables.
-* make-heap: Priority Queues.
-* make-key->list on base-table: Composite Keys. |
-* make-key-extractor on base-table: Composite Keys. |
-* make-keyifier-1 on base-table: Composite Keys. |
-* make-list: List construction.
-* make-list-keyifier on base-table: Composite Keys. |
-* make-method!: Object.
-* make-nexter on base-table: Base ISAM Operations. |
-* make-object: Object.
-* make-parameter-list: Parameter lists.
-* make-predicate!: Object.
-* make-prever on base-table: Base ISAM Operations. |
-* make-promise: Promises.
-* make-putter on base-table: Base Record Operations. |
-* make-query-alist-command-server: HTTP and CGI.
-* make-queue: Queues.
-* make-random-state: Exact Random Numbers. |
-* make-record-type: Records.
+ (line 12) |
+* list=: SRFI-1. (line 48) |
+* load->path: Module Manifests. (line 63) |
+* load-ciexyz: Spectra. (line 37) |
+* load-color-dictionary: Color Names. (line 52) |
+* localtime: Posix Time. (line 39) |
+* log2-binary-factors: Bit-Twiddling. (line 99) |
+* logand: Bit-Twiddling. (line 18) |
+* logbit?: Bit-Twiddling. (line 134) |
+* logcount: Bit-Twiddling. (line 73) |
+* logior: Bit-Twiddling. (line 27) |
+* lognot: Bit-Twiddling. (line 45) |
+* logtest: Bit-Twiddling. (line 63) |
+* logxor: Bit-Twiddling. (line 36) |
+* lset-adjoin: SRFI-1. (line 197) |
+* lset-diff+intersection: SRFI-1. (line 207) |
+* lset-diff+intersection!: SRFI-1. (line 222) |
+* lset-difference: SRFI-1. (line 203) |
+* lset-difference!: SRFI-1. (line 216) |
+* lset-intersection: SRFI-1. (line 201) |
+* lset-intersection!: SRFI-1. (line 214) |
+* lset-union: SRFI-1. (line 199) |
+* lset-union!: SRFI-1. (line 218) |
+* lset-xor: SRFI-1. (line 205) |
+* lset-xor!: SRFI-1. (line 220) |
+* lset<=: SRFI-1. (line 191) |
+* lset=: SRFI-1. (line 195) |
+* macro:eval <1>: Syntax-Case Macros. (line 14) |
+* macro:eval <2>: Syntactic Closures. (line 14) |
+* macro:eval <3>: Macros That Work. (line 18) |
+* macro:eval: R4RS Macros. (line 19) |
+* macro:expand <1>: Syntax-Case Macros. (line 9) |
+* macro:expand <2>: Syntactic Closures. (line 9) |
+* macro:expand <3>: Macros That Work. (line 13) |
+* macro:expand: R4RS Macros. (line 15) |
+* macro:load <1>: Syntax-Case Macros. (line 20) |
+* macro:load <2>: Syntactic Closures. (line 20) |
+* macro:load <3>: Macros That Work. (line 24) |
+* macro:load: R4RS Macros. (line 23) |
+* macroexpand: Defmacro. (line 31) |
+* macroexpand-1: Defmacro. (line 30) |
+* macwork:eval: Macros That Work. (line 19) |
+* macwork:expand: Macros That Work. (line 14) |
+* macwork:load: Macros That Work. (line 25) |
+* make-array: Arrays. (line 54) |
+* make-base on base-table: The Base. (line 19) |
+* make-bytes: Byte. (line 23) |
+* make-color: Color Data-Type. (line 30) |
+* make-command-server: Command Service. (line 7) |
+* make-directory: Directories. (line 17) |
+* make-dynamic: Dynamic Data Type. (line 9) |
+* make-exchanger: Miscellany. (line 37) |
+* make-generic-method: Object. (line 57) |
+* make-generic-predicate: Object. (line 62) |
+* make-getter on base-table: Base Record Operations.
+ (line 14) |
+* make-getter-1 on base-table: Base Record Operations.
+ (line 23) |
+* make-hash-table: Hash Tables. (line 17) |
+* make-heap: Priority Queues. (line 12) |
+* make-key->list on base-table: Composite Keys. (line 38) |
+* make-key-extractor on base-table: Composite Keys. (line 31) |
+* make-keyifier-1 on base-table: Composite Keys. (line 7) |
+* make-list: List construction. (line 7) |
+* make-list-keyifier on base-table: Composite Keys. (line 17) |
+* make-method!: Object. (line 65) |
+* make-nexter on base-table: Base ISAM Operations.
+ (line 17) |
+* make-object: Object. (line 46) |
+* make-parameter-list: Parameter lists. (line 23) |
+* make-predicate!: Object. (line 72) |
+* make-prever on base-table: Base ISAM Operations.
+ (line 25) |
+* make-promise: Promises. (line 9) |
+* make-putter on base-table: Base Record Operations.
+ (line 31) |
+* make-query-alist-command-server: HTTP and CGI. (line 86) |
+* make-queue: Queues. (line 13) |
+* make-random-state: Exact Random Numbers.
+ (line 44) |
+* make-record-type: Records. (line 12) |
* make-relational-system: Relational Database Objects.
-* make-ruleset: Commutative Rings.
-* make-shared-array: Arrays.
-* make-sierpinski-indexer: Sierpinski Curve.
-* make-slib-color-name-db: Color Names.
-* make-syntactic-closure: Syntactic Closures.
-* make-table on base-table: Base Tables. |
-* make-uri: URI.
-* make-vicinity: Vicinity.
+ (line 11) |
+* make-ruleset: Commutative Rings. (line 82) |
+* make-shared-array: Arrays. (line 69) |
+* make-sierpinski-indexer: Sierpinski Curve. (line 9) |
+* make-slib-color-name-db: Color Names. (line 94) |
+* make-syntactic-closure: Syntactic Closures. (line 177) |
+* make-table on base-table: Base Tables. (line 7) |
+* make-uri: URI. (line 12) |
+* make-vicinity: Vicinity. (line 21) |
* make-wt-tree: Construction of Weight-Balanced Trees.
+ (line 51) |
* make-wt-tree-type: Construction of Weight-Balanced Trees.
-* map!: SRFI-1. |
-* map-elts: Collections.
-* map-key on base-table: Aggregate Base Operations. |
-* map-keys: Collections.
-* matfile:load: MAT-File Format.
-* matfile:read: MAT-File Format.
-* matrix->array: Matrix Algebra.
-* matrix->lists: Matrix Algebra.
-* matrix:inverse: Matrix Algebra.
-* matrix:product: Matrix Algebra.
-* mdbm:report: Using Databases.
-* member: SRFI-1.
-* member-if: Lists as sets.
-* merge: Sorting.
-* merge!: Sorting.
-* mktime: Posix Time.
-* mod: Modular Arithmetic. |
-* modular:*: Modular Arithmetic.
-* modular:+: Modular Arithmetic.
-* modular:-: Modular Arithmetic. |
-* modular:expt: Modular Arithmetic.
-* modular:invert: Modular Arithmetic.
-* modular:invertable?: Modular Arithmetic.
-* modular:negate: Modular Arithmetic.
-* modular:normalize: Modular Arithmetic.
-* modulus->integer: Modular Arithmetic.
-* mrna<-cdna: NCBI-DNA.
-* must-be-first: Batch.
-* must-be-last: Batch.
-* ncbi:read-dna-sequence: NCBI-DNA.
-* ncbi:read-file: NCBI-DNA.
+ (line 19) |
+* map!: SRFI-1. (line 122) |
+* map-elts: Collections. (line 40) |
+* map-key on base-table: Aggregate Base Operations.
+ (line 22) |
+* map-keys: Collections. (line 56) |
+* matfile:load: MAT-File Format. (line 25) |
+* matfile:read: MAT-File Format. (line 19) |
+* matrix->array: Matrix Algebra. (line 15) |
+* matrix->lists: Matrix Algebra. (line 12) |
+* matrix:inverse: Matrix Algebra. (line 33) |
+* matrix:product: Matrix Algebra. (line 30) |
+* mdbm:report: Using Databases. (line 94) |
+* member: SRFI-1. (line 160) |
+* member-if: Lists as sets. (line 62) |
+* merge: Sorting. (line 97) |
+* merge!: Sorting. (line 106) |
+* mktime: Posix Time. (line 54) |
+* mod: Modular Arithmetic. (line 9) |
+* modular:*: Modular Arithmetic. (line 77) |
+* modular:+: Modular Arithmetic. (line 71) |
+* modular:-: Modular Arithmetic. (line 74) |
+* modular:expt: Modular Arithmetic. (line 83) |
+* modular:invert: Modular Arithmetic. (line 64) |
+* modular:invertable?: Modular Arithmetic. (line 60) |
+* modular:negate: Modular Arithmetic. (line 68) |
+* modular:normalize: Modular Arithmetic. (line 39) |
+* modulus->integer: Modular Arithmetic. (line 35) |
+* mrna<-cdna: NCBI-DNA. (line 15) |
+* must-be-first: Batch. (line 128) |
+* must-be-last: Batch. (line 133) |
+* ncbi:read-dna-sequence: NCBI-DNA. (line 7) |
+* ncbi:read-file: NCBI-DNA. (line 11) |
* nconc: Destructive list operations.
-* newton:find-integer-root: Root Finding.
-* newton:find-root: Root Finding.
-* ninth: SRFI-1.
-* not-pair?: SRFI-1.
-* notany: Lists as sets.
-* notevery: Lists as sets.
+ (line 10) |
+* newton:find-integer-root: Root Finding. (line 9) |
+* newton:find-root: Root Finding. (line 30) |
+* ninth: SRFI-1. (line 65) |
+* not-pair?: SRFI-1. (line 46) |
+* notany: Lists as sets. (line 105) |
+* notevery: Lists as sets. (line 109) |
* nreverse: Destructive list operations.
-* nthcdr: Lists as sequences.
-* null-directory?: URI.
-* null-environment: Eval.
-* null-list?: SRFI-1.
-* object: Yasos interface.
-* object->limited-string: Object-To-String.
-* object->string: Object-To-String.
-* object-with-ancestors: Yasos interface.
-* object?: Object.
-* offset-time: Time and Date.
-* open-base on base-table: The Base. |
-* open-command-database: Database Extension.
-* open-command-database!: Database Extension. |
-* open-database: Using Databases.
-* open-database on relational-system: Relational Database Objects. |
-* open-database!: Using Databases.
-* open-file <1>: Byte. |
-* open-file: Input/Output.
-* open-table: Using Databases. |
-* open-table on base-table: Base Tables. |
-* open-table on relational-database: Database Operations. |
-* open-table!: Using Databases. |
-* operate-as: Yasos interface.
-* or?: Non-List functions.
-* ordered-for-each-key on base-table: Base ISAM Operations. |
-* os->batch-dialect: Batch.
-* outline-rect: Rectangles. |
-* output-port-height: Input/Output.
-* output-port-width: Input/Output.
-* overcast-sky-color-xyy: Daylight.
-* p<-cdna: NCBI-DNA.
-* pad-range: Column Ranges. |
-* pair-for-each: SRFI-1. |
-* parameter-list->arglist: Parameter lists.
-* parameter-list-expand: Parameter lists.
-* parameter-list-ref: Parameter lists.
-* parse-ftp-address: URI.
-* partition: SRFI-1. |
-* partition-page: Rectangles. |
-* path->uri: URI.
-* pathname->vicinity: Vicinity.
-* plot <1>: Legacy Plotting. |
-* plot: Character Plotting. |
-* plot-column: Drawing the Graph. |
+ (line 38) |
+* nthcdr: Lists as sequences. (line 137) |
+* null-directory?: URI. (line 106) |
+* null-environment: Eval. (line 29) |
+* null-list?: SRFI-1. (line 44) |
+* object: Yasos interface. (line 17) |
+* object->limited-string: Object-To-String. (line 12) |
+* object->string: Object-To-String. (line 9) |
+* object-with-ancestors: Yasos interface. (line 23) |
+* object?: Object. (line 54) |
+* offset-time: Time and Date. (line 30) |
+* open-base on base-table: The Base. (line 33) |
+* open-command-database: Database Extension. (line 34) |
+* open-command-database!: Database Extension. (line 43) |
+* open-database: Using Databases. (line 71) |
+* open-database on relational-system: Relational Database Objects.
+ (line 45) |
+* open-database!: Using Databases. (line 68) |
+* open-file <1>: Byte. (line 57) |
+* open-file: Input/Output. (line 18) |
+* open-table: Using Databases. (line 107) |
+* open-table on base-table: Base Tables. (line 16) |
+* open-table on relational-database: Database Operations. (line 52) |
+* open-table!: Using Databases. (line 114) |
+* operate-as: Yasos interface. (line 31) |
+* or?: Non-List functions. (line 19) |
+* ordered-for-each-key on base-table: Base ISAM Operations.
+ (line 10) |
+* os->batch-dialect: Batch. (line 138) |
+* outline-rect: Rectangles. (line 33) |
+* output-port-height: Input/Output. (line 87) |
+* output-port-width: Input/Output. (line 81) |
+* overcast-sky-color-xyy: Daylight. (line 74) |
+* p<-cdna: NCBI-DNA. (line 27) |
+* pad-range: Column Ranges. (line 13) |
+* pair-fold: SRFI-1. (line 115) |
+* pair-fold-right: SRFI-1. (line 117) |
+* pair-for-each: SRFI-1. (line 124) |
+* parameter-list->arglist: Parameter lists. (line 86) |
+* parameter-list-expand: Parameter lists. (line 41) |
+* parameter-list-ref: Parameter lists. (line 26) |
+* parse-ftp-address: URI. (line 117) |
+* partition: SRFI-1. (line 133) |
+* partition!: SRFI-1. (line 137) |
+* partition-page: Rectangles. (line 16) |
+* path->uri: URI. (line 95) |
+* pathname->vicinity: Vicinity. (line 25) |
+* peano-coordinates->integer: Peano Space-Filling Curve. |
+ (line 13) |
+* plot <1>: Legacy Plotting. (line 11) |
+* plot: Character Plotting. (line 17) |
+* plot-column: Drawing the Graph. (line 7) |
* pnm:array-write: Portable Image Files.
+ (line 44) |
* pnm:image-file->array: Portable Image Files.
+ (line 35) |
* pnm:type-dimensions: Portable Image Files.
-* port?: Input/Output.
-* position: Lists as sequences.
-* pprint-file: Pretty-Print.
-* pprint-filter-file: Pretty-Print.
+ (line 9) |
+* port?: Input/Output. (line 44) |
+* position: Lists as sequences. (line 7) |
+* pprint-file: Pretty-Print. (line 63) |
+* pprint-filter-file: Pretty-Print. (line 69) |
* prec:commentfix: Grammar Rule Definition.
+ (line 111) |
* prec:define-grammar: Ruleset Definition and Use.
+ (line 24) |
* prec:delim: Grammar Rule Definition.
+ (line 24) |
* prec:infix: Grammar Rule Definition.
+ (line 53) |
* prec:inmatchfix: Grammar Rule Definition.
+ (line 151) |
* prec:make-led: Nud and Led Definition.
+ (line 49) |
* prec:make-nud: Nud and Led Definition.
+ (line 39) |
* prec:matchfix: Grammar Rule Definition.
+ (line 131) |
* prec:nary: Grammar Rule Definition.
+ (line 72) |
* prec:nofix: Grammar Rule Definition.
+ (line 29) |
* prec:parse: Ruleset Definition and Use.
+ (line 33) |
* prec:postfix: Grammar Rule Definition.
+ (line 85) |
* prec:prefix: Grammar Rule Definition.
+ (line 36) |
* prec:prestfix: Grammar Rule Definition.
-* predicate->asso: Association Lists.
-* predicate->hash: Hash Tables.
-* predicate->hash-asso: Hash Tables.
-* present? on base-table: Base Record Operations. |
-* pretty-print: Pretty-Print.
-* pretty-print->string: Pretty-Print.
-* primary-limit on relational-table: Table Administration. |
-* prime?: Prime Numbers.
-* primes<: Prime Numbers.
-* primes>: Prime Numbers.
-* print: Yasos interface.
-* print-call-stack: Trace.
+ (line 94) |
+* predicate->asso: Association Lists. (line 17) |
+* predicate->hash: Hash Tables. (line 9) |
+* predicate->hash-asso: Hash Tables. (line 25) |
+* present? on base-table: Base Record Operations.
+ (line 10) |
+* pretty-print: Pretty-Print. (line 9) |
+* pretty-print->string: Pretty-Print. (line 23) |
+* primary-limit on relational-table: Table Administration.
+ (line 16) |
+* prime?: Prime Numbers. (line 28) |
+* primes<: Prime Numbers. (line 33) |
+* primes>: Prime Numbers. (line 38) |
+* print: Yasos interface. (line 36) |
+* print-call-stack: Trace. (line 29) |
* printf: Standard Formatted Output.
-* process:schedule!: Multi-Processing.
-* program-vicinity: Vicinity.
-* project-table on relational-database: Database Operations. |
-* proper-list?: SRFI-1.
-* protein<-cdna: NCBI-DNA. |
-* provide: Feature. |
-* provided?: Feature.
-* qp: Quick Print.
-* qpn: Quick Print.
-* qpr: Quick Print.
-* queue-empty?: Queues.
-* queue-front: Queues.
-* queue-pop!: Queues.
-* queue-push!: Queues.
-* queue-rear: Queues.
-* queue?: Queues.
-* random: Exact Random Numbers. |
-* random:exp: Inexact Random Numbers. |
-* random:hollow-sphere!: Inexact Random Numbers. |
-* random:normal: Inexact Random Numbers. |
-* random:normal-vector!: Inexact Random Numbers. |
-* random:solid-sphere!: Inexact Random Numbers. |
-* random:uniform: Inexact Random Numbers. |
-* rationalize: Rationalize.
-* read-byte: Byte.
-* read-bytes: Byte. |
-* read-command: Command Line.
-* read-line: Line I/O.
-* read-line!: Line I/O.
-* read-options-file: Command Line.
-* receive: SRFI-8. |
-* record-accessor: Records.
-* record-constructor: Records.
-* record-modifier: Records.
-* record-predicate: Records.
-* reduce <1>: Lists as sequences.
-* reduce: Collections.
-* reduce-init: Lists as sequences.
-* rem: Modular Arithmetic.
-* remove <1>: SRFI-1. |
-* remove: Lists as sets.
-* remove!: SRFI-1. |
-* remove-duplicates: Lists as sets.
-* remove-if: Lists as sets.
-* remove-if-not: Lists as sets.
-* remove-parameter: Parameter lists.
-* remove-setter-for: Setters.
-* repl:quit: Repl.
-* repl:top-level: Repl.
-* replace-suffix: Filenames.
-* require <1>: Catalog Creation. |
-* require: Require. |
-* require-if: Require. |
-* resene: Color Names.
-* restrict-table on relational-database: Database Operations. |
-* reverse!: SRFI-1.
-* RGB709->CIEXYZ: Color Conversions.
-* rgb709->color: Color Spaces.
-* row:delete on relational-table: Single Row Operations. |
-* row:delete* on relational-table: Multi-Row Operations. |
-* row:insert on relational-table: Single Row Operations. |
-* row:insert* on relational-table: Multi-Row Operations. |
-* row:remove on relational-table: Single Row Operations. |
-* row:remove* on relational-table: Multi-Row Operations. |
-* row:retrieve on relational-table: Single Row Operations. |
-* row:retrieve* on relational-table: Multi-Row Operations. |
-* row:update on relational-table: Single Row Operations. |
-* row:update* on relational-table: Multi-Row Operations. |
-* rule-horizontal: Legending. |
-* rule-vertical: Legending. |
-* saturate: Color Names.
+ (line 9) |
+* process:schedule!: Multi-Processing. (line 20) |
+* program-vicinity: Vicinity. (line 30) |
+* project-table on relational-database: Database Operations. (line 76) |
+* proper-list?: SRFI-1. (line 38) |
+* protein<-cdna: NCBI-DNA. (line 23) |
+* provide: Feature. (line 58) |
+* provided?: Feature. (line 30) |
+* qp: Quick Print. (line 19) |
+* qpn: Quick Print. (line 20) |
+* qpr: Quick Print. (line 21) |
+* queue-empty?: Queues. (line 19) |
+* queue-front: Queues. (line 39) |
+* queue-pop!: Queues. (line 29) |
+* queue-push!: Queues. (line 22) |
+* queue-rear: Queues. (line 42) |
+* queue?: Queues. (line 16) |
+* random: Exact Random Numbers.
+ (line 9) |
+* random:exp: Inexact Random Numbers.
+ (line 14) |
+* random:hollow-sphere!: Inexact Random Numbers.
+ (line 32) |
+* random:normal: Inexact Random Numbers.
+ (line 20) |
+* random:normal-vector!: Inexact Random Numbers.
+ (line 26) |
+* random:solid-sphere!: Inexact Random Numbers.
+ (line 39) |
+* random:uniform: Inexact Random Numbers.
+ (line 9) |
+* rationalize: Rationalize. (line 9) |
+* read-byte: Byte. (line 69) |
+* read-bytes: Byte. (line 87) |
+* read-cie-illuminant: Spectra. (line 43) |
+* read-command: Command Line. (line 9) |
+* read-line: Line I/O. (line 9) |
+* read-line!: Line I/O. (line 18) |
+* read-normalized-illuminant: Spectra. (line 54) |
+* read-options-file: Command Line. (line 65) |
+* receive: SRFI-8. (line 9) |
+* record-accessor: Records. (line 41) |
+* record-constructor: Records. (line 22) |
+* record-modifier: Records. (line 50) |
+* record-predicate: Records. (line 35) |
+* reduce <1>: SRFI-1. (line 119) |
+* reduce <2>: Lists as sequences. (line 19) |
+* reduce: Collections. (line 71) |
+* reduce-init: Lists as sequences. (line 61) |
+* reduce-right: SRFI-1. (line 120) |
+* rem: Modular Arithmetic. (line 10) |
+* remove <1>: SRFI-1. (line 135) |
+* remove: Lists as sets. (line 153) |
+* remove!: SRFI-1. (line 139) |
+* remove-duplicates: Lists as sets. (line 199) |
+* remove-if: Lists as sets. (line 166) |
+* remove-if-not: Lists as sets. (line 177) |
+* remove-parameter: Parameter lists. (line 31) |
+* remove-setter-for: Setters. (line 49) |
+* repl:quit: Repl. (line 17) |
+* repl:top-level: Repl. (line 11) |
+* replace-suffix: Filenames. (line 65) |
+* require <1>: Catalog Creation. (line 48) |
+* require: Require. (line 25) |
+* require-if: Require. (line 40) |
+* resene: Color Names. (line 129) |
+* restrict-table on relational-database: Database Operations. (line 77) |
+* reverse!: SRFI-1. (line 93) |
+* reverse-bit-field: Bit-Twiddling. (line 206) |
+* RGB709->CIEXYZ: Color Conversions. (line 30) |
+* rgb709->color: Color Spaces. (line 46) |
+* rotate-bit-field: Bit-Twiddling. (line 192) |
+* row:delete on relational-table: Single Row Operations.
+ (line 50) |
+* row:delete* on relational-table: Multi-Row Operations.
+ (line 26) |
+* row:insert on relational-table: Single Row Operations.
+ (line 12) |
+* row:insert* on relational-table: Multi-Row Operations.
+ (line 41) |
+* row:remove on relational-table: Single Row Operations.
+ (line 45) |
+* row:remove* on relational-table: Multi-Row Operations.
+ (line 21) |
+* row:retrieve on relational-table: Single Row Operations.
+ (line 37) |
+* row:retrieve* on relational-table: Multi-Row Operations.
+ (line 7) |
+* row:update on relational-table: Single Row Operations.
+ (line 31) |
+* row:update* on relational-table: Multi-Row Operations.
+ (line 47) |
+* rule-horizontal: Legending. (line 40) |
+* rule-vertical: Legending. (line 32) |
+* saturate: Color Names. (line 109) |
* scanf: Standard Formatted Input.
+ (line 13) |
* scanf-read-list: Standard Formatted Input.
-* scene:overcast: Solid Modeling.
-* scene:panorama: Solid Modeling.
-* scene:sky-and-dirt: Solid Modeling.
-* scene:sky-and-grass: Solid Modeling.
-* scene:sphere: Solid Modeling.
-* scene:sun: Solid Modeling.
-* scene:viewpoint: Solid Modeling.
-* scene:viewpoints: Solid Modeling.
-* scheme-report-environment: Eval.
-* schmooz: Schmooz.
-* secant:find-bracketed-root: Root Finding.
-* secant:find-root: Root Finding.
-* second: SRFI-1. |
-* seed->random-state: Exact Random Numbers. |
-* set: Setters.
-* set-color: Graphics Context. |
-* set-difference: Lists as sets.
-* set-font: Graphics Context. |
-* set-glyphsize: Graphics Context. |
-* set-linedash: Graphics Context. |
-* set-linewidth: Graphics Context. |
-* Setter: Collections.
-* setter: Setters.
-* setup-plot: Column Ranges. |
-* seventh: SRFI-1.
-* si:conversion-factor: Metric Units.
+ (line 9) |
+* scene:overcast: Solid Modeling. (line 67) |
+* scene:panorama: Solid Modeling. (line 33) |
+* scene:sky-and-dirt: Solid Modeling. (line 50) |
+* scene:sky-and-grass: Solid Modeling. (line 53) |
+* scene:sphere: Solid Modeling. (line 37) |
+* scene:sun: Solid Modeling. (line 56) |
+* scene:viewpoint: Solid Modeling. (line 81) |
+* scene:viewpoints: Solid Modeling. (line 88) |
+* scheme-report-environment: Eval. (line 28) |
+* schmooz: Schmooz. (line 16) |
+* secant:find-bracketed-root: Root Finding. (line 71) |
+* secant:find-root: Root Finding. (line 70) |
+* second: SRFI-1. (line 55) |
+* seed->random-state: Exact Random Numbers.
+ (line 35) |
+* set: Setters. (line 30) |
+* set-color: Graphics Context. (line 11) |
+* set-difference: Lists as sets. (line 42) |
+* set-font: Graphics Context. (line 18) |
+* set-glyphsize: Graphics Context. (line 48) |
+* set-linedash: Graphics Context. (line 39) |
+* set-linewidth: Graphics Context. (line 34) |
+* set-margin-templates: Legending. (line 27) |
+* Setter: Collections. (line 107) |
+* setter: Setters. (line 22) |
+* setup-plot: Column Ranges. (line 22) |
+* seventh: SRFI-1. (line 63) |
+* si:conversion-factor: Metric Units. (line 160) |
* singleton-wt-tree: Construction of Weight-Balanced Trees.
-* sixth: SRFI-1.
-* size <1>: Collections.
-* size: Yasos interface.
-* sky-color-xyy: Daylight.
-* slib:error: System.
-* slib:eval: System.
-* slib:eval-load: System.
-* slib:exit: System.
-* slib:in-catalog?: Require. |
-* slib:load: System.
-* slib:load-compiled: System.
-* slib:load-source: System.
-* slib:report: Configuration.
-* slib:report-version: Configuration.
-* slib:warn: System.
-* snap-range: Column Ranges. |
-* software-type: Configuration.
-* solar-declination: Daylight.
-* solar-hour: Daylight.
-* solar-polar: Daylight.
-* solid:arrow: Solid Modeling.
-* solid:basrelief: Solid Modeling.
-* solid:box: Solid Modeling.
-* solid:center-array-of: Solid Modeling.
-* solid:center-pile-of: Solid Modeling.
-* solid:center-row-of: Solid Modeling.
-* solid:color: Solid Modeling.
-* solid:cone: Solid Modeling.
-* solid:cylinder: Solid Modeling.
-* solid:disk: Solid Modeling.
-* solid:ellipsoid: Solid Modeling.
-* solid:pyramid: Solid Modeling.
-* solid:rotation: Solid Modeling.
-* solid:scale: Solid Modeling.
-* solid:sphere: Solid Modeling.
-* solid:texture: Solid Modeling.
-* solid:translation: Solid Modeling. |
-* solidify-database: Using Databases.
-* solidify-database on relational-database: Database Operations. |
-* some: Lists as sets.
-* sort: Sorting.
-* sort!: Sorting.
-* sorted?: Sorting.
-* soundex: Soundex.
-* span: SRFI-1. |
-* spectrum->chromaticity: Spectra.
-* spectrum->CIEXYZ: Spectra.
-* spectrum->XYZ: Spectra.
-* split-at: SRFI-1.
-* split-at!: SRFI-1. |
+ (line 58) |
+* sixth: SRFI-1. (line 62) |
+* size <1>: Collections. (line 104) |
+* size: Yasos interface. (line 41) |
+* sky-color-xyy: Daylight. (line 85) |
+* slib:error: System. (line 45) |
+* slib:eval: System. (line 30) |
+* slib:eval-load: System. (line 35) |
+* slib:exit: System. (line 51) |
+* slib:in-catalog?: Require. (line 57) |
+* slib:load: System. (line 20) |
+* slib:load-compiled: System. (line 15) |
+* slib:load-source: System. (line 9) |
+* slib:report: Configuration. (line 43) |
+* slib:report-version: Configuration. (line 36) |
+* slib:warn: System. (line 42) |
+* snap-range: Column Ranges. (line 16) |
+* software-type: Configuration. (line 32) |
+* solar-declination: Daylight. (line 21) |
+* solar-hour: Daylight. (line 14) |
+* solar-polar: Daylight. (line 23) |
+* solid:arrow: Solid Modeling. (line 399) |
+* solid:basrelief: Solid Modeling. (line 271) |
+* solid:box: Solid Modeling. (line 206) |
+* solid:center-array-of: Solid Modeling. (line 390) |
+* solid:center-pile-of: Solid Modeling. (line 395) |
+* solid:center-row-of: Solid Modeling. (line 386) |
+* solid:color: Solid Modeling. (line 313) |
+* solid:cone: Solid Modeling. (line 230) |
+* solid:cylinder: Solid Modeling. (line 215) |
+* solid:disk: Solid Modeling. (line 223) |
+* solid:ellipsoid: Solid Modeling. (line 248) |
+* solid:font: Solid Modeling. (line 351) |
+* solid:polyline: Solid Modeling. (line 257) |
+* solid:pyramid: Solid Modeling. (line 236) |
+* solid:rotation: Solid Modeling. (line 418) |
+* solid:scale: Solid Modeling. (line 414) |
+* solid:sphere: Solid Modeling. (line 242) |
+* solid:text: Solid Modeling. (line 294) |
+* solid:texture: Solid Modeling. (line 330) |
+* solid:translation: Solid Modeling. (line 409) |
+* solidify-database: Using Databases. (line 86) |
+* solidify-database on relational-database: Database Operations.
+ (line 42) |
+* some: Lists as sets. (line 73) |
+* sort: Sorting. (line 119) |
+* sort!: Sorting. (line 126) |
+* sorted?: Sorting. (line 88) |
+* soundex: Soundex. (line 9) |
+* span: SRFI-1. (line 148) |
+* span!: SRFI-1. (line 150) |
+* spectrum->chromaticity: Spectra. (line 111) |
+* spectrum->XYZ: Spectra. (line 85) |
+* split-at: SRFI-1. (line 80) |
+* split-at!: SRFI-1. (line 81) |
* sprintf: Standard Formatted Output.
-* sRGB->CIEXYZ: Color Conversions.
-* srgb->color: Color Spaces.
-* sRGB->e-sRGB: Color Conversions.
-* sRGB->xRGB: Color Conversions. |
+ (line 11) |
+* sRGB->CIEXYZ: Color Conversions. (line 48) |
+* srgb->color: Color Spaces. (line 195) |
+* sRGB->e-sRGB: Color Conversions. (line 59) |
+* sRGB->xRGB: Color Conversions. (line 53) |
* sscanf: Standard Formatted Input.
-* stack: Trace.
-* stack-all: Debug.
-* stackf: Trace. |
-* string->color: Color Data-Type.
-* string->list: Rev4 Optional Procedures.
-* string-capitalize: String-Case.
-* string-capitalize!: String-Case. |
-* string-ci->symbol: String-Case.
+ (line 15) |
+* stack: Trace. (line 49) |
+* stack-all: Debug. (line 27) |
+* stackf: Trace. (line 85) |
+* string->color: Color Data-Type. (line 98) |
+* string-capitalize: String-Case. (line 11) |
+* string-capitalize!: String-Case. (line 16) |
+* string-ci->symbol: String-Case. (line 19) |
* string-copy: Rev4 Optional Procedures.
-* string-downcase: String-Case.
-* string-downcase!: String-Case.
+ (line 14) |
+* string-downcase: String-Case. (line 10) |
+* string-downcase!: String-Case. (line 15) |
* string-fill!: Rev4 Optional Procedures.
-* string-index: String Search.
-* string-index-ci: String Search.
-* string-join: Batch.
-* string-null?: Rev2 Procedures.
-* string-reverse-index: String Search.
-* string-reverse-index-ci: String Search.
-* string-subst: String Search.
-* string-upcase: String-Case.
-* string-upcase!: String-Case.
-* StudlyCapsExpand: String-Case.
-* sub-vicinity: Vicinity.
-* subarray: Subarrays.
-* subarray0: Subarrays.
-* subset?: Lists as sets.
-* subst: Tree Operations.
-* substq: Tree Operations.
-* substring-ci?: String Search.
-* substring-fill!: Rev2 Procedures.
-* substring-move-left!: Rev2 Procedures.
-* substring-move-right!: Rev2 Procedures.
-* substring-read!: Byte. |
-* substring-write: Byte. |
-* substring?: String Search.
-* substv: Tree Operations.
-* sunlight-ciexyz: Daylight.
-* sunlight-spectrum: Daylight.
-* sunlight-xyz: Daylight.
-* supported-key-type? on base-table: Base Field Types. |
-* supported-type? on base-table: Base Field Types. |
-* symbol-append: String-Case.
-* symmetric:modulus: Modular Arithmetic.
-* sync-base on base-table: The Base. |
-* sync-database: Using Databases.
-* sync-database on relational-database: Database Operations. |
-* syncase:eval: Syntax-Case Macros.
-* syncase:expand: Syntax-Case Macros.
-* syncase:load: Syntax-Case Macros.
-* syncase:sanity-check: Syntax-Case Macros. |
-* synclo:eval: Syntactic Closures.
-* synclo:expand: Syntactic Closures.
-* synclo:load: Syntactic Closures.
-* syntax-rules: Macro by Example.
-* system: System Interface.
-* system->line: Line I/O. |
-* table->linked-html: HTML Tables.
-* table->linked-page: HTML Tables.
-* table-exists? on relational-database: Database Operations. |
-* table-name->filename: HTML Tables.
-* take: SRFI-1.
-* take!: SRFI-1. |
-* take-right: SRFI-1.
-* temperature->chromaticity: Spectra. |
-* temperature->CIEXYZ: Spectra.
-* temperature->XYZ: Spectra.
-* tenth: SRFI-1.
-* third: SRFI-1. |
-* time-zone: Time Zone.
-* title-bottom: Legending. |
-* title-top: Legending. |
-* tmpnam: Input/Output.
-* tok:bump-column: Token definition. |
-* tok:char-group: Token definition.
-* top-refs: Top-level Variable References. |
-* top-refs<-file: Top-level Variable References. |
-* topological-sort: Topological Sort.
-* trace: Trace.
-* trace-all: Debug.
-* tracef: Trace.
-* track: Trace.
-* track-all: Debug.
-* trackf: Trace. |
-* transact-file-replacement: Transactions.
-* transcript-off: Transcripts.
-* transcript-on: Transcripts.
-* transformer: Syntactic Closures.
-* transpose: Matrix Algebra.
-* truncate-up-to: Batch.
-* tsort: Topological Sort. |
-* type-of: Type Coercion.
-* tz:params: Time Zone.
-* tz:std-offset: Time Zone. |
-* tzset: Time Zone.
-* unbreak: Breakpoints.
-* unbreakf: Breakpoints.
-* union: Lists as sets.
-* unmake-method!: Object.
-* unstack: Trace.
-* untrace: Trace.
-* untracef: Trace.
-* untrack: Trace.
-* unzip1: SRFI-1.
-* unzip2: SRFI-1.
-* unzip3: SRFI-1.
-* unzip4: SRFI-1.
-* unzip5: SRFI-1.
-* uri->tree: URI.
-* uri:decode-query: URI.
-* uri:make-path: URI. |
-* uri:path->keys: URI. |
-* uri:split-fields: URI. |
-* uric:decode: URI.
-* uric:encode: URI.
-* url->color-dictionary: Color Names.
-* user-email-address: Transactions.
-* user-vicinity: Vicinity.
-* values: Values.
-* vector->list: Rev4 Optional Procedures.
+ (line 16) |
+* string-index: String Search. (line 9) |
+* string-index-ci: String Search. (line 10) |
+* string-join: Batch. (line 123) |
+* string-null?: Rev2 Procedures. (line 33) |
+* string-reverse-index: String Search. (line 14) |
+* string-reverse-index-ci: String Search. (line 15) |
+* string-subst: String Search. (line 56) |
+* string-upcase: String-Case. (line 9) |
+* string-upcase!: String-Case. (line 14) |
+* StudlyCapsExpand: String-Case. (line 29) |
+* sub-vicinity: Vicinity. (line 73) |
+* subarray: Subarrays. (line 9) |
+* subset?: Lists as sets. (line 52) |
+* subst: Tree Operations. (line 11) |
+* substq: Tree Operations. (line 12) |
+* substring-ci?: String Search. (line 20) |
+* substring-fill!: Rev2 Procedures. (line 30) |
+* substring-move-left!: Rev2 Procedures. (line 13) |
+* substring-move-right!: Rev2 Procedures. (line 14) |
+* substring-read!: Byte. (line 112) |
+* substring-write: Byte. (line 121) |
+* substring?: String Search. (line 19) |
+* substv: Tree Operations. (line 13) |
+* sunlight-chromaticity: Daylight. (line 65) |
+* sunlight-spectrum: Daylight. (line 61) |
+* supported-key-type? on base-table: Base Field Types. (line 13) |
+* supported-type? on base-table: Base Field Types. (line 7) |
+* symbol-append: String-Case. (line 23) |
+* symmetric:modulus: Modular Arithmetic. (line 32) |
+* sync-base on base-table: The Base. (line 53) |
+* sync-database: Using Databases. (line 82) |
+* sync-database on relational-database: Database Operations. (line 37) |
+* syncase:eval: Syntax-Case Macros. (line 15) |
+* syncase:expand: Syntax-Case Macros. (line 10) |
+* syncase:load: Syntax-Case Macros. (line 21) |
+* syncase:sanity-check: Syntax-Case Macros. (line 67) |
+* synclo:eval: Syntactic Closures. (line 15) |
+* synclo:expand: Syntactic Closures. (line 10) |
+* synclo:load: Syntactic Closures. (line 21) |
+* syntax-rules: Macro by Example. (line 56) |
+* system: System Interface. (line 16) |
+* system->line: Line I/O. (line 35) |
+* table->linked-html: HTML Tables. (line 34) |
+* table->linked-page: HTML Tables. (line 42) |
+* table-exists? on relational-database: Database Operations. (line 48) |
+* table-name->filename: HTML Tables. (line 31) |
+* take: SRFI-1. (line 71) |
+* take!: SRFI-1. (line 72) |
+* take-right: SRFI-1. (line 74) |
+* temperature->chromaticity: Spectra. (line 150) |
+* temperature->XYZ: Spectra. (line 135) |
+* tenth: SRFI-1. (line 66) |
+* third: SRFI-1. (line 57) |
+* time-zone: Time Zone. (line 68) |
+* time:gmtime: Time Infrastructure. (line 9) |
+* time:invert: Time Infrastructure. (line 10) |
+* time:split: Time Infrastructure. (line 11) |
+* title-bottom: Legending. (line 12) |
+* title-top: Legending. (line 7) |
+* tmpnam: Input/Output. (line 65) |
+* tok:bump-column: Token definition. (line 61) |
+* tok:char-group: Token definition. (line 7) |
+* top-refs: Top-level Variable References.
+ (line 15) |
+* top-refs<-file: Top-level Variable References.
+ (line 19) |
+* topological-sort: Topological Sort. (line 13) |
+* trace: Trace. (line 33) |
+* trace-all: Debug. (line 19) |
+* tracef: Trace. (line 81) |
+* track: Trace. (line 41) |
+* track-all: Debug. (line 23) |
+* trackf: Trace. (line 83) |
+* transact-file-replacement: Transactions. (line 98) |
+* transcript-off: Transcripts. (line 10) |
+* transcript-on: Transcripts. (line 9) |
+* transformer: Syntactic Closures. (line 113) |
+* transpose: Matrix Algebra. (line 26) |
+* truncate-up-to: Batch. (line 113) |
+* tsort: Topological Sort. (line 12) |
+* type-of: Type Coercion. (line 9) |
+* tz:params: Time Zone. (line 73) |
+* tz:std-offset: Time Zone. (line 89) |
+* tzfile:read: Time Infrastructure. (line 15) |
+* tzset: Time Zone. (line 97) |
+* unbreak: Breakpoints. (line 37) |
+* unbreakf: Breakpoints. (line 58) |
+* union: Lists as sets. (line 21) |
+* unmake-method!: Object. (line 75) |
+* unstack: Trace. (line 71) |
+* untrace: Trace. (line 57) |
+* untracef: Trace. (line 96) |
+* untrack: Trace. (line 64) |
+* unzip1: SRFI-1. (line 100) |
+* unzip2: SRFI-1. (line 101) |
+* unzip3: SRFI-1. (line 102) |
+* unzip4: SRFI-1. (line 103) |
+* unzip5: SRFI-1. (line 104) |
+* uri->tree: URI. (line 47) |
+* uri:decode-query: URI. (line 71) |
+* uri:make-path: URI. (line 21) |
+* uri:path->keys: URI. (line 87) |
+* uri:split-fields: URI. (line 67) |
+* uric:decode: URI. (line 81) |
+* uric:encode: URI. (line 76) |
+* url->color-dictionary: Color Names. (line 77) |
+* user-email-address: Transactions. (line 133) |
+* user-vicinity: Vicinity. (line 47) |
+* values: Values. (line 9) |
+* vector->array: Arrays. (line 111) |
* vector-fill!: Rev4 Optional Procedures.
-* vet-slib: Module Analysis. |
-* vicinity:suffix?: Vicinity. |
-* vrml: Solid Modeling.
-* vrml-append: Solid Modeling.
-* vrml-to-file: Solid Modeling.
-* wavelength->chromaticity: Spectra.
-* wavelength->CIEXYZ: Spectra.
-* wavelength->XYZ: Spectra.
-* whole-page <1>: Rectangles. |
-* whole-page: PostScript Graphing. |
-* with-input-from-file: With-File.
-* with-output-to-file: With-File.
-* within-database: Database Macros.
-* world:info: Solid Modeling.
-* wrap-command-interface: Database Extension.
-* write-base on base-table: The Base. |
-* write-byte: Byte.
-* write-bytes: Byte. |
-* write-database: Using Databases.
-* write-database on relational-database: Database Operations. |
-* write-line: Line I/O.
+ (line 18) |
+* vet-slib: Module Analysis. (line 9) |
+* vicinity:suffix?: Vicinity. (line 58) |
+* vrml: Solid Modeling. (line 12) |
+* vrml-append: Solid Modeling. (line 16) |
+* vrml-to-file: Solid Modeling. (line 20) |
+* wavelength->chromaticity: Spectra. (line 120) |
+* wavelength->XYZ: Spectra. (line 115) |
+* whole-page <1>: Rectangles. (line 11) |
+* whole-page: PostScript Graphing. (line 37) |
+* with-input-from-file: With-File. (line 9) |
+* with-load-pathname: Vicinity. (line 79) |
+* with-output-to-file: With-File. (line 10) |
+* within-database: Within-database. (line 7) |
+* world:info: Solid Modeling. (line 24) |
+* wrap-command-interface: Database Extension. (line 7) |
+* write-base on base-table: The Base. (line 43) |
+* write-byte: Byte. (line 62) |
+* write-bytes: Byte. (line 98) |
+* write-database: Using Databases. (line 79) |
+* write-database on relational-database: Database Operations. (line 26) |
+* write-line: Line I/O. (line 29) |
* wt-tree/add: Basic Operations on Weight-Balanced Trees.
+ (line 20) |
* wt-tree/add!: Basic Operations on Weight-Balanced Trees.
+ (line 28) |
* wt-tree/delete: Basic Operations on Weight-Balanced Trees.
+ (line 48) |
* wt-tree/delete!: Basic Operations on Weight-Balanced Trees.
+ (line 55) |
* wt-tree/delete-min: Indexing Operations on Weight-Balanced Trees.
+ (line 60) |
* wt-tree/delete-min!: Indexing Operations on Weight-Balanced Trees.
+ (line 70) |
* wt-tree/difference: Advanced Operations on Weight-Balanced Trees.
+ (line 49) |
* wt-tree/empty?: Basic Operations on Weight-Balanced Trees.
+ (line 12) |
* wt-tree/fold: Advanced Operations on Weight-Balanced Trees.
+ (line 91) |
* wt-tree/for-each: Advanced Operations on Weight-Balanced Trees.
+ (line 112) |
* wt-tree/index: Indexing Operations on Weight-Balanced Trees.
+ (line 12) |
* wt-tree/index-datum: Indexing Operations on Weight-Balanced Trees.
+ (line 13) |
* wt-tree/index-pair: Indexing Operations on Weight-Balanced Trees.
+ (line 14) |
* wt-tree/intersection: Advanced Operations on Weight-Balanced Trees.
+ (line 38) |
* wt-tree/lookup: Basic Operations on Weight-Balanced Trees.
+ (line 41) |
* wt-tree/member?: Basic Operations on Weight-Balanced Trees.
+ (line 35) |
* wt-tree/min: Indexing Operations on Weight-Balanced Trees.
+ (line 43) |
* wt-tree/min-datum: Indexing Operations on Weight-Balanced Trees.
+ (line 44) |
* wt-tree/min-pair: Indexing Operations on Weight-Balanced Trees.
+ (line 45) |
* wt-tree/rank: Indexing Operations on Weight-Balanced Trees.
+ (line 35) |
* wt-tree/set-equal?: Advanced Operations on Weight-Balanced Trees.
+ (line 74) |
* wt-tree/size: Basic Operations on Weight-Balanced Trees.
+ (line 16) |
* wt-tree/split<: Advanced Operations on Weight-Balanced Trees.
+ (line 11) |
* wt-tree/split>: Advanced Operations on Weight-Balanced Trees.
+ (line 18) |
* wt-tree/subset?: Advanced Operations on Weight-Balanced Trees.
+ (line 59) |
* wt-tree/union: Advanced Operations on Weight-Balanced Trees.
-* x-axis: Legending. |
-* xcons: SRFI-1.
-* xRGB->CIEXYZ: Color Conversions. |
-* xrgb->color: Color Spaces.
-* xRGB->sRGB: Color Conversions. |
-* xyY->XYZ: Spectra.
-* xyY:normalize-colors: Spectra.
-* XYZ->chromaticity: Spectra.
-* XYZ->xyY: Spectra.
-* XYZ:normalize: Spectra.
-* XYZ:normalize-colors: Spectra.
-* y-axis: Legending. |
-* zenith-xyy: Daylight.
-* zip: SRFI-1.
+ (line 25) |
+* x-axis: Legending. (line 51) |
+* xcons: SRFI-1. (line 15) |
+* xRGB->CIEXYZ: Color Conversions. (line 51) |
+* xrgb->color: Color Spaces. (line 215) |
+* xRGB->sRGB: Color Conversions. (line 54) |
+* xyY->XYZ: Spectra. (line 188) |
+* xyY:normalize-colors: Spectra. (line 190) |
+* XYZ->chromaticity: Spectra. (line 165) |
+* XYZ->xyY: Spectra. (line 184) |
+* y-axis: Legending. (line 48) |
+* zenith-xyy: Daylight. (line 70) |
+* zip: SRFI-1. (line 98) |
Variable Index
**************
This is an alphabetical list of all the global variables in SLIB.
+
* Menu:
-* *argv*: Getopt.
-* *base-table-implementations*: Base Table.
-* *catalog*: Require. |
-* *http:byline*: HTTP and CGI. |
-* *operating-system*: Batch.
-* *optarg*: Getopt.
-* *optind*: Getopt.
-* *qp-width*: Quick Print.
-* *random-state*: Exact Random Numbers. |
-* *ruleset*: Commutative Rings.
+* *argv*: Getopt. (line 25) |
+* *base-table-implementations*: Base Table. (line 52) |
+* *catalog*: Require. (line 10) |
+* *http:byline*: HTTP and CGI. (line 17) |
+* *operating-system*: Batch. (line 41) |
+* *optarg*: Getopt. (line 35) |
+* *optind*: Getopt. (line 30) |
+* *qp-width*: Quick Print. (line 28) |
+* *random-state*: Exact Random Numbers.
+ (line 21) |
+* *ruleset*: Commutative Rings. (line 76) |
* *syn-defs*: Ruleset Definition and Use.
+ (line 7) |
* *syn-ignore-whitespace*: Ruleset Definition and Use.
-* *timezone*: Time Zone.
-* atm-hec-polynomial: Cyclic Checksum.
-* bottomedge: Legending. |
-* char-code-limit: Configuration.
-* charplot:dimensions: Character Plotting. |
-* CIEXYZ:A: Color Conversions.
-* CIEXYZ:B: Color Conversions.
-* CIEXYZ:C: Color Conversions.
-* CIEXYZ:D50: Color Conversions.
-* CIEXYZ:D65: Color Conversions.
-* CIEXYZ:E: Color Conversions. |
-* crc-08-polynomial: Cyclic Checksum.
-* crc-10-polynomial: Cyclic Checksum.
-* crc-12-polynomial: Cyclic Checksum.
-* crc-16-polynomial: Cyclic Checksum.
-* crc-32-polynomial: Cyclic Checksum.
-* crc-ccitt-polynomial: Cyclic Checksum.
-* D50: Color Data-Type.
-* D65: Color Data-Type.
-* daylight?: Time Zone.
-* debug:max-count: Trace.
-* distribute*: Commutative Rings.
-* distribute/: Commutative Rings.
-* dowcrc-polynomial: Cyclic Checksum.
-* graph:dimensions: Legacy Plotting. |
-* graphrect: Rectangles. |
-* leftedge: Legending. |
-* most-positive-fixnum: Configuration.
-* nil: Miscellany.
+ (line 12) |
+* *timezone*: Time Zone. (line 111) |
+* atm-hec-polynomial: Cyclic Checksum. (line 115) |
+* bottomedge: Legending. (line 18) |
+* char-code-limit: Configuration. (line 11) |
+* charplot:dimensions: Character Plotting. (line 9) |
+* CIEXYZ:A: Color Conversions. (line 21) |
+* CIEXYZ:B: Color Conversions. (line 22) |
+* CIEXYZ:C: Color Conversions. (line 23) |
+* CIEXYZ:D50: Color Conversions. (line 17) |
+* CIEXYZ:D65: Color Conversions. (line 13) |
+* CIEXYZ:E: Color Conversions. (line 24) |
+* crc-08-polynomial: Cyclic Checksum. (line 109) |
+* crc-10-polynomial: Cyclic Checksum. (line 98) |
+* crc-12-polynomial: Cyclic Checksum. (line 77) |
+* crc-16-polynomial: Cyclic Checksum. (line 69) |
+* crc-32-polynomial: Cyclic Checksum. (line 45) |
+* crc-ccitt-polynomial: Cyclic Checksum. (line 61) |
+* D50: Color Data-Type. (line 120) |
+* D65: Color Data-Type. (line 116) |
+* daylight?: Time Zone. (line 117) |
+* debug:max-count: Trace. (line 24) |
+* distribute*: Commutative Rings. (line 100) |
+* distribute/: Commutative Rings. (line 104) |
+* dowcrc-polynomial: Cyclic Checksum. (line 120) |
+* graph:dimensions: Legacy Plotting. (line 7) |
+* graphrect: Rectangles. (line 26) |
+* leftedge: Legending. (line 22) |
+* most-positive-fixnum: Configuration. (line 15) |
+* nil: Miscellany. (line 70) |
* number-wt-type: Construction of Weight-Balanced Trees.
-* plotrect: Rectangles. |
-* prime:prngs: Prime Numbers.
-* prime:trials: Prime Numbers.
-* rightedge: Legending. |
-* slib:form-feed: Configuration.
-* slib:tab: Configuration.
+ (line 39) |
+* plotrect: Rectangles. (line 22) |
+* prime:prngs: Prime Numbers. (line 9) |
+* prime:trials: Prime Numbers. (line 24) |
+* rightedge: Legending. (line 23) |
+* slib:form-feed: Configuration. (line 29) |
+* slib:tab: Configuration. (line 26) |
* stderr: Standard Formatted I/O.
+ (line 25) |
* stdin: Standard Formatted I/O.
+ (line 19) |
* stdout: Standard Formatted I/O.
+ (line 22) |
* string-wt-type: Construction of Weight-Balanced Trees.
-* t: Miscellany.
-* tok:decimal-digits: Token definition.
-* tok:lower-case: Token definition.
-* tok:upper-case: Token definition.
-* tok:whitespaces: Token definition.
-* topedge: Legending. |
-* tzname: Time Zone.
-* usb-token-polynomial: Cyclic Checksum.
+ (line 45) |
+* subarray0: Subarrays. (line 41) |
+* t: Miscellany. (line 67) |
+* tok:decimal-digits: Token definition. (line 41) |
+* tok:lower-case: Token definition. (line 48) |
+* tok:upper-case: Token definition. (line 44) |
+* tok:whitespaces: Token definition. (line 52) |
+* topedge: Legending. (line 17) |
+* tzname: Time Zone. (line 123) |
+* usb-token-polynomial: Cyclic Checksum. (line 124) |
Concept and Feature Index
*************************
+
* Menu:
-* aggregate <1>: Module Semantics. |
-* aggregate: Library Catalogs. |
-* alarm: Multi-Processing. |
-* alarm-interrupt: Multi-Processing. |
-* alist: Association Lists.
+* aggregate <1>: Module Semantics. (line 20) |
+* aggregate: Library Catalogs. (line 24) |
+* alarm: Multi-Processing. (line 10) |
+* alarm-interrupt: Multi-Processing. (line 10) |
+* alist: Association Lists. (line 6) |
* alist-table <1>: Relational Database Objects.
-* alist-table <2>: The Base. |
-* alist-table: Base Table.
-* ange-ftp: URI.
-* appearance: Solid Modeling.
-* array: Arrays.
-* array-for-each: Array Mapping.
-* association function: Association Lists. |
-* attribute-value: HTML.
-* Auto-sharing: Using Databases.
+ (line 23) |
+* alist-table <2>: The Base. (line 12) |
+* alist-table: Base Table. (line 16) |
+* ange-ftp: URI. (line 118) |
+* appearance: Solid Modeling. (line 320) |
+* array: Arrays. (line 6) |
+* array-for-each: Array Mapping. (line 6) |
+* association function: Association Lists. (line 17) |
+* attribute-value: HTML. (line 10) |
+* Auto-sharing: Using Databases. (line 25) |
* balanced binary trees: Weight-Balanced Trees.
-* base: URI.
-* base-table: Base Table.
-* batch: Batch.
-* binary: Byte.
+ (line 8) |
+* base: URI. (line 39) |
+* base-table: Base Table. (line 6) |
+* batch: Batch. (line 6) |
+* binary: Byte. (line 56) |
* binary trees: Weight-Balanced Trees.
+ (line 8) |
* binary trees, as discrete maps: Weight-Balanced Trees.
+ (line 52) |
* binary trees, as sets: Weight-Balanced Trees.
+ (line 52) |
* binding power: Precedence Parsing Overview.
-* break: Breakpoints.
-* byte: Byte.
-* byte-number: Byte/Number Conversions. |
-* calendar time <1>: Posix Time.
-* calendar time: Time and Date.
-* Calendar-Time: Posix Time.
-* caltime: Posix Time.
-* canonical: Color Names.
-* careful: Commutative Rings.
-* catalog: Require. |
-* Catalog File: Library Catalogs.
-* certificate: Transactions.
-* cgi: HTTP and CGI.
-* chapter-order: Chapter Ordering.
-* charplot: Character Plotting. |
-* Chroma: Color Spaces.
-* cie1931: Spectra.
-* cie1964: Spectra.
-* ciexyz: Spectra.
-* CIEXYZ: Color Spaces.
-* cksum-string: Cyclic Checksum. |
-* coerce: Type Coercion.
-* collect: Collections.
-* color-database: Color Names. |
-* color-names: Color Names. |
-* command line: Command Line.
-* commentfix: Rule Types.
+ (line 22) |
+* break: Breakpoints. (line 6) |
+* byte: Byte. (line 6) |
+* byte-number: Byte/Number Conversions.
+ (line 6) |
+* calendar time <1>: Posix Time. (line 10) |
+* calendar time: Time and Date. (line 16) |
+* Calendar-Time: Posix Time. (line 10) |
+* caltime: Posix Time. (line 10) |
+* canonical: Color Names. (line 16) |
+* careful: Commutative Rings. (line 14) |
+* catalog: Require. (line 6) |
+* Catalog File: Library Catalogs. (line 6) |
+* certificate: Transactions. (line 36) |
+* cgi: HTTP and CGI. (line 6) |
+* chapter-order: Chapter Ordering. (line 6) |
+* charplot: Character Plotting. (line 6) |
+* Chroma: Color Spaces. (line 141) |
+* cie1931: Spectra. (line 31) |
+* cie1964: Spectra. (line 27) |
+* ciexyz: Spectra. (line 35) |
+* CIEXYZ: Color Spaces. (line 18) |
+* cksum-string: Cyclic Checksum. (line 160) |
+* coerce: Type Coercion. (line 6) |
+* collect: Collections. (line 6) |
+* color-database: Color Names. (line 65) |
+* color-names: Color Names. (line 6) |
+* command line: Command Line. (line 10) |
+* commentfix: Rule Types. (line 35) |
* common-list-functions <1>: Common List Functions.
-* common-list-functions: Collections.
-* commutative-ring: Commutative Rings.
-* compiled: Library Catalogs. |
-* compiling: Module Conventions. |
-* Coordinated Universal Time: Posix Time.
-* copyright: Copyrights.
-* crc: Cyclic Checksum.
-* cvs: CVS.
-* database-commands: Command Example.
-* databases <1>: Command Example.
+ (line 6) |
+* common-list-functions: Collections. (line 74) |
+* commutative-ring: Commutative Rings. (line 11) |
+* compiled: Library Catalogs. (line 21) |
+* compiling: Module Conventions. (line 11) |
+* Coordinated Universal Time: Posix Time. (line 13) |
+* copyright: Copyrights. (line 6) |
+* crc: Cyclic Checksum. (line 6) |
+* cvs: CVS. (line 6) |
+* database-commands: Command Example. (line 10) |
+* databases <1>: Command Example. (line 11) |
* databases <2>: Define-tables Example.
-* databases <3>: Using Databases.
-* databases: Batch.
-* daylight: Daylight.
-* db->html: HTML Tables. |
-* debug <1>: Breakpoints.
-* debug: Debug.
-* defmacro: Library Catalogs. |
-* defmacroexpand <1>: Pretty-Print.
-* defmacroexpand: Defmacro.
-* delim: Rule Types.
-* dequeues: Queues. |
-* determinant: Matrix Algebra. |
-* diff: Sequence Comparison.
-* directory: Directories. |
-* Discrete Fourier Transform: Fast Fourier Transform. |
+ (line 12) |
+* databases <3>: Using Databases. (line 6) |
+* databases: Batch. (line 145) |
+* daylight: Daylight. (line 6) |
+* db->html: HTML Tables. (line 6) |
+* debug <1>: Breakpoints. (line 11) |
+* debug: Debug. (line 6) |
+* defmacro: Library Catalogs. (line 31) |
+* defmacroexpand <1>: Pretty-Print. (line 88) |
+* defmacroexpand: Defmacro. (line 48) |
+* delim: Rule Types. (line 47) |
+* dequeues: Queues. (line 10) |
+* determinant: Matrix Algebra. (line 6) |
+* diff: Sequence Comparison. (line 6) |
+* directory: Directories. (line 6) |
+* Discrete Fourier Transform: Fast Fourier Transform.
+ (line 11) |
* discrete maps, using binary trees: Weight-Balanced Trees.
-* DrScheme: Installation.
-* dynamic: Dynamic Data Type.
-* dynamic-wind: Dynamic-Wind.
-* e-sRGB: Color Spaces.
-* emacs: Transactions.
-* Encapsulated-PostScript: PostScript Graphing. |
-* escaped: URI.
-* Euclidean Domain: Commutative Rings.
-* eval: Eval.
-* exchanger: Miscellany.
-* factor: Prime Numbers.
-* feature <1>: About this manual.
-* feature <2>: Require. |
-* feature: Feature.
+ (line 52) |
+* DrScheme: Installation. (line 103) |
+* dynamic: Dynamic Data Type. (line 6) |
+* dynamic-wind: Dynamic-Wind. (line 6) |
+* e-sRGB: Color Spaces. (line 218) |
+* emacs: Transactions. (line 33) |
+* Encapsulated-PostScript: PostScript Graphing. (line 23) |
+* escaped: URI. (line 77) |
+* EUC: Extra-SLIB Packages. (line 53) |
+* Euclidean Domain: Commutative Rings. (line 67) |
+* eval: Eval. (line 6) |
+* exchanger: Miscellany. (line 31) |
+* factor: Prime Numbers. (line 6) |
+* feature <1>: About this manual. (line 13) |
+* feature <2>: Require. (line 18) |
+* feature: Feature. (line 6) |
* fft: Fast Fourier Transform.
-* File Transfer Protocol: URI.
-* file-lock: Transactions.
-* filename: Filenames.
-* fluid-let: Fluid-Let.
-* form: HTML.
-* format: Format.
-* gamut: Color Spaces.
-* generic-write: Generic-Write.
-* getit: URI.
-* getopt <1>: Command Example.
-* getopt: Getopt.
-* getopt-parameters <1>: Command Example.
+ (line 6) |
+* File Transfer Protocol: URI. (line 113) |
+* file-lock: Transactions. (line 32) |
+* filename: Filenames. (line 6) |
+* fluid-let: Fluid-Let. (line 6) |
+* form: HTML. (line 63) |
+* format: Format. (line 6) |
+* Gambit-C: Installation. (line 116) |
+* gamut: Color Spaces. (line 18) |
+* generic-write: Generic-Write. (line 6) |
+* getit: URI. (line 118) |
+* getopt <1>: Command Example. (line 14) |
+* getopt: Getopt. (line 6) |
+* getopt-parameters <1>: Command Example. (line 12) |
* getopt-parameters: Getopt Parameter lists.
-* glob <1>: Batch.
-* glob: Filenames.
-* Gray code: Bit-Twiddling.
-* Guile: Installation.
-* hash: Hashing.
-* hash-table: Hash Tables.
-* Hilbert: Peano-Hilbert Space-Filling Curve.
-* hilbert-fill: Peano-Hilbert Space-Filling Curve.
-* HOME <1>: Vicinity.
-* HOME: Catalog Creation. |
-* homecat: Catalog Vicinities. |
-* html-for-each: Parsing HTML.
-* html-form: HTML.
-* http: HTTP and CGI.
-* Hue: Color Spaces.
-* ICC Profile: Color Spaces.
-* implcat: Catalog Vicinities. |
-* indexed-sequential-access-method: Byte/Number Conversions. |
-* infix: Rule Types.
-* Info: Top-level Variable References. |
-* inmatchfix: Rule Types.
-* install: Installation. |
-* installation: Installation. |
-* intrinsic feature: Feature. |
-* ISAM: Indexed Sequential Access Methods. |
-* L*a*b*: Color Spaces.
-* L*C*h: Color Spaces.
-* L*u*v*: Color Spaces.
+ (line 6) |
+* glob <1>: Batch. (line 148) |
+* glob: Filenames. (line 6) |
+* Gray code: Hilbert Space-Filling Curve. |
+ (line 52) |
+* Guile: Installation. (line 119) |
+* hash: Hashing. (line 6) |
+* hash-table: Hash Tables. (line 6) |
+* Hilbert: Hilbert Space-Filling Curve. |
+ (line 8) |
+* Hilbert Space-Filling Curve: Hilbert Space-Filling Curve. |
+ (line 8) |
+* hilbert-fill: Hilbert Space-Filling Curve. |
+ (line 6) |
+* HOME <1>: Vicinity. (line 51) |
+* HOME: Catalog Creation. (line 19) |
+* homecat: Catalog Vicinities. (line 35) |
+* html-for-each: Parsing HTML. (line 6) |
+* html-form: HTML. (line 6) |
+* http: HTTP and CGI. (line 6) |
+* Hue: Color Spaces. (line 143) |
+* ICC Profile: Color Spaces. (line 191) |
+* implcat: Catalog Vicinities. (line 23) |
+* indexed-sequential-access-method: Byte/Number Conversions.
+ (line 120) |
+* infix: Rule Types. (line 19) |
+* Info: Top-level Variable References.
+ (line 32) |
+* inmatchfix: Rule Types. (line 43) |
+* install: Installation. (line 6) |
+* installation: Installation. (line 6) |
+* intrinsic feature: Feature. (line 9) |
+* ISAM: Indexed Sequential Access Methods.
+ (line 6) |
+* Japanese: Extra-SLIB Packages. (line 53) |
+* JFILTER: Extra-SLIB Packages. (line 53) |
+* JIS: Extra-SLIB Packages. (line 53) |
+* L*a*b*: Color Spaces. (line 68) |
+* L*C*h: Color Spaces. (line 135) |
+* L*u*v*: Color Spaces. (line 98) |
+* lamination: Hilbert Space-Filling Curve. |
+ (line 88) |
* Left Denotation, led: Nud and Led Definition.
-* Lightness: Color Spaces.
-* line-i: Line I/O.
-* list-processing library: SRFI-1.
-* load-option: Weight-Balanced Trees. |
-* logical: Bit-Twiddling.
-* macro <1>: Repl.
-* macro <2>: R4RS Macros. |
-* macro: Library Catalogs. |
-* macro-by-example <1>: Macro by Example. |
-* macro-by-example: Library Catalogs. |
-* macros-that-work <1>: Macros That Work. |
-* macros-that-work: Library Catalogs. |
-* manifest: Module Manifests. |
-* match: Match Keys. |
-* match-keys <1>: Match Keys. |
-* match-keys: Match-Keys. |
-* matchfix: Rule Types.
-* matfile: MAT-File Format.
-* matlab: MAT-File Format.
-* metric-units: Metric Units.
-* minimize: Minimizing.
+ (line 13) |
+* Lightness: Color Spaces. (line 71) |
+* line-i: Line I/O. (line 6) |
+* list-processing library: SRFI-1. (line 8) |
+* load-option: Weight-Balanced Trees.
+ (line 73) |
+* logical: Bit-Twiddling. (line 6) |
+* macro <1>: Repl. (line 32) |
+* macro <2>: R4RS Macros. (line 6) |
+* macro: Library Catalogs. (line 37) |
+* macro-by-example <1>: Macro by Example. (line 6) |
+* macro-by-example: Library Catalogs. (line 34) |
+* macros-that-work <1>: Macros That Work. (line 6) |
+* macros-that-work: Library Catalogs. (line 40) |
+* manifest: Module Manifests. (line 6) |
+* match: Match Keys. (line 6) |
+* match-keys <1>: Match Keys. (line 6) |
+* match-keys: Match-Keys. (line 6) |
+* matchfix: Rule Types. (line 39) |
+* matfile: MAT-File Format. (line 6) |
+* matlab: MAT-File Format. (line 6) |
+* metric-units: Metric Units. (line 6) |
+* minimize: Minimizing. (line 6) |
* minimum field width (printf): Standard Formatted Output.
-* MIT Scheme: Installation.
-* mkimpcat.scm: Catalog Vicinities. |
-* mklibcat.scm: Catalog Vicinities. |
-* modular: Modular Arithmetic.
+ (line 88) |
+* MIT Scheme: Installation. (line 113) |
+* mkimpcat.scm: Catalog Vicinities. (line 28) |
+* mklibcat.scm: Catalog Vicinities. (line 16) |
+* modular: Modular Arithmetic. (line 6) |
* multiarg: Multi-argument / and -.
+ (line 6) |
* multiarg-apply: Multi-argument Apply.
-* MzScheme: Installation.
-* nary: Rule Types.
-* new-catalog: Catalog Creation. |
-* nofix: Rule Types.
-* null: HTML Tables.
+ (line 6) |
+* MzScheme: Installation. (line 104) |
+* nary: Rule Types. (line 23) |
+* new-catalog: Catalog Creation. (line 48) |
+* nofix: Rule Types. (line 11) |
+* null: HTML Tables. (line 92) |
* Null Denotation, nud: Nud and Led Definition.
-* object: Object.
-* object->string: Object-To-String.
-* oop: Yasos.
+ (line 9) |
+* object: Object. (line 6) |
+* object->string: Object-To-String. (line 6) |
+* oop: Yasos. (line 6) |
* option, run-time-loadable: Weight-Balanced Trees.
-* options file: Command Line.
-* parameters <1>: Command Example.
-* parameters <2>: Batch.
-* parameters: Parameter lists.
-* parse: Precedence Parsing.
+ (line 69) |
+* options file: Command Line. (line 65) |
+* parameters <1>: Command Example. (line 13) |
+* parameters <2>: Batch. (line 146) |
+* parameters: Parameter lists. (line 6) |
+* parse: Precedence Parsing. (line 6) |
* pbm: Portable Image Files.
+ (line 22) |
* pbm-raw: Portable Image Files.
-* Peano: Peano-Hilbert Space-Filling Curve.
-* Peano-Hilbert Space-Filling Curve: Peano-Hilbert Space-Filling Curve.
+ (line 22) |
* pgm: Portable Image Files.
+ (line 26) |
* pgm-raw: Portable Image Files.
-* plain-text: HTML.
-* PLT Scheme: Installation.
-* pnm: Portable Image Files. |
-* portable bitmap graphics: Portable Image Files. |
-* posix-time: Posix Time.
-* postfix: Rule Types.
+ (line 26) |
+* plain-text: HTML. (line 14) |
+* PLT Scheme: Installation. (line 102) |
+* pnm: Portable Image Files.
+ (line 6) |
+* portable bitmap graphics: Portable Image Files.
+ (line 9) |
+* posix-time: Posix Time. (line 7) |
+* postfix: Rule Types. (line 27) |
* ppm: Portable Image Files.
+ (line 31) |
* ppm-raw: Portable Image Files.
-* pprint-file: Pretty-Print.
-* PRE: HTML.
-* precedence: Precedence Parsing.
+ (line 31) |
+* pprint-file: Pretty-Print. (line 60) |
+* PRE: HTML. (line 50) |
+* precedence: Precedence Parsing. (line 6) |
* precision (printf): Standard Formatted Output.
-* prefix: Rule Types.
-* prestfix: Rule Types.
-* pretty-print: Pretty-Print.
-* primes: Prime Numbers.
+ (line 101) |
+* prefix: Rule Types. (line 15) |
+* prestfix: Rule Types. (line 31) |
+* pretty-print: Pretty-Print. (line 6) |
+* primes: Prime Numbers. (line 6) |
* printf: Standard Formatted Output.
-* priority-queue: Priority Queues.
-* PRNG: Random Numbers.
-* process: Multi-Processing.
-* promise: Promises.
-* qp <1>: Quick Print.
-* qp: Getopt.
-* query-string: HTTP and CGI.
-* queue: Queues.
-* r2rs: RnRS.
-* r3rs <1>: Coding Guidelines. |
-* r3rs: RnRS.
-* r4rs: RnRS.
-* r5rs: RnRS.
-* random: Exact Random Numbers. |
-* random-inexact: Inexact Random Numbers. |
-* range: Column Ranges. |
-* rationalize: Rationalize.
-* read-command: Command Line.
-* record: Records.
-* rectangle: Rectangles. |
-* relational-database: Relational Database.
-* relational-system: Using Databases. |
-* repl <1>: Repl.
-* repl: Syntax-Case Macros.
-* resene: Color Names.
-* Resene: Color Names.
-* reset: HTML.
-* rev2-procedures: Rev2 Procedures. |
+ (line 6) |
+* priority-queue: Priority Queues. (line 6) |
+* PRNG: Random Numbers. (line 6) |
+* process: Multi-Processing. (line 6) |
+* Prolog: Extra-SLIB Packages. (line 49) |
+* promise: Promises. (line 6) |
+* PSD: Extra-SLIB Packages. (line 26) |
+* qp <1>: Quick Print. (line 6) |
+* qp: Getopt. (line 146) |
+* query-string: HTTP and CGI. (line 36) |
+* queue: Queues. (line 6) |
+* r2rs: RnRS. (line 11) |
+* r3rs <1>: Coding Guidelines. (line 10) |
+* r3rs: RnRS. (line 16) |
+* r4rs: RnRS. (line 24) |
+* r5rs: RnRS. (line 29) |
+* random: Exact Random Numbers.
+ (line 6) |
+* random-inexact: Inexact Random Numbers.
+ (line 6) |
+* range: Column Ranges. (line 6) |
+* rationalize: Rationalize. (line 6) |
+* read-command: Command Line. (line 6) |
+* record: Records. (line 6) |
+* rectangle: Rectangles. (line 6) |
+* relational-database: Relational Database. (line 6) |
+* relational-system: Using Databases. (line 53) |
+* repl <1>: Repl. (line 6) |
+* repl: Syntax-Case Macros. (line 61) |
+* resene: Color Names. (line 126) |
+* Resene: Color Names. (line 95) |
+* reset: HTML. (line 95) |
+* rev2-procedures: Rev2 Procedures. (line 6) |
* rev4-optional-procedures: Rev4 Optional Procedures.
-* RGB709: Color Spaces.
-* ring, commutative: Commutative Rings.
-* RNG: Random Numbers.
-* root: Root Finding.
+ (line 6) |
+* RGB709: Color Spaces. (line 37) |
+* ring, commutative: Commutative Rings. (line 11) |
+* RNG: Random Numbers. (line 6) |
+* root: Root Finding. (line 6) |
* run-time-loadable option: Weight-Balanced Trees.
-* rwb-isam: Base Table. |
-* saturate: Color Names.
+ (line 69) |
+* rwb-isam: Base Table. (line 39) |
+* saturate: Color Names. (line 95) |
* scanf: Standard Formatted Input.
-* scheme: URI.
-* Scheme Request For Implementation: SRFI.
-* Scheme48: Installation.
-* schmooz: Schmooz.
-* SCM: Installation.
-* self-set: Commutative Rings.
-* Sequence Comparison: Sequence Comparison.
-* Server-based Naming Authority: URI.
-* session: Feature.
+ (line 6) |
+* SCHELOG: Extra-SLIB Packages. (line 49) |
+* scheme: URI. (line 99) |
+* Scheme Request For Implementation: SRFI. (line 8) |
+* Scheme48: Installation. (line 137) |
+* schmooz: Schmooz. (line 6) |
+* SCM: Installation. (line 97) |
+* script: Installation. (line 37) |
+* self-set: Commutative Rings. (line 17) |
+* Sequence Comparison: Sequence Comparison. (line 6) |
+* Server-based Naming Authority: URI. (line 58) |
+* session: Feature. (line 7) |
* sets, using binary trees: Weight-Balanced Trees.
-* shell: Command Line. |
-* sierpinski: Sierpinski Curve.
-* sitecat: Catalog Vicinities. |
-* sky: Daylight.
-* slibcat: Catalog Vicinities. |
-* solid: Solid Modeling.
-* solid-modeling: Solid Modeling.
-* solids: Solid Modeling.
-* sort: Sorting.
-* soundex: Soundex.
-* source: Library Catalogs. |
-* Space-Filling: Peano-Hilbert Space-Filling Curve.
-* sparse: MAT-File Format.
-* Spectral Tristimulus Values: Spectra.
-* spiff: Sequence Comparison.
-* srfi: SRFI.
-* SRFI-1: SRFI-1.
-* srfi-1: SRFI-1.
-* srfi-2: SRFI-2. |
-* srfi-8: SRFI-8. |
-* srfi-9: SRFI-9. |
-* sRGB: Color Spaces.
+ (line 52) |
+* shell: Command Line. (line 12) |
+* sierpinski: Sierpinski Curve. (line 6) |
+* sitecat: Catalog Vicinities. (line 19) |
+* sky: Daylight. (line 6) |
+* slib: Installation. (line 37) |
+* slibcat: Catalog Vicinities. (line 11) |
+* solid: Solid Modeling. (line 6) |
+* solid-modeling: Solid Modeling. (line 6) |
+* solids: Solid Modeling. (line 6) |
+* sort: Sorting. (line 6) |
+* soundex: Soundex. (line 6) |
+* source: Library Catalogs. (line 18) |
+* Space-Filling: Hilbert Space-Filling Curve. |
+ (line 8) |
+* sparse: MAT-File Format. (line 15) |
+* Spectral Tristimulus Values: Spectra. (line 24) |
+* spiff: Sequence Comparison. (line 29) |
+* srfi: SRFI. (line 6) |
+* SRFI-1: SRFI-1. (line 8) |
+* srfi-1: SRFI-1. (line 6) |
+* srfi-2: SRFI-2. (line 6) |
+* srfi-8: SRFI-8. (line 6) |
+* srfi-9: SRFI-9. (line 6) |
+* sRGB: Color Spaces. (line 189) |
* stdio: Standard Formatted I/O.
-* string-case: String-Case.
-* string-port: String Ports.
-* string-search: String Search.
-* subarray: Subarrays.
-* sun: Daylight.
-* sunlight: Daylight.
-* symmetric: Modular Arithmetic. |
-* syntactic-closures <1>: Syntactic Closures. |
-* syntactic-closures: Library Catalogs. |
+ (line 14) |
+* string-case: String-Case. (line 6) |
+* string-port: String Ports. (line 6) |
+* string-search: String Search. (line 6) |
+* subarray: Subarrays. (line 6) |
+* sun: Daylight. (line 6) |
+* sunlight: Daylight. (line 6) |
+* symmetric: Modular Arithmetic. (line 54) |
+* syntactic-closures <1>: Syntactic Closures. (line 6) |
+* syntactic-closures: Library Catalogs. (line 46) |
* syntax tree: Precedence Parsing Overview.
-* syntax-case <1>: Syntax-Case Macros. |
-* syntax-case: Library Catalogs. |
-* time: Time and Date.
-* time-zone: Time Zone.
-* top-level variable references: Top-level Variable References. |
-* top-refs: Top-level Variable References. |
-* topological-sort: Topological Sort.
-* trace: Trace.
-* transact: Transactions.
-* transcript: Transcripts.
-* tree: Tree Operations.
+ (line 32) |
+* syntax-case <1>: Syntax-Case Macros. (line 6) |
+* syntax-case: Library Catalogs. (line 43) |
+* time: Time and Date. (line 16) |
+* time-zone: Time Zone. (line 63) |
+* top-level variable references: Top-level Variable References.
+ (line 6) |
+* top-refs: Top-level Variable References.
+ (line 6) |
+* topological-sort: Topological Sort. (line 6) |
+* trace: Trace. (line 6) |
+* transact: Transactions. (line 10) |
+* transcript: Transcripts. (line 6) |
+* tree: Tree Operations. (line 6) |
* trees, balanced binary: Weight-Balanced Trees.
-* tristimulus: Color Spaces.
-* tsort: Topological Sort.
-* turbidity: Daylight.
-* TZ-string: Time Zone.
-* Uniform Resource Identifiers: URI.
-* Uniform Resource Locator: URI.
-* Unique Factorization: Commutative Rings.
-* unsafe: URI.
-* URI: URI.
-* uri: URI.
-* URI: HTTP and CGI.
-* usercat: Catalog Vicinities. |
-* UTC: Posix Time.
-* values: Values.
-* variable references: Top-level Variable References. |
-* vet: Module Analysis. |
-* VSCM: Installation.
-* WB: Base Table.
-* wb-table: Base Table.
+ (line 8) |
+* tristimulus: Color Spaces. (line 9) |
+* tsort: Topological Sort. (line 6) |
+* turbidity: Daylight. (line 31) |
+* TZ-string: Time Zone. (line 9) |
+* Uniform Resource Identifiers: URI. (line 8) |
+* Uniform Resource Locator: URI. (line 118) |
+* Unique Factorization: Commutative Rings. (line 67) |
+* unsafe: URI. (line 77) |
+* URI: URI. (line 71) |
+* uri: URI. (line 6) |
+* URI: HTTP and CGI. (line 36) |
+* usercat: Catalog Vicinities. (line 38) |
+* UTC: Posix Time. (line 13) |
+* values: Values. (line 6) |
+* variable references: Top-level Variable References.
+ (line 6) |
+* vet: Module Analysis. (line 6) |
+* VSCM: Installation. (line 148) |
+* WB: Base Table. (line 34) |
+* wb-table: Base Table. (line 32) |
* weight-balanced binary trees: Weight-Balanced Trees.
-* wget: Color Names.
-* white point: Color Data-Type.
-* wild-card: Match Keys. |
-* with-file: With-File.
-* Word: Transactions.
+ (line 8) |
+* wget: Color Names. (line 81) |
+* white point: Color Data-Type. (line 107) |
+* wild-card: Match Keys. (line 6) |
+* with-file: With-File. (line 6) |
+* Word: Transactions. (line 34) |
* wt-tree: Weight-Balanced Trees.
-* xRGB: Color Spaces.
-* xyY: Spectra.
-* yasos: Yasos.
+ (line 6) |
+* xRGB: Color Spaces. (line 204) |
+* xyY: Spectra. (line 175) |
+* yasos: Yasos. (line 6) |

Tag Table:
-Node: Top1038
-Node: The Library System1832
-Node: Feature2447
-Node: Require5817
-Node: Library Catalogs9665
-Node: Catalog Creation11330
-Node: Catalog Vicinities14797
-Node: Compiling Scheme19397
-Node: Module Conventions20721
-Ref: Module Conventions-Footnote-115614
-Node: Module Manifests23491
-Node: Module Semantics32652
-Node: Top-level Variable References35341
-Ref: Top-level Variable References-Footnote-124139
-Node: Module Analysis39789
-Node: Universal SLIB Procedures42532
-Node: Vicinity43862
-Node: Configuration47550
-Node: Input/Output50710
-Node: System54238
-Node: Miscellany57523
-Node: Scheme Syntax Extension Packages59694
-Node: Defmacro60439
-Node: R4RS Macros62386
-Node: Macro by Example63639
-Node: Macros That Work66514
-Node: Syntactic Closures72567
-Node: Syntax-Case Macros89995
-Node: Fluid-Let94454
-Node: Yasos95393
-Node: Yasos terms96184
-Node: Yasos interface97208
-Node: Setters99283
-Node: Yasos examples101923
-Node: Textual Conversion Packages104922
-Node: Precedence Parsing105719
-Node: Precedence Parsing Overview106395
-Ref: Precedence Parsing Overview-Footnote-188500
-Node: Rule Types108019
-Node: Ruleset Definition and Use109452
-Node: Token definition111816
-Node: Nud and Led Definition114725
-Node: Grammar Rule Definition117172
-Node: Format124746
-Node: Standard Formatted I/O125156
-Node: Standard Formatted Output125720
-Node: Standard Formatted Input135110
-Node: Programs and Arguments141768
-Node: Getopt142268
-Node: Command Line148891
-Node: Parameter lists152078
-Node: Getopt Parameter lists155963
-Node: Filenames159199
-Node: Batch163646
-Node: HTML171449
-Node: HTML Tables178112
-Node: HTTP and CGI184553
-Node: Parsing HTML189090
-Node: URI191584
-Node: Printing Scheme196704
-Node: Generic-Write197013
-Node: Object-To-String198414
-Node: Pretty-Print198816
-Node: Time and Date201777
-Node: Time Zone202797
-Node: Posix Time207756
-Node: Common-Lisp Time209892
-Node: NCBI-DNA211471
-Node: Schmooz212801
-Node: Mathematical Packages217028
-Node: Bit-Twiddling217744
-Node: Modular Arithmetic225665
-Node: Prime Numbers228534
-Node: Random Numbers230215
-Node: Exact Random Numbers231435
-Node: Inexact Random Numbers234181
-Node: Fast Fourier Transform236532
-Node: Cyclic Checksum237446
-Node: Graphing244571
-Node: Character Plotting245251
-Node: PostScript Graphing251089
-Node: Column Ranges255097
-Node: Drawing the Graph258417
-Node: Graphics Context263014
-Node: Rectangles267208
-Node: Legending270354
-Node: Legacy Plotting274779
-Node: Example Graph276487
-Node: Solid Modeling284587
-Node: Color300794
-Node: Color Data-Type301620
-Ref: Color Data-Type-Footnote-1261941
-Node: Color Spaces305581
-Ref: Color Spaces-Footnote-1271875
-Node: Spectra315434
-Node: Color Difference Metrics323004
-Node: Color Conversions326666
-Node: Color Names329317
-Node: Daylight336339
-Node: Root Finding341138
-Node: Minimizing345119
-Ref: Minimizing-Footnote-1301934
-Node: Commutative Rings347157
-Node: Matrix Algebra358549
-Node: Database Packages359679
-Node: Relational Database360087
-Node: Using Databases361118
-Node: Table Operations369657
-Node: Single Row Operations371774
-Node: Match-Keys375050
-Node: Multi-Row Operations378335
-Node: Indexed Sequential Access Methods381431
-Node: Sequential Index Operations383339
-Node: Table Administration387317
-Node: Database Interpolation388727
-Node: Embedded Commands390241
-Node: Database Extension391882
-Node: Command Intrinsics393982
-Node: Define-tables Example395584
-Node: The *commands* Table397396
-Node: Command Service399709
-Node: Command Example401654
-Node: Database Macros406303
-Node: Within-database Example408933
-Node: Database Browser410852
-Node: Relational Infrastructure412730
-Node: Base Table413507
-Node: The Base418368
-Node: Base Tables422788
-Node: Base Field Types425445
-Node: Composite Keys426988
-Node: Base Record Operations430382
-Node: Match Keys433530
-Node: Aggregate Base Operations435329
-Node: Base ISAM Operations437366
-Node: Catalog Representation439784
-Node: Relational Database Objects445280
-Node: Database Operations449505
-Node: Weight-Balanced Trees455859
-Node: Construction of Weight-Balanced Trees459813
-Node: Basic Operations on Weight-Balanced Trees463261
-Node: Advanced Operations on Weight-Balanced Trees466187
-Node: Indexing Operations on Weight-Balanced Trees472207
-Node: Other Packages476032
-Node: Data Structures476583
-Node: Arrays477400
-Node: Subarrays482891
-Node: Array Mapping486245
-Node: Association Lists488990
-Node: Byte491241
-Node: Byte/Number Conversions499604
-Node: MAT-File Format511631
-Node: Portable Image Files512974
-Node: Collections514601
-Node: Dynamic Data Type520757
-Node: Hash Tables522016
-Node: Object524916
-Node: Priority Queues533150
-Node: Queues534217
-Node: Records535855
-Node: Sorting and Searching539345
-Node: Common List Functions540030
-Node: List construction540474
-Node: Lists as sets542169
-Node: Lists as sequences548782
-Node: Destructive list operations554036
-Node: Non-List functions556705
-Node: Tree Operations557775
-Node: Chapter Ordering559541
-Node: Sorting561170
-Node: Topological Sort567171
-Node: Hashing568864
-Node: Space-Filling Curves569865
-Node: Peano-Hilbert Space-Filling Curve570085
-Node: Sierpinski Curve571277
-Node: Soundex573731
-Node: String Search575345
-Node: Sequence Comparison578018
-Node: Procedures581424
-Node: Type Coercion581944
-Node: String-Case582361
-Node: String Ports584209
-Node: Line I/O584966
-Node: Multi-Processing587018
-Node: Metric Units588120
-Node: Standards Support596342
-Node: RnRS597171
-Node: With-File598378
-Node: Transcripts598639
-Node: Rev2 Procedures598958
-Node: Rev4 Optional Procedures600666
-Node: Multi-argument / and -601234
-Node: Multi-argument Apply601748
-Node: Rationalize602150
-Node: Promises603412
-Node: Dynamic-Wind604467
-Node: Eval605719
-Node: Values609054
-Node: SRFI609852
-Node: SRFI-1611285
-Node: SRFI-2617429
-Node: SRFI-8618223
-Node: SRFI-9619017
-Node: Session Support620436
-Node: Repl620913
-Node: Quick Print622194
-Node: Debug623483
-Node: Breakpoints624367
-Node: Trace626388
-Node: System Interface629792
-Node: Directories630353
-Node: Transactions631828
-Node: CVS637524
-Node: Extra-SLIB Packages638596
-Node: About SLIB640897
-Node: Installation641640
-Node: Porting646734
-Ref: Porting-Footnote-1555316
-Node: Coding Guidelines648663
-Node: Copyrights651753
-Node: About this manual655155
-Node: Index656435
+Node: Top1050
+Node: The Library System1830
+Node: Feature2245
+Ref: Feature-Footnote-14358
+Node: Require5422
+Node: Library Catalogs8232
+Node: Catalog Creation9818
+Node: Catalog Vicinities12409
+Node: Compiling Scheme15318
+Node: Module Conventions16086
+Ref: Module Conventions-Footnote-115790
+Node: Module Manifests17905
+Node: Module Semantics24174
+Node: Top-level Variable References25906
+Ref: Top-level Variable References-Footnote-125205
+Node: Module Analysis28540
+Node: Universal SLIB Procedures29984
+Node: Vicinity30703
+Node: Configuration35672
+Node: Input/Output39213
+Node: System43424
+Node: Miscellany47174
+Node: Scheme Syntax Extension Packages50488
+Node: Defmacro51328
+Node: R4RS Macros53936
+Node: Macro by Example55457
+Node: Macros That Work58668
+Node: Syntactic Closures65450
+Node: Syntax-Case Macros84160
+Node: Define-Structure88676
+Node: Fluid-Let92589
+Node: Yasos93779
+Node: Yasos terms94719
+Node: Yasos interface95891
+Node: Setters98343
+Node: Yasos examples101344
+Node: Textual Conversion Packages104430
+Node: Precedence Parsing105331
+Node: Precedence Parsing Overview106130
+Ref: Precedence Parsing Overview-Footnote-192368
+Node: Rule Types107883
+Node: Ruleset Definition and Use109969
+Node: Token definition112657
+Node: Nud and Led Definition115647
+Node: Grammar Rule Definition118282
+Node: Format126334
+Node: Format Interface127181
+Node: Format Specification130001
+Node: Standard Formatted I/O164087
+Node: Standard Formatted Output165095
+Node: Standard Formatted Input175192
+Node: Programs and Arguments182214
+Node: Getopt182830
+Node: Command Line189908
+Node: Parameter lists193453
+Node: Getopt Parameter lists197629
+Node: Filenames201062
+Node: Batch205387
+Node: HTML213937
+Node: HTML Tables221689
+Node: HTTP and CGI229219
+Node: Parsing HTML234169
+Node: URI236951
+Node: Printing Scheme242831
+Node: Generic-Write243268
+Node: Object-To-String244827
+Node: Pretty-Print245438
+Node: Time and Date248854
+Node: Time Zone250220
+Node: Posix Time255673
+Node: Common-Lisp Time258625
+Node: Time Infrastructure260591
+Node: NCBI-DNA261802
+Node: Schmooz263727
+Node: Mathematical Packages268256
+Node: Bit-Twiddling269021
+Node: Modular Arithmetic281008
+Node: Prime Numbers284612
+Node: Random Numbers286794
+Node: Exact Random Numbers287776
+Node: Inexact Random Numbers290537
+Node: Fast Fourier Transform292983
+Node: Cyclic Checksum294111
+Node: Graphing303476
+Node: Character Plotting303805
+Node: PostScript Graphing309646
+Node: Column Ranges311628
+Node: Drawing the Graph313486
+Node: Graphics Context314712
+Node: Rectangles317024
+Node: Legending318945
+Node: Legacy Plotting322142
+Node: Example Graph323249
+Node: Solid Modeling327759
+Node: Color351601
+Node: Color Data-Type352612
+Ref: Color Data-Type-Footnote-1284376
+Node: Color Spaces358369
+Ref: Color Spaces-Footnote-1294375
+Node: Spectra370274
+Node: Color Difference Metrics382078
+Node: Color Conversions385366
+Node: Color Names389006
+Node: Daylight396689
+Node: Root Finding401853
+Node: Minimizing406185
+Ref: Minimizing-Footnote-1325873
+Node: Commutative Rings408394
+Node: Matrix Algebra420462
+Node: Database Packages422035
+Node: Relational Database422438
+Node: Using Databases423442
+Node: Table Operations430658
+Node: Single Row Operations432012
+Node: Match-Keys434523
+Node: Multi-Row Operations436752
+Node: Indexed Sequential Access Methods439440
+Node: Sequential Index Operations440524
+Node: Table Administration443107
+Node: Database Interpolation444263
+Node: Embedded Commands445497
+Node: Database Extension447183
+Node: Command Intrinsics449704
+Node: Define-tables Example451428
+Node: The *commands* Table453178
+Node: Command Service455558
+Node: Command Example457663
+Node: Database Macros462328
+Node: Within-database463389
+Node: Within-database Example467960
+Node: Database Browser469922
+Node: Relational Infrastructure471391
+Node: Base Table471795
+Node: The Base474637
+Node: Base Tables478020
+Node: Base Field Types479690
+Node: Composite Keys480635
+Node: Base Record Operations482873
+Node: Match Keys484812
+Node: Aggregate Base Operations485815
+Node: Base ISAM Operations487046
+Node: Catalog Representation488515
+Node: Relational Database Objects491286
+Node: Database Operations494070
+Node: Weight-Balanced Trees498159
+Node: Construction of Weight-Balanced Trees502153
+Node: Basic Operations on Weight-Balanced Trees505925
+Node: Advanced Operations on Weight-Balanced Trees509145
+Node: Indexing Operations on Weight-Balanced Trees515503
+Node: Other Packages519732
+Node: Data Structures520387
+Node: Arrays521297
+Node: Subarrays537830
+Node: Array Mapping540359
+Node: Association Lists543098
+Node: Byte545792
+Node: Byte/Number Conversions552214
+Node: MAT-File Format559755
+Node: Portable Image Files561303
+Node: Collections563302
+Node: Dynamic Data Type570079
+Node: Hash Tables571690
+Node: Object574797
+Node: Priority Queues584148
+Node: Queues585299
+Node: Records587191
+Node: Sorting and Searching591002
+Node: Common List Functions591803
+Node: List construction592364
+Node: Lists as sets594388
+Node: Lists as sequences601898
+Node: Destructive list operations607714
+Node: Non-List functions610724
+Node: Tree Operations612077
+Node: Chapter Ordering614118
+Node: Sorting616063
+Node: Topological Sort622251
+Node: Hashing624164
+Node: Space-Filling Curves625476
+Node: Hilbert Space-Filling Curve625936
+Node: Peano Space-Filling Curve634464
+Node: Sierpinski Curve635724
+Node: Soundex638404
+Node: String Search640187
+Node: Sequence Comparison643272
+Node: Procedures647125
+Node: Type Coercion647783
+Node: String-Case648432
+Node: String Ports650820
+Node: Line I/O651780
+Node: Multi-Processing654063
+Node: Metric Units655440
+Node: Standards Support664254
+Node: RnRS665166
+Node: With-File666775
+Node: Transcripts667248
+Node: Rev2 Procedures667791
+Node: Rev4 Optional Procedures670214
+Node: Multi-argument / and -670979
+Node: Multi-argument Apply671573
+Node: Rationalize672062
+Node: Promises673492
+Node: Dynamic-Wind674227
+Node: Eval675646
+Node: Values679319
+Node: SRFI680355
+Node: SRFI-1682144
+Node: SRFI-2693631
+Node: SRFI-8694050
+Node: SRFI-9694469
+Node: Session Support695156
+Node: Repl696162
+Node: Quick Print697691
+Node: Debug699333
+Node: Breakpoints700639
+Node: Trace703394
+Node: System Interface707940
+Node: Directories708727
+Node: Transactions710523
+Node: CVS716514
+Node: Extra-SLIB Packages718222
+Node: About SLIB720688
+Node: Installation721619
+Node: The SLIB script730918
+Node: Porting731819
+Ref: Porting-Footnote-1590851
+Node: Coding Guidelines733598
+Node: Copyrights736248
+Node: About this manual739997
+Node: Index740742

End Tag Table
diff --git a/slib.sh b/slib.sh
index e88a2bc..0186442 100755
--- a/slib.sh
+++ b/slib.sh
@@ -1,6 +1,6 @@
##"slib" script; Find a Scheme implementation and initialize SLIB in it.
-#Copyright (C) 2003 Aubrey Jaffer
+#Copyright (C) 2003, 2004 Aubrey Jaffer
#
#Permission to copy this software, to modify it, to redistribute it,
#to distribute modified versions, and to use it for any purpose is
@@ -47,26 +47,7 @@ if [ ! -z "$1" ]; then
echo "$usage"; exit 1
fi
-if type $command>/dev/null 2>&1; then
- SPEW="`$command --version < /dev/null 2>&1`"
- if echo ${SPEW} | grep -q 'Initialize load-path (colon-list of directories)' \
- ; then implementation=elk
- elif echo ${SPEW} | grep -q 'MIT Scheme' ; then implementation=mit
- elif echo ${SPEW} | grep -q 'UMB Scheme' ; then implementation=umb
- elif echo ${SPEW} | grep -q 'scheme48' ; then implementation=s48
- elif echo ${SPEW} | grep -q 'MzScheme' ; then implementation=plt
- elif echo ${SPEW} | grep -q 'Guile' ; then implementation=gui
- elif echo ${SPEW} | grep -q 'gambc' ; then implementation=gam
- elif echo ${SPEW} | grep -q 'SCM' ; then implementation=scm
- else implementation=
- fi
-elif [ ! -z "$command" ]; then
- echo "Program '$command' not found."
- exit 1
-fi
-
-if [ -z "$command" ];
-then
+if [ -z "$command" ]; then
if type scm>/dev/null 2>&1; then
command=scm; implementation=scm
elif type gsi>/dev/null 2>&1; then
@@ -77,43 +58,73 @@ then
command=guile; implementation=gui
elif type slib48>/dev/null 2>&1; then
command=slib48; implementation=s48
+ elif type scmlit>/dev/null 2>&1; then
+ command=scmlit; implementation=scm
+ elif type elk>/dev/null 2>&1; then
+ command=elk; implementation=elk
else
echo No Scheme implementation found.
exit 1
fi
+# Gambit 4.0 doesn't allow input redirection; foils --version test.
+elif [ "$command" == "gsi" ]; then implementation=gam
+elif type $command>/dev/null 2>&1; then
+ SPEW="`$command --version < /dev/null 2>&1`"
+ if echo ${SPEW} | grep 'Initialize load-path (colon-list of directories)'\
+ >/dev/null 2>&1; then implementation=elk
+ elif echo ${SPEW} | grep 'MIT' >/dev/null 2>&1; then implementation=mit
+ elif echo ${SPEW} | grep 'UMB Scheme'>/dev/null 2>&1; then implementation=umb
+ elif echo ${SPEW} | grep 'scheme48' >/dev/null 2>&1; then implementation=s48
+ elif echo ${SPEW} | grep 'MzScheme' >/dev/null 2>&1; then implementation=plt
+ elif echo ${SPEW} | grep 'Guile' >/dev/null 2>&1; then implementation=gui
+ elif echo ${SPEW} | grep 'SCM' >/dev/null 2>&1; then implementation=scm
+ else implementation=
+ fi
+else
+ echo "Program '$command' not found."
+ exit 1
fi
case $implementation in
scm);;
s48);;
*) if [ -z "${SCHEME_LIBRARY_PATH}" ]; then
- export SCHEME_LIBRARY_PATH=`rpm -ql slib 2>/dev/null \
- | grep require.scm | sed 's%require.scm%%'`
+ if type rpm>/dev/null 2>&1; then
+ SCHEME_LIBRARY_PATH=`rpm -ql slib 2>/dev/null \
+ | grep require.scm | sed 's%require.scm%%'`
+ fi
fi
if [ -z "${SCHEME_LIBRARY_PATH}" ]; then
if [ -d /usr/local/lib/slib/ ]; then
- export SCHEME_LIBRARY_PATH=/usr/local/lib/slib/
+ SCHEME_LIBRARY_PATH=/usr/local/lib/slib/
elif [ -d /usr/share/slib/ ]; then
- export SCHEME_LIBRARY_PATH=/usr/share/slib/
+ SCHEME_LIBRARY_PATH=/usr/share/slib/
fi
+ export SCHEME_LIBRARY_PATH
fi;;
esac
# for gambit
case $implementation in
gam) if [ -z "${LD_LIBRARY_PATH}" ]; then
- export LD_LIBRARY_PATH=/usr/local/lib
+ LD_LIBRARY_PATH=/usr/local/lib
+ export LD_LIBRARY_PATH
fi;;
esac
case $implementation in
- scm) exec $command -ip1 -l ${SCHEME_LIBRARY_PATH}scm.init $*;;
- elk) exec $command -i -l ${SCHEME_LIBRARY_PATH}elk.init;;
- gam) exec $command -:s ${SCHEME_LIBRARY_PATH}gambit.init - $*;;
- plt) exec $command -f ${SCHEME_LIBRARY_PATH}DrScheme.init $*;;
- gui) exec $command -l ${SCHEME_LIBRARY_PATH}guile.init $*;;
- mit) exec $command -load ${SCHEME_LIBRARY_PATH}mitscheme.init $*;;
- s48) exec $command $*;;
+ scm) exec $command -ip1 -l ${SCHEME_LIBRARY_PATH}scm.init "$@";;
+ elk) exec $command -i -l ${SCHEME_LIBRARY_PATH}elk.init "$@";;
+ gam) exec $command -:s ${SCHEME_LIBRARY_PATH}gambit.init - "$@";;
+ plt) exec $command -f ${SCHEME_LIBRARY_PATH}DrScheme.init "$@";;
+ gui) exec $command -l ${SCHEME_LIBRARY_PATH}guile.init "$@";;
+ mit) exec $command -load ${SCHEME_LIBRARY_PATH}mitscheme.init "$@";;
+ s48) if [ -f "${S48_VICINITY}slib.image" ]; then
+ exec scheme48 -h 4000000 -i ${S48_VICINITY}slib.image
+ else
+ echo "scheme48 found; in slib directory do: 'make slib48 && make install48'";
+ fi
+ exit 1;;
umb) echo "umb-scheme vicinities are too wedged to run slib"; exit 1;;
*) exit 1;;
esac
diff --git a/slib.spec b/slib.spec
index 4ed4bcd..857e25c 100644
--- a/slib.spec
+++ b/slib.spec
@@ -1,11 +1,11 @@
%define name slib
-%define version 3a1
+%define version 3a2
%define release 1
Name: %{name}
Release: %{release}
Version: %{version}
-Packager: Radey Shouman <shouman@ne.mediaone.net>
+Packager: Aubrey Jaffer <agj@alum.mit.edu>
Copyright: distributable, see individual files for copyright
Vendor: Aubrey Jaffer <agj @ alum.mit.edu>
@@ -14,10 +14,10 @@ Provides: slib
BuildArch: noarch
Summary: platform independent library for scheme
-Source: ftp://swissnet.ai.mit.edu/pub/scm/slib%{version}.zip
-URL: http://swissnet.ai.mit.edu/~jaffer/SLIB.html
+Source: ftp://swiss.csail.mit.edu/pub/scm/slib%{version}.zip
+URL: http://swiss.csail.mit.edu/~jaffer/SLIB.html
BuildRoot: %{_tmppath}/%{name}%{version}
-Prefix: /usr/share
+Prefix: /usr
%description
"SLIB" is a portable library for the programming language Scheme.
@@ -32,19 +32,27 @@ implementation, user, or directory.
%prep
%setup -n slib -c -T
cd ..
-unzip $RPM_SOURCE_DIR/slib%{version}.zip
+unzip ${RPM_SOURCE_DIR}/slib%{version}.zip
%build
gzip -f slib.info
%install
-mkdir -p ${RPM_BUILD_ROOT}%{prefix}/slib
-cp -r . ${RPM_BUILD_ROOT}%{prefix}/slib
+mkdir -p ${RPM_BUILD_ROOT}%{prefix}/lib/slib
+mkdir -p ${RPM_BUILD_ROOT}%{prefix}/bin
+cp -r *.scm *.init *.xyz saturate.txt resenecolours.txt grapheps.ps Makefile ${RPM_BUILD_ROOT}%{prefix}/lib/slib
mkdir -p ${RPM_BUILD_ROOT}/usr/info
cp slib.info.gz ${RPM_BUILD_ROOT}/usr/info
+echo '#! /bin/sh' > ${RPM_BUILD_ROOT}%{prefix}/bin/slib
+echo SCHEME_LIBRARY_PATH=%{prefix}/lib/slib/ >> ${RPM_BUILD_ROOT}%{prefix}/bin/slib
+echo export SCHEME_LIBRARY_PATH >> ${RPM_BUILD_ROOT}%{prefix}/bin/slib
+echo VERSION=%{version} >> ${RPM_BUILD_ROOT}%{prefix}/bin/slib
+echo "S48_VICINITY=\"%{prefix}/lib/scheme48\";export S48_VICINITY" >> ${RPM_BUILD_ROOT}%{prefix}/bin/slib
+cat slib.sh >> ${RPM_BUILD_ROOT}%{prefix}/bin/slib
+chmod +x ${RPM_BUILD_ROOT}%{prefix}/bin/slib
%clean
-rm -rf $RPM_BUILD_ROOT
+rm -rf ${RPM_BUILD_ROOT}
%post
/sbin/install-info /usr/info/slib.info.gz /usr/info/dir
@@ -52,36 +60,40 @@ rm -rf $RPM_BUILD_ROOT
# This symlink is made as in the spec file of Robert J. Meier.
if [ -L /usr/share/guile/slib ]; then
rm /usr/share/guile/slib
- ln -s %{prefix}/slib /usr/share/guile/slib
+ ln -s %{prefix}/lib/slib /usr/share/guile/slib
fi
# Rebuild catalogs for as many implementations as possible.
export PATH=$PATH:/usr/local/bin
echo PATH=${PATH}
-cd %{prefix}/slib/
+cd %{prefix}/lib/slib/
make catalogs
-# Make color-name databases.
-make clrnamdb
%preun
-cd %{prefix}/slib/
-rm -f clrnamdb.scm srcdir.mk slib.image
+cd %{prefix}/lib/slib/
+rm -f srcdir.mk slib.image
%files
%defattr(-, root, root)
-%dir %{prefix}/slib
-%{prefix}/slib/*.scm
-%{prefix}/slib/*.init
-%{prefix}/slib/cie1931.xyz
-%{prefix}/slib/cie1964.xyz
-%{prefix}/slib/saturate.txt
-%{prefix}/slib/resenecolours.txt
+%{prefix}/bin/slib
+%dir %{prefix}/lib/slib
+%{prefix}/lib/slib/*.scm
+%{prefix}/lib/slib/*.init
+%{prefix}/lib/slib/cie1931.xyz
+%{prefix}/lib/slib/cie1964.xyz
+%{prefix}/lib/slib/saturate.txt
+%{prefix}/lib/slib/resenecolours.txt
+%{prefix}/lib/slib/grapheps.ps
/usr/info/slib.info.gz
# The Makefile is included as it is useful for building documentation.
-%{prefix}/slib/Makefile
+%{prefix}/lib/slib/Makefile
%doc ANNOUNCE README COPYING FAQ ChangeLog
%changelog
+* Sat Jun 18 2004 Aubrey Jaffer <agj@alum.mit.edu>
+- Fixed for RPMbuild version 4.3.1
+- Make slib executable.
+
* Wed Mar 14 2001 Radey Shouman <shouman@ne.mediaone.net>
- Adapted from the spec file of R. J. Meier.
diff --git a/slib.texi b/slib.texi
index 0453584..8a97e27 100644
--- a/slib.texi
+++ b/slib.texi
@@ -76,15 +76,14 @@ you!
SLIB @value{SLIBVERSION}, released @value{SLIBDATE}.@*
Aubrey Jaffer <agj @@ alum.mit.edu>@*
@ifset html
-<A HREF="http://swissnet.ai.mit.edu/~jaffer/SLIB.html">
+<A HREF="http://swiss.csail.mit.edu/~jaffer/SLIB.html">
@end ifset
-@url{http://swissnet.ai.mit.edu/~jaffer/SLIB.html}
+@url{http://swiss.csail.mit.edu/~jaffer/SLIB.html}
@ifset html
</A>
@end ifset
@end quotation
-@ifclear html
@vskip 0pt plus 1filll
Copyright @copyright{} 1993 Todd R. Eigenschink@*
Copyright @copyright{} 1993, 1994, 1995, 1996, 1997, 1998, 1999, 2000 Aubrey Jaffer
@@ -102,10 +101,9 @@ Permission is granted to copy and distribute translations of this manual
into another language, under the above conditions for modified versions,
except that this permission notice may be stated in a translation approved
by the author.
-@end ifclear
@end titlepage
-@ifinfo
+@ifnottex
@noindent
@dfn{SLIB} is a portable library for the programming language
@dfn{Scheme}. It provides a platform independent framework for using
@@ -113,7 +111,7 @@ by the author.
contains useful packages for all Scheme implementations. Its catalog
can be transparently extended to accomodate packages specific to a site,
implementation, user, or directory.
-@end ifinfo
+@end ifnottex
@menu
* The Library System:: How to use and customize.
@@ -179,8 +177,14 @@ procedures or syntax (macros).
Returns @code{#t} if @var{feature} is present in the current Scheme
session; otherwise @code{#f}. More specifically, @code{provided?}
returns @code{#t} if the symbol @var{feature} is the
-@code{software-type} or if @var{feature} has been provided by a module
-already loaded; and @code{#f} otherwise.
+@code{software-type}, the @code{scheme-implementation-type}
+@footnote{scheme-implementation-type is the name symbol of the running
+Scheme implementation (RScheme, |STk|, Bigloo, chez, Elk, gambit,
+guile, JScheme, MacScheme, MITScheme, Pocket-Scheme, Scheme48,
+Scheme->C, Scheme48, Scsh, T, umb-scheme, or Vscm). Dependence on
+scheme-implementation-type is almost always the wrong way to do
+things.}, or if @var{feature} has been provided by a module already
+loaded; and @code{#f} otherwise.
In some implementations @code{provided?} tests whether a module has
been @code{require}d by any module or in any thread; other
@@ -302,16 +306,6 @@ large precision exact integers.
@end example
@noindent
-The @code{commutative-ring} module uses @code{require-if} to ensure
-that it has an exponentiation routine, regardless of whether the
-implementation supports inexact numbers:
-
-@example
-(require-if '(not inexact) 'logical) ;for integer-expt
-(define number^ (if (provided? 'inexact) expt integer-expt))
-@end example
-
-@noindent
The catalog can also be queried using @code{slib:in-catalog?}.
@defun slib:in-catalog? feature
@@ -346,7 +340,7 @@ Loads file @i{<path>}.
@code{slib:load-compiled}s the files @i{<path>} @dots{}.
@item (@var{feature} aggregate @i{<symbol>} @dots{})
@cindex aggregate
-@code{slib:require}s the features @i{<symbol>} @dots{}.
+@code{require}s the features @i{<symbol>} @dots{}.
@end table
@noindent
@@ -603,7 +597,7 @@ immediately preceding the definition (@code{define},
@example
;@@
-(define (make-vicinity <pathname>) <pathname>)
+(define (identity <obj>) <obj>)
@end example
@item
@@ -709,11 +703,14 @@ version. Vicinities express only the concept of a file environment
where a file name can be resolved to a file in a system independent
manner. Vicinities can even be used on @dfn{flat} file systems (which
have no directory structure) by having the vicinity express constraints
-on the file name. On most systems a vicinity would be a string. All of
-these procedures are file system dependent.
+on the file name.
+
+All of these procedures are file-system dependent. Use of these
+vicinity procedures can make programs file-system @emph{in}dependent.
@noindent
These procedures are provided by all implementations.
+On most systems a vicinity is a string.
@defun make-vicinity dirpath
Returns @var{dirpath} as a vicinity for use as first argument to
@@ -731,11 +728,11 @@ Returns the vicinity containing @var{path}.
@defun program-vicinity
Returns the vicinity of the currently loading Scheme code. For an
interpreter this would be the directory containing source code. For a
-compiled system (with multiple files) this would be the directory where
-the object or executable files are. If no file is currently loading it
-the result is undefined. @strong{Warning:} @code{program-vicinity} can
-return incorrect values if your program escapes back into a
-@code{load}.
+compiled system (with multiple files) this would be the directory
+where the object or executable files are. If no file is currently
+loading, then the result is undefined. @strong{Warning:}
+@code{program-vicinity} can return incorrect values if your program
+escapes back into a @code{load} continuation.
@end defun
@defun library-vicinity
@@ -793,6 +790,14 @@ return a pathname of the subdirectory @var{name} of
@var{vicinity}.
@end defun
+@defun with-load-pathname path thunk
+@var{path} should be a string naming a file being read or loaded.
+@code{with-load-pathname} evaluates @var{thunk} in a dynamic scope
+where an internal variable is bound to @var{path}; the internal
+variable is used for messages and @code{program-vicinity}.
+@code{with-load-pathname} returns the value returned by @var{thunk}.
+@end defun
+
@node Configuration, Input/Output, Vicinity, Universal SLIB Procedures
@@ -1084,6 +1089,19 @@ Example:
@end lisp
@end defun
+@defun expt n k
+Returns @var{n} raised to the non-negative integer exponent @var{k}.
+
+Example:
+@lisp
+(expt 2 5)
+ @result{} 32
+(expt -3 3)
+ @result{} -27
+@end lisp
+@end defun
+
+
@subsection Mutual Exclusion
@noindent
@@ -1164,6 +1182,7 @@ Returns the last pair in the list @var{l}. Example:
Syntax extensions (macros) included with SLIB.
+* Define-Structure:: 'structure
* Fluid-Let:: 'fluid-let
* Yasos:: 'yasos, 'oop, 'collect
@end menu
@@ -1991,7 +2010,7 @@ Bawden.
-@node Syntax-Case Macros, Fluid-Let, Syntactic Closures, Scheme Syntax Extension Packages
+@node Syntax-Case Macros, Define-Structure, Syntactic Closures, Scheme Syntax Extension Packages
@section Syntax-Case Macros
@code{(require 'syntax-case)}
@@ -2111,18 +2130,73 @@ know if there is some incompatibility that is not flagged as such.
Send bug reports, comments, suggestions, and questions to Kent Dybvig
(dyb @@ iuvax.cs.indiana.edu).
-@subsection Note from SLIB maintainer
+
+
+@node Define-Structure, Fluid-Let, Syntax-Case Macros, Scheme Syntax Extension Packages
+@section Define-Structure
@code{(require 'structure)}
-@findex define-structure
+@noindent
Included with the @code{syntax-case} files was @file{structure.scm}
-which defines a macro @code{define-structure}. I have no
-documentation for this macro; it is not used by any other code in
-SLIB.
+which defines a macro @code{define-structure}. Here is its
+documentation from Gambit 4.0:
+
+@deffn {special form} define-structure @var{name} @var{field}@dots{}
+Record data types similar to Pascal records and C @code{struct}
+types can be defined using the @code{define-structure} special form.
+The identifier @var{name} specifies the name of the new data type. The
+structure name is followed by @var{k} identifiers naming each field of
+the record. The @code{define-structure} expands into a set of definitions
+of the following procedures:
+
+@itemize @bullet{}
+
+@item
+`@t{make-}@var{name}' -- A @var{k} argument procedure which constructs
+a new record from the value of its @var{k} fields.
+
+@item
+`@var{name}@t{?}' -- A procedure which tests if its single argument
+is of the given record type.
+
+@item
+`@var{name}@t{-}@var{field}' -- For each field, a procedure taking
+as its single argument a value of the given record type and returning
+the content of the corresponding field of the record.
+
+@item
+`@var{name}@t{-}@var{field}@t{-set!}' -- For each field, a two
+argument procedure taking as its first argument a value of the given
+record type. The second argument gets assigned to the corresponding
+field of the record and the void object is returned.
+
+@end itemize
+
+Gambit record data types have a printed representation that includes
+the name of the type and the name and value of each field.
+
+For example:
+
+@smallexample
+> @b{(define-structure point x y color)}
+> @b{(define p (make-point 3 5 'red))}
+> @b{p}
+#<point #3 x: 3 y: 5 color: red>
+> @b{(point-x p)}
+3
+> @b{(point-color p)}
+red
+> @b{(point-color-set! p 'black)}
+> @b{p}
+#<point #3 x: 3 y: 5 color: black>
+@end smallexample
+
+@end deffn
-@node Fluid-Let, Yasos, Syntax-Case Macros, Scheme Syntax Extension Packages
+
+@node Fluid-Let, Yasos, Define-Structure, Scheme Syntax Extension Packages
@section Fluid-Let
@code{(require 'fluid-let)}
@@ -2538,7 +2612,7 @@ call graph of grammar rules effectively instantiate the sytnax tree.
@noindent
The JACAL symbolic math system
-(@url{http://swissnet.ai.mit.edu/~jaffer/JACAL.html}) uses
+(@url{http://swiss.csail.mit.edu/~jaffer/JACAL.html}) uses
@t{precedence-parse}. Its grammar definitions in the file
@file{jacal/English.scm} can serve as examples of use.
@@ -3034,18 +3108,20 @@ The ruleset in effect before @var{tk} was parsed is restored;
@node Format, Standard Formatted I/O, Precedence Parsing, Textual Conversion Packages
-@section Format (version 3.0)
+@section Format (version 3.1)
@ifset html
<A NAME="format"></A>
@end ifset
-@c @code{(require 'format)}
+@code{(require 'format)}
@ftindex format
-@c @include fmtdoc.txi
-The @file{format.scm} package was removed because it was not
-reentrant. @url{http://swissnet.ai.mit.edu/~jaffer/SLIB.FAQ} explains
-more about FORMAT's woes.
+@c The @file{format.scm} package was removed because it was not
+@c reentrant. @url{http://swiss.csail.mit.edu/~jaffer/SLIB.FAQ} explains
+@c more about FORMAT's woes.
+
+@include format.texi
+
@node Standard Formatted I/O, Programs and Arguments, Format, Textual Conversion Packages
@@ -3267,9 +3343,9 @@ stripped off. @samp{%g} prints @samp{e} between mantissa and exponont.
@samp{%G} prints @samp{E} between mantissa and exponent.
@item @samp{k}, @samp{K}
-Print a number like @samp{%g}, except that an SI prefix is output after
-the number, which is scaled accordingly. @samp{%K} outputs a space
-between number and prefix, @samp{%k} does not.
+Print a number like @samp{%g}, except that an SI prefix is output
+after the number, which is scaled accordingly. @samp{%K} outputs a
+dot between number and prefix, @samp{%k} does not.
@end table
@@ -4275,6 +4351,7 @@ thus can reduce loading time. The following will write into
* Time Zone::
* Posix Time:: 'posix-time
* Common-Lisp Time:: 'common-lisp-time
+* Time Infrastructure::
@end menu
@noindent
@@ -4303,6 +4380,7 @@ Returns the calendar time of @var{caltime} offset by @var{offset} number
of seconds @code{(+ caltime offset)}.
@end defun
+
@node Time Zone, Posix Time, Time and Date, Time and Date
@subsection Time Zone
@@ -4525,7 +4603,7 @@ Equivalent to @code{(asctime (gmtime @var{caltime}))},
@end defun
-@node Common-Lisp Time, , Posix Time, Time and Date
+@node Common-Lisp Time, Time Infrastructure, Posix Time, Time and Date
@subsection Common-Lisp Time
@defun get-decoded-time
@@ -4576,6 +4654,21 @@ Notice that the values returned by @code{decode-universal-time} do not
match the arguments to @code{encode-universal-time}.
@end defun
+@node Time Infrastructure, , Common-Lisp Time, Time and Date
+@subsection Time Infrastructure
+
+@code{(require 'time-core)}
+
+@defun time:gmtime tm
+@defunx time:invert decoder target
+@defunx time:split t tm_isdst tm_gmtoff tm_zone
+@end defun
+
+@code{(require 'tzfile)}
+
+@defun tzfile:read path
+@end defun
+
@node NCBI-DNA, Schmooz, Time and Date, Textual Conversion Packages
@section NCBI-DNA
@@ -4619,15 +4712,16 @@ match the arguments to @code{encode-universal-time}.
@noindent
The bit-twiddling functions are made available through the use of the
@code{logical} package. @code{logical} is loaded by inserting
-@code{(require 'logical)} before the code that uses these
@ftindex logical
-functions. These functions behave as though operating on integers
-in two's-complement representation.
+@code{(require 'logical)} before the code that uses these functions.
+These functions behave as though operating on integers in
+two's-complement representation.
@subsection Bitwise Operations
-@defun logand n1 n1
-Returns the integer which is the bit-wise AND of the two integer
+@defun logand n1 @dots{}
+@defunx bitwise-and n1 @dots{}
+Returns the integer which is the bit-wise AND of the integer
arguments.
Example:
@@ -4637,9 +4731,9 @@ Example:
@end lisp
@end defun
-@defun logior n1 n2
-Returns the integer which is the bit-wise OR of the two integer
-arguments.
+@defun logior n1 @dots{}
+@defunx bitwise-ior n1 @dots{}
+Returns the integer which is the bit-wise OR of the integer arguments.
Example:
@lisp
@@ -4648,8 +4742,9 @@ Example:
@end lisp
@end defun
-@defun logxor n1 n2
-Returns the integer which is the bit-wise XOR of the two integer
+@defun logxor n1 @dots{}
+@defunx bitwise-xor n1 @dots{}
+Returns the integer which is the bit-wise XOR of the integer
arguments.
Example:
@@ -4660,7 +4755,9 @@ Example:
@end defun
@defun lognot n
-Returns the integer which is the 2s-complement of the integer argument.
+@defunx bitwise-not n
+Returns the integer which is the one's-complement of the integer
+argument.
Example:
@lisp
@@ -4672,6 +4769,7 @@ Example:
@end defun
@defun bitwise-if mask n0 n1
+@defunx bitwise-merge mask n0 n1
Returns an integer composed of some bits from integer @var{n0} and some
from integer @var{n1}. A bit of the result is taken from @var{n0} if the
corresponding bit of integer @var{mask} is 1 and from @var{n1} if that bit
@@ -4679,6 +4777,7 @@ of @var{mask} is 0.
@end defun
@defun logtest j k
+@defunx any-bits-set? j k
@example
(logtest j k) @equiv{} (not (zero? (logand j k)))
@@ -4687,7 +4786,11 @@ of @var{mask} is 0.
@end example
@end defun
+
+@subsection Integer Properties
+
@defun logcount n
+@defunx bit-count n
Returns the number of bits in integer @var{n}. If integer is positive,
the 1-bits in its binary representation are counted. If negative, the
0-bits in its two's-complement binary representation are counted. If 0,
@@ -4704,12 +4807,62 @@ Example:
@end lisp
@end defun
+@defun integer-length n
+Returns the number of bits neccessary to represent @var{n}.
+
+Example:
+@lisp
+(integer-length #b10101010)
+ @result{} 8
+(integer-length 0)
+ @result{} 0
+(integer-length #b1111)
+ @result{} 4
+@end lisp
+@end defun
+
+@defun log2-binary-factors n
+@defunx first-set-bit n
+Returns the number of factors of two of integer @var{n}. This value
+is also the bit-index of the least-significant @samp{1} bit in
+@var{n}.
+
+@lisp
+(require 'printf)
+(do ((idx 0 (+ 1 idx)))
+ ((> idx 16))
+ (printf "%s(%3d) ==> %-5d %s(%2d) ==> %-5d\n"
+ 'log2-binary-factors
+ (- idx) (log2-binary-factors (- idx))
+ 'log2-binary-factors
+ idx (log2-binary-factors idx)))
+@print{}
+log2-binary-factors( 0) ==> -1 log2-binary-factors( 0) ==> -1
+log2-binary-factors( -1) ==> 0 log2-binary-factors( 1) ==> 0
+log2-binary-factors( -2) ==> 1 log2-binary-factors( 2) ==> 1
+log2-binary-factors( -3) ==> 0 log2-binary-factors( 3) ==> 0
+log2-binary-factors( -4) ==> 2 log2-binary-factors( 4) ==> 2
+log2-binary-factors( -5) ==> 0 log2-binary-factors( 5) ==> 0
+log2-binary-factors( -6) ==> 1 log2-binary-factors( 6) ==> 1
+log2-binary-factors( -7) ==> 0 log2-binary-factors( 7) ==> 0
+log2-binary-factors( -8) ==> 3 log2-binary-factors( 8) ==> 3
+log2-binary-factors( -9) ==> 0 log2-binary-factors( 9) ==> 0
+log2-binary-factors(-10) ==> 1 log2-binary-factors(10) ==> 1
+log2-binary-factors(-11) ==> 0 log2-binary-factors(11) ==> 0
+log2-binary-factors(-12) ==> 2 log2-binary-factors(12) ==> 2
+log2-binary-factors(-13) ==> 0 log2-binary-factors(13) ==> 0
+log2-binary-factors(-14) ==> 1 log2-binary-factors(14) ==> 1
+log2-binary-factors(-15) ==> 0 log2-binary-factors(15) ==> 0
+log2-binary-factors(-16) ==> 4 log2-binary-factors(16) ==> 4
+@end lisp
+@end defun
@subsection Bit Within Word
-@defun logbit? index j
+@defun logbit? index n
+@defunx bit-set? index n
@example
-(logbit? index j) @equiv{} (logtest (integer-expt 2 index) j)
+(logbit? index n) @equiv{} (logtest (expt 2 index) n)
(logbit? 0 #b1101) @result{} #t
(logbit? 1 #b1101) @result{} #f
@@ -4731,11 +4884,8 @@ Example:
@end example
@end defun
-@subsection Fields of Bits
-@defun logical:ones n
-Returns the smallest non-negative integer having @var{n} binary ones.
-@end defun
+@subsection Field of Bits
@defun bit-field n start end
Returns the integer composed of the @var{start} (inclusive) through
@@ -4751,7 +4901,7 @@ Example:
@end lisp
@end defun
-@defun copy-bit-field to start end from
+@defun copy-bit-field to from start end
Returns an integer the same as @var{to} except possibly in the
@var{start} (inclusive) through @var{end} (exclusive) bits, which are
the same as those of @var{from}. The 0-th bit of @var{from} becomes the
@@ -4759,14 +4909,17 @@ the same as those of @var{from}. The 0-th bit of @var{from} becomes the
Example:
@example
-(number->string (copy-bit-field #b1101101010 0 4 0) 2)
+(number->string (copy-bit-field #b1101101010 0 0 4) 2)
@result{} "1101100000"
-(number->string (copy-bit-field #b1101101010 0 4 -1) 2)
+(number->string (copy-bit-field #b1101101010 -1 0 4) 2)
@result{} "1101101111"
+(number->string (copy-bit-field #b110100100010000 -1 5 9) 2)
+ @result{} "110100111110000"
@end example
@end defun
@defun ash n count
+@defunx arithmetic-shift n count
Returns an integer equivalent to
@code{(inexact->exact (floor (* @var{n} (expt 2 @var{count}))))}.
@@ -4779,58 +4932,37 @@ Example:
@end lisp
@end defun
-@defun integer-length n
-Returns the number of bits neccessary to represent @var{n}.
-Example:
-@lisp
-(integer-length #b10101010)
- @result{} 8
-(integer-length 0)
- @result{} 0
-(integer-length #b1111)
- @result{} 4
-@end lisp
-@end defun
-
-@defun integer-expt n k
-Returns @var{n} raised to the non-negative integer exponent @var{k}.
+@defun rotate-bit-field n count start end
+Returns @var{n} with the bit-field from @var{start} to @var{end}
+cyclically permuted by @var{count} bits towards high-order.
Example:
@lisp
-(integer-expt 2 5)
- @result{} 32
-(integer-expt -3 3)
- @result{} -27
+(number->string (rotate-bit-field #b0100 3 0 4) 2)
+ @result{} "10"
+(number->string (rotate-bit-field #b0100 -1 0 4) 2)
+ @result{} "10"
+(number->string (rotate-bit-field #b110100100010000 -1 5 9) 2)
+ @result{} "110100010010000"
+(number->string (rotate-bit-field #b110100100010000 1 5 9) 2)
+ @result{} "110100000110000"
@end lisp
@end defun
-@subsection Bit order and Lamination
-
-@defun logical:rotate k count len
-Returns the low-order @var{len} bits of @var{k} cyclically permuted
-@var{count} bits towards high-order.
-
-Example:
-@lisp
-(number->string (logical:rotate #b0100 3 4) 2)
-@result{} "10"
-(number->string (logical:rotate #b0100 -1 4) 2)
-@result{} "10"
-@end lisp
-@end defun
-
-@defun bit-reverse k n
-Returns the low-order @var{k} bits of @var{n} with the bit order
-reversed. The low-order bit of @var{n} is the high order bit of the
-returned value.
+@defun reverse-bit-field n start end
+Returns @var{n} with the order of bits @var{start} to @var{end}
+reversed.
@example
-(number->string (bit-reverse 8 #xa7) 16)
+(number->string (reverse-bit-field #xa7 0 8) 16)
@result{} "e5"
@end example
@end defun
+
+@subsection Bits as Booleans
+
@defun integer->list k len
@defunx integer->list k
@code{integer->list} returns a list of @var{len} booleans corresponding
@@ -4850,67 +4982,6 @@ each #t; a 0 bit for #f.
Returns the integer coded by the @var{bool1} @dots{} arguments.
@end defun
-@defun bitwise:laminate k1 @dots{}
-Returns an integer composed of the bits of @var{k1} @dots{} interlaced
-in argument order. Given @var{k1}, @dots{} @var{kn}, the n low-order
-bits of the returned value will be the lowest-order bit of each
-argument.
-
-@defunx bitwise:delaminate count k
-Returns a list of @var{count} integers comprised of every @var{count}h
-bit of the integer @var{k}.
-
-For any non-negative integers @var{k} and @var{count}:
-@example
-(eqv? k (bitwise:laminate (bitwise:delaminate count k)))
-@end example
-@end defun
-
-
-@subsection Gray code
-
-@cindex Gray code
-@noindent
-A @dfn{Gray code} is an ordering of non-negative integers in which
-exactly one bit differs between each pair of successive elements. There
-are multiple Gray codings. An n-bit Gray code corresponds to a
-Hamiltonian cycle on an n-dimensional hypercube.
-
-@noindent
-Gray codes find use communicating incrementally changing values between
-asynchronous agents. De-laminated Gray codes comprise the coordinates
-of Peano-Hilbert space-filling curves.
-
-
-@defun integer->gray-code k
-Converts @var{k} to a Gray code of the same @code{integer-length} as
-@var{k}.
-
-@defunx gray-code->integer k
-Converts the Gray code @var{k} to an integer of the same
-@code{integer-length} as @var{k}.
-
-For any non-negative integer @var{k},
-@example
-(eqv? k (gray-code->integer (integer->gray-code k)))
-@end example
-@end defun
-
-@defun = k1 k2
-@defunx gray-code<? k1 k2
-@defunx gray-code>? k1 k2
-@defunx gray-code<=? k1 k2
-@defunx gray-code>=? k1 k2
-These procedures return #t if their Gray code arguments are
-(respectively): equal, monotonically increasing, monotonically
-decreasing, monotonically nondecreasing, or monotonically nonincreasing.
-
-For any non-negative integers @var{k1} and @var{k2}, the Gray code
-predicate of @code{(integer->gray-code k1)} and
-@code{(integer->gray-code k2)} will return the same value as the
-corresponding predicate of @var{k1} and @var{k2}.
-@end defun
-
@@ -4939,7 +5010,7 @@ A pseudo-random number generator is only as good as the tests it passes.
George Marsaglia of Florida State University developed a battery of
tests named @dfn{DIEHARD} (@url{http://stat.fsu.edu/~geo/diehard.html}).
@file{diehard.c} has a bug which the patch
-@url{http://swissnet.ai.mit.edu/ftpdir/users/jaffer/diehard.c.pat} corrects.
+@url{http://swiss.csail.mit.edu/ftpdir/users/jaffer/diehard.c.pat} corrects.
SLIB's PRNG generates 8 bits at a time. With the degenerate seed
@samp{0}, the numbers generated pass DIEHARD; but when bits are
@@ -5004,6 +5075,27 @@ or non-inverted) to the data stream.
@end itemize
@noindent
+The performance of a particular CRC polynomial over packets of given
+sizes varies widely. In terms of the probability of undetected
+errors, some uses of extant CRC polynomials are suboptimal by several
+orders of magnitude.
+
+@noindent
+If you are considering CRC for a new application, consult the
+following article to find the optimum CRC polynomial for your range of
+data lengths:
+
+@itemize @bullet
+@item
+Philip Koopman and Tridib Chakravarty,@*
+``Cyclic Redundancy Code (CRC) Polynomial Selection For Embedded Networks'',@*
+The International Conference on Dependable Systems and Networks, DSN-2004.@*
+@end itemize
+
+@exdent
+@url{http://www.ece.cmu.edu/~koopman/roses/dsn04/koopman04_crc_poly_embedded.pdf}
+
+@noindent
There is even some controversy over the polynomials themselves.
@defvr Constant crc-32-polynomial
@@ -5062,7 +5154,8 @@ CRC-12: x^12+x^11+x^3+x^2+x+1.
These differ in bit 1 and calculations using them return different
values. With citations near evenly split, it is hard to know which is
-correct.
+correct. Thanks to Philip Koopman for breaking the tie in favor of
+the latter (#xC07).
@end defvr
@defvr Constant crc-10-polynomial
@@ -5345,7 +5438,7 @@ vector or list @var{data}
<A NAME="Color"></A>
@end ifset
-@uref{http://swissnet.ai.mit.edu/~jaffer/Color}
+@uref{http://swiss.csail.mit.edu/~jaffer/Color}
@noindent
The goals of this package are to provide methods to specify, compute,
@@ -5398,6 +5491,20 @@ L*C*h
@defun make-color space arg @dots{}
Returns a color of type @var{space}.
+
+@itemize @bullet
+@item
+For @var{space} arguments @code{CIEXYZ}, @code{RGB709}, and
+@code{sRGB}, the sole @var{arg} is a list of three numbers.
+@item
+For @var{space} arguments @code{L*a*b*}, @code{L*u*v*}, and
+@code{L*C*h}, @var{arg} is a list of three numbers optionally followed
+by a whitepoint.
+@item
+For @code{xRGB}, @var{arg} is an integer.
+@item
+For @code{e-sRGB}, the arguments are as for @code{e-sRGB->color}.
+@end itemize
@end defun
@defun color-space color
@@ -5589,6 +5696,57 @@ Requires Spectral Tristimulus Values, defaulting to cie1931.
conversion procedures. The spectrum conversion procedures
@code{(require 'ciexyz)} to assure that a set is loaded.
+@defun read-cie-illuminant path
+@var{path} must be a string naming a file consisting of 107 numbers
+for 5.nm intervals from 300.nm to 830.nm. @code{read-cie-illuminant}
+reads (using Scheme @code{read}) these numbers and returns a length
+107 vector filled with them.
+@end defun
+
+@example
+(define CIE:SI-D65
+ (read-CIE-illuminant (in-vicinity (library-vicinity) "ciesid65.dat")))
+(spectrum->XYZ CIE:SI-D65 300e-9 830e-9)
+@result{} (25.108569422374994 26.418013465625001 28.764075683374993)
+@end example
+
+
+@defun read-normalized-illuminant path
+@var{path} must be a string naming a file consisting of 107 numbers
+for 5.nm intervals from 300.nm to 830.nm.
+@code{read-normalized-illuminant} reads (using Scheme @code{read})
+these numbers and returns a length 107 vector filled with them,
+normalized so that @code{spectrum->XYZ} of the illuminant returns its
+whitepoint.
+@end defun
+
+CIE Standard Illuminants A and D65 are included with SLIB:
+
+@example
+(define CIE:SI-A
+ (read-normalized-illuminant (in-vicinity (library-vicinity) "ciesia.dat")))
+(define CIE:SI-D65
+ (read-normalized-illuminant (in-vicinity (library-vicinity) "ciesid65.dat")))
+(spectrum->XYZ CIE:SI-A 300e-9 830e-9)
+@result{} (1.098499460820401 999.9999999999998e-3 355.8173930654951e-3)
+(CIEXYZ->sRGB (spectrum->XYZ CIE:SI-A 300e-9 830e-9))
+@result{} (255 234 133)
+(spectrum->XYZ CIE:SI-D65 300e-9 830e-9)
+@result{} (950.4336673552745e-3 1.0000000000000002 1.0888053986649182)
+(CIEXYZ->sRGB (spectrum->XYZ CIE:SI-D65 300e-9 830e-9))
+@result{} (255 255 255)
+@end example
+
+@defun illuminant-map proc siv
+@var{siv} must be a one-dimensional array or vector of 107 numbers.
+@code{illuminant-map} returns a vector of length 107 containing the
+result of applying @var{proc} to each element of @var{siv}.
+@end defun
+
+@defun illuminant-map->XYZ proc siv
+@code{(spectrum->XYZ (illuminant-map @var{proc} @var{siv}) 300e-9 830e-9)}
+@end defun
+
@defun spectrum->XYZ proc
@var{proc} must be a function of one argument. @code{spectrum->XYZ}
computes the CIEXYZ(1931) values for the spectrum returned by @var{proc}
@@ -5616,11 +5774,6 @@ Compute the colors of 6500.K and 5000.K blackbody radiation:
(map (lambda (x) (/ x y_n)) xyz)
@result{} (0.2933441826889158 0.2988931825387761 0.25783646831201573)
@end example
-
-@defunx spectrum->CIEXYZ proc
-@defunx spectrum->CIEXYZ spectrum x1 x2
-@code{spectrum->CIEXYZ} computes the CIEXYZ(1931) values for the
-spectrum, scaled so their sum is 1.
@end defun
@defun spectrum->chromaticity proc
@@ -5629,16 +5782,15 @@ Computes the chromaticity for the given spectrum.
@end defun
@defun wavelength->XYZ w
-@defunx wavelength->chromaticity w
-@defunx wavelength->CIEXYZ w
@var{w} must be a number between 380e-9 to 780e-9.
@code{wavelength->XYZ} returns (unnormalized) XYZ values for a
monochromatic light source with wavelength @var{w}.
+@end defun
+
+@defun wavelength->chromaticity w
+@var{w} must be a number between 380e-9 to 780e-9.
@code{wavelength->chromaticity} returns the chromaticity for a
monochromatic light source with wavelength @var{w}.
-@code{wavelength->CIEXYZ} returns XYZ values for the saturated color
-having chromaticity of a monochromatic light source with wavelength
-@var{w}.
@end defun
@defun blackbody-spectrum temp
@@ -5654,8 +5806,8 @@ procedure correspond to the power of the photons with wavelengths
@defun temperature->XYZ x
The positive number @var{x} is a temperature in degrees kelvin.
-@code{temperature->XYZ} computes the CIEXYZ(1931) values for the
-spectrum of a black body at temperature @var{x}.
+@code{temperature->XYZ} computes the unnormalized CIEXYZ(1931) values
+for the spectrum of a black body at temperature @var{x}.
Compute the chromaticities of 6500.K and 5000.K blackbody radiation:
@@ -5669,26 +5821,21 @@ Compute the chromaticities of 6500.K and 5000.K blackbody radiation:
@end example
@end defun
-@defun temperature->CIEXYZ x
+@defun temperature->chromaticity x
The positive number @var{x} is a temperature in degrees kelvin.
-@code{temperature->CIEXYZ} computes the CIEXYZ(1931) values for the
-spectrum of a black body at temperature @var{x}, scaled to be just
-inside the RGB709 gamut.
-@end defun
+@code{temperature->cromaticity} computes the chromaticity for the
+spectrum of a black body at temperature @var{x}.
-@defun temperature->chromaticity x
-@end defun
+Compute the chromaticities of 6500.K and 5000.K blackbody radiation:
-@defun XYZ:normalize xyz
-@var{xyz} is a list of three non-negative real numbers.
-@code{XYZ:normalize} returns a list of numbers proportional to
-@var{xyz}; scaled so their sum is 1.
-@end defun
+@example
+(require 'color-space)
+(temperature->chromaticity 6500)
+ @result{} (0.3135191660557008 0.3236456786200268)
-@defun XYZ:normalize-colors colors @dots{}
-@var{colors} is a list of XYZ triples. @code{XYZ:normalize-colors}
-scales all the triples by a common factor such that the maximum sum of
-numbers in a scaled triple is 1.
+(temperature->chromaticity 5000)
+ @result{} (0.34508082841161052 0.3516084965163377)
+@end example
@end defun
@defun XYZ->chromaticity xyz
@@ -5958,7 +6105,7 @@ Looks for @var{name} among the 19 saturated colors from
@item red purple @tab purplish red @tab red
@end multitable
-(@url{http://swissnet.ai.mit.edu/~jaffer/Color/saturate.pdf}). If
+(@url{http://swiss.csail.mit.edu/~jaffer/Color/saturate.pdf}). If
@var{name} is found, the corresponding color is returned. Otherwise #f
is returned. Use saturate only for light source colors.
@end defun
@@ -5974,7 +6121,7 @@ operated paint manufacturing company, has generously made their
@defun resene name
Looks for @var{name} among the 1300 entries in the Resene color-name
-dictionary (@url{http://swissnet.ai.mit.edu/~jaffer/Color/resene.pdf}).
+dictionary (@url{http://swiss.csail.mit.edu/~jaffer/Color/resene.pdf}).
If @var{name} is found, the corresponding color is returned. Otherwise
#f is returned. The @cite{Resene RGB Values List} is an excellent
source for surface colors.
@@ -6043,7 +6190,7 @@ its argument) @var{df/dx}, and initial integer value @var{x0} for which
@var{f}(@var{x}) is closer to zero than either of the integers adjacent
to @var{x}; or returns @code{#f} if such an integer can't be found.
-To find the closest integer to a given integers square root:
+To find the closest integer to a given integer's square root:
@example
(define (integer-sqrt y)
@@ -6485,7 +6632,7 @@ Data Banks}). An SLIB relational database implementation can be created
from any @ref{Base Table} implementation.
Why relational database? For motivations and design issues see@*
-@uref{http://swissnet.ai.mit.edu/~jaffer/DBManifesto.html}.
+@uref{http://swiss.csail.mit.edu/~jaffer/DBManifesto.html}.
@menu
* Using Databases:: 'databases
@@ -6788,7 +6935,7 @@ returns the key-list identifying the highest record less than
@var{key1} @var{key2} @dots{} which is stored in the relational-table;
or false if no lower record is present.
-@defopx {Operation} {relational-table} isam-prev index
+@defopx {Operation} {relational-table} isam-prev column-name
The symbol @var{column-name} names a key field. In the list returned
by @code{isam-next}, that field, or a field to its left, will be
changed. This allows one to skip over less significant key fields.
@@ -7329,15 +7476,20 @@ etags -lscheme -r'/ *(define-\(command\|table\) (\([^; \t]+\)/\2/' \
@end example
@menu
+* Within-database::
* Within-database Example::
@end menu
+@node Within-database, Within-database Example, Database Macros, Database Macros
+@subsubsection Within-database
+
@defun within-database database statement-1 @dots{}
@code{within-database} creates a lexical scope in which the commands
@code{define-table} and @code{define-command} create tables and
@code{*commands*}-table entries respectively in open relational
-database @var{database}.
+database @var{database}. The expressions in `within-database' form
+are executed in order.
@code{within-database} Returns @var{database}.
@end defun
@@ -7385,8 +7537,38 @@ key field table, a foreign-key domain will be created for it.
@end deffn
+@defun add-macro-support database
+The relational database @var{database} must be mutable.
+@code{add-macro-support} adds a @code{*macros*} table and
+@code{define-macro} macro to @var{database}; then @var{database} is
+returned.
+@end defun
+
+@deffn Syntax define-macro (@r{<name>} @r{arg1} @dots{}) @r{"comment"} @r{<expression1>} @r{<expression2>} @dots{}
+@deffnx Syntax define-macro (@r{<name>} @r{arg1} @dots{}) @r{<expression1>} @r{<expression2>} @dots{}
+Adds a macro @r{<name>} to the @code{*macros*}.
+
+@emph{Note:} @code{within-database} creates lexical scope where not
+only @code{define-command} and @code{define-table}, but every command
+and macro are defined, ie.:
-@node Within-database Example, , Database Macros, Database Macros
+@example
+(within-database my-rdb
+ (define-command (message rdb)
+ (lambda (msg)
+ (display "message: ")
+ (display msg)
+ (newline)))
+ (message "Defining FOO...")
+ ;; ... defining FOO ...
+ (message "Defining BAR...")
+ ;; ... defining BAR ...
+ )
+@end example
+@end deffn
+
+
+@node Within-database Example, , Within-database, Database Macros
@subsubsection Within-database Example
@noindent
@@ -9656,7 +9838,7 @@ Example:
@noindent
@code{last} and @code{butlast} split a list into two parts when given
-identical arugments.
+identical arguments.
@example
(last '(a b c d e) 2)
@result{} (d e)
@@ -9693,7 +9875,7 @@ Example:
@noindent
@code{nthcdr} and @code{butnthcdr} split a list into two parts when
-given identical arugments.
+given identical arguments.
@example
(nthcdr 2 '(a b c d e))
@result{} (c d e)
@@ -10090,17 +10272,24 @@ items have the same @code{hashv} implies the items have the same
@subsection Space-Filling Curves
@menu
-* Peano-Hilbert Space-Filling Curve::
+* Hilbert Space-Filling Curve:: Non-negative coordinates
+* Peano Space-Filling Curve:: Integer coordinates
* Sierpinski Curve::
@end menu
-@node Peano-Hilbert Space-Filling Curve, Sierpinski Curve, Space-Filling Curves, Space-Filling Curves
-@subsubsection Peano-Hilbert Space-Filling Curve
+@node Hilbert Space-Filling Curve, Peano Space-Filling Curve, Space-Filling Curves, Space-Filling Curves
+@subsubsection Hilbert Space-Filling Curve
@include phil-spc.txi
-@node Sierpinski Curve, , Peano-Hilbert Space-Filling Curve, Space-Filling Curves
+@node Peano Space-Filling Curve, Sierpinski Curve, Hilbert Space-Filling Curve, Space-Filling Curves
+@subsubsection Peano Space-Filling Curve
+
+@include peanosfc.txi
+
+
+@node Sierpinski Curve, , Peano Space-Filling Curve, Space-Filling Curves
@subsubsection Sierpinski Curve
@code{(require 'sierpinski)}
@@ -10444,7 +10633,7 @@ Kills the current process and runs the next process from
@code{(require 'metric-units)}
@ftindex metric-units
-@url{http://swissnet.ai.mit.edu/~jaffer/MIXF.html}
+@url{http://swiss.csail.mit.edu/~jaffer/MIXF}
@dfn{Metric Interchange Format} is a character string encoding for
numerical values and units which:
@@ -10810,24 +10999,12 @@ For the specification of these optional procedures,
@defun list-tail l p
@end defun
-@defun string->list s
-@end defun
-
-@defun list->string l
-@end defun
-
@defun string-copy
@end defun
@deffn {Procedure} string-fill! s obj
@end deffn
-@defun list->vector l
-@end defun
-
-@defun vector->list s
-@end defun
-
@deffn {Procedure} vector-fill! s obj
@end deffn
@@ -11062,6 +11239,8 @@ unspecified.
* SRFI-9:: Defining Record Types
@end menu
+SRFI-47 is the same as @ref{Arrays}.
+
@node SRFI-1, SRFI-2, SRFI, SRFI
@subsubsection SRFI-1
@@ -11102,6 +11281,14 @@ Where
@node Session Support, System Interface, Standards Support, Other Packages
@section Session Support
+@noindent
+If @code{(provided? 'abort)}:
+
+@defun abort
+Resumes the top level Read-Eval-Print loop. If provided, @code{abort}
+is used by the @code{break} and @code{debug} packages.
+@end defun
+
@menu
* Repl:: Macros at top-level
* Quick Print:: Loop-safe Output
@@ -11508,17 +11695,18 @@ sites are:
@table @asis
@item SLIB-PSD
+@cindex PSD
is a portable debugger for Scheme (requires emacs editor).
@ifset html
-<A HREF="http://swissnet.ai.mit.edu/ftpdir/scm/slib-psd1-3.tar.gz">
+<A HREF="http://swiss.csail.mit.edu/ftpdir/scm/slib-psd1-3.tar.gz">
@end ifset
-http://swissnet.ai.mit.edu/ftpdir/scm/slib-psd1-3.tar.gz
+http://swiss.csail.mit.edu/ftpdir/scm/slib-psd1-3.tar.gz
@ifset html
</A>
@end ifset
-swissnet.ai.mit.edu:/pub/scm/slib-psd1-3.tar.gz
+swiss.csail.mit.edu:/pub/scm/slib-psd1-3.tar.gz
ftp.maths.tcd.ie:pub/bosullvn/jacal/slib-psd1-3.tar.gz
@@ -11544,6 +11732,8 @@ http://www.cs.tut.fi/staff/pk/scheme/psd/article/article.html
@sp 1
@item SCHELOG
+@cindex SCHELOG
+@cindex Prolog
is an embedding of Prolog in Scheme.@*
@ifset html
<A HREF="http://www.ccs.neu.edu/~dorai/schelog/schelog.html">
@@ -11555,6 +11745,10 @@ http://www.ccs.neu.edu/~dorai/schelog/schelog.html
@sp 1
@item JFILTER
+@cindex JFILTER
+@cindex Japanese
+@cindex JIS
+@cindex EUC
is a Scheme program which converts text among the JIS, EUC, and
Shift-JIS Japanese character sets.@*
@ifset html
@@ -11570,7 +11764,7 @@ http://www.sci.toyama-u.ac.jp/~iwao/Scheme/Jfilter/index.html
@node About SLIB, Index, Other Packages, Top
@chapter About SLIB
-@ifinfo
+@ifnottex
@noindent
More people than I can name have contributed to SLIB. Thanks to all of
you!
@@ -11579,12 +11773,13 @@ you!
SLIB @value{SLIBVERSION}, released @value{SLIBDATE}.@*
Aubrey Jaffer <agj @@ alum.mit.edu>@*
@i{Hyperactive Software} -- The Maniac Inside!@*
-@url{http://swissnet.ai.mit.edu/~jaffer/SLIB.html}
+@url{http://swiss.csail.mit.edu/~jaffer/SLIB.html}
@end quotation
-@end ifinfo
+@end ifnottex
@menu
* Installation:: How to install SLIB on your system.
+* The SLIB script:: Run interactive SLIB sessions.
* Porting:: SLIB to new platforms.
* Coding Guidelines:: How to write modules for SLIB.
* Copyrights:: Intellectual propery issues.
@@ -11592,7 +11787,7 @@ Aubrey Jaffer <agj @@ alum.mit.edu>@*
@end menu
-@node Installation, Porting, About SLIB, About SLIB
+@node Installation, The SLIB script, About SLIB, About SLIB
@section Installation
@ifset html
@@ -11604,12 +11799,14 @@ Aubrey Jaffer <agj @@ alum.mit.edu>@*
@cindex install
@cindex installation
-There are four parts to installation:
+There are five parts to installation:
@itemize @bullet
@item
Unpack the SLIB distribution.
@item
+Install documentation and @code{slib} script.
+@item
Configure the Scheme implementation(s) to locate the SLIB directory.
@item
Arrange for Scheme implementation to load its SLIB initialization file.
@@ -11630,6 +11827,15 @@ this might be @file{/usr/share/slib}, @file{/usr/local/lib/slib}, or
@file{/usr/lib/slib}. If you know where SLIB should go on other
platforms, please inform agj @@ alum.mit.edu.
+@subsection Install documentation and slib script
+
+@cindex slib
+@cindex script
+@example
+make infoz
+make install
+@end example
+
@subsection Configure Scheme Implementation to Locate SLIB
If the Scheme implementation supports @code{getenv}, then the value of
@@ -11696,6 +11902,66 @@ support is already built into SCM. See the documentation with SCM for
installation instructions.
@end deftp
+@deftp Implementation {PLT Scheme}
+@deftpx Implementation {DrScheme}
+@deftpx Implementation {MzScheme}
+
+The @file{init.ss} file in the _slibinit_ collection is an SLIB
+initialization file.
+
+To use SLIB in MzScheme, set the @var{SCHEME_LIBRARY_PATH} environment
+variable to the installed SLIB location; then invoke MzScheme thus:
+
+@code{mzscheme -f $@{SCHEME_LIBRARY_PATH@}DrScheme.init}
+@end deftp
+
+@deftp Implementation {MIT Scheme}
+@code{scheme -load $@{SCHEME_LIBRARY_PATH@}mitscheme.init}
+@end deftp
+
+@deftp Implementation Gambit-C 3.0
+
+@code{$command -:s $@{SCHEME_LIBRARY_PATH@}gambit.init -}
+@end deftp
+
+@deftp Implementation {Guile}
+Guile versions 1.6 and earlier link to an archaic SLIB version. In
+RedHat or Fedora installations:
+
+@example
+rm /usr/share/guile/slib
+ln -s $@{SCHEME_LIBRARY_PATH@} /usr/share/guile/slib
+@end example
+
+In Debian installations:
+
+@example
+rm /usr/share/guile/1.6/slib
+ln -s $@{SCHEME_LIBRARY_PATH@} /usr/share/guile/1.6/slib
+@end example
+
+@code{$@{SCHEME_LIBRARY_PATH@}} is where SLIB gets installed.
+
+Guile with SLIB can then be started thus:
+
+@code{guile -l $@{SCHEME_LIBRARY_PATH@}guile.init}
+@end deftp
+
+@deftp Implementation Scheme48
+To make a Scheme48 image for an installation under @code{<prefix>},
+
+@enumerate
+@item
+@code{cd} to the SLIB directory
+@item
+type @code{make prefix=<prefix> slib48}.
+@item
+To install the image, type @code{make prefix=<prefix> install48}. This
+will also create a shell script with the name @code{slib48} which will
+invoke the saved image.
+@end enumerate
+@end deftp
+
@deftp Implementation VSCM
@format
From: Matthias Blume <blume @@ cs.Princeton.EDU>
@@ -11726,45 +11992,27 @@ e.g. mv dumpfile /usr/local/vscm/lib/scheme-boot
@end deftp
-@deftp Implementation Scheme48
-To make a Scheme48 image for an installation under @code{<prefix>},
-
-@enumerate
-@item
-@code{cd} to the SLIB directory
-@item
-type @code{make prefix=<prefix> slib48}.
-@item
-To install the image, type @code{make prefix=<prefix> install48}. This
-will also create a shell script with the name @code{slib48} which will
-invoke the saved image.
-@end enumerate
-@end deftp
-
-@deftp Implementation {PLT Scheme}
-@deftpx Implementation {DrScheme}
-@deftpx Implementation {MzScheme}
-The @file{init.ss} file in the _slibinit_ collection is an SLIB
-initialization file.
+@node The SLIB script, Porting, Installation, About SLIB
+@section The SLIB script
-To use SLIB in MzScheme, set the @var{SCHEME_LIBRARY_PATH} environment
-variable to the installed SLIB location; then invoke MzScheme thus:
+SLIB comes with shell script for Unix platforms.
-@code{mzscheme -f $@{SCHEME_LIBRARY_PATH@}DrScheme.init}
-@end deftp
+@example
+@exdent @b{ slib } [ scm | gsi | mzscheme | guile | slib48 | scheme48 | scmlit ]
+@end example
-@deftp Implementation {MIT Scheme}
-@code{scheme -load $@{SCHEME_LIBRARY_PATH@}mitscheme.init}
-@end deftp
+@noindent
+Starts an interactive Scheme-with-SLIB session.
-@deftp Implementation {Guile}
-@code{guile -l $@{SCHEME_LIBRARY_PATH@}guile.init}
-@end deftp
+@noindent
+The optional argument to the @code{slib} script is the Scheme
+implementation to run. Absent the argument, it searches for
+implementations in the above order.
-@node Porting, Coding Guidelines, Installation, About SLIB
+@node Porting, Coding Guidelines, The SLIB script, About SLIB
@section Porting
If there is no initialization file for your Scheme implementation, you
@@ -11973,26 +12221,10 @@ At the beginning of each section, there is a line that looks like
using the package.
@end itemize
-
+@ifinfo
@node Index, , About SLIB, Top
-@c @node Procedure and Macro Index, Operator Index, About SLIB, Top
-@unnumbered Procedure and Macro Index
-
-This is an alphabetical list of all the procedures and macros in SLIB.
-
-@printindex fn
-
-@c @node Variable Index, Concept Index, Operator Index, Top
-@unnumbered Variable Index
-
-This is an alphabetical list of all the global variables in SLIB.
-
-@printindex vr
-
-@c @node Concept Index, , Variable Index, Top
-@unnumbered Concept and Feature Index
-
-@printindex cp
+@unnumbered Index
+@end ifinfo
-@contents
+@include indexes.texi
@bye
diff --git a/slib_1.html b/slib_1.html
deleted file mode 100644
index 452374a..0000000
--- a/slib_1.html
+++ /dev/null
@@ -1,1172 +0,0 @@
-<!DOCTYPE html PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN"
- "http://www.w3.org/TR/html40/loose.dtd">
-<HTML>
-<!-- Created on January, 10 2005 by texi2html 1.66 -->
-<!--
-Written by: Lionel Cons <Lionel.Cons@cern.ch> (original author)
- Karl Berry <karl@freefriends.org>
- Olaf Bachmann <obachman@mathematik.uni-kl.de>
- and many others.
-Maintained by: Many creative people <dev@texi2html.cvshome.org>
-Send bugs and suggestions to <users@texi2html.cvshome.org>
-
--->
-<HEAD>
-<TITLE>SLIB: The Library System</TITLE>
-
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-<META NAME="keywords" CONTENT="SLIB: The Library System">
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-
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-
-<A NAME="SEC1"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top"> &lt; </A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<A NAME="The Library System"></A>
-<H1> 1. The Library System </H1>
-<!--docid::SEC1::-->
-<P>
-
-<TABLE BORDER="0" CELLSPACING="0">
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_1.html#SEC2">1.1 Feature</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">SLIB names.</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_1.html#SEC3">1.2 Require</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_1.html#SEC4">1.3 Library Catalogs</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_1.html#SEC5">1.4 Catalog Creation</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_1.html#SEC6">1.5 Catalog Vicinities</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_1.html#SEC7">1.6 Compiling Scheme</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-</TABLE>
-<P>
-
-<A NAME="Feature"></A>
-<HR SIZE="6">
-<A NAME="SEC2"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC1"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC3"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC1"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC1"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC13"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 1.1 Feature </H2>
-<!--docid::SEC2::-->
-<P>
-
-<A NAME="IDX1"></A>
-SLIB denotes <EM>features</EM> by symbols. SLIB maintains a list of
-features supported by a Scheme <EM>session</EM>. The set of features
-<A NAME="IDX2"></A>
-provided by a session may change during that session. Some features
-are properties of the Scheme implementation being used. The following
-<A NAME="IDX3"></A>
-<EM>intrinsic feature</EM>s detail what sort of numbers are available
-from an implementation:
-</P>
-<P>
-
-<UL>
-<LI>
-'inexact
-<LI>
-'rational
-<LI>
-'real
-<LI>
-'complex
-<LI>
-'bignum
-</UL>
-<P>
-
-SLIB initialization (in `<TT>require.scm</TT>') tests and <EM>provide</EM>s
-any of these numeric features which are appropriate.
-</P>
-<P>
-
-Other features correspond to the presence of packages of Scheme
-procedures or syntax (macros).
-</P>
-<P>
-
-<A NAME="IDX4"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>provided?</B> <I>feature</I>
-<DD>Returns <CODE>#t</CODE> if <VAR>feature</VAR> is present in the current Scheme
-session; otherwise <CODE>#f</CODE>. More specifically, <CODE>provided?</CODE>
-returns <CODE>#t</CODE> if the symbol <VAR>feature</VAR> is the
-<CODE>software-type</CODE> or if <VAR>feature</VAR> has been provided by a module
-already loaded; and <CODE>#f</CODE> otherwise.
-<P>
-
-In some implementations <CODE>provided?</CODE> tests whether a module has
-been <CODE>require</CODE>d by any module or in any thread; other
-implementations will have <CODE>provided?</CODE> reflect only the modules
-<CODE>require</CODE>d by that particular session or thread.
-</P>
-<P>
-
-To work portably in both scenarios, use <CODE>provided?</CODE> only to test
-whether intrinsic properties (like those above) are present.
-</P>
-<P>
-
-The <VAR>feature</VAR> argument can also be an expression calling
-<CODE>and</CODE>, <CODE>or</CODE>, and <CODE>not</CODE> of features. The boolean result
-of the logical question asked by <VAR>feature</VAR> is returned.
-</P>
-</DL>
-<P>
-
-The generalization of <CODE>provided?</CODE> for arbitrary features and catalog
-is <CODE>feature-eval</CODE>:
-</P>
-<P>
-
-<A NAME="IDX5"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>feature-eval</B> <I>expression provided?</I>
-<DD>Evaluates <CODE>and</CODE>, <CODE>or</CODE>, and <CODE>not</CODE> forms in
-<VAR>expression</VAR>, using the values returned by calling <VAR>provided?</VAR>
-on the leaf symbols. <CODE>feature-eval</CODE> returns the boolean result
-of the logical combinations.
-</DL>
-<P>
-
-<A NAME="IDX6"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>provide</B> <I>feature</I>
-<DD>Informs SLIB that <VAR>feature</VAR> is supported in this session.
-</DL>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(provided? 'foo) => #f
-(provide 'foo)
-(provided? 'foo) => #t
-</pre></td></tr></table><P>
-
-<A NAME="Require"></A>
-<HR SIZE="6">
-<A NAME="SEC3"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC2"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC4"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC1"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC1"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC13"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 1.2 Require </H2>
-<!--docid::SEC3::-->
-<P>
-
-<A NAME="IDX7"></A>
-SLIB creates and maintains a <EM>catalog</EM> mapping features to locations
-of files introducing procedures and syntax denoted by those features.
-</P>
-<P>
-
-<A NAME="IDX8"></A>
-</P>
-<DL>
-<DT><U>Variable:</U> <B>*catalog*</B>
-<DD>Is an association list of features (symbols) and pathnames which will
-supply those features. The pathname can be either a string or a pair.
-If pathname is a pair then the first element should be a macro feature
-symbol, <CODE>source</CODE>, <CODE>compiled</CODE>, or one of the other cases
-described in <A HREF="slib_1.html#SEC4">1.3 Library Catalogs</A>. The cdr of the pathname should
-be either a string or a list.
-</DL>
-<P>
-
-At the beginning of each section of this manual, there is a line like
-<CODE>(require '<VAR>feature</VAR>)</CODE>.
-<A NAME="IDX9"></A>
-The Scheme files comprising SLIB are cataloged so that these feature
-names map to the corresponding files.
-</P>
-<P>
-
-SLIB provides a form, <CODE>require</CODE>, which loads the files providing
-the requested feature.
-</P>
-<P>
-
-<A NAME="IDX10"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>require</B> <I>feature</I>
-<DD><UL>
-<LI>
-If <CODE>(provided? <VAR>feature</VAR>)</CODE> is true,
-then <CODE>require</CODE> just returns.
-<LI>
-Otherwise, if <VAR>feature</VAR> is found in the catalog, then the
-corresponding files will be loaded and <CODE>(provided?
-<VAR>feature</VAR>)</CODE> will henceforth return <CODE>#t</CODE>. That <VAR>feature</VAR>
-is thereafter <CODE>provided</CODE>.
-<LI>
-Otherwise (<VAR>feature</VAR> not found in the catalog), an error is
-signaled.
-</UL>
-</DL>
-<P>
-
-There is a related form <CODE>require-if</CODE>, used primarily for enabling
-compilers to statically include modules which would be dynamically
-loaded by interpreters.
-</P>
-<P>
-
-<A NAME="IDX11"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>require-if</B> <I>condition feature</I>
-<DD><P>
-
-Requires <VAR>feature</VAR> if <VAR>condition</VAR> is true.
-</P>
-</DL>
-<P>
-
-The <CODE>random</CODE> module uses <CODE>require-if</CODE> to flag
-<CODE>object-&gt;string</CODE> as a (dynamic) required module.
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(require 'byte)
-(require 'logical)
-(require-if 'compiling 'object-&gt;string)
-</pre></td></tr></table><P>
-
-The <CODE>batch</CODE> module uses <CODE>require-if</CODE> to flag
-<CODE>posix-time</CODE> as a module to load if the implementation supports
-large precision exact integers.
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(require-if '(and bignum compiling) 'posix-time)
-</pre></td></tr></table><P>
-
-The <CODE>commutative-ring</CODE> module uses <CODE>require-if</CODE> to ensure
-that it has an exponentiation routine, regardless of whether the
-implementation supports inexact numbers:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(require-if '(not inexact) 'logical) ;for integer-expt
-(define number^ (if (provided? 'inexact) expt integer-expt))
-</pre></td></tr></table><P>
-
-The catalog can also be queried using <CODE>slib:in-catalog?</CODE>.
-</P>
-<P>
-
-<A NAME="IDX12"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>slib:in-catalog?</B> <I>feature</I>
-<DD>Returns a <CODE>CDR</CODE> of the catalog entry if one was found for the
-symbol <VAR>feature</VAR> in the alist <CODE>*catalog*</CODE> (and transitively
-through any symbol aliases encountered). Otherwise, returns
-<CODE>#f</CODE>. The format of catalog entries is explained in <A HREF="slib_1.html#SEC4">1.3 Library Catalogs</A>.
-</DL>
-<P>
-
-<A NAME="Library Catalogs"></A>
-<HR SIZE="6">
-<A NAME="SEC4"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC3"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC5"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC1"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC1"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC13"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 1.3 Library Catalogs </H2>
-<!--docid::SEC4::-->
-<P>
-
-Catalog files consist of one or more <EM>association list</EM>s.
-<A NAME="IDX13"></A>
-In the circumstance where a feature symbol appears in more than one
-list, the latter list's association is retrieved. Here are the
-supported formats for elements of catalog lists:
-</P>
-<P>
-
-</P>
-<DL COMPACT>
-<DT><CODE>(<VAR>feature</VAR> . <I>&lt;symbol&gt;</I>)</CODE>
-<DD>Redirects to the feature named <I>&lt;symbol&gt;</I>.
-<DT><CODE>(<VAR>feature</VAR> . &quot;<I>&lt;path&gt;</I>&quot;)</CODE>
-<DD>Loads file <I>&lt;path&gt;</I>.
-<DT><CODE>(<VAR>feature</VAR> source &quot;<I>&lt;path&gt;&quot;</I>)</CODE>
-<DD><A NAME="IDX14"></A>
-<CODE>slib:load</CODE>s the Scheme source file <I>&lt;path&gt;</I>.
-<DT><CODE>(<VAR>feature</VAR> compiled &quot;<I>&lt;path&gt;&quot;</I> <small>...</small>)</CODE>
-<DD><A NAME="IDX15"></A>
-<CODE>slib:load-compiled</CODE>s the files <I>&lt;path&gt;</I> <small>...</small>.
-<DT><CODE>(<VAR>feature</VAR> aggregate <I>&lt;symbol&gt;</I> <small>...</small>)</CODE>
-<DD><A NAME="IDX16"></A>
-<CODE>slib:require</CODE>s the features <I>&lt;symbol&gt;</I> <small>...</small>.
-</DL>
-<P>
-
-The various macro styles first <CODE>require</CODE> the named macro package,
-then just load <I>&lt;path&gt;</I> or load-and-macro-expand <I>&lt;path&gt;</I> as
-appropriate for the implementation.
-</P>
-<P>
-
-</P>
-<DL COMPACT>
-<DT><CODE>(<VAR>feature</VAR> defmacro &quot;<I>&lt;path&gt;&quot;</I>)</CODE>
-<DD><A NAME="IDX17"></A>
-<CODE>defmacro:load</CODE>s the Scheme source file <I>&lt;path&gt;</I>.
-<DT><CODE>(<VAR>feature</VAR> macro-by-example &quot;<I>&lt;path&gt;&quot;</I>)</CODE>
-<DD><A NAME="IDX18"></A>
-<CODE>defmacro:load</CODE>s the Scheme source file <I>&lt;path&gt;</I>.
-</DL>
-<P>
-
-</P>
-<DL COMPACT>
-<DT><CODE>(<VAR>feature</VAR> macro &quot;<I>&lt;path&gt;&quot;</I>)</CODE>
-<DD><A NAME="IDX19"></A>
-<CODE>macro:load</CODE>s the Scheme source file <I>&lt;path&gt;</I>.
-<DT><CODE>(<VAR>feature</VAR> macros-that-work &quot;<I>&lt;path&gt;&quot;</I>)</CODE>
-<DD><A NAME="IDX20"></A>
-<CODE>macro:load</CODE>s the Scheme source file <I>&lt;path&gt;</I>.
-<DT><CODE>(<VAR>feature</VAR> syntax-case &quot;<I>&lt;path&gt;&quot;</I>)</CODE>
-<DD><A NAME="IDX21"></A>
-<CODE>macro:load</CODE>s the Scheme source file <I>&lt;path&gt;</I>.
-<DT><CODE>(<VAR>feature</VAR> syntactic-closures &quot;<I>&lt;path&gt;&quot;</I>)</CODE>
-<DD><A NAME="IDX22"></A>
-<CODE>macro:load</CODE>s the Scheme source file <I>&lt;path&gt;</I>.
-</DL>
-<P>
-
-<A NAME="Catalog Creation"></A>
-<HR SIZE="6">
-<A NAME="SEC5"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC4"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC6"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC1"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC1"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC13"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 1.4 Catalog Creation </H2>
-<!--docid::SEC5::-->
-<P>
-
-At the start of an interactive session no catalog is present, but is
-created with the first catalog inquiry (such as <CODE>(require
-'random)</CODE>). Several sources of catalog information are combined to
-produce the catalog:
-</P>
-<P>
-
-<UL>
-<LI>
-standard SLIB packages.
-<LI>
-additional packages of interest to this site.
-<LI>
-packages specifically for the variety of Scheme which this
-session is running.
-<LI>
-packages this user wants to always have available. This catalog is the
-file `<TT>homecat</TT>' in the user's <EM>HOME</EM> directory.
-<A NAME="IDX23"></A>
-<LI>
-packages germane to working in this (current working) directory. This
-catalog is the file `<TT>usercat</TT>' in the directory to which it applies.
-One would typically <CODE>cd</CODE> to this directory before starting the
-Scheme session.
-<LI>
-packages which are part of an application program.
-</UL>
-<P>
-
-SLIB combines the catalog information which doesn't vary per user into
-the file `<TT>slibcat</TT>' in the implementation-vicinity. Therefore
-`<TT>slibcat</TT>' needs change only when new software is installed or
-compiled. Because the actual pathnames of files can differ from
-installation to installation, SLIB builds a separate catalog for each
-implementation it is used with.
-</P>
-<P>
-
-The definition of <CODE>*SLIB-VERSION*</CODE> in SLIB file
-`<TT>require.scm</TT>' is checked against the catalog association of
-<CODE>*SLIB-VERSION*</CODE> to ascertain when versions have changed. It is
-a reasonable practice to change the definition of
-<CODE>*SLIB-VERSION*</CODE> whenever the library is changed. If multiple
-implementations of Scheme use SLIB, remember that recompiling one
-`<TT>slibcat</TT>' will update only that implementation's catalog.
-</P>
-<P>
-
-The compilation scripts of Scheme implementations which work with SLIB
-can automatically trigger catalog compilation by deleting
-`<TT>slibcat</TT>' or by invoking <CODE>require</CODE> of a special feature:
-</P>
-<P>
-
-<A NAME="IDX24"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>require</B> <I>'new-catalog</I>
-<DD><A NAME="IDX25"></A>
-This will load `<TT>mklibcat</TT>', which compiles and writes a new
-`<TT>slibcat</TT>'.
-</DL>
-<P>
-
-Another special feature of <CODE>require</CODE> erases SLIB's catalog,
-forcing it to be reloaded the next time the catalog is queried.
-</P>
-<P>
-
-<A NAME="IDX26"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>require</B> <I>#f</I>
-<DD>Removes SLIB's catalog information. This should be done before saving
-an executable image so that, when restored, its catalog will be loaded
-afresh.
-</DL>
-<P>
-
-<A NAME="Catalog Vicinities"></A>
-<HR SIZE="6">
-<A NAME="SEC6"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC5"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC7"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC1"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC1"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC13"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 1.5 Catalog Vicinities </H2>
-<!--docid::SEC6::-->
-<P>
-
-Each file in the table below is descibed in terms of its
-file-system independent <EM>vicinity</EM> (see section <A HREF="slib_2.html#SEC14">2.1 Vicinity</A>). The entries
-of a catalog in the table override those of catalogs above it in the
-table.
-</P>
-<P>
-
-</P>
-<DL COMPACT>
-
-<DT><CODE>implementation-vicinity</CODE> `<TT>slibcat</TT>'
-<DD><A NAME="IDX27"></A>
-This file contains the associations for the packages comprising SLIB,
-the `<TT>implcat</TT>' and the `<TT>sitecat</TT>'s. The associations in the
-other catalogs override those of the standard catalog.
-<P>
-
-</P>
-<DT><CODE>library-vicinity</CODE> `<TT>mklibcat.scm</TT>'
-<DD><A NAME="IDX28"></A>
-creates `<TT>slibcat</TT>'.
-<P>
-
-</P>
-<DT><CODE>library-vicinity</CODE> `<TT>sitecat</TT>'
-<DD><A NAME="IDX29"></A>
-This file contains the associations specific to an SLIB installation.
-<P>
-
-</P>
-<DT><CODE>implementation-vicinity</CODE> `<TT>implcat</TT>'
-<DD><A NAME="IDX30"></A>
-This file contains the associations specific to an implementation of
-Scheme. Different implementations of Scheme should have different
-<CODE>implementation-vicinity</CODE>.
-<P>
-
-</P>
-<DT><CODE>implementation-vicinity</CODE> `<TT>mkimpcat.scm</TT>'
-<DD><A NAME="IDX31"></A>
-if present, creates `<TT>implcat</TT>'.
-<P>
-
-</P>
-<DT><CODE>implementation-vicinity</CODE> `<TT>sitecat</TT>'
-<DD><A NAME="IDX32"></A>
-This file contains the associations specific to a Scheme implementation
-installation.
-<P>
-
-</P>
-<DT><CODE>home-vicinity</CODE> `<TT>homecat</TT>'
-<DD><A NAME="IDX33"></A>
-This file contains the associations specific to an SLIB user.
-<P>
-
-</P>
-<DT><CODE>user-vicinity</CODE> `<TT>usercat</TT>'
-<DD><A NAME="IDX34"></A>
-This file contains associations affecting only those sessions whose
-<EM>working directory</EM> is <CODE>user-vicinity</CODE>.
-<P>
-
-</DL>
-<P>
-
-Here is an example of a `<TT>usercat</TT>' catalog. A program in this
-directory can invoke the `<SAMP>run</SAMP>' feature with <CODE>(require 'run)</CODE>.
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>;;; &quot;usercat&quot;: SLIB catalog additions for SIMSYNCH. -*-scheme-*-
-(
- (simsynch . &quot;../synch/simsynch.scm&quot;)
- (run . &quot;../synch/run.scm&quot;)
- (schlep . &quot;schlep.scm&quot;)
-)
-</pre></td></tr></table><P>
-
-Copying `<TT>usercat</TT>' to many directories is inconvenient.
-Application programs which aren't always run in specially prepared
-directories can nonetheless register their features during
-initialization.
-</P>
-<P>
-
-<A NAME="IDX35"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>catalog:read</B> <I>vicinity catalog</I>
-<DD>Reads file named by string <VAR>catalog</VAR> in <VAR>vicinity</VAR>, resolving
-all paths relative to <VAR>vicinity</VAR>, and adds those feature
-associations to <VAR>*catalog*</VAR>.
-<P>
-
-<CODE>catalog:read</CODE> would typically be used by an application program
-having dynamically loadable modules. For instance, to register
-factoring and other modules in <VAR>*catalog*</VAR>, JACAL does:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(catalog:read (program-vicinity) &quot;jacalcat&quot;)
-</pre></td></tr></table><P>
-
-</P>
-</DL>
-<P>
-
-For an application program there are three appropriate venues for
-registering its catalog associations:
-</P>
-<P>
-
-<UL>
-<LI>
-in a `<TT>usercat</TT>' file in the directory where the program runs; or
-<LI>
-in an `<TT>implcat</TT>' file in the <CODE>implementation-vicinity</CODE>; or
-<LI>
-in an application program directory; loaded by calling
-<CODE>catalog:read</CODE>.
-</UL>
-<P>
-
-<A NAME="Compiling Scheme"></A>
-<HR SIZE="6">
-<A NAME="SEC7"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC6"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC8"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC1"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC1"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC13"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 1.6 Compiling Scheme </H2>
-<!--docid::SEC7::-->
-<P>
-
-To use Scheme compilers effectively with SLIB the compiler needs to
-know which SLIB modules are to be compiled and which symbols are
-exported from those modules.
-</P>
-<P>
-
-The procedures in this section automate the extraction of this
-information from SLIB modules. They are guaranteed to work on SLIB
-modules; to use them on other sources, those sources should follow
-SLIB conventions.
-</P>
-<P>
-
-<TABLE BORDER="0" CELLSPACING="0">
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_1.html#SEC8">1.6.1 Module Conventions</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_1.html#SEC9">1.6.2 Module Manifests</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_1.html#SEC10">1.6.3 Module Semantics</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_1.html#SEC11">1.6.4 Top-level Variable References</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_1.html#SEC12">1.6.5 Module Analysis</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-</TABLE>
-<P>
-
-<A NAME="Module Conventions"></A>
-<HR SIZE="6">
-<A NAME="SEC8"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC7"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC9"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC1"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC7"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC13"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 1.6.1 Module Conventions </H3>
-<!--docid::SEC8::-->
-<P>
-
-<UL>
-<LI>
-All the top-level <CODE>require</CODE> commands have one quoted argument and
-are positioned before other Scheme definitions and expressions in the
-file.
-<LI>
-Any conditionally <CODE>require</CODE>d SLIB modules
-<A NAME="DOCF1" HREF="slib_fot.html#FOOT1">(1)</A>
-also appear at the beginning of their files conditioned on the feature
-<A NAME="IDX36"></A>
-<CODE>compiling</CODE> using <CODE>require-if</CODE>
-(see section <A HREF="slib_1.html#SEC3">require-if</A>).
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(require 'logical)
-(require 'multiarg/and-)
-(require-if 'compiling 'sort)
-(require-if 'compiling 'ciexyz)
-</pre></td></tr></table><P>
-
-</P>
-<LI>
-Schmooz-style comments preceding a definition, identify that
-definition as an exported identifier (see section <A HREF="slib_4.html#SEC87">4.14 Schmooz</A>). For
-non-schmooz files, putting `<SAMP>;@</SAMP>' at the beginning of the line
-immediately preceding the definition (<CODE>define</CODE>,
-<CODE>define-syntax</CODE>, or <CODE>defmacro</CODE>) suffices.
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>;@
-(define (make-vicinity &lt;pathname&gt;) &lt;pathname&gt;)
-</pre></td></tr></table><P>
-
-</P>
-<LI>
-Syntax (macro) definitions are grouped at the end of a module file.
-<P>
-
-</P>
-<LI>
-Modules defining macros do not invoke those macros. SLIB macro
-implementations are exempt from this rule.
-<P>
-
-An example of how to expand macro invocations is:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(require 'macros-that-work)
-(require 'yasos)
-(require 'pprint-file)
-(pprint-filter-file &quot;collect.scm&quot; macwork:expand)
-</pre></td></tr></table><P>
-
-</UL>
-<P>
-
-<A NAME="Module Manifests"></A>
-<HR SIZE="6">
-<A NAME="SEC9"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC8"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC10"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC1"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC7"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC13"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 1.6.2 Module Manifests </H3>
-<!--docid::SEC9::-->
-<P>
-
-<CODE>(require 'manifest)</CODE>
-<A NAME="IDX37"></A>
-</P>
-<P>
-
-In some of these examples, <VAR>slib:catalog</VAR> is the SLIB part of
-the catalog; it is free of compiled and implementation-specific
-entries. It would be defined by:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define slib:catalog (cdr (member (assq 'null *catalog*) *catalog*)))
-</pre></td></tr></table><P>
-
-<A NAME="IDX38"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>file-&gt;requires</B> <I>file provided? catalog</I>
-<DD><P>
-
-Returns a list of the features <CODE>require</CODE>d by <VAR>file</VAR> assuming the
-predicate <VAR>provided?</VAR> and association-list <VAR>catalog</VAR>.
-</P>
-</DL>
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define (provided+? . features)
- (lambda (feature)
- (or (memq feature features) (provided? feature))))
-
-(file-&gt;requires &quot;obj2str.scm&quot; (provided+? 'compiling) '())
- => (string-port generic-write)
-
-(file-&gt;requires &quot;obj2str.scm&quot; provided? '())
- => (string-port)
-</pre></td></tr></table><P>
-
-<A NAME="IDX39"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>feature-&gt;requires</B> <I>feature provided? catalog</I>
-<DD><P>
-
-Returns a list of the features <CODE>require</CODE>d by <VAR>feature</VAR> assuming the
-predicate <VAR>provided?</VAR> and association-list <VAR>catalog</VAR>.
-</P>
-</DL>
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(feature-&gt;requires 'batch (provided+? 'compiling) *catalog*)
- => (tree line-i/o databases parameters string-port
- pretty-print common-list-functions posix-time)
-
-(feature-&gt;requires 'batch provided? *catalog*)
- => (tree line-i/o databases parameters string-port
- pretty-print common-list-functions)
-
-(feature-&gt;requires 'batch provided? '((batch . &quot;batch&quot;)))
- => (tree line-i/o databases parameters string-port
- pretty-print common-list-functions)
-</pre></td></tr></table><P>
-
-<A NAME="IDX40"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>file-&gt;loads</B> <I>file</I>
-<DD><P>
-
-Returns a list of strings naming existing files loaded (load
-slib:load slib:load-source macro:load defmacro:load syncase:load
-synclo:load macwork:load) by <VAR>file</VAR> or any of the files it loads.
-</P>
-</DL>
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(file-&gt;loads (in-vicinity (library-vicinity) &quot;scainit.scm&quot;))
- => (&quot;/usr/local/lib/slib/scaexpp.scm&quot;
- &quot;/usr/local/lib/slib/scaglob.scm&quot;
- &quot;/usr/local/lib/slib/scaoutp.scm&quot;)
-</pre></td></tr></table><P>
-
-<A NAME="IDX41"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>load-&gt;path</B> <I>exp</I>
-<DD><P>
-
-Given a <CODE>(load '&lt;expr&gt;)</CODE>, where &lt;expr&gt; is a string or vicinity
-stuff), <CODE>(load-&gt;path &lt;expr&gt;)</CODE> figures a path to the file.
-<CODE>load-&gt;path</CODE> returns that path if it names an existing file; otherwise #f.
-</P>
-</DL>
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(load-&gt;path '(in-vicinity (library-vicinity) &quot;mklibcat&quot;))
- => &quot;/usr/local/lib/slib/mklibcat.scm&quot;
-</pre></td></tr></table><P>
-
-<A NAME="IDX42"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>file-&gt;definitions</B> <I>file</I>
-<DD><P>
-
-Returns a list of the identifier symbols defined by SLIB (or
-SLIB-style) file <VAR>file</VAR>.
-</P>
-</DL>
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(file-&gt;definitions &quot;random.scm&quot;)
- => (*random-state* make-random-state
- seed-&gt;random-state copy-random-state random
- random:chunk)
-</pre></td></tr></table><P>
-
-<A NAME="IDX43"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>file-&gt;exports</B> <I>file</I>
-<DD><P>
-
-Returns a list of the identifier symbols exported (advertised) by
-SLIB (or SLIB-style) file <VAR>file</VAR>.
-</P>
-</DL>
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(file-&gt;exports &quot;random.scm&quot;)
- => (make-random-state seed-&gt;random-state
- copy-random-state random)
-
-(file-&gt;exports &quot;randinex.scm&quot;)
- => (random:solid-sphere! random:hollow-sphere!
- random:normal-vector! random:normal
- random:exp random:uniform)
-</pre></td></tr></table><P>
-
-<A NAME="IDX44"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>feature-&gt;export-alist</B> <I>feature catalog</I>
-<DD><P>
-
-Returns a list of lists; each sublist holding the name of the file
-implementing <VAR>feature</VAR>, and the identifier symbols exported (advertised) by
-SLIB (or SLIB-style) feature <VAR>feature</VAR>, in <VAR>catalog</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX45"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>feature-&gt;exports</B> <I>feature catalog</I>
-<DD><P>
-
-Returns a list of all exports of <VAR>feature</VAR>.
-</P>
-</DL>
-In the case of <CODE>aggregate</CODE> features, more than one file may
-have export lists to report:
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(feature-&gt;export-alist 'r5rs slib:catalog))
- => ((&quot;/usr/local/lib/slib/values.scm&quot;
- call-with-values values)
- (&quot;/usr/local/lib/slib/mbe.scm&quot;
- define-syntax macro:expand
- macro:load macro:eval)
- (&quot;/usr/local/lib/slib/eval.scm&quot;
- eval scheme-report-environment
- null-environment interaction-environment))
-
-(feature-&gt;export-alist 'stdio *catalog*)
- => ((&quot;/usr/local/lib/slib/scanf.scm&quot;
- fscanf sscanf scanf scanf-read-list)
- (&quot;/usr/local/lib/slib/printf.scm&quot;
- sprintf printf fprintf)
- (&quot;/usr/local/lib/slib/stdio.scm&quot;
- stderr stdout stdin))
-
-(feature-&gt;exports 'stdio slib:catalog)
- => (fscanf sscanf scanf scanf-read-list
- sprintf printf fprintf stderr stdout stdin)
-</pre></td></tr></table><P>
-
-<A NAME="Module Semantics"></A>
-<HR SIZE="6">
-<A NAME="SEC10"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC9"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC11"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC1"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC7"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC13"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 1.6.3 Module Semantics </H3>
-<!--docid::SEC10::-->
-<P>
-
-For the purpose of compiling Scheme code, each top-level
-<CODE>require</CODE> makes the identifiers exported by its feature's module
-<CODE>defined</CODE> (or defmacroed or defined-syntaxed) within the file
-(being compiled) headed with those requires.
-</P>
-<P>
-
-Top-level occurrences of <CODE>require-if</CODE> make defined the exports
-from the module named by the second argument <EM>if</EM> the
-<VAR>feature-expression</VAR> first argument is true in the target
-environment. The target feature <CODE>compiling</CODE> should be provided
-during this phase of compilation.
-</P>
-<P>
-
-Non-top-level SLIB occurences of <CODE>require</CODE> and <CODE>require-if</CODE>
-of quoted features can be ignored by compilers. The SLIB modules will
-all have top-level constructs for those features.
-</P>
-<P>
-
-<A NAME="IDX46"></A>
-Note that aggregate catalog entries import more than one module.
-Implementations of <CODE>require</CODE> may or may <EM>not</EM> be transitive;
-code which uses module exports without requiring the providing module
-is in error.
-</P>
-<P>
-
-In the SLIB modules <CODE>modular</CODE>, <CODE>batch</CODE>, <CODE>hash</CODE>,
-<CODE>common-lisp-time</CODE>, <CODE>commutative-ring</CODE>, <CODE>charplot</CODE>,
-<CODE>logical</CODE>, <CODE>common-list-functions</CODE>, <CODE>coerce</CODE> and
-<CODE>break</CODE> there is code conditional on features being
-<CODE>provided?</CODE>. Most are testing for the presence of features which
-are intrinsic to implementations (inexacts, bignums, ...).
-</P>
-<P>
-
-In all cases these <CODE>provided?</CODE> tests can be evaluated at
-compile-time using <CODE>feature-eval</CODE>
-(see section <A HREF="slib_1.html#SEC2">feature-eval</A>). The simplest way to compile these
-constructs may be to treat <CODE>provided?</CODE> as a macro.
-</P>
-<P>
-
-<A NAME="Top-level Variable References"></A>
-<HR SIZE="6">
-<A NAME="SEC11"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC10"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC12"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC1"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC7"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC13"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 1.6.4 Top-level Variable References </H3>
-<!--docid::SEC11::-->
-<P>
-
-<CODE>(require 'top-refs)</CODE>
-<A NAME="IDX47"></A>
-<A NAME="IDX48"></A>
-<A NAME="IDX49"></A>
-</P>
-<P>
-
-These procedures complement those in <A HREF="slib_1.html#SEC9">1.6.2 Module Manifests</A> by
-finding the top-level variable references in Scheme source code.
-They work by traversing expressions and definitions, keeping track
-of bindings encountered. It is certainly possible to foil these
-functions, but they return useful information about SLIB source
-code.
-</P>
-<P>
-
-<A NAME="IDX50"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>top-refs</B> <I>obj</I>
-<DD><P>
-
-Returns a list of the top-level variables referenced by the Scheme
-expression <VAR>obj</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX51"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>top-refs&lt;-file</B> <I>filename</I>
-<DD><P>
-
-<VAR>filename</VAR> should be a string naming an existing file containing Scheme
-source code. <CODE>top-refs&lt;-file</CODE> returns a list of the top-level variable references
-made by expressions in the file named by <VAR>filename</VAR>.
-</P>
-<P>
-
-Code in modules which <VAR>filename</VAR> <CODE>require</CODE>s is not traversed. Code in
-files loaded from top-level <EM>is</EM> traversed if the expression
-argument to <CODE>load</CODE>, <CODE>slib:load</CODE>, <CODE>slib:load-source</CODE>,
-<CODE>macro:load</CODE>, <CODE>defmacro:load</CODE>, <CODE>synclo:load</CODE>,
-<CODE>syncase:load</CODE>, or <CODE>macwork:load</CODE> is a literal string
-constant or composed of combinations of vicinity functions and
-string literal constants; and the resulting file exists (possibly
-with &quot;.scm&quot; appended).
-</P>
-</DL>
-The following function parses an <EM>Info</EM> Index.
-<A NAME="IDX52"></A>
-<A NAME="DOCF2" HREF="slib_fot.html#FOOT2">(2)</A>
-<P>
-
-<A NAME="IDX53"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>exports&lt;-info-index</B> <I>file n <small>...</small></I>
-<DD><P>
-
-<VAR>n</VAR> <small>...</small> must be an increasing series of positive integers.
-<CODE>exports&lt;-info-index</CODE> returns a list of all the identifiers appearing in the <VAR>n</VAR>th
-<small>...</small> (info) indexes of <VAR>file</VAR>. The identifiers have the case that
-the implementation's <CODE>read</CODE> uses for symbols. Identifiers
-containing spaces (eg. <CODE>close-base on base-table</CODE>) are
-<EM>not</EM> included.
-</P>
-<P>
-
-Each info index is headed by a `<SAMP>* Menu:</SAMP>' line. To list the
-symbols in the first and third info indexes do:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(exports&lt;-info-index &quot;slib.info&quot; 1 3)
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="Module Analysis"></A>
-<HR SIZE="6">
-<A NAME="SEC12"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC11"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC13"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC1"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC7"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC13"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 1.6.5 Module Analysis </H3>
-<!--docid::SEC12::-->
-<P>
-
-<CODE>(require 'vet)</CODE>
-<A NAME="IDX54"></A>
-</P>
-<P>
-
-<A NAME="IDX55"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>vet-slib</B>
-<DD><P>
-
-Using the procedures in the <CODE>top-refs</CODE> and <CODE>manifest</CODE>
-modules, <CODE>vet-slib</CODE> analyzes each SLIB module, reporting about any
-procedure or macro defined whether it is:
-</P>
-<P>
-
-</P>
-<DL COMPACT>
-
-<DT>orphaned
-<DD>defined, not called, not exported;
-<DT>missing
-<DD>called, not defined, and not exported by its <CODE>require</CODE>d modules;
-<DT>undocumented-export
-<DD>Exported by module, but no index entry in `<TT>slib.info</TT>';
-<P>
-
-</DL>
-<P>
-
-And for the library as a whole:
-</P>
-<P>
-
-</P>
-<DL COMPACT>
-
-<DT>documented-unexport
-<DD>Index entry in `<TT>slib.info</TT>', but no module exports it.
-<P>
-
-</DL>
-<P>
-
-This straightforward analysis caught three full days worth of
-never-executed branches, transitive require assumptions, spelling
-errors, undocumented procedures, missing procedures, and cyclic
-dependencies in SLIB.
-</P>
-</DL>
-<P>
-
-<A NAME="Universal SLIB Procedures"></A>
-<HR SIZE="6">
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_1.html#SEC1"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC13"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<BR>
-<FONT SIZE="-1">
-This document was generated
-by <I>Steve Langasek</I> on <I>January, 10 2005</I>
-using <A HREF="http://texi2html.cvshome.org"><I>texi2html</I></A>
-</FONT>
-
-</BODY>
-</HTML>
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- "http://www.w3.org/TR/html40/loose.dtd">
-<HTML>
-<!-- Created on January, 10 2005 by texi2html 1.66 -->
-<!--
-Written by: Lionel Cons <Lionel.Cons@cern.ch> (original author)
- Karl Berry <karl@freefriends.org>
- Olaf Bachmann <obachman@mathematik.uni-kl.de>
- and many others.
-Maintained by: Many creative people <dev@texi2html.cvshome.org>
-Send bugs and suggestions to <users@texi2html.cvshome.org>
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-<HEAD>
-<TITLE>SLIB: Variable Index</TITLE>
-
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-
-<A NAME="SEC293"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_19.html"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_11.html#SEC294"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_9.html#SEC292"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[ &gt;&gt; ]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H1> Variable Index </H1>
-<!--docid::SEC293::-->
-<P>
-
-This is an alphabetical list of all the global variables in SLIB.
-</P>
-<P>
-
-</P>
-<table><tr><th valign=top>Jump to: &nbsp; </th><td><A HREF="slib_10.html#vr_*" style="text-decoration:none"><b>*</b></A>
- &nbsp;
-<BR>
-<A HREF="slib_10.html#vr_A" style="text-decoration:none"><b>A</b></A>
- &nbsp;
-<A HREF="slib_10.html#vr_B" style="text-decoration:none"><b>B</b></A>
- &nbsp;
-<A HREF="slib_10.html#vr_C" style="text-decoration:none"><b>C</b></A>
- &nbsp;
-<A HREF="slib_10.html#vr_D" style="text-decoration:none"><b>D</b></A>
- &nbsp;
-<A HREF="slib_10.html#vr_G" style="text-decoration:none"><b>G</b></A>
- &nbsp;
-<A HREF="slib_10.html#vr_L" style="text-decoration:none"><b>L</b></A>
- &nbsp;
-<A HREF="slib_10.html#vr_M" style="text-decoration:none"><b>M</b></A>
- &nbsp;
-<A HREF="slib_10.html#vr_N" style="text-decoration:none"><b>N</b></A>
- &nbsp;
-<A HREF="slib_10.html#vr_P" style="text-decoration:none"><b>P</b></A>
- &nbsp;
-<A HREF="slib_10.html#vr_R" style="text-decoration:none"><b>R</b></A>
- &nbsp;
-<A HREF="slib_10.html#vr_S" style="text-decoration:none"><b>S</b></A>
- &nbsp;
-<A HREF="slib_10.html#vr_T" style="text-decoration:none"><b>T</b></A>
- &nbsp;
-<A HREF="slib_10.html#vr_U" style="text-decoration:none"><b>U</b></A>
- &nbsp;
-</td></tr></table><P></P>
-<TABLE border=0>
-<TR><TD></TD><TH ALIGN=LEFT>Index Entry</TH><TH ALIGN=LEFT> Section</TH></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="vr_*"></A>*</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX231"><CODE>*argv*</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC62">4.4.1 Getopt</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1001"><CODE>*base-table-implementations*</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC166">6.2.1 Base Table</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX8"><CODE>*catalog*</CODE></A></TD><TD valign=top><A HREF="slib_1.html#SEC3">1.2 Require</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX355"><CODE>*http:byline*</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC74">4.8 HTTP and CGI</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX273"><CODE>*operating-system*</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC68">4.4.7 Batch</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX233"><CODE>*optarg*</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC62">4.4.1 Getopt</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX232"><CODE>*optind*</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC62">4.4.1 Getopt</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1563"><CODE>*qp-width*</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC265">7.5.2 Quick Print</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX538"><CODE>*random-state*</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC98">5.4.1 Exact Random Numbers</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX901"><CODE>*ruleset*</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC137">5.13 Rules and Rulesets</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX184"><CODE>*syn-defs*</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC49">4.1.3 Ruleset Definition and Use</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX185"><CODE>*syn-ignore-whitespace*</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC49">4.1.3 Ruleset Definition and Use</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX437"><CODE>*timezone*</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC83">4.12.1 Time Zone</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="vr_A"></A>A</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX568"><CODE>atm-hec-polynomial</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC101">5.6 Cyclic Checksum</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="vr_B"></A>B</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX620"><CODE>bottomedge</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC109">5.7.2.5 Legending</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="vr_C"></A>C</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX67"><CODE>char-code-limit</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC15">2.2 Configuration</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX581"><CODE>charplot:dimensions</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC103">5.7.1 Character Plotting</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX817"><CODE>CIEXYZ:A</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC129">5.9.5 Color Conversions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX818"><CODE>CIEXYZ:B</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC129">5.9.5 Color Conversions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX819"><CODE>CIEXYZ:C</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC129">5.9.5 Color Conversions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX816"><CODE>CIEXYZ:D50</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC129">5.9.5 Color Conversions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX815"><CODE>CIEXYZ:D65</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC129">5.9.5 Color Conversions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX820"><CODE>CIEXYZ:E</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC129">5.9.5 Color Conversions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX567"><CODE>crc-08-polynomial</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC101">5.6 Cyclic Checksum</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX566"><CODE>crc-10-polynomial</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC101">5.6 Cyclic Checksum</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX565"><CODE>crc-12-polynomial</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC101">5.6 Cyclic Checksum</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX564"><CODE>crc-16-polynomial</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC101">5.6 Cyclic Checksum</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX562"><CODE>crc-32-polynomial</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC101">5.6 Cyclic Checksum</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX563"><CODE>crc-ccitt-polynomial</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC101">5.6 Cyclic Checksum</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="vr_D"></A>D</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX722"><CODE>D50</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC121">5.9.1.2 White</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX721"><CODE>D65</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC121">5.9.1.2 White</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX438"><CODE>daylight?</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC83">4.12.1 Time Zone</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1585"><CODE>debug:max-count</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC268">7.5.5 Tracing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX906"><CODE>distribute*</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC137">5.13 Rules and Rulesets</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX907"><CODE>distribute/</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC137">5.13 Rules and Rulesets</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX569"><CODE>dowcrc-polynomial</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC101">5.6 Cyclic Checksum</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="vr_G"></A>G</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX629"><CODE>graph:dimensions</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC110">5.7.2.6 Legacy Plotting</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX611"><CODE>graphrect</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC108">5.7.2.4 Rectangles</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="vr_L"></A>L</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX621"><CODE>leftedge</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC109">5.7.2.5 Legending</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="vr_M"></A>M</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX68"><CODE>most-positive-fixnum</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC15">2.2 Configuration</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="vr_N"></A>N</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX105"><CODE>nil</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC20">2.5.2 Legacy</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1063"><CODE>number-wt-type</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC179">6.3.1 Construction of Weight-Balanced Trees</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="vr_P"></A>P</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX610"><CODE>plotrect</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC108">5.7.2.4 Rectangles</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX526"><CODE>prime:prngs</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC96">5.3 Prime Numbers</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX528"><CODE>prime:trials</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC96">5.3 Prime Numbers</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="vr_R"></A>R</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX622"><CODE>rightedge</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC109">5.7.2.5 Legending</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="vr_S"></A>S</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX70"><CODE>slib:form-feed</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC15">2.2 Configuration</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX69"><CODE>slib:tab</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC15">2.2 Configuration</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX214"><CODE>stderr</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC55">4.3.1 stdio</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX212"><CODE>stdin</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC55">4.3.1 stdio</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX213"><CODE>stdout</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC55">4.3.1 stdio</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1064"><CODE>string-wt-type</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC179">6.3.1 Construction of Weight-Balanced Trees</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="vr_T"></A>T</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX104"><CODE>t</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC20">2.5.2 Legacy</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX191"><CODE>tok:decimal-digits</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC50">4.1.4 Token definition</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX193"><CODE>tok:lower-case</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC50">4.1.4 Token definition</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX192"><CODE>tok:upper-case</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC50">4.1.4 Token definition</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX194"><CODE>tok:whitespaces</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC50">4.1.4 Token definition</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX619"><CODE>topedge</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC109">5.7.2.5 Legending</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX439"><CODE>tzname</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC83">4.12.1 Time Zone</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="vr_U"></A>U</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX570"><CODE>usb-token-polynomial</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC101">5.6 Cyclic Checksum</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
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-<H1> Concept and Feature Index </H1>
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-</P>
-<table><tr><th valign=top>Jump to: &nbsp; </th><td><A HREF="slib_11.html#cp_A" style="text-decoration:none"><b>A</b></A>
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-</td></tr></table><P></P>
-<TABLE border=0>
-<TR><TD></TD><TH ALIGN=LEFT>Index Entry</TH><TH ALIGN=LEFT> Section</TH></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="cp_A"></A>A</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX16">aggregate</A></TD><TD valign=top><A HREF="slib_1.html#SEC4">1.3 Library Catalogs</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX46">aggregate</A></TD><TD valign=top><A HREF="slib_1.html#SEC10">1.6.3 Module Semantics</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1412">alarm</A></TD><TD valign=top><A HREF="slib_7.html#SEC230">7.3.5 Multi-Processing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1413">alarm-interrupt</A></TD><TD valign=top><A HREF="slib_7.html#SEC230">7.3.5 Multi-Processing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1143"><CODE>alist</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC188">7.1.4 Association Lists</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX994"><CODE>alist-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC166">6.2.1 Base Table</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1002"><CODE>alist-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC167">6.2.1.1 The Base</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1034"><CODE>alist-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC176">6.2.3 Relational Database Objects</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX405">ange-ftp</A></TD><TD valign=top><A HREF="slib_4.html#SEC77">File-system Locators and Predicates</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX692">appearance</A></TD><TD valign=top><A HREF="slib_5.html#SEC115">Surface Attributes</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX699">appearance</A></TD><TD valign=top><A HREF="slib_5.html#SEC115">Surface Attributes</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1094"><CODE>array</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC185">7.1.1 Arrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1136"><CODE>array-for-each</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC187">7.1.3 Array Mapping</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1145">association function</A></TD><TD valign=top><A HREF="slib_7.html#SEC188">7.1.4 Association Lists</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX296">attribute-value</A></TD><TD valign=top><A HREF="slib_4.html#SEC69">4.5 HTML</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX919">Auto-sharing</A></TD><TD valign=top><A HREF="slib_6.html#SEC143">Database Sharing</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="cp_B"></A>B</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1052">balanced binary trees</A></TD><TD valign=top><A HREF="slib_6.html#SEC178">6.3 Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX383">base</A></TD><TD valign=top><A HREF="slib_4.html#SEC76">4.10 URI</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX993">base-table</A></TD><TD valign=top><A HREF="slib_6.html#SEC166">6.2.1 Base Table</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX271"><CODE>batch</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC68">4.4.7 Batch</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX292"><CODE>batch</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC68">4.4.7 Batch</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1166">binary</A></TD><TD valign=top><A HREF="slib_7.html#SEC189">7.1.5 Byte</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1167">binary</A></TD><TD valign=top><A HREF="slib_7.html#SEC189">7.1.5 Byte</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1053">binary trees</A></TD><TD valign=top><A HREF="slib_6.html#SEC178">6.3 Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1056">binary trees, as discrete maps</A></TD><TD valign=top><A HREF="slib_6.html#SEC178">6.3 Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1055">binary trees, as sets</A></TD><TD valign=top><A HREF="slib_6.html#SEC178">6.3 Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX172">binding power</A></TD><TD valign=top><A HREF="slib_4.html#SEC47">4.1.1 Precedence Parsing Overview</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1570"><CODE>break</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC267">7.5.4 Breakpoints</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1572"><CODE>break</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC267">7.5.4 Breakpoints</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1151"><CODE>byte</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC189">7.1.5 Byte</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1153">byte</A></TD><TD valign=top><A HREF="slib_7.html#SEC189">7.1.5 Byte</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1183"><CODE>byte-number</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC190">7.1.6 Byte/Number Conversions</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="cp_C"></A>C</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX425">calendar time</A></TD><TD valign=top><A HREF="slib_4.html#SEC82">4.12 Time and Date</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX442">calendar time</A></TD><TD valign=top><A HREF="slib_4.html#SEC84">4.12.2 Posix Time</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX441"><CODE>Calendar-Time</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC84">4.12.2 Posix Time</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX443">caltime</A></TD><TD valign=top><A HREF="slib_4.html#SEC84">4.12.2 Posix Time</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX847">canonical</A></TD><TD valign=top><A HREF="slib_5.html#SEC130">5.9.6 Color Names</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX896">careful</A></TD><TD valign=top><A HREF="slib_5.html#SEC136">5.12 Commutative Rings</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX7">catalog</A></TD><TD valign=top><A HREF="slib_1.html#SEC3">1.2 Require</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX13">Catalog File</A></TD><TD valign=top><A HREF="slib_1.html#SEC4">1.3 Library Catalogs</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1621">certificate</A></TD><TD valign=top><A HREF="slib_7.html#SEC272">File Locking</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1622">certificate</A></TD><TD valign=top><A HREF="slib_7.html#SEC272">File Locking</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX352"><CODE>cgi</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC74">4.8 HTTP and CGI</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1330"><CODE>chapter-order</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC215">7.2.3 Chapter Ordering</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX580"><CODE>charplot</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC103">5.7.1 Character Plotting</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX583"><CODE>charplot</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC103">5.7.1 Character Plotting</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX749">Chroma</A></TD><TD valign=top><A HREF="slib_5.html#SEC125">Cylindrical Coordinates</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX773"><CODE>cie1931</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC127">5.9.3 Spectra</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX771"><CODE>cie1964</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC127">5.9.3 Spectra</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX775"><CODE>ciexyz</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC127">5.9.3 Spectra</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX725"><CODE>CIEXYZ</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC123">Measurement-based Color Spaces</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX575">cksum-string</A></TD><TD valign=top><A HREF="slib_5.html#SEC101">5.6 Cyclic Checksum</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1385"><CODE>coerce</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC226">7.3.1 Type Coercion</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1216"><CODE>collect</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC194">7.1.9 Collections</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1227"><CODE>collect</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC194">7.1.9 Collections</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX855"><CODE>color-database</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC131">Dictionary Creation</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX845"><CODE>color-names</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC130">5.9.6 Color Names</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX241">command line</A></TD><TD valign=top><A HREF="slib_4.html#SEC64">4.4.3 Command Line</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX242">command line</A></TD><TD valign=top><A HREF="slib_4.html#SEC64">4.4.3 Command Line</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX180"><CODE>commentfix</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC48">4.1.2 Rule Types</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1228"><CODE>common-list-functions</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC194">7.1.9 Collections</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1285"><CODE>common-list-functions</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC208">7.2.1 Common List Functions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX894"><CODE>commutative-ring</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC136">5.12 Commutative Rings</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX15">compiled</A></TD><TD valign=top><A HREF="slib_1.html#SEC4">1.3 Library Catalogs</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX36">compiling</A></TD><TD valign=top><A HREF="slib_1.html#SEC8">1.6.1 Module Conventions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX444"><CODE>Coordinated Universal Time</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC84">4.12.2 Posix Time</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_8.html#IDX1650">copyright</A></TD><TD valign=top><A HREF="slib_8.html#SEC287">8.4 Copyrights</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX561"><CODE>crc</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC101">5.6 Cyclic Checksum</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX573"><CODE>crc</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC101">5.6 Cyclic Checksum</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1632"><CODE>cvs</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC275">7.6.3 CVS</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="cp_D"></A>D</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX977"><CODE>database-commands</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC161">6.1.4.6 Command Example</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX290"><CODE>databases</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC68">4.4.7 Batch</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX918"><CODE>databases</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC142">6.1.1 Using Databases</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX975"><CODE>databases</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC158">6.1.4.3 Define-tables Example</A></TD></TR>
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-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX868"><CODE>daylight</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC133">5.9.7 Daylight</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX328"><CODE>db-&gt;html</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC71">4.7 HTML Tables</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1564"><CODE>debug</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC266">7.5.3 Debug</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1565"><CODE>debug</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC266">7.5.3 Debug</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1573"><CODE>debug</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC267">7.5.4 Breakpoints</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX17">defmacro</A></TD><TD valign=top><A HREF="slib_1.html#SEC4">1.3 Library Catalogs</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX114"><CODE>defmacroexpand</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC23">3.1.1 Defmacroexpand</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX423"><CODE>defmacroexpand</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC81">4.11.3 Pretty-Print</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX183"><CODE>delim</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC48">4.1.2 Rule Types</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1268">dequeues</A></TD><TD valign=top><A HREF="slib_7.html#SEC205">7.1.17 Queues</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX910"><CODE>determinant</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC139">5.15 Matrix Algebra</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1375"><CODE>diff</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC224">7.2.10 Sequence Comparison</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1609"><CODE>directory</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC270">7.6.1 Directories</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX559">Discrete Fourier Transform</A></TD><TD valign=top><A HREF="slib_5.html#SEC100">5.5 Fast Fourier Transform</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1058">discrete maps, using binary trees</A></TD><TD valign=top><A HREF="slib_6.html#SEC178">6.3 Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_8.html#IDX1645"><CODE>DrScheme</CODE></A></TD><TD valign=top><A HREF="slib_8.html#SEC283">8.1.5 Implementation-specific Instructions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1234"><CODE>dynamic</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC195">7.1.10 Dynamic Data Type</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1468"><CODE>dynamic-wind</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC245">7.4.10 Dynamic-Wind</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="cp_E"></A>E</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX764"><CODE>e-sRGB</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC126">Digital Color Spaces</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1618">emacs</A></TD><TD valign=top><A HREF="slib_7.html#SEC272">File Locking</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1620">emacs</A></TD><TD valign=top><A HREF="slib_7.html#SEC272">File Locking</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX588">Encapsulated-PostScript</A></TD><TD valign=top><A HREF="slib_5.html#SEC104">5.7.2 PostScript Graphing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX393">escaped</A></TD><TD valign=top><A HREF="slib_4.html#SEC76">4.10 URI</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX900">Euclidean Domain</A></TD><TD valign=top><A HREF="slib_5.html#SEC136">5.12 Commutative Rings</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1470"><CODE>eval</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC246">7.4.11 Eval</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX102">exchanger</A></TD><TD valign=top><A HREF="slib_2.html#SEC19">2.5.1 Mutual Exclusion</A></TD></TR>
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-<TR><TH><A NAME="fn_C"></A>C</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1239"><CODE>call-with-dynamic-binding</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC195">7.1.10 Dynamic Data Type</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1401"><CODE>call-with-input-string</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC228">7.3.3 String Ports</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX81"><CODE>call-with-open-ports</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC16">2.3 Input/Output</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX82"><CODE>call-with-open-ports</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC16">2.3 Input/Output</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1400"><CODE>call-with-output-string</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC228">7.3.3 String Ports</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX268"><CODE>call-with-tmpnam</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC67">4.4.6 Filenames</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX269"><CODE>call-with-tmpnam</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC67">4.4.6 Filenames</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX270"><CODE>call-with-tmpnam</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC67">4.4.6 Filenames</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1478"><CODE>call-with-values</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC247">7.4.12 Values</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX139"><CODE>capture-syntactic-environment</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC33">3.5.1.2 Transformer Definition</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1509"><CODE>car+cdr</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC252">Selectors</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1049"><CODE>cart-prod-tables on relational-database</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC177">6.2.4 Database Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX338"><CODE>catalog-&gt;html</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC71">4.7 HTML Tables</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1012"><CODE>catalog-id on base-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC168">6.2.1.2 Base Tables</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX35"><CODE>catalog:read</CODE></A></TD><TD valign=top><A HREF="slib_1.html#SEC6">1.5 Catalog Vicinities</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX468"><CODE>cdna:base-count</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC86">4.13 NCBI-DNA</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX469"><CODE>cdna:report-base-count</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC86">4.13 NCBI-DNA</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX361"><CODE>cgi:serve-query</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC74">4.8 HTTP and CGI</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1335"><CODE>chap:next-string</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC215">7.2.3 Chapter Ordering</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1333"><CODE>chap:string&lt;=?</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC215">7.2.3 Chapter Ordering</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1331"><CODE>chap:string&lt;?</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC215">7.2.3 Chapter Ordering</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1334"><CODE>chap:string&gt;=?</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC215">7.2.3 Chapter Ordering</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1332"><CODE>chap:string&gt;?</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC215">7.2.3 Chapter Ordering</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX254"><CODE>check-parameters</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC65">4.4.4 Parameter lists</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX795"><CODE>chromaticity-&gt;CIEXYZ</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC127">5.9.3 Spectra</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX796"><CODE>chromaticity-&gt;whitepoint</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC127">5.9.3 Spectra</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX803"><CODE>CIE:DE*</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC128">5.9.4 Color Difference Metrics</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX804"><CODE>CIE:DE*</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC128">5.9.4 Color Difference Metrics</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX807"><CODE>CIE:DE*94</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC128">5.9.4 Color Difference Metrics</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX808"><CODE>CIE:DE*94</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC128">5.9.4 Color Difference Metrics</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX727"><CODE>ciexyz-&gt;color</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC123">Measurement-based Color Spaces</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX840"><CODE>CIEXYZ-&gt;e-sRGB</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC129">5.9.5 Color Conversions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX828"><CODE>CIEXYZ-&gt;L*a*b*</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC129">5.9.5 Color Conversions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX829"><CODE>CIEXYZ-&gt;L*a*b*</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC129">5.9.5 Color Conversions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX824"><CODE>CIEXYZ-&gt;L*u*v*</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC129">5.9.5 Color Conversions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX825"><CODE>CIEXYZ-&gt;L*u*v*</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC129">5.9.5 Color Conversions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX822"><CODE>CIEXYZ-&gt;RGB709</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC129">5.9.5 Color Conversions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX834"><CODE>CIEXYZ-&gt;sRGB</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC129">5.9.5 Color Conversions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX836"><CODE>CIEXYZ-&gt;xRGB</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC129">5.9.5 Color Conversions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1492"><CODE>circular-list</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC250">Constructors</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1494"><CODE>circular-list?</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC251">Predicates</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX572"><CODE>cksum</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC101">5.6 Cyclic Checksum</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX574"><CODE>cksum</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC101">5.6 Cyclic Checksum</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX881"><CODE>clear-sky-color-xyy</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC133">5.9.7 Daylight</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX614"><CODE>clip-to-rect</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC108">5.7.2.4 Rectangles</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1008"><CODE>close-base on base-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC167">6.2.1.1 The Base</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX928"><CODE>close-database</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC143">Database Sharing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1037"><CODE>close-database on relational-database</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC177">6.2.4 Database Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX80"><CODE>close-port</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC16">2.3 Input/Output</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX961"><CODE>close-table on relational-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC153">6.1.2.6 Table Administration</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX809"><CODE>CMC-DE</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC128">5.9.4 Color Difference Metrics</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX810"><CODE>CMC-DE</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC128">5.9.4 Color Difference Metrics</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX811"><CODE>CMC-DE</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC128">5.9.4 Color Difference Metrics</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX812"><CODE>CMC-DE</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC128">5.9.4 Color Difference Metrics</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX813"><CODE>CMC:DE*</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC128">5.9.4 Color Difference Metrics</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX814"><CODE>CMC:DE*</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC128">5.9.4 Color Difference Metrics</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX465"><CODE>codons&lt;-cdna</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC86">4.13 NCBI-DNA</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1387"><CODE>coerce</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC226">7.3.1 Type Coercion</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1219"><CODE>collection?</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC194">7.1.9 Collections</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX729"><CODE>color-&gt;ciexyz</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC123">Measurement-based Color Spaces</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX769"><CODE>color-&gt;e-srgb</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC126">Digital Color Spaces</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX739"><CODE>color-&gt;l*a*b*</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC124">Perceptual Uniformity</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX740"><CODE>color-&gt;l*a*b*</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC124">Perceptual Uniformity</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX754"><CODE>color-&gt;l*c*h</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC125">Cylindrical Coordinates</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX755"><CODE>color-&gt;l*c*h</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC125">Cylindrical Coordinates</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX745"><CODE>color-&gt;l*u*v*</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC124">Perceptual Uniformity</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX746"><CODE>color-&gt;l*u*v*</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC124">Perceptual Uniformity</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX733"><CODE>color-&gt;rgb709</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC123">Measurement-based Color Spaces</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX761"><CODE>color-&gt;srgb</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC126">Digital Color Spaces</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX717"><CODE>color-&gt;string</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC120">5.9.1.1 External Representation</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX762"><CODE>color-&gt;xrgb</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC126">Digital Color Spaces</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX850"><CODE>color-dictionaries-&gt;lookup</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC130">5.9.6 Color Names</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX851"><CODE>color-dictionary</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC130">5.9.6 Color Names</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX852"><CODE>color-dictionary</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC130">5.9.6 Color Names</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX849"><CODE>color-name-&gt;color</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC130">5.9.6 Color Names</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX848"><CODE>color-name:canonicalize</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC130">5.9.6 Color Names</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX712"><CODE>color-precision</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC119">5.9.1 Color Data-Type</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX711"><CODE>color-space</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC119">5.9.1 Color Data-Type</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX713"><CODE>color-white-point</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC119">5.9.1 Color Data-Type</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX728"><CODE>color:ciexyz</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC123">Measurement-based Color Spaces</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX766"><CODE>color:e-srgb</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC126">Digital Color Spaces</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX767"><CODE>color:e-srgb</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC126">Digital Color Spaces</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX768"><CODE>color:e-srgb</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC126">Digital Color Spaces</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX737"><CODE>color:l*a*b*</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC124">Perceptual Uniformity</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX738"><CODE>color:l*a*b*</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC124">Perceptual Uniformity</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX752"><CODE>color:l*c*h</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC125">Cylindrical Coordinates</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX753"><CODE>color:l*c*h</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC125">Cylindrical Coordinates</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX743"><CODE>color:l*u*v*</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC124">Perceptual Uniformity</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX744"><CODE>color:l*u*v*</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC124">Perceptual Uniformity</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX821"><CODE>color:linear-transform</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC129">5.9.5 Color Conversions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX732"><CODE>color:rgb709</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC123">Measurement-based Color Spaces</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX759"><CODE>color:srgb</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC126">Digital Color Spaces</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX708"><CODE>color?</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC119">5.9.1 Color Data-Type</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX709"><CODE>color?</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC119">5.9.1 Color Data-Type</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX958"><CODE>column-domains on relational-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC153">6.1.2.6 Table Administration</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX957"><CODE>column-foreigns on relational-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC153">6.1.2.6 Table Administration</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX956"><CODE>column-names on relational-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC153">6.1.2.6 Table Administration</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX592"><CODE>column-range</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC105">5.7.2.1 Column Ranges</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX959"><CODE>column-types on relational-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC153">6.1.2.6 Table Administration</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX595"><CODE>combine-ranges</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC105">5.7.2.1 Column Ranges</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX904"><CODE>combined-rulesets</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC137">5.13 Rules and Rulesets</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX905"><CODE>combined-rulesets</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC137">5.13 Rules and Rulesets</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX327"><CODE>command-&gt;p-specs</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC70">4.6 HTML Forms</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX344"><CODE>command:make-editable-table</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC72">4.7.1 HTML editing tables</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX339"><CODE>command:modify-table</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC72">4.7.1 HTML editing tables</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX340"><CODE>command:modify-table</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC72">4.7.1 HTML editing tables</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX341"><CODE>command:modify-table</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC72">4.7.1 HTML editing tables</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX342"><CODE>command:modify-table</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC72">4.7.1 HTML editing tables</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1520"><CODE>concatenate</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC253">Miscellaneous</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1521"><CODE>concatenate!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC253">Miscellaneous</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1481"><CODE>cond-expand</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC248">7.4.13 SRFI</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1487"><CODE>cons*</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC250">Constructors</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1575"><CODE>continue</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC267">7.5.4 Breakpoints</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1576"><CODE>continue</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC267">7.5.4 Breakpoints</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX714"><CODE>convert-color</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC119">5.9.1 Color Data-Type</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX715"><CODE>convert-color</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC119">5.9.1 Color Data-Type</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX716"><CODE>convert-color</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC119">5.9.1 Color Data-Type</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX486"><CODE>copy-bit</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC91">5.1.2 Bit Within Word</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX489"><CODE>copy-bit-field</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC92">5.1.3 Fields of Bits</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1289"><CODE>copy-list</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC209">7.2.1.1 List construction</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX539"><CODE>copy-random-state</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC98">5.4.1 Exact Random Numbers</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX540"><CODE>copy-random-state</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC98">5.4.1 Exact Random Numbers</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1329"><CODE>copy-tree</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC214">7.2.2 Tree operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1531"><CODE>count</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC253">Miscellaneous</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1374"><CODE>count-newlines</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC223">7.2.9 String Search</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX576"><CODE>crc16</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC101">5.6 Cyclic Checksum</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX577"><CODE>crc16</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC101">5.6 Cyclic Checksum</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX578"><CODE>crc5</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC101">5.6 Cyclic Checksum</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX579"><CODE>crc5</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC101">5.6 Cyclic Checksum</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX571"><CODE>crc:make-table</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC101">5.6 Cyclic Checksum</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1097"><CODE>create-array</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC185">7.1.1 Arrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX920"><CODE>create-database</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC143">Database Sharing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1035"><CODE>create-database on relational-system</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC176">6.2.3 Relational Database Objects</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX587"><CODE>create-postscript-graph</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC104">5.7.2 PostScript Graphing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1044"><CODE>create-table on relational-database</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC177">6.2.4 Database Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1045"><CODE>create-table on relational-database</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC177">6.2.4 Database Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1046"><CODE>create-view on relational-database</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC177">6.2.4 Database Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX908"><CODE>cring:define-rule</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC137">5.13 Rules and Rulesets</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX909"><CODE>cring:define-rule</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC137">5.13 Rules and Rulesets</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX455"><CODE>ctime</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC84">4.12.2 Posix Time</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX456"><CODE>ctime</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC84">4.12.2 Posix Time</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1610"><CODE>current-directory</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC270">7.6.1 Directories</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX84"><CODE>current-error-port</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC16">2.3 Input/Output</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX189"><CODE>current-input-port</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC49">4.1.3 Ruleset Definition and Use</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1174"><CODE>current-input-port</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC189">7.1.5 Byte</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1171"><CODE>current-output-port</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC189">7.1.5 Byte</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX426"><CODE>current-time</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC82">4.12 Time and Date</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1634"><CODE>cvs-directories</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC275">7.6.3 CVS</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1633"><CODE>cvs-files</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC275">7.6.3 CVS</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1636"><CODE>cvs-repository</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC275">7.6.3 CVS</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1635"><CODE>cvs-root</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC275">7.6.3 CVS</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1637"><CODE>cvs-set-root!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC275">7.6.3 CVS</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1638"><CODE>cvs-vet</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC275">7.6.3 CVS</A></TD></TR>
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-<TR><TH><A NAME="fn_D"></A>D</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX347"><CODE>db-&gt;html-directory</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC73">4.7.2 HTML databases</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX348"><CODE>db-&gt;html-directory</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC73">4.7.2 HTML databases</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX346"><CODE>db-&gt;html-files</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC73">4.7.2 HTML databases</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX349"><CODE>db-&gt;netscape</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC73">4.7.2 HTML databases</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX350"><CODE>db-&gt;netscape</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC73">4.7.2 HTML databases</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX459"><CODE>decode-universal-time</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC85">4.12.3 Common-Lisp Time</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX965"><CODE>define-*commands*</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC156">6.1.4.1 Database Extension</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX169"><CODE>define-access-operation</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC43">3.8.3 Setters</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX983"><CODE>define-command</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC162">6.1.5 Database Macros</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX984"><CODE>define-command</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC162">6.1.5 Database Macros</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX932"><CODE>define-domains</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC145">Defining Tables</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX158"><CODE>define-operation</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC42">3.8.2 Interface</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX159"><CODE>define-predicate</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC42">3.8.2 Interface</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1553"><CODE>define-record-type</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC262">7.4.13.4 SRFI-9</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX153"><CODE>define-structure</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC38">3.6.2 Note from SLIB maintainer</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX121"><CODE>define-syntax</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC26">3.3.1 Caveat</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX985"><CODE>define-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC162">6.1.5 Database Macros</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX986"><CODE>define-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC162">6.1.5 Database Macros</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX934"><CODE>define-tables</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC145">Defining Tables</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX113"><CODE>defmacro</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC22">3.1 Defmacro</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX108"><CODE>defmacro:eval</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC22">3.1 Defmacro</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX115"><CODE>defmacro:expand*</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC23">3.1.1 Defmacroexpand</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX109"><CODE>defmacro:load</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC22">3.1 Defmacro</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX110"><CODE>defmacro?</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC22">3.1 Defmacro</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1467"><CODE>delay</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC244">7.4.9 Promises</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1318"><CODE>delete</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC212">7.2.1.4 Destructive list operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1023"><CODE>delete on base-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC171">6.2.1.5 Base Record Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1027"><CODE>delete* on base-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC173">6.2.1.7 Aggregate Base Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX973"><CODE>delete-domain on relational-database</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC157">6.1.4.2 Command Intrinsics</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX77"><CODE>delete-file</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC16">2.3 Input/Output</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1319"><CODE>delete-if</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC212">7.2.1.4 Destructive list operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1320"><CODE>delete-if-not</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC212">7.2.1.4 Destructive list operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1043"><CODE>delete-table on relational-database</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC177">6.2.4 Database Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1274"><CODE>dequeue!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC205">7.1.17 Queues</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1276"><CODE>dequeue-all!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC205">7.1.17 Queues</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX913"><CODE>determinant</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC139">5.15 Matrix Algebra</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1383"><CODE>diff:edit-length</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC224">7.2.10 Sequence Comparison</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1384"><CODE>diff:edit-length</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC224">7.2.10 Sequence Comparison</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1381"><CODE>diff:edits</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC224">7.2.10 Sequence Comparison</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1382"><CODE>diff:edits</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC224">7.2.10 Sequence Comparison</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1379"><CODE>diff:longest-common-subsequence</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC224">7.2.10 Sequence Comparison</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1380"><CODE>diff:longest-common-subsequence</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC224">7.2.10 Sequence Comparison</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX427"><CODE>difftime</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC82">4.12 Time and Date</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1612"><CODE>directory-for-each</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC270">7.6.1 Directories</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1613"><CODE>directory-for-each</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC270">7.6.1 Directories</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1614"><CODE>directory-for-each</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC270">7.6.1 Directories</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1221"><CODE>do-elts</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC194">7.1.9 Collections</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1223"><CODE>do-keys</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC194">7.1.9 Collections</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX974"><CODE>domain-checker on relational-database</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC157">6.1.4.2 Command Intrinsics</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1495"><CODE>dotted-list?</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC251">Predicates</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1510"><CODE>drop</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC252">Selectors</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1514"><CODE>drop-right</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC252">Selectors</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1515"><CODE>drop-right!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC252">Selectors</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1237"><CODE>dynamic-ref</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC195">7.1.10 Dynamic Data Type</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1238"><CODE>dynamic-set!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC195">7.1.10 Dynamic Data Type</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1469"><CODE>dynamic-wind</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC245">7.4.10 Dynamic-Wind</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1236"><CODE>dynamic?</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC195">7.1.10 Dynamic Data Type</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="fn_E"></A>E</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX841"><CODE>e-sRGB-&gt;CIEXYZ</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC129">5.9.5 Color Conversions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX765"><CODE>e-srgb-&gt;color</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC126">Digital Color Spaces</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX844"><CODE>e-sRGB-&gt;e-sRGB</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC129">5.9.5 Color Conversions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX843"><CODE>e-sRGB-&gt;sRGB</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC129">5.9.5 Color Conversions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1506"><CODE>eighth</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC252">Selectors</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1627"><CODE>emacs:backup-name</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC273">File Transactions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1231"><CODE>empty?</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC194">7.1.9 Collections</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX460"><CODE>encode-universal-time</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC85">4.12.3 Common-Lisp Time</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX461"><CODE>encode-universal-time</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC85">4.12.3 Common-Lisp Time</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1273"><CODE>enqueue!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC205">7.1.17 Queues</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1162"><CODE>equal?</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC189">7.1.5 Byte</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1471"><CODE>eval</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC246">7.4.11 Eval</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1297"><CODE>every</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC210">7.2.1.2 Lists as sets</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1230"><CODE>every?</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC194">7.1.9 Collections</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX53"><CODE>exports&lt;-info-index</CODE></A></TD><TD valign=top><A HREF="slib_1.html#SEC11">1.6.4 Top-level Variable References</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX512"><CODE>extended-euclid</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC95">5.2 Modular Arithmetic</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="fn_F"></A>F</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX532"><CODE>factor</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC96">5.3 Prime Numbers</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX44"><CODE>feature-&gt;export-alist</CODE></A></TD><TD valign=top><A HREF="slib_1.html#SEC9">1.6.2 Module Manifests</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX45"><CODE>feature-&gt;exports</CODE></A></TD><TD valign=top><A HREF="slib_1.html#SEC9">1.6.2 Module Manifests</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX39"><CODE>feature-&gt;requires</CODE></A></TD><TD valign=top><A HREF="slib_1.html#SEC9">1.6.2 Module Manifests</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX5"><CODE>feature-eval</CODE></A></TD><TD valign=top><A HREF="slib_1.html#SEC2">1.1 Feature</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX558"><CODE>fft</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC100">5.5 Fast Fourier Transform</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX560"><CODE>fft-1</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC100">5.5 Fast Fourier Transform</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1503"><CODE>fifth</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC252">Selectors</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX856"><CODE>file-&gt;color-dictionary</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC131">Dictionary Creation</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX857"><CODE>file-&gt;color-dictionary</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC131">Dictionary Creation</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX42"><CODE>file-&gt;definitions</CODE></A></TD><TD valign=top><A HREF="slib_1.html#SEC9">1.6.2 Module Manifests</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX43"><CODE>file-&gt;exports</CODE></A></TD><TD valign=top><A HREF="slib_1.html#SEC9">1.6.2 Module Manifests</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX40"><CODE>file-&gt;loads</CODE></A></TD><TD valign=top><A HREF="slib_1.html#SEC9">1.6.2 Module Manifests</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX38"><CODE>file-&gt;requires</CODE></A></TD><TD valign=top><A HREF="slib_1.html#SEC9">1.6.2 Module Manifests</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX76"><CODE>file-exists?</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC16">2.3 Input/Output</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1624"><CODE>file-lock!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC272">File Locking</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1625"><CODE>file-lock!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC272">File Locking</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1623"><CODE>file-lock-owner</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC272">File Locking</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1626"><CODE>file-unlock!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC272">File Locking</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX262"><CODE>filename:match-ci??</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC67">4.4.6 Filenames</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX261"><CODE>filename:match??</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC67">4.4.6 Filenames</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX266"><CODE>filename:substitute-ci??</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC67">4.4.6 Filenames</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX265"><CODE>filename:substitute??</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC67">4.4.6 Filenames</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX253"><CODE>fill-empty-parameters</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC65">4.4.4 Parameter lists</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX612"><CODE>fill-rect</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC108">5.7.2.4 Rectangles</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1534"><CODE>filter</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC255">Filtering and Partitioning</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1535"><CODE>filter!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC255">Filtering and Partitioning</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1537"><CODE>find</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC256">Searching</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1303"><CODE>find-if</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC210">7.2.1.2 Lists as sets</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1462"><CODE>find-ratio</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC243">7.4.8 Rationalize</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1463"><CODE>find-ratio-between</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC243">7.4.8 Rationalize</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1369"><CODE>find-string-from-port?</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC223">7.2.9 String Search</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1370"><CODE>find-string-from-port?</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC223">7.2.9 String Search</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1371"><CODE>find-string-from-port?</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC223">7.2.9 String Search</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1372"><CODE>find-string-from-port?</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC223">7.2.9 String Search</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1538"><CODE>find-tail</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC256">Searching</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1499"><CODE>first</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC252">Selectors</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX155"><CODE>fluid-let</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC39">3.7 Fluid-Let</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1225"><CODE>for-each-elt</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC194">7.1.9 Collections</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1224"><CODE>for-each-key</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC194">7.1.9 Collections</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1028"><CODE>for-each-key on base-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC173">6.2.1.7 Aggregate Base Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX947"><CODE>for-each-row on relational-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC150">6.1.2.3 Multi-Row Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX951"><CODE>for-each-row-in-order on relational-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC152">6.1.2.5 Sequential Index Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1466"><CODE>force</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC244">7.4.9 Promises</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX85"><CODE>force-output</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC16">2.3 Input/Output</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX86"><CODE>force-output</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC16">2.3 Input/Output</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX324"><CODE>form:delimited</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC70">4.6 HTML Forms</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX323"><CODE>form:element</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC70">4.6 HTML Forms</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX320"><CODE>form:image</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC70">4.6 HTML Forms</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX321"><CODE>form:reset</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC70">4.6 HTML Forms</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX318"><CODE>form:submit</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC70">4.6 HTML Forms</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX319"><CODE>form:submit</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC70">4.6 HTML Forms</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1502"><CODE>fourth</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC252">Selectors</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX217"><CODE>fprintf</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC56">4.3.2 Standard Formatted Output</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX228"><CODE>fscanf</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC60">4.3.3 Standard Formatted Input</A></TD></TR>
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-<H2 ALIGN="Left">Procedure and Macro Index: G -- I</H2>
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-</td></tr></table><P></P>
-<TABLE border=0>
-<TR><TD></TD><TH ALIGN=LEFT>Index Entry</TH><TH ALIGN=LEFT> Section</TH></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="fn_G"></A>G</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1217"><CODE>gen-elts</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC194">7.1.9 Collections</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1218"><CODE>gen-keys</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC194">7.1.9 Collections</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX408"><CODE>generic-write</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC79">4.11.1 Generic-Write</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX107"><CODE>gentemp</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC22">3.1 Defmacro</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX936"><CODE>get on relational-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC147">6.1.2 Table Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX943"><CODE>get* on relational-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC149">6.1.2.2 Match-Keys</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX457"><CODE>get-decoded-time</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC85">4.12.3 Common-Lisp Time</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX326"><CODE>get-foreign-choices</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC70">4.6 HTML Forms</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1258"><CODE>get-method</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC199">7.1.14 Procedures</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX458"><CODE>get-universal-time</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC85">4.12.3 Common-Lisp Time</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1607"><CODE>getenv</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC269">7.6 System Interface</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX234"><CODE>getopt</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC62">4.4.1 Getopt</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX236"><CODE><CODE>getopt--</CODE></CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC63">4.4.2 Getopt---</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX258"><CODE>getopt-&gt;arglist</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC66">4.4.5 Getopt Parameter lists</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX257"><CODE>getopt-&gt;parameter-list</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC66">4.4.5 Getopt Parameter lists</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX401"><CODE>glob-pattern?</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC77">File-system Locators and Predicates</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX450"><CODE>gmktime</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC84">4.12.2 Posix Time</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX447"><CODE>gmtime</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC84">4.12.2 Posix Time</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX893"><CODE>golden-section-search</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC135">5.11 Minimizing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX503"><CODE>gray-code-&gt;integer</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC94">5.1.5 Gray code</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX507"><CODE>gray-code&lt;=?</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC94">5.1.5 Gray code</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX505"><CODE>gray-code&lt;?</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC94">5.1.5 Gray code</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX508"><CODE>gray-code&gt;=?</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC94">5.1.5 Gray code</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX506"><CODE>gray-code&gt;?</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC94">5.1.5 Gray code</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX846"><CODE>grey</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC130">5.9.6 Color Names</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX628"><CODE>grid-horizontals</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC109">5.7.2.5 Legending</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX627"><CODE>grid-verticals</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC109">5.7.2.5 Legending</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX454"><CODE>gtime</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC84">4.12.2 Posix Time</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="fn_H"></A>H</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1307"><CODE>has-duplicates?</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC210">7.2.1.2 Lists as sets</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1350"><CODE>hash</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC218">7.2.6 Hashing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1245"><CODE>hash-associator</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC196">7.1.11 Hash Tables</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1248"><CODE>hash-for-each</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC196">7.1.11 Hash Tables</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1244"><CODE>hash-inquirer</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC196">7.1.11 Hash Tables</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1247"><CODE>hash-map</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC196">7.1.11 Hash Tables</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1249"><CODE>hash-rehasher</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC196">7.1.11 Hash Tables</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1246"><CODE>hash-remover</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC196">7.1.11 Hash Tables</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1348"><CODE>hashq</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC218">7.2.6 Hashing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1349"><CODE>hashv</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC218">7.2.6 Hashing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1265"><CODE>heap-extract-max!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC204">7.1.16 Priority Queues</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1264"><CODE>heap-insert!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC204">7.1.16 Priority Queues</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1263"><CODE>heap-length</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC204">7.1.16 Priority Queues</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1357"><CODE>hilbert-coordinates-&gt;integer</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC220">7.2.7.1 Peano-Hilbert Space-Filling Curve</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX586"><CODE>histograph</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC103">5.7.1 Character Plotting</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX62"><CODE>home-vicinity</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC14">2.1 Vicinity</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX370"><CODE>htm-fields</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC75">4.9 Parsing HTML</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX367"><CODE>html-for-each</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC75">4.9 Parsing HTML</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX380"><CODE>html:anchor</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC76">4.10 URI</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX295"><CODE>html:atval</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC69">4.5 HTML</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX382"><CODE>html:base</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC76">4.10 URI</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX306"><CODE>html:body</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC69">4.5 HTML</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX317"><CODE>html:buttons</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC70">4.6 HTML Forms</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX330"><CODE>html:caption</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC71">4.7 HTML Tables</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX331"><CODE>html:caption</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC71">4.7 HTML Tables</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX313"><CODE>html:checkbox</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC70">4.6 HTML Forms</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX309"><CODE>html:comment</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC69">4.5 HTML</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX325"><CODE>html:delimited-list</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC70">4.6 HTML Forms</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX345"><CODE>html:editable-row-converter</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC72">4.7.1 HTML editing tables</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX310"><CODE>html:form</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC70">4.6 HTML Forms</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX303"><CODE>html:head</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC69">4.5 HTML</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX304"><CODE>html:head</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC69">4.5 HTML</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX305"><CODE>html:head</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC69">4.5 HTML</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX332"><CODE>html:heading</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC71">4.7 HTML Tables</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX312"><CODE>html:hidden</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC70">4.6 HTML Forms</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX333"><CODE>html:href-heading</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC71">4.7 HTML Tables</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX300"><CODE>html:http-equiv</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC69">4.5 HTML</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX384"><CODE>html:isindex</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC76">4.10 URI</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX381"><CODE>html:link</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC76">4.10 URI</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX334"><CODE>html:linked-row-converter</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC71">4.7 HTML Tables</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX299"><CODE>html:meta</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC69">4.5 HTML</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX301"><CODE>html:meta-refresh</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC69">4.5 HTML</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX302"><CODE>html:meta-refresh</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC69">4.5 HTML</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX297"><CODE>html:plain</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC69">4.5 HTML</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX307"><CODE>html:pre</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC69">4.5 HTML</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX368"><CODE>html:read-title</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC75">4.9 Parsing HTML</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX369"><CODE>html:read-title</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC75">4.9 Parsing HTML</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX316"><CODE>html:select</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC70">4.6 HTML Forms</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX329"><CODE>html:table</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC71">4.7 HTML Tables</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX314"><CODE>html:text</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC70">4.6 HTML Forms</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX315"><CODE>html:text-area</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC70">4.6 HTML Forms</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX354"><CODE>http:content</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC74">4.8 HTTP and CGI</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX356"><CODE>http:error-page</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC74">4.8 HTTP and CGI</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX357"><CODE>http:forwarding-page</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC74">4.8 HTTP and CGI</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX353"><CODE>http:header</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC74">4.8 HTTP and CGI</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX358"><CODE>http:serve-query</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC74">4.8 HTTP and CGI</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="fn_I"></A>I</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX141"><CODE>identifier=?</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC34">3.5.1.3 Identifiers</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX140"><CODE>identifier?</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC34">3.5.1.3 Identifiers</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX101"><CODE>identity</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC18">2.5 Miscellany</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1195"><CODE>ieee-byte-collate</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC191">Byte Collation Order</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1193"><CODE>ieee-byte-collate!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC191">Byte Collation Order</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1196"><CODE>ieee-byte-decollate</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC191">Byte Collation Order</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1194"><CODE>ieee-byte-decollate!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC191">Byte Collation Order</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1189"><CODE>ieee-double-&gt;bytes</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC190">7.1.6 Byte/Number Conversions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1188"><CODE>ieee-float-&gt;bytes</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC190">7.1.6 Byte/Number Conversions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX60"><CODE>implementation-vicinity</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC14">2.1 Vicinity</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX599"><CODE>in-graphic-context</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC107">5.7.2.3 Graphics Context</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX65"><CODE>in-vicinity</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC14">2.1 Vicinity</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1571"><CODE>init-debug</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC267">7.5.4 Breakpoints</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1185"><CODE>integer-&gt;bytes</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC190">7.1.6 Byte/Number Conversions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX502"><CODE>integer-&gt;gray-code</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC94">5.1.5 Gray code</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1356"><CODE>integer-&gt;hilbert-coordinates</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC220">7.2.7.1 Peano-Hilbert Space-Filling Curve</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX495"><CODE>integer-&gt;list</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC93">5.1.4 Bit order and Lamination</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX496"><CODE>integer-&gt;list</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC93">5.1.4 Bit order and Lamination</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1192"><CODE>integer-byte-collate</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC191">Byte Collation Order</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1191"><CODE>integer-byte-collate!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC191">Byte Collation Order</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX492"><CODE>integer-expt</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC92">5.1.3 Fields of Bits</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX491"><CODE>integer-length</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC92">5.1.3 Fields of Bits</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX885"><CODE>integer-sqrt</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC134">5.10 Root Finding</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1475"><CODE>interaction-environment</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC246">7.4.11 Eval</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX962"><CODE>interpolate-from-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC154">6.1.3 Database Interpolation</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1292"><CODE>intersection</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC210">7.2.1.2 Lists as sets</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1489"><CODE>iota</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC250">Constructors</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1490"><CODE>iota</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC250">Constructors</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1491"><CODE>iota</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC250">Constructors</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX952"><CODE>isam-next on relational-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC152">6.1.2.5 Sequential Index Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX953"><CODE>isam-next on relational-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC152">6.1.2.5 Sequential Index Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX954"><CODE>isam-prev on relational-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC152">6.1.2.5 Sequential Index Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX955"><CODE>isam-prev on relational-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC152">6.1.2.5 Sequential Index Operations</A></TD></TR>
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diff --git a/slib_15.html b/slib_15.html
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-<H2 ALIGN="Left">Procedure and Macro Index: J -- M</H2>
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-<TABLE border=0>
-<TR><TD></TD><TH ALIGN=LEFT>Index Entry</TH><TH ALIGN=LEFT> Section</TH></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="fn_J"></A>J</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX527"><CODE>jacobi-symbol</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC96">5.3 Prime Numbers</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="fn_K"></A>K</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1416"><CODE>kill-process!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC230">7.3.5 Multi-Processing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1011"><CODE>kill-table on base-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC168">6.2.1.2 Base Tables</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="fn_L"></A>L</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX830"><CODE>L*a*b*-&gt;CIEXYZ</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC129">5.9.5 Color Conversions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX831"><CODE>L*a*b*-&gt;CIEXYZ</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC129">5.9.5 Color Conversions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX736"><CODE>l*a*b*-&gt;color</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC124">Perceptual Uniformity</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX832"><CODE>L*a*b*-&gt;L*C*h</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC129">5.9.5 Color Conversions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX802"><CODE>L*a*b*:DE*</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC128">5.9.4 Color Difference Metrics</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX751"><CODE>l*c*h-&gt;color</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC125">Cylindrical Coordinates</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX833"><CODE>L*C*h-&gt;L*a*b*</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC129">5.9.5 Color Conversions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX805"><CODE>L*C*h:DE*94</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC128">5.9.4 Color Difference Metrics</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX806"><CODE>L*C*h:DE*94</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC128">5.9.4 Color Difference Metrics</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX826"><CODE>L*u*v*-&gt;CIEXYZ</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC129">5.9.5 Color Conversions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX827"><CODE>L*u*v*-&gt;CIEXYZ</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC129">5.9.5 Color Conversions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX742"><CODE>l*u*v*-&gt;color</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC124">Perceptual Uniformity</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX888"><CODE>laguerre:find-polynomial-root</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC134">5.10 Root Finding</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX887"><CODE>laguerre:find-root</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC134">5.10 Root Finding</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1312"><CODE>last</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC211">7.2.1.3 Lists as sequences</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1518"><CODE>last</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC252">Selectors</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX106"><CODE>last-pair</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC20">2.5.2 Legacy</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1519"><CODE>length+</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC253">Miscellaneous</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX59"><CODE>library-vicinity</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC14">2.1 Vicinity</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX651"><CODE>light:ambient</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC113">Light Sources</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX652"><CODE>light:ambient</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC113">Light Sources</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX656"><CODE>light:beam</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC113">Light Sources</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX657"><CODE>light:beam</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC113">Light Sources</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX658"><CODE>light:beam</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC113">Light Sources</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX659"><CODE>light:beam</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC113">Light Sources</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX653"><CODE>light:directional</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC113">Light Sources</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX654"><CODE>light:directional</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC113">Light Sources</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX655"><CODE>light:directional</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC113">Light Sources</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX660"><CODE>light:point</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC113">Light Sources</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX661"><CODE>light:point</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC113">Light Sources</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX662"><CODE>light:point</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC113">Light Sources</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX663"><CODE>light:point</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC113">Light Sources</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX664"><CODE>light:spot</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC113">Light Sources</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX665"><CODE>light:spot</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC113">Light Sources</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX666"><CODE>light:spot</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC113">Light Sources</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX667"><CODE>light:spot</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC113">Light Sources</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX668"><CODE>light:spot</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC113">Light Sources</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1288"><CODE>list*</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC209">7.2.1.1 List construction</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1161"><CODE>list-&gt;bytes</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC189">7.1.5 Byte</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX497"><CODE>list-&gt;integer</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC93">5.1.4 Bit order and Lamination</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1449"><CODE>list-&gt;string</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC240">7.4.5 Rev4 Optional Procedures</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1452"><CODE>list-&gt;vector</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC240">7.4.5 Rev4 Optional Procedures</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1488"><CODE>list-copy</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC250">Constructors</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1542"><CODE>list-index</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC256">Searching</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1300"><CODE>list-of??</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC210">7.2.1.2 Lists as sets</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1301"><CODE>list-of??</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC210">7.2.1.2 Lists as sets</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1302"><CODE>list-of??</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC210">7.2.1.2 Lists as sets</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX935"><CODE>list-table-definition</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC146">Listing Tables</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1486"><CODE>list-tabulate</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC250">Constructors</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1447"><CODE>list-tail</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC240">7.4.5 Rev4 Optional Procedures</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1498"><CODE>list=</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC251">Predicates</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX41"><CODE>load-&gt;path</CODE></A></TD><TD valign=top><A HREF="slib_1.html#SEC9">1.6.2 Module Manifests</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX777"><CODE>load-ciexyz</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC127">5.9.3 Spectra</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX853"><CODE>load-color-dictionary</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC130">5.9.6 Color Names</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX854"><CODE>load-color-dictionary</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC130">5.9.6 Color Names</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX448"><CODE>localtime</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC84">4.12.2 Posix Time</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX449"><CODE>localtime</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC84">4.12.2 Posix Time</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX478"><CODE>logand</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC90">5.1.1 Bitwise Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX485"><CODE>logbit?</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC91">5.1.2 Bit Within Word</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX484"><CODE>logcount</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC90">5.1.1 Bitwise Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX487"><CODE>logical:ones</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC92">5.1.3 Fields of Bits</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX493"><CODE>logical:rotate</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC93">5.1.4 Bit order and Lamination</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX479"><CODE>logior</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC90">5.1.1 Bitwise Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX481"><CODE>lognot</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC90">5.1.1 Bitwise Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX483"><CODE>logtest</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC90">5.1.1 Bitwise Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX480"><CODE>logxor</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC90">5.1.1 Bitwise Operations</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="fn_M"></A>M</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX118"><CODE>macro:eval</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC24">3.2 R4RS Macros</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX126"><CODE>macro:eval</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC27">3.4 Macros That Work</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX133"><CODE>macro:eval</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC30">3.5 Syntactic Closures</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX145"><CODE>macro:eval</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC36">3.6 Syntax-Case Macros</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX117"><CODE>macro:expand</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC24">3.2 R4RS Macros</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX124"><CODE>macro:expand</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC27">3.4 Macros That Work</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX131"><CODE>macro:expand</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC30">3.5 Syntactic Closures</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX143"><CODE>macro:expand</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC36">3.6 Syntax-Case Macros</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX119"><CODE>macro:load</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC24">3.2 R4RS Macros</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX128"><CODE>macro:load</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC27">3.4 Macros That Work</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX135"><CODE>macro:load</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC30">3.5 Syntactic Closures</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX147"><CODE>macro:load</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC36">3.6 Syntax-Case Macros</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX112"><CODE>macroexpand</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC22">3.1 Defmacro</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX111"><CODE>macroexpand-1</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC22">3.1 Defmacro</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX127"><CODE>macwork:eval</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC27">3.4 Macros That Work</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX125"><CODE>macwork:expand</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC27">3.4 Macros That Work</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX129"><CODE>macwork:load</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC27">3.4 Macros That Work</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1004"><CODE>make-base on base-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC167">6.2.1.1 The Base</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1156"><CODE>make-bytes</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC189">7.1.5 Byte</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1157"><CODE>make-bytes</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC189">7.1.5 Byte</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX710"><CODE>make-color</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC119">5.9.1 Color Data-Type</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX976"><CODE>make-command-server</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC160">6.1.4.5 Command Service</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1611"><CODE>make-directory</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC270">7.6.1 Directories</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1235"><CODE>make-dynamic</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC195">7.1.10 Dynamic Data Type</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX103"><CODE>make-exchanger</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC19">2.5.1 Mutual Exclusion</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1253"><CODE>make-generic-method</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC199">7.1.14 Procedures</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1254"><CODE>make-generic-predicate</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC199">7.1.14 Procedures</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1020"><CODE>make-getter on base-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC171">6.2.1.5 Base Record Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1021"><CODE>make-getter-1 on base-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC171">6.2.1.5 Base Record Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1242"><CODE>make-hash-table</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC196">7.1.11 Hash Tables</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1262"><CODE>make-heap</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC204">7.1.16 Priority Queues</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1018"><CODE>make-key-&gt;list on base-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC170">6.2.1.4 Composite Keys</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1017"><CODE>make-key-extractor on base-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC170">6.2.1.4 Composite Keys</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1015"><CODE>make-keyifier-1 on base-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC170">6.2.1.4 Composite Keys</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1286"><CODE>make-list</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC209">7.2.1.1 List construction</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1287"><CODE>make-list</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC209">7.2.1.1 List construction</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1016"><CODE>make-list-keyifier on base-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC170">6.2.1.4 Composite Keys</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1255"><CODE>make-method!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC199">7.1.14 Procedures</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1031"><CODE>make-nexter on base-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC174">6.2.1.8 Base ISAM Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1251"><CODE>make-object</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC199">7.1.14 Procedures</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX248"><CODE>make-parameter-list</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC65">4.4.4 Parameter lists</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1256"><CODE>make-predicate!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC199">7.1.14 Procedures</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1032"><CODE>make-prever on base-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC174">6.2.1.8 Base ISAM Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1465"><CODE>make-promise</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC244">7.4.9 Promises</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1022"><CODE>make-putter on base-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC171">6.2.1.5 Base Record Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX364"><CODE>make-query-alist-command-server</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC74">4.8 HTTP and CGI</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX365"><CODE>make-query-alist-command-server</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC74">4.8 HTTP and CGI</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1269"><CODE>make-queue</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC205">7.1.17 Queues</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX542"><CODE>make-random-state</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC98">5.4.1 Exact Random Numbers</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX543"><CODE>make-random-state</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC98">5.4.1 Exact Random Numbers</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1280"><CODE>make-record-type</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC206">7.1.18 Records</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1033"><CODE>make-relational-system</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC176">6.2.3 Relational Database Objects</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX902"><CODE>make-ruleset</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC137">5.13 Rules and Rulesets</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX903"><CODE>make-ruleset</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC137">5.13 Rules and Rulesets</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1124"><CODE>make-shared-array</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC185">7.1.1 Arrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1359"><CODE>make-sierpinski-indexer</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC221">7.2.7.2 Sierpinski Curve</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX861"><CODE>make-slib-color-name-db</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC131">Dictionary Creation</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX138"><CODE>make-syntactic-closure</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC33">3.5.1.2 Transformer Definition</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1009"><CODE>make-table on base-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC168">6.2.1.2 Base Tables</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX373"><CODE>make-uri</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC76">4.10 URI</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX374"><CODE>make-uri</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC76">4.10 URI</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX375"><CODE>make-uri</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC76">4.10 URI</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX376"><CODE>make-uri</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC76">4.10 URI</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX377"><CODE>make-uri</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC76">4.10 URI</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX378"><CODE>make-uri</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC76">4.10 URI</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX56"><CODE>make-vicinity</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC14">2.1 Vicinity</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1065"><CODE>make-wt-tree</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC179">6.3.1 Construction of Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1062"><CODE>make-wt-tree-type</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC179">6.3.1 Construction of Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1532"><CODE>map!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC254">Fold and Unfold</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1220"><CODE>map-elts</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC194">7.1.9 Collections</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1029"><CODE>map-key on base-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC173">6.2.1.7 Aggregate Base Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1222"><CODE>map-keys</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC194">7.1.9 Collections</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1201"><CODE>matfile:load</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC192">7.1.7 MAT-File Format</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1200"><CODE>matfile:read</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC192">7.1.7 MAT-File Format</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX912"><CODE>matrix-&gt;array</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC139">5.15 Matrix Algebra</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX911"><CODE>matrix-&gt;lists</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC139">5.15 Matrix Algebra</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX916"><CODE>matrix:inverse</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC139">5.15 Matrix Algebra</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX915"><CODE>matrix:product</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC139">5.15 Matrix Algebra</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX929"><CODE>mdbm:report</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC143">Database Sharing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1544"><CODE>member</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC256">Searching</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1545"><CODE>member</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC256">Searching</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1295"><CODE>member-if</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC210">7.2.1.2 Lists as sets</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1338"><CODE>merge</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC216">7.2.4 Sorting</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1339"><CODE>merge!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC216">7.2.4 Sorting</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX451"><CODE>mktime</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC84">4.12.2 Posix Time</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX452"><CODE>mktime</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC84">4.12.2 Posix Time</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX510"><CODE>mod</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC95">5.2 Modular Arithmetic</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX522"><CODE>modular:*</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC95">5.2 Modular Arithmetic</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX520"><CODE>modular:+</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC95">5.2 Modular Arithmetic</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX521"><CODE>modular:-</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC95">5.2 Modular Arithmetic</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX523"><CODE>modular:expt</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC95">5.2 Modular Arithmetic</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX518"><CODE>modular:invert</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC95">5.2 Modular Arithmetic</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX517"><CODE>modular:invertable?</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC95">5.2 Modular Arithmetic</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX519"><CODE>modular:negate</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC95">5.2 Modular Arithmetic</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX515"><CODE>modular:normalize</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC95">5.2 Modular Arithmetic</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX514"><CODE>modulus-&gt;integer</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC95">5.2 Modular Arithmetic</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX464"><CODE>mrna&lt;-cdna</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC86">4.13 NCBI-DNA</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX287"><CODE>must-be-first</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC68">4.4.7 Batch</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX288"><CODE>must-be-last</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC68">4.4.7 Batch</A></TD></TR>
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-<H2 ALIGN="Left">Procedure and Macro Index: N -- P</H2>
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-</td></tr></table><P></P>
-<TABLE border=0>
-<TR><TD></TD><TH ALIGN=LEFT>Index Entry</TH><TH ALIGN=LEFT> Section</TH></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="fn_N"></A>N</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX462"><CODE>ncbi:read-dna-sequence</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC86">4.13 NCBI-DNA</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX463"><CODE>ncbi:read-file</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC86">4.13 NCBI-DNA</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1316"><CODE>nconc</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC212">7.2.1.4 Destructive list operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX884"><CODE>newton:find-integer-root</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC134">5.10 Root Finding</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX886"><CODE>newton:find-root</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC134">5.10 Root Finding</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1507"><CODE>ninth</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC252">Selectors</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1497"><CODE>not-pair?</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC251">Predicates</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1298"><CODE>notany</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC210">7.2.1.2 Lists as sets</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1299"><CODE>notevery</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC210">7.2.1.2 Lists as sets</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1317"><CODE>nreverse</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC212">7.2.1.4 Destructive list operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1314"><CODE>nthcdr</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC211">7.2.1.3 Lists as sequences</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX400"><CODE>null-directory?</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC77">File-system Locators and Predicates</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1473"><CODE>null-environment</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC246">7.4.11 Eval</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1474"><CODE>null-environment</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC246">7.4.11 Eval</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1496"><CODE>null-list?</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC251">Predicates</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="fn_O"></A>O</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX160"><CODE>object</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC42">3.8.2 Interface</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX411"><CODE>object-&gt;limited-string</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC80">4.11.2 Object-To-String</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX410"><CODE>object-&gt;string</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC80">4.11.2 Object-To-String</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX161"><CODE>object-with-ancestors</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC42">3.8.2 Interface</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1252"><CODE>object?</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC199">7.1.14 Procedures</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX428"><CODE>offset-time</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC82">4.12 Time and Date</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1005"><CODE>open-base on base-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC167">6.2.1.1 The Base</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX966"><CODE>open-command-database</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC156">6.1.4.1 Database Extension</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX967"><CODE>open-command-database</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC156">6.1.4.1 Database Extension</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX970"><CODE>open-command-database</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC156">6.1.4.1 Database Extension</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX968"><CODE>open-command-database!</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC156">6.1.4.1 Database Extension</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX969"><CODE>open-command-database!</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC156">6.1.4.1 Database Extension</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX971"><CODE>open-command-database!</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC156">6.1.4.1 Database Extension</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX923"><CODE>open-database</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC143">Database Sharing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX924"><CODE>open-database</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC143">Database Sharing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1036"><CODE>open-database on relational-system</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC176">6.2.3 Relational Database Objects</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX922"><CODE>open-database!</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC143">Database Sharing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX78"><CODE>open-file</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC16">2.3 Input/Output</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1168"><CODE>open-file</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC189">7.1.5 Byte</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX930"><CODE>open-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC144">Opening Tables</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1010"><CODE>open-table on base-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC168">6.2.1.2 Base Tables</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1042"><CODE>open-table on relational-database</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC177">6.2.4 Database Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX931"><CODE>open-table!</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC144">Opening Tables</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX162"><CODE>operate-as</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC42">3.8.2 Interface</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1322"><CODE>or?</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC213">7.2.1.5 Non-List functions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1030"><CODE>ordered-for-each-key on base-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC174">6.2.1.8 Base ISAM Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX289"><CODE>os-&gt;batch-dialect</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC68">4.4.7 Batch</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX613"><CODE>outline-rect</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC108">5.7.2.4 Rectangles</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX89"><CODE>output-port-height</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC16">2.3 Input/Output</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX90"><CODE>output-port-height</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC16">2.3 Input/Output</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX87"><CODE>output-port-width</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC16">2.3 Input/Output</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX88"><CODE>output-port-width</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC16">2.3 Input/Output</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX880"><CODE>overcast-sky-color-xyy</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC133">5.9.7 Daylight</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="fn_P"></A>P</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX467"><CODE>p&lt;-cdna</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC86">4.13 NCBI-DNA</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX593"><CODE>pad-range</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC105">5.7.2.1 Column Ranges</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1533"><CODE>pair-for-each</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC254">Fold and Unfold</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX255"><CODE>parameter-list-&gt;arglist</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC65">4.4.4 Parameter lists</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX252"><CODE>parameter-list-expand</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC65">4.4.4 Parameter lists</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX249"><CODE>parameter-list-ref</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC65">4.4.4 Parameter lists</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX403"><CODE>parse-ftp-address</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC77">File-system Locators and Predicates</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1536"><CODE>partition</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC255">Filtering and Partitioning</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX609"><CODE>partition-page</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC108">5.7.2.4 Rectangles</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX396"><CODE>path-&gt;uri</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC77">File-system Locators and Predicates</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX57"><CODE>pathname-&gt;vicinity</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC14">2.1 Vicinity</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX582"><CODE>plot</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC103">5.7.1 Character Plotting</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX584"><CODE>plot</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC103">5.7.1 Character Plotting</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX585"><CODE>plot</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC103">5.7.1 Character Plotting</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX630"><CODE>plot</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC110">5.7.2.6 Legacy Plotting</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX631"><CODE>plot</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC110">5.7.2.6 Legacy Plotting</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX632"><CODE>plot</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC110">5.7.2.6 Legacy Plotting</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX598"><CODE>plot-column</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC106">5.7.2.2 Drawing the Graph</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1215"><CODE>pnm:array-write</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC193">7.1.8 Portable Image Files</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1211"><CODE>pnm:image-file-&gt;array</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC193">7.1.8 Portable Image Files</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1213"><CODE>pnm:image-file-&gt;array</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC193">7.1.8 Portable Image Files</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1203"><CODE>pnm:type-dimensions</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC193">7.1.8 Portable Image Files</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX79"><CODE>port?</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC16">2.3 Input/Output</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1309"><CODE>position</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC211">7.2.1.3 Lists as sequences</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX418"><CODE>pprint-file</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC81">4.11.3 Pretty-Print</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX419"><CODE>pprint-file</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC81">4.11.3 Pretty-Print</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX420"><CODE>pprint-filter-file</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC81">4.11.3 Pretty-Print</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX421"><CODE>pprint-filter-file</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC81">4.11.3 Pretty-Print</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX207"><CODE>prec:commentfix</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC52">4.1.6 Grammar Rule Definition</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX186"><CODE>prec:define-grammar</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC49">4.1.3 Ruleset Definition and Use</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX200"><CODE>prec:delim</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC52">4.1.6 Grammar Rule Definition</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX203"><CODE>prec:infix</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC52">4.1.6 Grammar Rule Definition</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX209"><CODE>prec:inmatchfix</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC52">4.1.6 Grammar Rule Definition</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX199"><CODE>prec:make-led</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC51">4.1.5 Nud and Led Definition</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX198"><CODE>prec:make-nud</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC51">4.1.5 Nud and Led Definition</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX208"><CODE>prec:matchfix</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC52">4.1.6 Grammar Rule Definition</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX204"><CODE>prec:nary</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC52">4.1.6 Grammar Rule Definition</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX201"><CODE>prec:nofix</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC52">4.1.6 Grammar Rule Definition</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX187"><CODE>prec:parse</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC49">4.1.3 Ruleset Definition and Use</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX188"><CODE>prec:parse</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC49">4.1.3 Ruleset Definition and Use</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX205"><CODE>prec:postfix</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC52">4.1.6 Grammar Rule Definition</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX202"><CODE>prec:prefix</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC52">4.1.6 Grammar Rule Definition</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX206"><CODE>prec:prestfix</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC52">4.1.6 Grammar Rule Definition</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1144"><CODE>predicate-&gt;asso</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC188">7.1.4 Association Lists</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1241"><CODE>predicate-&gt;hash</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC196">7.1.11 Hash Tables</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1243"><CODE>predicate-&gt;hash-asso</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC196">7.1.11 Hash Tables</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1019"><CODE>present? on base-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC171">6.2.1.5 Base Record Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX413"><CODE>pretty-print</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC81">4.11.3 Pretty-Print</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX414"><CODE>pretty-print</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC81">4.11.3 Pretty-Print</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX415"><CODE>pretty-print-&gt;string</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC81">4.11.3 Pretty-Print</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX416"><CODE>pretty-print-&gt;string</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC81">4.11.3 Pretty-Print</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX960"><CODE>primary-limit on relational-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC153">6.1.2.6 Table Administration</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX529"><CODE>prime?</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC96">5.3 Prime Numbers</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX530"><CODE>primes&lt;</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC96">5.3 Prime Numbers</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX531"><CODE>primes&gt;</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC96">5.3 Prime Numbers</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX163"><CODE>print</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC42">3.8.2 Interface</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1586"><CODE>print-call-stack</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC268">7.5.5 Tracing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1587"><CODE>print-call-stack</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC268">7.5.5 Tracing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX216"><CODE>printf</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC56">4.3.2 Standard Formatted Output</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1415"><CODE>process:schedule!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC230">7.3.5 Multi-Processing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX58"><CODE>program-vicinity</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC14">2.1 Vicinity</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1047"><CODE>project-table on relational-database</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC177">6.2.4 Database Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1493"><CODE>proper-list?</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC251">Predicates</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX466"><CODE>protein&lt;-cdna</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC86">4.13 NCBI-DNA</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX6"><CODE>provide</CODE></A></TD><TD valign=top><A HREF="slib_1.html#SEC2">1.1 Feature</A></TD></TR>
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-<H2 ALIGN="Left">Procedure and Macro Index: Q -- S</H2>
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-<TR><TH><A NAME="fn_Q"></A>Q</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1560"><CODE>qp</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC265">7.5.2 Quick Print</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1561"><CODE>qpn</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC265">7.5.2 Quick Print</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1562"><CODE>qpr</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC265">7.5.2 Quick Print</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1271"><CODE>queue-empty?</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC205">7.1.17 Queues</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1277"><CODE>queue-front</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC205">7.1.17 Queues</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1275"><CODE>queue-pop!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC205">7.1.17 Queues</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1272"><CODE>queue-push!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC205">7.1.17 Queues</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1278"><CODE>queue-rear</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC205">7.1.17 Queues</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1270"><CODE>queue?</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC205">7.1.17 Queues</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="fn_R"></A>R</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX536"><CODE>random</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC98">5.4.1 Exact Random Numbers</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX537"><CODE>random</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC98">5.4.1 Exact Random Numbers</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX547"><CODE>random:exp</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC99">5.4.2 Inexact Random Numbers</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX548"><CODE>random:exp</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC99">5.4.2 Inexact Random Numbers</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX553"><CODE>random:hollow-sphere!</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC99">5.4.2 Inexact Random Numbers</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX554"><CODE>random:hollow-sphere!</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC99">5.4.2 Inexact Random Numbers</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX549"><CODE>random:normal</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC99">5.4.2 Inexact Random Numbers</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX550"><CODE>random:normal</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC99">5.4.2 Inexact Random Numbers</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX551"><CODE>random:normal-vector!</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC99">5.4.2 Inexact Random Numbers</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX552"><CODE>random:normal-vector!</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC99">5.4.2 Inexact Random Numbers</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX555"><CODE>random:solid-sphere!</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC99">5.4.2 Inexact Random Numbers</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX556"><CODE>random:solid-sphere!</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC99">5.4.2 Inexact Random Numbers</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX545"><CODE>random:uniform</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC99">5.4.2 Inexact Random Numbers</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX546"><CODE>random:uniform</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC99">5.4.2 Inexact Random Numbers</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1461"><CODE>rationalize</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC243">7.4.8 Rationalize</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1172"><CODE>read-byte</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC189">7.1.5 Byte</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1173"><CODE>read-byte</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC189">7.1.5 Byte</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1175"><CODE>read-bytes</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC189">7.1.5 Byte</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1176"><CODE>read-bytes</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC189">7.1.5 Byte</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX239"><CODE>read-command</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC64">4.4.3 Command Line</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX240"><CODE>read-command</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC64">4.4.3 Command Line</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1403"><CODE>read-line</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC229">7.3.4 Line I/O</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1404"><CODE>read-line</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC229">7.3.4 Line I/O</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1405"><CODE>read-line!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC229">7.3.4 Line I/O</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1406"><CODE>read-line!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC229">7.3.4 Line I/O</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX244"><CODE>read-options-file</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC64">4.4.3 Command Line</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1551"><CODE>receive</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC261">7.4.13.3 SRFI-8</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1283"><CODE>record-accessor</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC206">7.1.18 Records</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1281"><CODE>record-constructor</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC206">7.1.18 Records</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1284"><CODE>record-modifier</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC206">7.1.18 Records</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1282"><CODE>record-predicate</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC206">7.1.18 Records</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1226"><CODE>reduce</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC194">7.1.9 Collections</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1310"><CODE>reduce</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC211">7.2.1.3 Lists as sequences</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1311"><CODE>reduce-init</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC211">7.2.1.3 Lists as sequences</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX511"><CODE>rem</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC95">5.2 Modular Arithmetic</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1304"><CODE>remove</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC210">7.2.1.2 Lists as sets</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1539"><CODE>remove</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC256">Searching</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1540"><CODE>remove!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC256">Searching</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1308"><CODE>remove-duplicates</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC210">7.2.1.2 Lists as sets</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1305"><CODE>remove-if</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC210">7.2.1.2 Lists as sets</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1306"><CODE>remove-if-not</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC210">7.2.1.2 Lists as sets</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX250"><CODE>remove-parameter</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC65">4.4.4 Parameter lists</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX168"><CODE>remove-setter-for</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC43">3.8.3 Setters</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1556"><CODE>repl:quit</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC264">7.5.1 Repl</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1555"><CODE>repl:top-level</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC264">7.5.1 Repl</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX267"><CODE>replace-suffix</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC67">4.4.6 Filenames</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX10"><CODE>require</CODE></A></TD><TD valign=top><A HREF="slib_1.html#SEC3">1.2 Require</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX24"><CODE>require</CODE></A></TD><TD valign=top><A HREF="slib_1.html#SEC5">1.4 Catalog Creation</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX26"><CODE>require</CODE></A></TD><TD valign=top><A HREF="slib_1.html#SEC5">1.4 Catalog Creation</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX11"><CODE>require-if</CODE></A></TD><TD valign=top><A HREF="slib_1.html#SEC3">1.2 Require</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX867"><CODE>resene</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC132">The Short List</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1048"><CODE>restrict-table on relational-database</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC177">6.2.4 Database Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1522"><CODE>reverse!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC253">Miscellaneous</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX823"><CODE>RGB709-&gt;CIEXYZ</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC129">5.9.5 Color Conversions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX731"><CODE>rgb709-&gt;color</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC123">Measurement-based Color Spaces</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX941"><CODE>row:delete on relational-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC148">6.1.2.1 Single Row Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX946"><CODE>row:delete* on relational-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC150">6.1.2.3 Multi-Row Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX937"><CODE>row:insert on relational-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC148">6.1.2.1 Single Row Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX948"><CODE>row:insert* on relational-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC150">6.1.2.3 Multi-Row Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX940"><CODE>row:remove on relational-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC148">6.1.2.1 Single Row Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX945"><CODE>row:remove* on relational-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC150">6.1.2.3 Multi-Row Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX939"><CODE>row:retrieve on relational-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC148">6.1.2.1 Single Row Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX944"><CODE>row:retrieve* on relational-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC150">6.1.2.3 Multi-Row Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX938"><CODE>row:update on relational-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC148">6.1.2.1 Single Row Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX949"><CODE>row:update* on relational-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC150">6.1.2.3 Multi-Row Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX624"><CODE>rule-horizontal</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC109">5.7.2.5 Legending</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX623"><CODE>rule-vertical</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC109">5.7.2.5 Legending</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="fn_S"></A>S</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX865"><CODE>saturate</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC132">The Short List</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX227"><CODE>scanf</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC60">4.3.3 Standard Formatted Input</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX224"><CODE>scanf-read-list</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC60">4.3.3 Standard Formatted Input</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX225"><CODE>scanf-read-list</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC60">4.3.3 Standard Formatted Input</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX226"><CODE>scanf-read-list</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC60">4.3.3 Standard Formatted Input</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX646"><CODE>scene:overcast</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC112">5.8 Solid Modeling</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX647"><CODE>scene:overcast</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC112">5.8 Solid Modeling</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX640"><CODE>scene:panorama</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC112">5.8 Solid Modeling</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX642"><CODE>scene:sky-and-dirt</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC112">5.8 Solid Modeling</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX643"><CODE>scene:sky-and-grass</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC112">5.8 Solid Modeling</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX641"><CODE>scene:sphere</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC112">5.8 Solid Modeling</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX644"><CODE>scene:sun</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC112">5.8 Solid Modeling</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX645"><CODE>scene:sun</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC112">5.8 Solid Modeling</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX648"><CODE>scene:viewpoint</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC112">5.8 Solid Modeling</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX649"><CODE>scene:viewpoint</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC112">5.8 Solid Modeling</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX650"><CODE>scene:viewpoints</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC112">5.8 Solid Modeling</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1472"><CODE>scheme-report-environment</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC246">7.4.11 Eval</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX472"><CODE>schmooz</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC87">4.14 Schmooz</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX473"><CODE>schmooz</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC87">4.14 Schmooz</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX474"><CODE>schmooz</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC87">4.14 Schmooz</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX475"><CODE>schmooz</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC87">4.14 Schmooz</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX890"><CODE>secant:find-bracketed-root</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC134">5.10 Root Finding</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX889"><CODE>secant:find-root</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC134">5.10 Root Finding</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1500"><CODE>second</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC252">Selectors</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX541"><CODE>seed-&gt;random-state</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC98">5.4.1 Exact Random Numbers</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX166"><CODE>set</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC43">3.8.3 Setters</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX600"><CODE>set-color</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC107">5.7.2.3 Graphics Context</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1293"><CODE>set-difference</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC210">7.2.1.2 Lists as sets</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX601"><CODE>set-font</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC107">5.7.2.3 Graphics Context</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX606"><CODE>set-glyphsize</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC107">5.7.2.3 Graphics Context</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX603"><CODE>set-linedash</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC107">5.7.2.3 Graphics Context</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX604"><CODE>set-linedash</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC107">5.7.2.3 Graphics Context</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX605"><CODE>set-linedash</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC107">5.7.2.3 Graphics Context</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX602"><CODE>set-linewidth</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC107">5.7.2.3 Graphics Context</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX165"><CODE>setter</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC43">3.8.3 Setters</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1233"><CODE>Setter</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC194">7.1.9 Collections</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX596"><CODE>setup-plot</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC105">5.7.2.1 Column Ranges</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX597"><CODE>setup-plot</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC105">5.7.2.1 Column Ranges</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1505"><CODE>seventh</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC252">Selectors</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1418"><CODE>si:conversion-factor</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC234">7.3.6.3 Unit Symbols</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1066"><CODE>singleton-wt-tree</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC179">6.3.1 Construction of Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1504"><CODE>sixth</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC252">Selectors</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX164"><CODE>size</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC42">3.8.2 Interface</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1232"><CODE>size</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC194">7.1.9 Collections</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX882"><CODE>sky-color-xyy</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC133">5.9.7 Daylight</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX97"><CODE>slib:error</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC17">2.4 System</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX94"><CODE>slib:eval</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC17">2.4 System</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX95"><CODE>slib:eval-load</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC17">2.4 System</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX98"><CODE>slib:exit</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC17">2.4 System</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX99"><CODE>slib:exit</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC17">2.4 System</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX12"><CODE>slib:in-catalog?</CODE></A></TD><TD valign=top><A HREF="slib_1.html#SEC3">1.2 Require</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX93"><CODE>slib:load</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC17">2.4 System</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX92"><CODE>slib:load-compiled</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC17">2.4 System</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX91"><CODE>slib:load-source</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC17">2.4 System</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX73"><CODE>slib:report</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC15">2.2 Configuration</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX74"><CODE>slib:report</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC15">2.2 Configuration</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX75"><CODE>slib:report</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC15">2.2 Configuration</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX72"><CODE>slib:report-version</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC15">2.2 Configuration</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX96"><CODE>slib:warn</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC17">2.4 System</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX594"><CODE>snap-range</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC105">5.7.2.1 Column Ranges</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX71"><CODE>software-type</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC15">2.2 Configuration</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX873"><CODE>solar-declination</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC133">5.9.7 Daylight</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX872"><CODE>solar-hour</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC133">5.9.7 Daylight</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX874"><CODE>solar-polar</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC133">5.9.7 Daylight</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX703"><CODE>solid:arrow</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC116">Aggregating Objects</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX704"><CODE>solid:arrow</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC116">Aggregating Objects</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX683"><CODE>solid:basrelief</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC114">Object Primitives</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX684"><CODE>solid:basrelief</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC114">Object Primitives</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX685"><CODE>solid:basrelief</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC114">Object Primitives</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX669"><CODE>solid:box</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC114">Object Primitives</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX670"><CODE>solid:box</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC114">Object Primitives</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX701"><CODE>solid:center-array-of</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC116">Aggregating Objects</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX702"><CODE>solid:center-pile-of</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC116">Aggregating Objects</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX700"><CODE>solid:center-row-of</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC116">Aggregating Objects</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX686"><CODE>solid:color</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC115">Surface Attributes</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX687"><CODE>solid:color</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC115">Surface Attributes</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX688"><CODE>solid:color</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC115">Surface Attributes</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX689"><CODE>solid:color</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC115">Surface Attributes</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX690"><CODE>solid:color</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC115">Surface Attributes</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX691"><CODE>solid:color</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC115">Surface Attributes</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX675"><CODE>solid:cone</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC114">Object Primitives</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX676"><CODE>solid:cone</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC114">Object Primitives</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX671"><CODE>solid:cylinder</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC114">Object Primitives</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX672"><CODE>solid:cylinder</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC114">Object Primitives</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX673"><CODE>solid:disk</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC114">Object Primitives</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX674"><CODE>solid:disk</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC114">Object Primitives</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX681"><CODE>solid:ellipsoid</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC114">Object Primitives</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX682"><CODE>solid:ellipsoid</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC114">Object Primitives</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX677"><CODE>solid:pyramid</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC114">Object Primitives</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX678"><CODE>solid:pyramid</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC114">Object Primitives</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX707"><CODE>solid:rotation</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC117">Spatial Transformations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX706"><CODE>solid:scale</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC117">Spatial Transformations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX679"><CODE>solid:sphere</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC114">Object Primitives</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX680"><CODE>solid:sphere</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC114">Object Primitives</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX693"><CODE>solid:texture</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC115">Surface Attributes</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX694"><CODE>solid:texture</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC115">Surface Attributes</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX695"><CODE>solid:texture</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC115">Surface Attributes</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX696"><CODE>solid:texture</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC115">Surface Attributes</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX697"><CODE>solid:texture</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC115">Surface Attributes</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX698"><CODE>solid:texture</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC115">Surface Attributes</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX705"><CODE>solid:translation</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC117">Spatial Transformations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX927"><CODE>solidify-database</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC143">Database Sharing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1040"><CODE>solidify-database on relational-database</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC177">6.2.4 Database Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1296"><CODE>some</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC210">7.2.1.2 Lists as sets</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1340"><CODE>sort</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC216">7.2.4 Sorting</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1341"><CODE>sort!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC216">7.2.4 Sorting</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1337"><CODE>sorted?</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC216">7.2.4 Sorting</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1361"><CODE>soundex</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC222">7.2.8 Soundex</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1543"><CODE>span</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC256">Searching</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX782"><CODE>spectrum-&gt;chromaticity</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC127">5.9.3 Spectra</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX783"><CODE>spectrum-&gt;chromaticity</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC127">5.9.3 Spectra</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX780"><CODE>spectrum-&gt;CIEXYZ</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC127">5.9.3 Spectra</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX781"><CODE>spectrum-&gt;CIEXYZ</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC127">5.9.3 Spectra</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX778"><CODE>spectrum-&gt;XYZ</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC127">5.9.3 Spectra</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX779"><CODE>spectrum-&gt;XYZ</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC127">5.9.3 Spectra</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1516"><CODE>split-at</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC252">Selectors</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1517"><CODE>split-at!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC252">Selectors</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX218"><CODE>sprintf</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC56">4.3.2 Standard Formatted Output</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX219"><CODE>sprintf</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC56">4.3.2 Standard Formatted Output</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX220"><CODE>sprintf</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC56">4.3.2 Standard Formatted Output</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX835"><CODE>sRGB-&gt;CIEXYZ</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC129">5.9.5 Color Conversions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX758"><CODE>srgb-&gt;color</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC126">Digital Color Spaces</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX842"><CODE>sRGB-&gt;e-sRGB</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC129">5.9.5 Color Conversions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX838"><CODE>sRGB-&gt;xRGB</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC129">5.9.5 Color Conversions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX229"><CODE>sscanf</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC60">4.3.3 Standard Formatted Input</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1592"><CODE>stack</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC268">7.5.5 Tracing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1593"><CODE>stack</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC268">7.5.5 Tracing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1568"><CODE>stack-all</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC266">7.5.3 Debug</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1604"><CODE>stackf</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC268">7.5.5 Tracing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1605"><CODE>stackf</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC268">7.5.5 Tracing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX718"><CODE>string-&gt;color</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC120">5.9.1.1 External Representation</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1448"><CODE>string-&gt;list</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC240">7.4.5 Rev4 Optional Procedures</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1391"><CODE>string-capitalize</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC227">7.3.2 String-Case</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1394"><CODE>string-capitalize!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC227">7.3.2 String-Case</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1395"><CODE>string-ci-&gt;symbol</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC227">7.3.2 String-Case</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1450"><CODE>string-copy</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC240">7.4.5 Rev4 Optional Procedures</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1390"><CODE>string-downcase</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC227">7.3.2 String-Case</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1393"><CODE>string-downcase!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC227">7.3.2 String-Case</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1451"><CODE>string-fill!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC240">7.4.5 Rev4 Optional Procedures</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1363"><CODE>string-index</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC223">7.2.9 String Search</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1364"><CODE>string-index-ci</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC223">7.2.9 String Search</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX286"><CODE>string-join</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC68">4.4.7 Batch</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1437"><CODE>string-null?</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC239">7.4.4 Rev2 Procedures</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1365"><CODE>string-reverse-index</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC223">7.2.9 String Search</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1366"><CODE>string-reverse-index-ci</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC223">7.2.9 String Search</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1373"><CODE>string-subst</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC223">7.2.9 String Search</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1389"><CODE>string-upcase</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC227">7.3.2 String-Case</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1392"><CODE>string-upcase!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC227">7.3.2 String-Case</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1397"><CODE>StudlyCapsExpand</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC227">7.3.2 String-Case</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1398"><CODE>StudlyCapsExpand</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC227">7.3.2 String-Case</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX66"><CODE>sub-vicinity</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC14">2.1 Vicinity</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1132"><CODE>subarray</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC186">7.1.2 Subarrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1133"><CODE>subarray0</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC186">7.1.2 Subarrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1294"><CODE>subset?</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC210">7.2.1.2 Lists as sets</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1325"><CODE>subst</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC214">7.2.2 Tree operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1328"><CODE>subst</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC214">7.2.2 Tree operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1326"><CODE>substq</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC214">7.2.2 Tree operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1368"><CODE>substring-ci?</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC223">7.2.9 String Search</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1436"><CODE>substring-fill!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC239">7.4.4 Rev2 Procedures</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1434"><CODE>substring-move-left!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC239">7.4.4 Rev2 Procedures</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1435"><CODE>substring-move-right!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC239">7.4.4 Rev2 Procedures</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1179"><CODE>substring-read!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC189">7.1.5 Byte</A></TD></TR>
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-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1367"><CODE>substring?</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC223">7.2.9 String Search</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1327"><CODE>substv</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC214">7.2.2 Tree operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX878"><CODE>sunlight-ciexyz</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC133">5.9.7 Daylight</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX876"><CODE>sunlight-spectrum</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC133">5.9.7 Daylight</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX877"><CODE>sunlight-xyz</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC133">5.9.7 Daylight</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1014"><CODE>supported-key-type? on base-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC169">6.2.1.3 Base Field Types</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1013"><CODE>supported-type? on base-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC169">6.2.1.3 Base Field Types</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1396"><CODE>symbol-append</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC227">7.3.2 String-Case</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX513"><CODE>symmetric:modulus</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC95">5.2 Modular Arithmetic</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1007"><CODE>sync-base on base-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC167">6.2.1.1 The Base</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX926"><CODE>sync-database</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC143">Database Sharing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1039"><CODE>sync-database on relational-database</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC177">6.2.4 Database Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX146"><CODE>syncase:eval</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC36">3.6 Syntax-Case Macros</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX144"><CODE>syncase:expand</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC36">3.6 Syntax-Case Macros</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX148"><CODE>syncase:load</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC36">3.6 Syntax-Case Macros</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX152"><CODE>syncase:sanity-check</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC36">3.6 Syntax-Case Macros</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX134"><CODE>synclo:eval</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC30">3.5 Syntactic Closures</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX132"><CODE>synclo:expand</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC30">3.5 Syntactic Closures</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX136"><CODE>synclo:load</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC30">3.5 Syntactic Closures</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX122"><CODE>syntax-rules</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC26">3.3.1 Caveat</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1608"><CODE>system</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC269">7.6 System Interface</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1409"><CODE>system-&gt;line</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC229">7.3.4 Line I/O</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1410"><CODE>system-&gt;line</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC229">7.3.4 Line I/O</A></TD></TR>
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-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX336"><CODE>table-&gt;linked-html</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC71">4.7 HTML Tables</A></TD></TR>
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-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1041"><CODE>table-exists? on relational-database</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC177">6.2.4 Database Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX335"><CODE>table-name-&gt;filename</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC71">4.7 HTML Tables</A></TD></TR>
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-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1512"><CODE>take!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC252">Selectors</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1513"><CODE>take-right</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC252">Selectors</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX791"><CODE>temperature-&gt;chromaticity</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC127">5.9.3 Spectra</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX790"><CODE>temperature-&gt;CIEXYZ</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC127">5.9.3 Spectra</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX789"><CODE>temperature-&gt;XYZ</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC127">5.9.3 Spectra</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1508"><CODE>tenth</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC252">Selectors</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1501"><CODE>third</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC252">Selectors</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX431"><CODE>time-zone</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC83">4.12.1 Time Zone</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX617"><CODE>title-bottom</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC109">5.7.2.5 Legending</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX618"><CODE>title-bottom</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC109">5.7.2.5 Legending</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX615"><CODE>title-top</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC109">5.7.2.5 Legending</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX616"><CODE>title-top</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC109">5.7.2.5 Legending</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX83"><CODE>tmpnam</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC16">2.3 Input/Output</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX195"><CODE>tok:bump-column</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC50">4.1.4 Token definition</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX190"><CODE>tok:char-group</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC50">4.1.4 Token definition</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX50"><CODE>top-refs</CODE></A></TD><TD valign=top><A HREF="slib_1.html#SEC11">1.6.4 Top-level Variable References</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX51"><CODE>top-refs&lt;-file</CODE></A></TD><TD valign=top><A HREF="slib_1.html#SEC11">1.6.4 Top-level Variable References</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1345"><CODE>topological-sort</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC217">7.2.5 Topological Sort</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1588"><CODE>trace</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC268">7.5.5 Tracing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1589"><CODE>trace</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC268">7.5.5 Tracing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1566"><CODE>trace-all</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC266">7.5.3 Debug</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1600"><CODE>tracef</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC268">7.5.5 Tracing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1601"><CODE>tracef</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC268">7.5.5 Tracing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1590"><CODE>track</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC268">7.5.5 Tracing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1591"><CODE>track</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC268">7.5.5 Tracing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1567"><CODE>track-all</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC266">7.5.3 Debug</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1602"><CODE>trackf</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC268">7.5.5 Tracing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1603"><CODE>trackf</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC268">7.5.5 Tracing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1628"><CODE>transact-file-replacement</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC273">File Transactions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1629"><CODE>transact-file-replacement</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC273">File Transactions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1630"><CODE>transact-file-replacement</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC273">File Transactions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1432"><CODE>transcript-off</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC238">7.4.3 Transcripts</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1431"><CODE>transcript-on</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC238">7.4.3 Transcripts</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX137"><CODE>transformer</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC33">3.5.1.2 Transformer Definition</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX914"><CODE>transpose</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC139">5.15 Matrix Algebra</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX283"><CODE>truncate-up-to</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC68">4.4.7 Batch</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX284"><CODE>truncate-up-to</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC68">4.4.7 Batch</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX285"><CODE>truncate-up-to</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC68">4.4.7 Batch</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1344"><CODE>tsort</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC217">7.2.5 Topological Sort</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1386"><CODE>type-of</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC226">7.3.1 Type Coercion</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX432"><CODE>tz:params</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC83">4.12.1 Time Zone</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX433"><CODE>tz:std-offset</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC83">4.12.1 Time Zone</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX434"><CODE>tzset</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC83">4.12.1 Time Zone</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX435"><CODE>tzset</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC83">4.12.1 Time Zone</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX436"><CODE>tzset</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC83">4.12.1 Time Zone</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="fn_U"></A>U</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1579"><CODE>unbreak</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC267">7.5.4 Breakpoints</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1580"><CODE>unbreak</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC267">7.5.4 Breakpoints</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1583"><CODE>unbreakf</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC267">7.5.4 Breakpoints</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1291"><CODE>union</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC210">7.2.1.2 Lists as sets</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1257"><CODE>unmake-method!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC199">7.1.14 Procedures</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1598"><CODE>unstack</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC268">7.5.5 Tracing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1599"><CODE>unstack</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC268">7.5.5 Tracing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1594"><CODE>untrace</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC268">7.5.5 Tracing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1595"><CODE>untrace</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC268">7.5.5 Tracing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1606"><CODE>untracef</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC268">7.5.5 Tracing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1596"><CODE>untrack</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC268">7.5.5 Tracing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1597"><CODE>untrack</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC268">7.5.5 Tracing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1526"><CODE>unzip1</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC253">Miscellaneous</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1527"><CODE>unzip2</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC253">Miscellaneous</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1528"><CODE>unzip3</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC253">Miscellaneous</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1529"><CODE>unzip4</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC253">Miscellaneous</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1530"><CODE>unzip5</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC253">Miscellaneous</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX385"><CODE>uri-&gt;tree</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC76">4.10 URI</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX386"><CODE>uri-&gt;tree</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC76">4.10 URI</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX389"><CODE>uri:decode-query</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC76">4.10 URI</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX379"><CODE>uri:make-path</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC76">4.10 URI</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX395"><CODE>uri:path-&gt;keys</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC76">4.10 URI</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX388"><CODE>uri:split-fields</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC76">4.10 URI</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX394"><CODE>uric:decode</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC76">4.10 URI</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX391"><CODE>uric:encode</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC76">4.10 URI</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX858"><CODE>url-&gt;color-dictionary</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC131">Dictionary Creation</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX859"><CODE>url-&gt;color-dictionary</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC131">Dictionary Creation</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1631"><CODE>user-email-address</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC274">Identification</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX61"><CODE>user-vicinity</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC14">2.1 Vicinity</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="fn_V"></A>V</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1477"><CODE>values</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC247">7.4.12 Values</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1453"><CODE>vector-&gt;list</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC240">7.4.5 Rev4 Optional Procedures</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1454"><CODE>vector-fill!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC240">7.4.5 Rev4 Optional Procedures</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX55"><CODE>vet-slib</CODE></A></TD><TD valign=top><A HREF="slib_1.html#SEC12">1.6.5 Module Analysis</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX64"><CODE>vicinity:suffix?</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC14">2.1 Vicinity</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX636"><CODE>vrml</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC112">5.8 Solid Modeling</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX637"><CODE>vrml-append</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC112">5.8 Solid Modeling</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX638"><CODE>vrml-to-file</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC112">5.8 Solid Modeling</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="fn_W"></A>W</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX785"><CODE>wavelength-&gt;chromaticity</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC127">5.9.3 Spectra</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX786"><CODE>wavelength-&gt;CIEXYZ</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC127">5.9.3 Spectra</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX784"><CODE>wavelength-&gt;XYZ</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC127">5.9.3 Spectra</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX589"><CODE>whole-page</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC104">5.7.2 PostScript Graphing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX608"><CODE>whole-page</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC108">5.7.2.4 Rectangles</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1428"><CODE>with-input-from-file</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC237">7.4.2 With-File</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1429"><CODE>with-output-to-file</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC237">7.4.2 With-File</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX982"><CODE>within-database</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC162">6.1.5 Database Macros</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX639"><CODE>world:info</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC112">5.8 Solid Modeling</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX963"><CODE>wrap-command-interface</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC156">6.1.4.1 Database Extension</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1006"><CODE>write-base on base-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC167">6.2.1.1 The Base</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1169"><CODE>write-byte</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC189">7.1.5 Byte</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1170"><CODE>write-byte</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC189">7.1.5 Byte</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1177"><CODE>write-bytes</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC189">7.1.5 Byte</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1178"><CODE>write-bytes</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC189">7.1.5 Byte</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX925"><CODE>write-database</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC143">Database Sharing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1038"><CODE>write-database on relational-database</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC177">6.2.4 Database Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1407"><CODE>write-line</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC229">7.3.4 Line I/O</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1408"><CODE>write-line</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC229">7.3.4 Line I/O</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1070"><CODE>wt-tree/add</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC180">6.3.2 Basic Operations on Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1071"><CODE>wt-tree/add!</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC180">6.3.2 Basic Operations on Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1074"><CODE>wt-tree/delete</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC180">6.3.2 Basic Operations on Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1075"><CODE>wt-tree/delete!</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC180">6.3.2 Basic Operations on Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1092"><CODE>wt-tree/delete-min</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC182">6.3.4 Indexing Operations on Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1093"><CODE>wt-tree/delete-min!</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC182">6.3.4 Indexing Operations on Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1080"><CODE>wt-tree/difference</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC181">6.3.3 Advanced Operations on Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1068"><CODE>wt-tree/empty?</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC180">6.3.2 Basic Operations on Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1083"><CODE>wt-tree/fold</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC181">6.3.3 Advanced Operations on Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1084"><CODE>wt-tree/for-each</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC181">6.3.3 Advanced Operations on Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1085"><CODE>wt-tree/index</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC182">6.3.4 Indexing Operations on Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1086"><CODE>wt-tree/index-datum</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC182">6.3.4 Indexing Operations on Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1087"><CODE>wt-tree/index-pair</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC182">6.3.4 Indexing Operations on Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1079"><CODE>wt-tree/intersection</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC181">6.3.3 Advanced Operations on Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1073"><CODE>wt-tree/lookup</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC180">6.3.2 Basic Operations on Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1072"><CODE>wt-tree/member?</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC180">6.3.2 Basic Operations on Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1089"><CODE>wt-tree/min</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC182">6.3.4 Indexing Operations on Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1090"><CODE>wt-tree/min-datum</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC182">6.3.4 Indexing Operations on Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1091"><CODE>wt-tree/min-pair</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC182">6.3.4 Indexing Operations on Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1088"><CODE>wt-tree/rank</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC182">6.3.4 Indexing Operations on Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1082"><CODE>wt-tree/set-equal?</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC181">6.3.3 Advanced Operations on Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1069"><CODE>wt-tree/size</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC180">6.3.2 Basic Operations on Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1076"><CODE>wt-tree/split&lt;</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC181">6.3.3 Advanced Operations on Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1077"><CODE>wt-tree/split&gt;</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC181">6.3.3 Advanced Operations on Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1081"><CODE>wt-tree/subset?</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC181">6.3.3 Advanced Operations on Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1078"><CODE>wt-tree/union</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC181">6.3.3 Advanced Operations on Weight-Balanced Trees</A></TD></TR>
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-</TR></TABLE>
-<H2 ALIGN="Left">Procedure and Macro Index: X -- Z</H2>
-<table><tr><th valign=top>Jump to: &nbsp; </th><td><A HREF="slib_9.html#fn_-" style="text-decoration:none"><b>-</b></A>
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-<A HREF="slib_19.html#fn_X" style="text-decoration:none"><b>X</b></A>
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-</td></tr></table><P></P>
-<TABLE border=0>
-<TR><TD></TD><TH ALIGN=LEFT>Index Entry</TH><TH ALIGN=LEFT> Section</TH></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="fn_X"></A>X</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX626"><CODE>x-axis</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC109">5.7.2.5 Legending</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1485"><CODE>xcons</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC250">Constructors</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX837"><CODE>xRGB-&gt;CIEXYZ</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC129">5.9.5 Color Conversions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX763"><CODE>xrgb-&gt;color</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC126">Digital Color Spaces</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX839"><CODE>xRGB-&gt;sRGB</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC129">5.9.5 Color Conversions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX799"><CODE>xyY-&gt;XYZ</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC127">5.9.3 Spectra</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX800"><CODE>xyY:normalize-colors</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC127">5.9.3 Spectra</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX801"><CODE>xyY:normalize-colors</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC127">5.9.3 Spectra</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX794"><CODE>XYZ-&gt;chromaticity</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC127">5.9.3 Spectra</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX798"><CODE>XYZ-&gt;xyY</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC127">5.9.3 Spectra</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX792"><CODE>XYZ:normalize</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC127">5.9.3 Spectra</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX793"><CODE>XYZ:normalize-colors</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC127">5.9.3 Spectra</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="fn_Y"></A>Y</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX625"><CODE>y-axis</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC109">5.7.2.5 Legending</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="fn_Z"></A>Z</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX879"><CODE>zenith-xyy</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC133">5.9.7 Daylight</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1525"><CODE>zip</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC253">Miscellaneous</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
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-<TITLE>SLIB: Universal SLIB Procedures</TITLE>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H1> 2. Universal SLIB Procedures </H1>
-<!--docid::SEC13::-->
-<P>
-
-The procedures described in these sections are supported by all
-implementations as part of the `<SAMP>*.init</SAMP>' files or by
-`<TT>require.scm</TT>'.
-</P>
-<P>
-
-<TABLE BORDER="0" CELLSPACING="0">
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_2.html#SEC14">2.1 Vicinity</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">Pathname Management</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_2.html#SEC15">2.2 Configuration</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">Characteristics of Scheme Implementation</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_2.html#SEC16">2.3 Input/Output</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">Things not provided by the Scheme specs.</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_2.html#SEC17">2.4 System</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">LOADing, EVALing, ERRORing, and EXITing</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_2.html#SEC18">2.5 Miscellany</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-</TABLE>
-<P>
-
-<A NAME="Vicinity"></A>
-<HR SIZE="6">
-<A NAME="SEC14"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC13"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC15"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC13"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC13"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 2.1 Vicinity </H2>
-<!--docid::SEC14::-->
-<P>
-
-A vicinity is a descriptor for a place in the file system. Vicinities
-hide from the programmer the concepts of host, volume, directory, and
-version. Vicinities express only the concept of a file environment
-where a file name can be resolved to a file in a system independent
-manner. Vicinities can even be used on <EM>flat</EM> file systems (which
-have no directory structure) by having the vicinity express constraints
-on the file name. On most systems a vicinity would be a string. All of
-these procedures are file system dependent.
-</P>
-<P>
-
-These procedures are provided by all implementations.
-</P>
-<P>
-
-<A NAME="IDX56"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>make-vicinity</B> <I>dirpath</I>
-<DD>Returns <VAR>dirpath</VAR> as a vicinity for use as first argument to
-<CODE>in-vicinity</CODE>.
-</DL>
-<P>
-
-<A NAME="IDX57"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>pathname-&gt;vicinity</B> <I>path</I>
-<DD>Returns the vicinity containing <VAR>path</VAR>.
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(pathname-&gt;vicinity &quot;/usr/local/lib/scm/Link.scm&quot;)
- => &quot;/usr/local/lib/scm/&quot;
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX58"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>program-vicinity</B>
-<DD>Returns the vicinity of the currently loading Scheme code. For an
-interpreter this would be the directory containing source code. For a
-compiled system (with multiple files) this would be the directory where
-the object or executable files are. If no file is currently loading it
-the result is undefined. <STRONG>Warning:</STRONG> <CODE>program-vicinity</CODE> can
-return incorrect values if your program escapes back into a
-<CODE>load</CODE>.
-</DL>
-<P>
-
-<A NAME="IDX59"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>library-vicinity</B>
-<DD>Returns the vicinity of the shared Scheme library.
-</DL>
-<P>
-
-<A NAME="IDX60"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>implementation-vicinity</B>
-<DD>Returns the vicinity of the underlying Scheme implementation. This
-vicinity will likely contain startup code and messages and a compiler.
-</DL>
-<P>
-
-<A NAME="IDX61"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>user-vicinity</B>
-<DD>Returns the vicinity of the current directory of the user. On most
-systems this is `<TT>&quot;&quot;</TT>' (the empty string).
-</DL>
-<P>
-
-<A NAME="IDX62"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>home-vicinity</B>
-<DD>Returns the vicinity of the user's <EM>HOME</EM> directory, the directory
-<A NAME="IDX63"></A>
-which typically contains files which customize a computer environment
-for a user. If scheme is running without a user (eg. a daemon) or if
-this concept is meaningless for the platform, then <CODE>home-vicinity</CODE>
-returns <CODE>#f</CODE>.
-</DL>
-<P>
-
-<A NAME="IDX64"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>vicinity:suffix?</B> <I>chr</I>
-<DD>Returns the `<SAMP>#t</SAMP>' if <VAR>chr</VAR> is a vicinity suffix character; and
-<CODE>#f</CODE> otherwise. Typical vicinity suffixes are `<SAMP>/</SAMP>',
-`<SAMP>:</SAMP>', and `<SAMP>\</SAMP>',
-</DL>
-<P>
-
-<A NAME="IDX65"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>in-vicinity</B> <I>vicinity filename</I>
-<DD>Returns a filename suitable for use by <CODE>slib:load</CODE>,
-<CODE>slib:load-source</CODE>, <CODE>slib:load-compiled</CODE>,
-<CODE>open-input-file</CODE>, <CODE>open-output-file</CODE>, etc. The returned
-filename is <VAR>filename</VAR> in <VAR>vicinity</VAR>. <CODE>in-vicinity</CODE> should
-allow <VAR>filename</VAR> to override <VAR>vicinity</VAR> when <VAR>filename</VAR> is
-an absolute pathname and <VAR>vicinity</VAR> is equal to the value of
-<CODE>(user-vicinity)</CODE>. The behavior of <CODE>in-vicinity</CODE> when
-<VAR>filename</VAR> is absolute and <VAR>vicinity</VAR> is not equal to the value
-of <CODE>(user-vicinity)</CODE> is unspecified. For most systems
-<CODE>in-vicinity</CODE> can be <CODE>string-append</CODE>.
-</DL>
-<P>
-
-<A NAME="IDX66"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>sub-vicinity</B> <I>vicinity name</I>
-<DD>Returns the vicinity of <VAR>vicinity</VAR> restricted to <VAR>name</VAR>. This
-is used for large systems where names of files in subsystems could
-conflict. On systems with directory structure <CODE>sub-vicinity</CODE> will
-return a pathname of the subdirectory <VAR>name</VAR> of
-<VAR>vicinity</VAR>.
-</DL>
-<P>
-
-<A NAME="Configuration"></A>
-<HR SIZE="6">
-<A NAME="SEC15"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC14"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC16"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC13"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC13"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 2.2 Configuration </H2>
-<!--docid::SEC15::-->
-<P>
-
-These constants and procedures describe characteristics of the Scheme
-and underlying operating system. They are provided by all
-implementations.
-</P>
-<P>
-
-<A NAME="IDX67"></A>
-</P>
-<DL>
-<DT><U>Constant:</U> <B>char-code-limit</B>
-<DD>An integer 1 larger that the largest value which can be returned by
-<CODE>char-&gt;integer</CODE>.
-</DL>
-<P>
-
-<A NAME="IDX68"></A>
-</P>
-<DL>
-<DT><U>Constant:</U> <B>most-positive-fixnum</B>
-<DD>In implementations which support integers of practically unlimited size,
-<VAR>most-positive-fixnum</VAR> is a large exact integer within the range of
-exact integers that may result from computing the length of a list,
-vector, or string.
-<P>
-
-In implementations which do not support integers of practically
-unlimited size, <VAR>most-positive-fixnum</VAR> is the largest exact integer
-that may result from computing the length of a list, vector, or string.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX69"></A>
-</P>
-<DL>
-<DT><U>Constant:</U> <B>slib:tab</B>
-<DD>The tab character.
-</DL>
-<P>
-
-<A NAME="IDX70"></A>
-</P>
-<DL>
-<DT><U>Constant:</U> <B>slib:form-feed</B>
-<DD>The form-feed character.
-</DL>
-<P>
-
-<A NAME="IDX71"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>software-type</B>
-<DD>Returns a symbol denoting the generic operating system type. For
-instance, <CODE>unix</CODE>, <CODE>vms</CODE>, <CODE>macos</CODE>, <CODE>amiga</CODE>, or
-<CODE>ms-dos</CODE>.
-</DL>
-<P>
-
-<A NAME="IDX72"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>slib:report-version</B>
-<DD>Displays the versions of SLIB and the underlying Scheme implementation
-and the name of the operating system. An unspecified value is returned.
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(slib:report-version) => slib &quot;3a1&quot; on scm &quot;5b1&quot; on unix
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX73"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>slib:report</B>
-<DD>Displays the information of <CODE>(slib:report-version)</CODE> followed by
-almost all the information neccessary for submitting a problem report.
-An unspecified value is returned.
-<P>
-
-<A NAME="IDX74"></A>
-<DT><U>Function:</U> <B>slib:report</B> <I>#t</I>
-<DD>provides a more verbose listing.
-</P>
-<P>
-
-<A NAME="IDX75"></A>
-<DT><U>Function:</U> <B>slib:report</B> <I>filename</I>
-<DD>Writes the report to file `<TT>filename</TT>'.
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(slib:report)
-=>
-slib &quot;3a1&quot; on scm &quot;5b1&quot; on unix
-(implementation-vicinity) is &quot;/usr/local/lib/scm/&quot;
-(library-vicinity) is &quot;/usr/local/lib/slib/&quot;
-(scheme-file-suffix) is &quot;.scm&quot;
-loaded *features* :
- trace alist qp sort
- common-list-functions macro values getopt
- compiled
-implementation *features* :
- bignum complex real rational
- inexact vicinity ed getenv
- tmpnam abort transcript with-file
- ieee-p1178 r4rs rev4-optional-procedures hash
- object-hash delay eval dynamic-wind
- multiarg-apply multiarg/and- logical defmacro
- string-port source current-time record
- rev3-procedures rev2-procedures sun-dl string-case
- array dump char-ready? full-continuation
- system
-implementation *catalog* :
- (i/o-extensions compiled &quot;/usr/local/lib/scm/ioext.so&quot;)
- ...
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="Input/Output"></A>
-<HR SIZE="6">
-<A NAME="SEC16"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC15"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC17"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC13"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC13"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 2.3 Input/Output </H2>
-<!--docid::SEC16::-->
-<P>
-
-These procedures are provided by all implementations.
-</P>
-<P>
-
-<A NAME="IDX76"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>file-exists?</B> <I>filename</I>
-<DD>Returns <CODE>#t</CODE> if the specified file exists. Otherwise, returns
-<CODE>#f</CODE>. If the underlying implementation does not support this
-feature then <CODE>#f</CODE> is always returned.
-</DL>
-<P>
-
-<A NAME="IDX77"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>delete-file</B> <I>filename</I>
-<DD>Deletes the file specified by <VAR>filename</VAR>. If <VAR>filename</VAR> can not
-be deleted, <CODE>#f</CODE> is returned. Otherwise, <CODE>#t</CODE> is
-returned.
-</DL>
-<P>
-
-<A NAME="IDX78"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>open-file</B> <I>filename modes</I>
-<DD><VAR>filename</VAR> should be a string naming a file. <CODE>open-file</CODE>
-returns a port depending on the symbol <VAR>modes</VAR>:
-<P>
-
-</P>
-<DL COMPACT>
-<DT>r
-<DD>an input port capable of delivering characters from the file.
-<DT>rb
-<DD>a <EM>binary</EM> input port capable of delivering characters from the file.
-<DT>w
-<DD>an output port capable of writing characters to a new file by that name.
-<DT>wb
-<DD>a <EM>binary</EM> output port capable of writing characters to a new file
-by that name.
-</DL>
-<P>
-
-If an implementation does not distinguish between binary and non-binary
-files, then it must treat rb as r and wb as w.
-</P>
-<P>
-
-If the file cannot be opened, either #f is returned or an error is
-signalled. For output, if a file with the given name already exists,
-the effect is unspecified.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX79"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>port?</B> <I>obj</I>
-<DD>Returns <TT>#t</TT> if <VAR>obj</VAR> is an input or output port, otherwise
-returns <TT>#f</TT>.
-</DL>
-<P>
-
-<A NAME="IDX80"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>close-port</B> <I>port</I>
-<DD>Closes the file associated with <VAR>port</VAR>, rendering the <VAR>port</VAR>
-incapable of delivering or accepting characters.
-<P>
-
-<CODE>close-file</CODE> has no effect if the file has already been closed.
-The value returned is unspecified.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX81"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>call-with-open-ports</B> <I>proc ports <small>...</small></I>
-<DD><A NAME="IDX82"></A>
-<DT><U>Function:</U> <B>call-with-open-ports</B> <I>ports <small>...</small> proc</I>
-<DD><VAR>Proc</VAR> should be a procedure that accepts as many arguments as there
-are <VAR>ports</VAR> passed to <CODE>call-with-open-ports</CODE>.
-<CODE>call-with-open-ports</CODE> calls <VAR>proc</VAR> with <VAR>ports</VAR> <small>...</small>.
-If <VAR>proc</VAR> returns, then the ports are closed automatically and the
-value yielded by the <VAR>proc</VAR> is returned. If <VAR>proc</VAR> does not
-return, then the ports will not be closed automatically unless it is
-possible to prove that the ports will never again be used for a read or
-write operation.
-</DL>
-<P>
-
-<A NAME="IDX83"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>tmpnam</B>
-<DD>Returns a pathname for a file which will likely not be used by any other
-process. Successive calls to <CODE>(tmpnam)</CODE> will return different
-pathnames.
-</DL>
-<P>
-
-<A NAME="IDX84"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>current-error-port</B>
-<DD>Returns the current port to which diagnostic and error output is
-directed.
-</DL>
-<P>
-
-<A NAME="IDX85"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>force-output</B>
-<DD><A NAME="IDX86"></A>
-<DT><U>Procedure:</U> <B>force-output</B> <I>port</I>
-<DD>Forces any pending output on <VAR>port</VAR> to be delivered to the output
-device and returns an unspecified value. The <VAR>port</VAR> argument may be
-omitted, in which case it defaults to the value returned by
-<CODE>(current-output-port)</CODE>.
-</DL>
-<P>
-
-<A NAME="IDX87"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>output-port-width</B>
-<DD><A NAME="IDX88"></A>
-<DT><U>Function:</U> <B>output-port-width</B> <I>port</I>
-<DD><P>
-
-Returns the width of <VAR>port</VAR>, which defaults to
-<CODE>(current-output-port)</CODE> if absent. If the width cannot be
-determined 79 is returned.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX89"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>output-port-height</B>
-<DD><A NAME="IDX90"></A>
-<DT><U>Function:</U> <B>output-port-height</B> <I>port</I>
-<DD><P>
-
-Returns the height of <VAR>port</VAR>, which defaults to
-<CODE>(current-output-port)</CODE> if absent. If the height cannot be
-determined 24 is returned.
-</P>
-</DL>
-<P>
-
-<A NAME="System"></A>
-<HR SIZE="6">
-<A NAME="SEC17"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC16"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC18"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC13"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC13"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 2.4 System </H2>
-<!--docid::SEC17::-->
-<P>
-
-These procedures are provided by all implementations.
-</P>
-<P>
-
-<A NAME="IDX91"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>slib:load-source</B> <I>name</I>
-<DD>Loads a file of Scheme source code from <VAR>name</VAR> with the default
-filename extension used in SLIB. For instance if the filename extension
-used in SLIB is `<TT>.scm</TT>' then <CODE>(slib:load-source &quot;foo&quot;)</CODE> will
-load from file `<TT>foo.scm</TT>'.
-</DL>
-<P>
-
-<A NAME="IDX92"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>slib:load-compiled</B> <I>name</I>
-<DD>On implementations which support separtely loadable compiled modules,
-loads a file of compiled code from <VAR>name</VAR> with the implementation's
-filename extension for compiled code appended.
-</DL>
-<P>
-
-<A NAME="IDX93"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>slib:load</B> <I>name</I>
-<DD>Loads a file of Scheme source or compiled code from <VAR>name</VAR> with the
-appropriate suffixes appended. If both source and compiled code are
-present with the appropriate names then the implementation will load
-just one. It is up to the implementation to choose which one will be
-loaded.
-<P>
-
-If an implementation does not support compiled code then
-<CODE>slib:load</CODE> will be identical to <CODE>slib:load-source</CODE>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX94"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>slib:eval</B> <I>obj</I>
-<DD><CODE>eval</CODE> returns the value of <VAR>obj</VAR> evaluated in the current top
-level environment. <A HREF="slib_7.html#SEC246">7.4.11 Eval</A> provides a more general evaluation
-facility.
-</DL>
-<P>
-
-<A NAME="IDX95"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>slib:eval-load</B> <I>filename eval</I>
-<DD><VAR>filename</VAR> should be a string. If filename names an existing file,
-the Scheme source code expressions and definitions are read from the
-file and <VAR>eval</VAR> called with them sequentially. The
-<CODE>slib:eval-load</CODE> procedure does not affect the values returned by
-<CODE>current-input-port</CODE> and <CODE>current-output-port</CODE>.
-</DL>
-<P>
-
-<A NAME="IDX96"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>slib:warn</B> <I>arg1 arg2 <small>...</small></I>
-<DD>Outputs a warning message containing the arguments.
-</DL>
-<P>
-
-<A NAME="IDX97"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>slib:error</B> <I>arg1 arg2 <small>...</small></I>
-<DD>Outputs an error message containing the arguments, aborts evaluation of
-the current form and responds in a system dependent way to the error.
-Typical responses are to abort the program or to enter a read-eval-print
-loop.
-</DL>
-<P>
-
-<A NAME="IDX98"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>slib:exit</B> <I>n</I>
-<DD><A NAME="IDX99"></A>
-<DT><U>Procedure:</U> <B>slib:exit</B>
-<DD>Exits from the Scheme session returning status <VAR>n</VAR> to the system.
-If <VAR>n</VAR> is omitted or <CODE>#t</CODE>, a success status is returned to the
-system (if possible). If <VAR>n</VAR> is <CODE>#f</CODE> a failure is returned to
-the system (if possible). If <VAR>n</VAR> is an integer, then <VAR>n</VAR> is
-returned to the system (if possible). If the Scheme session cannot exit
-an unspecified value is returned from <CODE>slib:exit</CODE>.
-</DL>
-<P>
-
-<A NAME="IDX100"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>browse-url</B> <I>url</I>
-<DD>Web browsers have become so ubiquitous that programming languagues
-should support a uniform interface to them.
-<P>
-
-If a `<SAMP>netscape</SAMP>' browser is running, <CODE>browse-url</CODE> causes the
-browser to display the page specified by string <VAR>url</VAR> and returns
-#t.
-</P>
-<P>
-
-If the browser is not running, <CODE>browse-url</CODE> starts a browser
-displaying the argument <VAR>url</VAR>. If the browser starts as a
-background job, <CODE>browse-url</CODE> returns #t immediately; if the
-browser starts as a foreground job, then <CODE>browse-url</CODE> returns #t
-when the browser exits; otherwise it returns #f.
-</P>
-</DL>
-<P>
-
-<A NAME="Miscellany"></A>
-<HR SIZE="6">
-<A NAME="SEC18"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC17"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC19"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC13"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC13"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 2.5 Miscellany </H2>
-<!--docid::SEC18::-->
-<P>
-
-These procedures are provided by all implementations.
-</P>
-<P>
-
-<A NAME="IDX101"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>identity</B> <I>x</I>
-<DD><VAR>identity</VAR> returns its argument.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(identity 3)
- => 3
-(identity '(foo bar))
- => (foo bar)
-(map identity <VAR>lst</VAR>)
- == (copy-list <VAR>lst</VAR>)
-</pre></td></tr></table></DL>
-<P>
-
-<HR SIZE="6">
-<A NAME="SEC19"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC18"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC20"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC13"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC13"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 2.5.1 Mutual Exclusion </H3>
-<!--docid::SEC19::-->
-<P>
-
-An <EM>exchanger</EM> is a procedure of one argument regulating mutually
-<A NAME="IDX102"></A>
-exclusive access to a resource. When a exchanger is called, its current
-content is returned, while being replaced by its argument in an atomic
-operation.
-</P>
-<P>
-
-<A NAME="IDX103"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>make-exchanger</B> <I>obj</I>
-<DD><P>
-
-Returns a new exchanger with the argument <VAR>obj</VAR> as its initial
-content.
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define queue (make-exchanger (list a)))
-</pre></td></tr></table><P>
-
-A queue implemented as an exchanger holding a list can be protected from
-reentrant execution thus:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define (pop queue)
- (let ((lst #f))
- (dynamic-wind
- (lambda () (set! lst (queue #f)))
- (lambda () (and lst (not (null? lst))
- (let ((ret (car lst)))
- (set! lst (cdr lst))
- ret)))
- (lambda () (and lst (queue lst))))))
-
-(pop queue) => a
-
-(pop queue) => #f
-</pre></td></tr></table></DL>
-<P>
-
-<HR SIZE="6">
-<A NAME="SEC20"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC19"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC13"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC13"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 2.5.2 Legacy </H3>
-<!--docid::SEC20::-->
-<P>
-
-The following procedures were present in Scheme until R4RS
-(see section `Language changes' in <CITE>Revised(4) Scheme</CITE>).
-They are provided by all SLIB implementations.
-</P>
-<P>
-
-<A NAME="IDX104"></A>
-</P>
-<DL>
-<DT><U>Constant:</U> <B>t</B>
-<DD>Derfined as <CODE>#t</CODE>.
-</DL>
-<P>
-
-<A NAME="IDX105"></A>
-</P>
-<DL>
-<DT><U>Constant:</U> <B>nil</B>
-<DD>Defined as <CODE>#f</CODE>.
-</DL>
-<P>
-
-<A NAME="IDX106"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>last-pair</B> <I>l</I>
-<DD>Returns the last pair in the list <VAR>l</VAR>. Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(last-pair (cons 1 2))
- => (1 . 2)
-(last-pair '(1 2))
- => (2)
- == (cons 2 '())
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="Scheme Syntax Extension Packages"></A>
-<HR SIZE="6">
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_2.html#SEC13"> &lt;&lt; </A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<BR>
-<FONT SIZE="-1">
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2 ALIGN="Left">Concept and Feature Index: F -- P</H2>
-<table><tr><th valign=top>Jump to: &nbsp; </th><td><A HREF="slib_11.html#cp_A" style="text-decoration:none"><b>A</b></A>
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-<A HREF="slib_22.html#cp_W" style="text-decoration:none"><b>W</b></A>
- &nbsp;
-<A HREF="slib_22.html#cp_X" style="text-decoration:none"><b>X</b></A>
- &nbsp;
-<A HREF="slib_22.html#cp_Y" style="text-decoration:none"><b>Y</b></A>
- &nbsp;
-</td></tr></table><P></P>
-<TABLE border=0>
-<TR><TD></TD><TH ALIGN=LEFT>Index Entry</TH><TH ALIGN=LEFT> Section</TH></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="cp_F"></A>F</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX524"><CODE>factor</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC96">5.3 Prime Numbers</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX9"><CODE>feature</CODE></A></TD><TD valign=top><A HREF="slib_1.html#SEC3">1.2 Require</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_8.html#IDX1651"><CODE>feature</CODE></A></TD><TD valign=top><A HREF="slib_8.html#SEC291">8.5 About this manual</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX557"><CODE>fft</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC100">5.5 Fast Fourier Transform</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX402">File Transfer Protocol</A></TD><TD valign=top><A HREF="slib_4.html#SEC77">File-system Locators and Predicates</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1616">file-lock</A></TD><TD valign=top><A HREF="slib_7.html#SEC272">File Locking</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1617">file-lock</A></TD><TD valign=top><A HREF="slib_7.html#SEC272">File Locking</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX259"><CODE>filename</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC67">4.4.6 Filenames</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX154"><CODE>fluid-let</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC39">3.7 Fluid-Let</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX311">form</A></TD><TD valign=top><A HREF="slib_4.html#SEC70">4.6 HTML Forms</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX210"><CODE>format</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC53">4.2 Format (version 3.0)</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="cp_G"></A>G</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX726">gamut</A></TD><TD valign=top><A HREF="slib_5.html#SEC123">Measurement-based Color Spaces</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX407"><CODE>generic-write</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC79">4.11.1 Generic-Write</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX406">getit</A></TD><TD valign=top><A HREF="slib_4.html#SEC77">File-system Locators and Predicates</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX230"><CODE>getopt</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC62">4.4.1 Getopt</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX235"><CODE>getopt</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC62">4.4.1 Getopt</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX981"><CODE>getopt</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC161">6.1.4.6 Command Example</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX256"><CODE>getopt-parameters</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC66">4.4.5 Getopt Parameter lists</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX979"><CODE>getopt-parameters</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC161">6.1.4.6 Command Example</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX260"><CODE>glob</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC67">4.4.6 Filenames</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX293"><CODE>glob</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC68">4.4.7 Batch</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX501">Gray code</A></TD><TD valign=top><A HREF="slib_5.html#SEC94">5.1.5 Gray code</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_8.html#IDX1648"><CODE>Guile</CODE></A></TD><TD valign=top><A HREF="slib_8.html#SEC283">8.1.5 Implementation-specific Instructions</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="cp_H"></A>H</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1347"><CODE>hash</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC218">7.2.6 Hashing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1240"><CODE>hash-table</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC196">7.1.11 Hash Tables</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1353">Hilbert</A></TD><TD valign=top><A HREF="slib_7.html#SEC220">7.2.7.1 Peano-Hilbert Space-Filling Curve</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1351"><CODE>hilbert-fill</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC220">7.2.7.1 Peano-Hilbert Space-Filling Curve</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX23">HOME</A></TD><TD valign=top><A HREF="slib_1.html#SEC5">1.4 Catalog Creation</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX63">HOME</A></TD><TD valign=top><A HREF="slib_2.html#SEC14">2.1 Vicinity</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX33">homecat</A></TD><TD valign=top><A HREF="slib_1.html#SEC6">1.5 Catalog Vicinities</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX366"><CODE>html-for-each</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC75">4.9 Parsing HTML</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX294"><CODE>html-form</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC69">4.5 HTML</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX351"><CODE>http</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC74">4.8 HTTP and CGI</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX750">Hue</A></TD><TD valign=top><A HREF="slib_5.html#SEC125">Cylindrical Coordinates</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="cp_I"></A>I</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX757"><CODE>ICC Profile</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC126">Digital Color Spaces</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX30">implcat</A></TD><TD valign=top><A HREF="slib_1.html#SEC6">1.5 Catalog Vicinities</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1190">indexed-sequential-access-method</A></TD><TD valign=top><A HREF="slib_7.html#SEC191">Byte Collation Order</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX176"><CODE>infix</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC48">4.1.2 Rule Types</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX52">Info</A></TD><TD valign=top><A HREF="slib_1.html#SEC11">1.6.4 Top-level Variable References</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX182"><CODE>inmatchfix</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC48">4.1.2 Rule Types</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_8.html#IDX1639">install</A></TD><TD valign=top><A HREF="slib_8.html#SEC278">8.1 Installation</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_8.html#IDX1640">installation</A></TD><TD valign=top><A HREF="slib_8.html#SEC278">8.1 Installation</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX3">intrinsic feature</A></TD><TD valign=top><A HREF="slib_1.html#SEC2">1.1 Feature</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX950">ISAM</A></TD><TD valign=top><A HREF="slib_6.html#SEC151">6.1.2.4 Indexed Sequential Access Methods</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="cp_L"></A>L</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX734"><CODE>L*a*b*</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC124">Perceptual Uniformity</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX747"><CODE>L*C*h</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC125">Cylindrical Coordinates</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX741"><CODE>L*u*v*</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC124">Perceptual Uniformity</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX197">Left Denotation, led</A></TD><TD valign=top><A HREF="slib_4.html#SEC51">4.1.5 Nud and Led Definition</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX735">Lightness</A></TD><TD valign=top><A HREF="slib_5.html#SEC124">Perceptual Uniformity</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX748">Lightness</A></TD><TD valign=top><A HREF="slib_5.html#SEC125">Cylindrical Coordinates</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1402"><CODE>line-i</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC229">7.3.4 Line I/O</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1484">list-processing library</A></TD><TD valign=top><A HREF="slib_7.html#SEC249">7.4.13.1 SRFI-1</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1061"><CODE>load-option</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC178">6.3 Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX476"><CODE>logical</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC89">5.1 Bit-Twiddling</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX477"><CODE>logical</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC89">5.1 Bit-Twiddling</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="cp_M"></A>M</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX116"><CODE>macro</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC24">3.2 R4RS Macros</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1557"><CODE>macro</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC264">7.5.1 Repl</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX120"><CODE>macro-by-example</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC25">3.3 Macro by Example</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX123"><CODE>macros-that-work</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC27">3.4 Macros That Work</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX37"><CODE>manifest</CODE></A></TD><TD valign=top><A HREF="slib_1.html#SEC9">1.6.2 Module Manifests</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1025">match</A></TD><TD valign=top><A HREF="slib_6.html#SEC172">6.2.1.6 Match Keys</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX942">match-keys</A></TD><TD valign=top><A HREF="slib_6.html#SEC149">6.1.2.2 Match-Keys</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1024">match-keys</A></TD><TD valign=top><A HREF="slib_6.html#SEC172">6.2.1.6 Match Keys</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX181"><CODE>matchfix</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC48">4.1.2 Rule Types</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1197"><CODE>matfile</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC192">7.1.7 MAT-File Format</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1198"><CODE>matlab</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC192">7.1.7 MAT-File Format</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1417"><CODE>metric-units</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC231">7.3.6 Metric Units</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX891"><CODE>minimize</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC135">5.11 Minimizing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX221">minimum field width (<CODE>printf</CODE>)</A></TD><TD valign=top><A HREF="slib_4.html#SEC56">4.3.2 Standard Formatted Output</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_8.html#IDX1647"><CODE>MIT Scheme</CODE></A></TD><TD valign=top><A HREF="slib_8.html#SEC283">8.1.5 Implementation-specific Instructions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX31">mkimpcat.scm</A></TD><TD valign=top><A HREF="slib_1.html#SEC6">1.5 Catalog Vicinities</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX28">mklibcat.scm</A></TD><TD valign=top><A HREF="slib_1.html#SEC6">1.5 Catalog Vicinities</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX509"><CODE>modular</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC95">5.2 Modular Arithmetic</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1455"><CODE>multiarg</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC241">7.4.6 Multi-argument / and -</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1458"><CODE>multiarg-apply</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC242">7.4.7 Multi-argument Apply</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_8.html#IDX1646"><CODE>MzScheme</CODE></A></TD><TD valign=top><A HREF="slib_8.html#SEC283">8.1.5 Implementation-specific Instructions</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="cp_N"></A>N</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX177"><CODE>nary</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC48">4.1.2 Rule Types</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX25">new-catalog</A></TD><TD valign=top><A HREF="slib_1.html#SEC5">1.4 Catalog Creation</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX174"><CODE>nofix</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC48">4.1.2 Rule Types</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX343">null</A></TD><TD valign=top><A HREF="slib_4.html#SEC72">4.7.1 HTML editing tables</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX196">Null Denotation, nud</A></TD><TD valign=top><A HREF="slib_4.html#SEC51">4.1.5 Nud and Led Definition</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="cp_O"></A>O</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1250"><CODE>object</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC197">7.1.12 Macroless Object System</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1259"><CODE>object</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC200">7.1.15 Examples</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1260"><CODE>object</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC203">7.1.15.3 Inverter code</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX409"><CODE>object-&gt;string</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC80">4.11.2 Object-To-String</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX156"><CODE>oop</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC40">3.8 Yasos</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1060">option, run-time-loadable</A></TD><TD valign=top><A HREF="slib_6.html#SEC178">6.3 Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX245">options file</A></TD><TD valign=top><A HREF="slib_4.html#SEC64">4.4.3 Command Line</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX246">options file</A></TD><TD valign=top><A HREF="slib_4.html#SEC64">4.4.3 Command Line</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="cp_P"></A>P</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX247"><CODE>parameters</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC65">4.4.4 Parameter lists</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX291"><CODE>parameters</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC68">4.4.7 Batch</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX980"><CODE>parameters</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC161">6.1.4.6 Command Example</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX170"><CODE>parse</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC46">4.1 Precedence Parsing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1205">pbm</A></TD><TD valign=top><A HREF="slib_7.html#SEC193">7.1.8 Portable Image Files</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1206">pbm-raw</A></TD><TD valign=top><A HREF="slib_7.html#SEC193">7.1.8 Portable Image Files</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1352">Peano</A></TD><TD valign=top><A HREF="slib_7.html#SEC220">7.2.7.1 Peano-Hilbert Space-Filling Curve</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1355">Peano-Hilbert Space-Filling Curve</A></TD><TD valign=top><A HREF="slib_7.html#SEC220">7.2.7.1 Peano-Hilbert Space-Filling Curve</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1207">pgm</A></TD><TD valign=top><A HREF="slib_7.html#SEC193">7.1.8 Portable Image Files</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1208">pgm-raw</A></TD><TD valign=top><A HREF="slib_7.html#SEC193">7.1.8 Portable Image Files</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX298">plain-text</A></TD><TD valign=top><A HREF="slib_4.html#SEC69">4.5 HTML</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_8.html#IDX1644"><CODE>PLT Scheme</CODE></A></TD><TD valign=top><A HREF="slib_8.html#SEC283">8.1.5 Implementation-specific Instructions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1202"><CODE>pnm</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC193">7.1.8 Portable Image Files</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1204">portable bitmap graphics</A></TD><TD valign=top><A HREF="slib_7.html#SEC193">7.1.8 Portable Image Files</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1212">portable bitmap graphics</A></TD><TD valign=top><A HREF="slib_7.html#SEC193">7.1.8 Portable Image Files</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1214">portable bitmap graphics</A></TD><TD valign=top><A HREF="slib_7.html#SEC193">7.1.8 Portable Image Files</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX440"><CODE>posix-time</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC84">4.12.2 Posix Time</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX178"><CODE>postfix</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC48">4.1.2 Rule Types</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1209">ppm</A></TD><TD valign=top><A HREF="slib_7.html#SEC193">7.1.8 Portable Image Files</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1210">ppm-raw</A></TD><TD valign=top><A HREF="slib_7.html#SEC193">7.1.8 Portable Image Files</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX417"><CODE>pprint-file</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC81">4.11.3 Pretty-Print</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX422"><CODE>pprint-file</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC81">4.11.3 Pretty-Print</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX308">PRE</A></TD><TD valign=top><A HREF="slib_4.html#SEC69">4.5 HTML</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX171"><CODE>precedence</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC46">4.1 Precedence Parsing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX222">precision (<CODE>printf</CODE>)</A></TD><TD valign=top><A HREF="slib_4.html#SEC56">4.3.2 Standard Formatted Output</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX175"><CODE>prefix</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC48">4.1.2 Rule Types</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX179"><CODE>prestfix</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC48">4.1.2 Rule Types</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX412"><CODE>pretty-print</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC81">4.11.3 Pretty-Print</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX525"><CODE>primes</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC96">5.3 Prime Numbers</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX215"><CODE>printf</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC56">4.3.2 Standard Formatted Output</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1261"><CODE>priority-queue</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC204">7.1.16 Priority Queues</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX534">PRNG</A></TD><TD valign=top><A HREF="slib_5.html#SEC97">5.4 Random Numbers</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1411"><CODE>process</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC230">7.3.5 Multi-Processing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1464"><CODE>promise</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC244">7.4.9 Promises</A></TD></TR>
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-<H2 ALIGN="Left">Concept and Feature Index: Q -- U</H2>
-<table><tr><th valign=top>Jump to: &nbsp; </th><td><A HREF="slib_11.html#cp_A" style="text-decoration:none"><b>A</b></A>
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-</td></tr></table><P></P>
-<TABLE border=0>
-<TR><TD></TD><TH ALIGN=LEFT>Index Entry</TH><TH ALIGN=LEFT> Section</TH></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="cp_Q"></A>Q</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX237"><CODE>qp</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC63">4.4.2 Getopt---</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1559"><CODE>qp</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC265">7.5.2 Quick Print</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX360">query-string</A></TD><TD valign=top><A HREF="slib_4.html#SEC74">4.8 HTTP and CGI</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX363">query-string</A></TD><TD valign=top><A HREF="slib_4.html#SEC74">4.8 HTTP and CGI</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1266"><CODE>queue</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC205">7.1.17 Queues</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="cp_R"></A>R</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1419"><CODE>r2rs</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC236">7.4.1 RnRS</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1421"><CODE>r3rs</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC236">7.4.1 RnRS</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_8.html#IDX1649"><CODE>r3rs</CODE></A></TD><TD valign=top><A HREF="slib_8.html#SEC285">8.3 Coding Guidelines</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1423"><CODE>r4rs</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC236">7.4.1 RnRS</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1425"><CODE>r5rs</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC236">7.4.1 RnRS</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX535"><CODE>random</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC98">5.4.1 Exact Random Numbers</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX544"><CODE>random-inexact</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC99">5.4.2 Inexact Random Numbers</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX590">range</A></TD><TD valign=top><A HREF="slib_5.html#SEC105">5.7.2.1 Column Ranges</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX591">range</A></TD><TD valign=top><A HREF="slib_5.html#SEC105">5.7.2.1 Column Ranges</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1460"><CODE>rationalize</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC243">7.4.8 Rationalize</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX238"><CODE>read-command</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC64">4.4.3 Command Line</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1279"><CODE>record</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC206">7.1.18 Records</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX607">rectangle</A></TD><TD valign=top><A HREF="slib_5.html#SEC108">5.7.2.4 Rectangles</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX917"><CODE>relational-database</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC141">6.1 Relational Database</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX921">relational-system</A></TD><TD valign=top><A HREF="slib_6.html#SEC143">Database Sharing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX150"><CODE>repl</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC36">3.6 Syntax-Case Macros</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1554"><CODE>repl</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC264">7.5.1 Repl</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1558"><CODE>repl</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC264">7.5.1 Repl</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX862">Resene</A></TD><TD valign=top><A HREF="slib_5.html#SEC131">Dictionary Creation</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX866"><CODE>resene</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC132">The Short List</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX322">reset</A></TD><TD valign=top><A HREF="slib_4.html#SEC70">4.6 HTML Forms</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1433"><CODE>rev2-procedures</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC239">7.4.4 Rev2 Procedures</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1446"><CODE>rev4-optional-procedures</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC240">7.4.5 Rev4 Optional Procedures</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX730"><CODE>RGB709</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC123">Measurement-based Color Spaces</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX895">ring, commutative</A></TD><TD valign=top><A HREF="slib_5.html#SEC136">5.12 Commutative Rings</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX533">RNG</A></TD><TD valign=top><A HREF="slib_5.html#SEC97">5.4 Random Numbers</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX883"><CODE>root</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC134">5.10 Root Finding</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1059">run-time-loadable option</A></TD><TD valign=top><A HREF="slib_6.html#SEC178">6.3 Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX999"><CODE>rwb-isam</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC166">6.2.1 Base Table</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="cp_S"></A>S</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX864"><CODE>saturate</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC132">The Short List</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX223"><CODE>scanf</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC60">4.3.3 Standard Formatted Input</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX398">scheme</A></TD><TD valign=top><A HREF="slib_4.html#SEC77">File-system Locators and Predicates</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1480">Scheme Request For Implementation</A></TD><TD valign=top><A HREF="slib_7.html#SEC248">7.4.13 SRFI</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_8.html#IDX1643"><CODE>Scheme48</CODE></A></TD><TD valign=top><A HREF="slib_8.html#SEC283">8.1.5 Implementation-specific Instructions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX471"><CODE>schmooz</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC87">4.14 Schmooz</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_8.html#IDX1641"><CODE>SCM</CODE></A></TD><TD valign=top><A HREF="slib_8.html#SEC283">8.1.5 Implementation-specific Instructions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX898"><CODE>self-set</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC136">5.12 Commutative Rings</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1376">Sequence Comparison</A></TD><TD valign=top><A HREF="slib_7.html#SEC224">7.2.10 Sequence Comparison</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX387">Server-based Naming Authority</A></TD><TD valign=top><A HREF="slib_4.html#SEC76">4.10 URI</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX2">session</A></TD><TD valign=top><A HREF="slib_1.html#SEC2">1.1 Feature</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1057">sets, using binary trees</A></TD><TD valign=top><A HREF="slib_6.html#SEC178">6.3 Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX243">shell</A></TD><TD valign=top><A HREF="slib_4.html#SEC64">4.4.3 Command Line</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1358"><CODE>sierpinski</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC221">7.2.7.2 Sierpinski Curve</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX29">sitecat</A></TD><TD valign=top><A HREF="slib_1.html#SEC6">1.5 Catalog Vicinities</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX32">sitecat</A></TD><TD valign=top><A HREF="slib_1.html#SEC6">1.5 Catalog Vicinities</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX871"><CODE>sky</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC133">5.9.7 Daylight</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX27">slibcat</A></TD><TD valign=top><A HREF="slib_1.html#SEC6">1.5 Catalog Vicinities</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX634"><CODE>solid</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC112">5.8 Solid Modeling</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX635"><CODE>solid-modeling</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC112">5.8 Solid Modeling</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX633"><CODE>solids</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC112">5.8 Solid Modeling</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1336"><CODE>sort</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC216">7.2.4 Sorting</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1360"><CODE>soundex</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC222">7.2.8 Soundex</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX14">source</A></TD><TD valign=top><A HREF="slib_1.html#SEC4">1.3 Library Catalogs</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1354">Space-Filling</A></TD><TD valign=top><A HREF="slib_7.html#SEC220">7.2.7.1 Peano-Hilbert Space-Filling Curve</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1199">sparse</A></TD><TD valign=top><A HREF="slib_7.html#SEC192">7.1.7 MAT-File Format</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX770">Spectral Tristimulus Values</A></TD><TD valign=top><A HREF="slib_5.html#SEC127">5.9.3 Spectra</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1378">spiff</A></TD><TD valign=top><A HREF="slib_7.html#SEC224">7.2.10 Sequence Comparison</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1479"><CODE>srfi</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC248">7.4.13 SRFI</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1483">SRFI-1</A></TD><TD valign=top><A HREF="slib_7.html#SEC249">7.4.13.1 SRFI-1</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1482"><CODE>srfi-1</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC249">7.4.13.1 SRFI-1</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1548"><CODE>srfi-2</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC260">7.4.13.2 SRFI-2</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1550"><CODE>srfi-8</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC261">7.4.13.3 SRFI-8</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1552"><CODE>srfi-9</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC262">7.4.13.4 SRFI-9</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX756"><CODE>sRGB</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC126">Digital Color Spaces</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX211"><CODE>stdio</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC55">4.3.1 stdio</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1388"><CODE>string-case</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC227">7.3.2 String-Case</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1399"><CODE>string-port</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC228">7.3.3 String Ports</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1362"><CODE>string-search</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC223">7.2.9 String Search</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1131"><CODE>subarray</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC186">7.1.2 Subarrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX870"><CODE>sun</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC133">5.9.7 Daylight</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX869"><CODE>sunlight</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC133">5.9.7 Daylight</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX516">symmetric</A></TD><TD valign=top><A HREF="slib_5.html#SEC95">5.2 Modular Arithmetic</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX130"><CODE>syntactic-closures</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC30">3.5 Syntactic Closures</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX173">syntax tree</A></TD><TD valign=top><A HREF="slib_4.html#SEC47">4.1.1 Precedence Parsing Overview</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX142"><CODE>syntax-case</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC36">3.6 Syntax-Case Macros</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX149"><CODE>syntax-case</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC36">3.6 Syntax-Case Macros</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX151"><CODE>syntax-case</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC36">3.6 Syntax-Case Macros</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="cp_T"></A>T</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX424">time</A></TD><TD valign=top><A HREF="slib_4.html#SEC82">4.12 Time and Date</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX430"><CODE>time-zone</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC83">4.12.1 Time Zone</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX48">top-level variable references</A></TD><TD valign=top><A HREF="slib_1.html#SEC11">1.6.4 Top-level Variable References</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX47"><CODE>top-refs</CODE></A></TD><TD valign=top><A HREF="slib_1.html#SEC11">1.6.4 Top-level Variable References</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1342"><CODE>topological-sort</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC217">7.2.5 Topological Sort</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1584"><CODE>trace</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC268">7.5.5 Tracing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1615"><CODE>transact</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC271">7.6.2 Transactions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1430"><CODE>transcript</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC238">7.4.3 Transcripts</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1324"><CODE>tree</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC214">7.2.2 Tree operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1051">trees, balanced binary</A></TD><TD valign=top><A HREF="slib_6.html#SEC178">6.3 Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX723">tristimulus</A></TD><TD valign=top><A HREF="slib_5.html#SEC123">Measurement-based Color Spaces</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX724">tristimulus</A></TD><TD valign=top><A HREF="slib_5.html#SEC123">Measurement-based Color Spaces</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1343"><CODE>tsort</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC217">7.2.5 Topological Sort</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1346"><CODE>tsort</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC217">7.2.5 Topological Sort</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX875">turbidity</A></TD><TD valign=top><A HREF="slib_5.html#SEC133">5.9.7 Daylight</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX429"><CODE>TZ-string</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC83">4.12.1 Time Zone</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="cp_U"></A>U</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX372">Uniform Resource Identifiers</A></TD><TD valign=top><A HREF="slib_4.html#SEC76">4.10 URI</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX404">Uniform Resource Locator</A></TD><TD valign=top><A HREF="slib_4.html#SEC77">File-system Locators and Predicates</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX899">Unique Factorization</A></TD><TD valign=top><A HREF="slib_5.html#SEC136">5.12 Commutative Rings</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX392">unsafe</A></TD><TD valign=top><A HREF="slib_4.html#SEC76">4.10 URI</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX371"><CODE>uri</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC76">4.10 URI</A></TD></TR>
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-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX390">URI</A></TD><TD valign=top><A HREF="slib_4.html#SEC76">4.10 URI</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX34">usercat</A></TD><TD valign=top><A HREF="slib_1.html#SEC6">1.5 Catalog Vicinities</A></TD></TR>
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-<A HREF="slib_22.html#cp_W" style="text-decoration:none"><b>W</b></A>
- &nbsp;
-<A HREF="slib_22.html#cp_X" style="text-decoration:none"><b>X</b></A>
- &nbsp;
-<A HREF="slib_22.html#cp_Y" style="text-decoration:none"><b>Y</b></A>
- &nbsp;
-</td></tr></table><P></P>
-<TABLE border=0>
-<TR><TD></TD><TH ALIGN=LEFT>Index Entry</TH><TH ALIGN=LEFT> Section</TH></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="cp_V"></A>V</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1476"><CODE>values</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC247">7.4.12 Values</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX49">variable references</A></TD><TD valign=top><A HREF="slib_1.html#SEC11">1.6.4 Top-level Variable References</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_1.html#IDX54"><CODE>vet</CODE></A></TD><TD valign=top><A HREF="slib_1.html#SEC12">1.6.5 Module Analysis</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_8.html#IDX1642"><CODE>VSCM</CODE></A></TD><TD valign=top><A HREF="slib_8.html#SEC283">8.1.5 Implementation-specific Instructions</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="cp_W"></A>W</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX998">WB</A></TD><TD valign=top><A HREF="slib_6.html#SEC166">6.2.1 Base Table</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX996"><CODE>wb-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC166">6.2.1 Base Table</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1054">weight-balanced binary trees</A></TD><TD valign=top><A HREF="slib_6.html#SEC178">6.3 Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX860">wget</A></TD><TD valign=top><A HREF="slib_5.html#SEC131">Dictionary Creation</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX719">white point</A></TD><TD valign=top><A HREF="slib_5.html#SEC121">5.9.1.2 White</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX720">white point</A></TD><TD valign=top><A HREF="slib_5.html#SEC121">5.9.1.2 White</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1026">wild-card</A></TD><TD valign=top><A HREF="slib_6.html#SEC172">6.2.1.6 Match Keys</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1427"><CODE>with-file</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC237">7.4.2 With-File</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1619">Word</A></TD><TD valign=top><A HREF="slib_7.html#SEC272">File Locking</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1050"><CODE>wt-tree</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC178">6.3 Weight-Balanced Trees</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="cp_X"></A>X</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX760"><CODE>xRGB</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC126">Digital Color Spaces</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX797">xyY</A></TD><TD valign=top><A HREF="slib_5.html#SEC127">5.9.3 Spectra</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="cp_Y"></A>Y</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX157"><CODE>yasos</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC40">3.8 Yasos</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-</TABLE><P></P><table><tr><th valign=top>Jump to: &nbsp; </th><td><A HREF="slib_11.html#cp_A" style="text-decoration:none"><b>A</b></A>
- &nbsp;
-<A HREF="slib_11.html#cp_B" style="text-decoration:none"><b>B</b></A>
- &nbsp;
-<A HREF="slib_11.html#cp_C" style="text-decoration:none"><b>C</b></A>
- &nbsp;
-<A HREF="slib_11.html#cp_D" style="text-decoration:none"><b>D</b></A>
- &nbsp;
-<A HREF="slib_11.html#cp_E" style="text-decoration:none"><b>E</b></A>
- &nbsp;
-<A HREF="slib_20.html#cp_F" style="text-decoration:none"><b>F</b></A>
- &nbsp;
-<A HREF="slib_20.html#cp_G" style="text-decoration:none"><b>G</b></A>
- &nbsp;
-<A HREF="slib_20.html#cp_H" style="text-decoration:none"><b>H</b></A>
- &nbsp;
-<A HREF="slib_20.html#cp_I" style="text-decoration:none"><b>I</b></A>
- &nbsp;
-<A HREF="slib_20.html#cp_L" style="text-decoration:none"><b>L</b></A>
- &nbsp;
-<A HREF="slib_20.html#cp_M" style="text-decoration:none"><b>M</b></A>
- &nbsp;
-<A HREF="slib_20.html#cp_N" style="text-decoration:none"><b>N</b></A>
- &nbsp;
-<A HREF="slib_20.html#cp_O" style="text-decoration:none"><b>O</b></A>
- &nbsp;
-<A HREF="slib_20.html#cp_P" style="text-decoration:none"><b>P</b></A>
- &nbsp;
-<A HREF="slib_21.html#cp_Q" style="text-decoration:none"><b>Q</b></A>
- &nbsp;
-<A HREF="slib_21.html#cp_R" style="text-decoration:none"><b>R</b></A>
- &nbsp;
-<A HREF="slib_21.html#cp_S" style="text-decoration:none"><b>S</b></A>
- &nbsp;
-<A HREF="slib_21.html#cp_T" style="text-decoration:none"><b>T</b></A>
- &nbsp;
-<A HREF="slib_21.html#cp_U" style="text-decoration:none"><b>U</b></A>
- &nbsp;
-<A HREF="slib_22.html#cp_V" style="text-decoration:none"><b>V</b></A>
- &nbsp;
-<A HREF="slib_22.html#cp_W" style="text-decoration:none"><b>W</b></A>
- &nbsp;
-<A HREF="slib_22.html#cp_X" style="text-decoration:none"><b>X</b></A>
- &nbsp;
-<A HREF="slib_22.html#cp_Y" style="text-decoration:none"><b>Y</b></A>
- &nbsp;
-</td></tr></table><P>
-
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-<TITLE>SLIB: Scheme Syntax Extension Packages</TITLE>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H1> 3. Scheme Syntax Extension Packages </H1>
-<!--docid::SEC21::-->
-<P>
-
-<TABLE BORDER="0" CELLSPACING="0">
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_3.html#SEC22">3.1 Defmacro</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">Supported by all implementations</TD></TR>
-<TR><TH COLSPAN="3" ALIGN="left" VALIGN="TOP">
-</TH></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_3.html#SEC24">3.2 R4RS Macros</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'macro</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_3.html#SEC25">3.3 Macro by Example</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'macro-by-example</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_3.html#SEC27">3.4 Macros That Work</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'macros-that-work</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_3.html#SEC30">3.5 Syntactic Closures</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'syntactic-closures</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_3.html#SEC36">3.6 Syntax-Case Macros</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'syntax-case</TD></TR>
-<TR><TH COLSPAN="3" ALIGN="left" VALIGN="TOP">
-</TH></TR>
-<TR><TH COLSPAN="3" ALIGN="left" VALIGN="TOP">Syntax extensions (macros) included with SLIB.
-</TH></TR>
-<TR><TH COLSPAN="3" ALIGN="left" VALIGN="TOP">
-</TH></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_3.html#SEC39">3.7 Fluid-Let</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'fluid-let</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_3.html#SEC40">3.8 Yasos</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'yasos, 'oop, 'collect</TD></TR>
-</TABLE>
-<P>
-
-<A NAME="Defmacro"></A>
-<HR SIZE="6">
-<A NAME="SEC22"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> &lt; </A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 3.1 Defmacro </H2>
-<!--docid::SEC22::-->
-<P>
-
-Defmacros are supported by all implementations.
-</P>
-<P>
-
-<A NAME="IDX107"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>gentemp</B>
-<DD>Returns a new (interned) symbol each time it is called. The symbol
-names are implementation-dependent
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(gentemp) => scm:G0
-(gentemp) => scm:G1
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX108"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>defmacro:eval</B> <I>e</I>
-<DD>Returns the <CODE>slib:eval</CODE> of expanding all defmacros in scheme
-expression <VAR>e</VAR>.
-</DL>
-<P>
-
-<A NAME="IDX109"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>defmacro:load</B> <I>filename</I>
-<DD><VAR>filename</VAR> should be a string. If filename names an existing file,
-the <CODE>defmacro:load</CODE> procedure reads Scheme source code expressions
-and definitions from the file and evaluates them sequentially. These
-source code expressions and definitions may contain defmacro
-definitions. The <CODE>macro:load</CODE> procedure does not affect the values
-returned by <CODE>current-input-port</CODE> and
-<CODE>current-output-port</CODE>.
-</DL>
-<P>
-
-<A NAME="IDX110"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>defmacro?</B> <I>sym</I>
-<DD>Returns <CODE>#t</CODE> if <VAR>sym</VAR> has been defined by <CODE>defmacro</CODE>,
-<CODE>#f</CODE> otherwise.
-</DL>
-<P>
-
-<A NAME="IDX111"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>macroexpand-1</B> <I>form</I>
-<DD><A NAME="IDX112"></A>
-<DT><U>Function:</U> <B>macroexpand</B> <I>form</I>
-<DD>If <VAR>form</VAR> is a macro call, <CODE>macroexpand-1</CODE> will expand the
-macro call once and return it. A <VAR>form</VAR> is considered to be a macro
-call only if it is a cons whose <CODE>car</CODE> is a symbol for which a
-<CODE>defmacro</CODE> has been defined.
-<P>
-
-<CODE>macroexpand</CODE> is similar to <CODE>macroexpand-1</CODE>, but repeatedly
-expands <VAR>form</VAR> until it is no longer a macro call.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX113"></A>
-</P>
-<DL>
-<DT><U>Macro:</U> <B>defmacro</B> <I>name lambda-list form <small>...</small></I>
-<DD>When encountered by <CODE>defmacro:eval</CODE>, <CODE>defmacro:macroexpand*</CODE>,
-or <CODE>defmacro:load</CODE> defines a new macro which will henceforth be
-expanded when encountered by <CODE>defmacro:eval</CODE>,
-<CODE>defmacro:macroexpand*</CODE>, or <CODE>defmacro:load</CODE>.
-</DL>
-<P>
-
-<HR SIZE="6">
-<A NAME="SEC23"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC22"> &lt; </A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 3.1.1 Defmacroexpand </H3>
-<!--docid::SEC23::-->
-<CODE>(require 'defmacroexpand)</CODE>
-<A NAME="IDX114"></A>
-<P>
-
-<A NAME="IDX115"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>defmacro:expand*</B> <I>e</I>
-<DD>Returns the result of expanding all defmacros in scheme expression
-<VAR>e</VAR>.
-</DL>
-<P>
-
-<A NAME="R4RS Macros"></A>
-<HR SIZE="6">
-<A NAME="SEC24"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC23"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC25"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 3.2 R4RS Macros </H2>
-<!--docid::SEC24::-->
-<P>
-
-<CODE>(require 'macro)</CODE> is the appropriate call if you want R4RS
-<A NAME="IDX116"></A>
-high-level macros but don't care about the low level implementation. If
-an SLIB R4RS macro implementation is already loaded it will be used.
-Otherwise, one of the R4RS macros implemetations is loaded.
-</P>
-<P>
-
-The SLIB R4RS macro implementations support the following uniform
-interface:
-</P>
-<P>
-
-<A NAME="IDX117"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>macro:expand</B> <I>sexpression</I>
-<DD>Takes an R4RS expression, macro-expands it, and returns the result of
-the macro expansion.
-</DL>
-<P>
-
-<A NAME="IDX118"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>macro:eval</B> <I>sexpression</I>
-<DD>Takes an R4RS expression, macro-expands it, evals the result of the
-macro expansion, and returns the result of the evaluation.
-</DL>
-<P>
-
-<A NAME="IDX119"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>macro:load</B> <I>filename</I>
-<DD><VAR>filename</VAR> should be a string. If filename names an existing file,
-the <CODE>macro:load</CODE> procedure reads Scheme source code expressions and
-definitions from the file and evaluates them sequentially. These source
-code expressions and definitions may contain macro definitions. The
-<CODE>macro:load</CODE> procedure does not affect the values returned by
-<CODE>current-input-port</CODE> and <CODE>current-output-port</CODE>.
-</DL>
-<P>
-
-<A NAME="Macro by Example"></A>
-<HR SIZE="6">
-<A NAME="SEC25"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC24"> &lt; </A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 3.3 Macro by Example </H2>
-<!--docid::SEC25::-->
-<P>
-
-<CODE>(require 'macro-by-example)</CODE>
-<A NAME="IDX120"></A>
-</P>
-<P>
-
-A vanilla implementation of <CITE>Macro by Example</CITE> (Eugene Kohlbecker,
-R4RS) by Dorai Sitaram, (dorai @ cs.rice.edu) using <CODE>defmacro</CODE>.
-</P>
-<P>
-
-<UL>
-
-<LI>
-generating hygienic global <CODE>define-syntax</CODE> Macro-by-Example macros
-<STRONG>cheaply</STRONG>.
-<P>
-
-</P>
-<LI>
-can define macros which use <CODE>...</CODE>.
-<P>
-
-</P>
-<LI>
-needn't worry about a lexical variable in a macro definition
-clashing with a variable from the macro use context
-<P>
-
-</P>
-<LI>
-don't suffer the overhead of redefining the repl if <CODE>defmacro</CODE>
-natively supported (most implementations)
-<P>
-
-</UL>
-<HR SIZE="6">
-<A NAME="SEC26"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC25"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC27"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 3.3.1 Caveat </H3>
-<!--docid::SEC26::-->
-These macros are not referentially transparent (see section `Macros' in <CITE>Revised(4) Scheme</CITE>). Lexically scoped macros (i.e., <CODE>let-syntax</CODE>
-and <CODE>letrec-syntax</CODE>) are not supported. In any case, the problem
-of referential transparency gains poignancy only when <CODE>let-syntax</CODE>
-and <CODE>letrec-syntax</CODE> are used. So you will not be courting
-large-scale disaster unless you're using system-function names as local
-variables with unintuitive bindings that the macro can't use. However,
-if you must have the full <CITE>r4rs</CITE> macro functionality, look to the
-more featureful (but also more expensive) versions of syntax-rules
-available in slib <A HREF="slib_3.html#SEC27">3.4 Macros That Work</A>, <A HREF="slib_3.html#SEC30">3.5 Syntactic Closures</A>, and
-<A HREF="slib_3.html#SEC36">3.6 Syntax-Case Macros</A>.
-<P>
-
-<A NAME="IDX121"></A>
-</P>
-<DL>
-<DT><U>Macro:</U> <B>define-syntax</B> <I>keyword transformer-spec</I>
-<DD>The <VAR>keyword</VAR> is an identifier, and the <VAR>transformer-spec</VAR>
-should be an instance of <CODE>syntax-rules</CODE>.
-<P>
-
-The top-level syntactic environment is extended by binding the
-<VAR>keyword</VAR> to the specified transformer.
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define-syntax let*
- (syntax-rules ()
- ((let* () body1 body2 ...)
- (let () body1 body2 ...))
- ((let* ((name1 val1) (name2 val2) ...)
- body1 body2 ...)
- (let ((name1 val1))
- (let* (( name2 val2) ...)
- body1 body2 ...)))))
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX122"></A>
-</P>
-<DL>
-<DT><U>Macro:</U> <B>syntax-rules</B> <I>literals syntax-rule <small>...</small></I>
-<DD><VAR>literals</VAR> is a list of identifiers, and each <VAR>syntax-rule</VAR>
-should be of the form
-<P>
-
-<CODE>(<VAR>pattern</VAR> <VAR>template</VAR>)</CODE>
-</P>
-<P>
-
-where the <VAR>pattern</VAR> and <VAR>template</VAR> are as in the grammar above.
-</P>
-<P>
-
-An instance of <CODE>syntax-rules</CODE> produces a new macro transformer by
-specifying a sequence of hygienic rewrite rules. A use of a macro whose
-keyword is associated with a transformer specified by
-<CODE>syntax-rules</CODE> is matched against the patterns contained in the
-<VAR>syntax-rule</VAR>s, beginning with the leftmost <VAR>syntax-rule</VAR>.
-When a match is found, the macro use is trancribed hygienically
-according to the template.
-</P>
-<P>
-
-Each pattern begins with the keyword for the macro. This keyword is not
-involved in the matching and is not considered a pattern variable or
-literal identifier.
-</P>
-</DL>
-<P>
-
-<A NAME="Macros That Work"></A>
-<HR SIZE="6">
-<A NAME="SEC27"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC26"> &lt; </A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &gt;&gt; </A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 3.4 Macros That Work </H2>
-<!--docid::SEC27::-->
-<P>
-
-<CODE>(require 'macros-that-work)</CODE>
-<A NAME="IDX123"></A>
-</P>
-<P>
-
-<CITE>Macros That Work</CITE> differs from the other R4RS macro
-implementations in that it does not expand derived expression types to
-primitive expression types.
-</P>
-<P>
-
-<A NAME="IDX124"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>macro:expand</B> <I>expression</I>
-<DD><A NAME="IDX125"></A>
-<DT><U>Function:</U> <B>macwork:expand</B> <I>expression</I>
-<DD>Takes an R4RS expression, macro-expands it, and returns the result of
-the macro expansion.
-</DL>
-<P>
-
-<A NAME="IDX126"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>macro:eval</B> <I>expression</I>
-<DD><A NAME="IDX127"></A>
-<DT><U>Function:</U> <B>macwork:eval</B> <I>expression</I>
-<DD><CODE>macro:eval</CODE> returns the value of <VAR>expression</VAR> in the current
-top level environment. <VAR>expression</VAR> can contain macro definitions.
-Side effects of <VAR>expression</VAR> will affect the top level
-environment.
-</DL>
-<P>
-
-<A NAME="IDX128"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>macro:load</B> <I>filename</I>
-<DD><A NAME="IDX129"></A>
-<DT><U>Procedure:</U> <B>macwork:load</B> <I>filename</I>
-<DD><VAR>filename</VAR> should be a string. If filename names an existing file,
-the <CODE>macro:load</CODE> procedure reads Scheme source code expressions and
-definitions from the file and evaluates them sequentially. These source
-code expressions and definitions may contain macro definitions. The
-<CODE>macro:load</CODE> procedure does not affect the values returned by
-<CODE>current-input-port</CODE> and <CODE>current-output-port</CODE>.
-</DL>
-<P>
-
-References:
-</P>
-<P>
-
-The <CITE>Revised^4 Report on the Algorithmic Language Scheme</CITE> Clinger
-and Rees [editors]. To appear in LISP Pointers. Also available as a
-technical report from the University of Oregon, MIT AI Lab, and
-Cornell.
-</P>
-<P>
-
-<center>
- Macros That Work. Clinger and Rees. POPL '91.
-</center>
-</P>
-<P>
-
-The supported syntax differs from the R4RS in that vectors are allowed
-as patterns and as templates and are not allowed as pattern or template
-data.
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>transformer spec ==> (syntax-rules literals rules)
-
-rules ==> ()
- | (rule . rules)
-
-rule ==> (pattern template)
-
-pattern ==> pattern_var ; a symbol not in literals
- | symbol ; a symbol in literals
- | ()
- | (pattern . pattern)
- | (ellipsis_pattern)
- | #(pattern*) ; extends R4RS
- | #(pattern* ellipsis_pattern) ; extends R4RS
- | pattern_datum
-
-template ==> pattern_var
- | symbol
- | ()
- | (template2 . template2)
- | #(template*) ; extends R4RS
- | pattern_datum
-
-template2 ==> template
- | ellipsis_template
-
-pattern_datum ==> string ; no vector
- | character
- | boolean
- | number
-
-ellipsis_pattern ==> pattern ...
-
-ellipsis_template ==> template ...
-
-pattern_var ==> symbol ; not in literals
-
-literals ==> ()
- | (symbol . literals)
-</pre></td></tr></table><P>
-
-<HR SIZE="6">
-<A NAME="SEC28"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC27"> &lt; </A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &gt;&gt; </A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 3.4.1 Definitions </H3>
-<!--docid::SEC28::-->
-<P>
-
-</P>
-<DL COMPACT>
-
-<DT>Scope of an ellipsis
-<DD>Within a pattern or template, the scope of an ellipsis (<CODE>...</CODE>) is
-the pattern or template that appears to its left.
-<P>
-
-</P>
-<DT>Rank of a pattern variable
-<DD>The rank of a pattern variable is the number of ellipses within whose
-scope it appears in the pattern.
-<P>
-
-</P>
-<DT>Rank of a subtemplate
-<DD>The rank of a subtemplate is the number of ellipses within whose scope
-it appears in the template.
-<P>
-
-</P>
-<DT>Template rank of an occurrence of a pattern variable
-<DD>The template rank of an occurrence of a pattern variable within a
-template is the rank of that occurrence, viewed as a subtemplate.
-<P>
-
-</P>
-<DT>Variables bound by a pattern
-<DD>The variables bound by a pattern are the pattern variables that appear
-within it.
-<P>
-
-</P>
-<DT>Referenced variables of a subtemplate
-<DD>The referenced variables of a subtemplate are the pattern variables that
-appear within it.
-<P>
-
-</P>
-<DT>Variables opened by an ellipsis template
-<DD>The variables opened by an ellipsis template are the referenced pattern
-variables whose rank is greater than the rank of the ellipsis template.
-<P>
-
-</DL>
-<P>
-
-<HR SIZE="6">
-<A NAME="SEC29"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC28"> &lt; </A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 3.4.2 Restrictions </H3>
-<!--docid::SEC29::-->
-<P>
-
-No pattern variable appears more than once within a pattern.
-</P>
-<P>
-
-For every occurrence of a pattern variable within a template, the
-template rank of the occurrence must be greater than or equal to the
-pattern variable's rank.
-</P>
-<P>
-
-Every ellipsis template must open at least one variable.
-</P>
-<P>
-
-For every ellipsis template, the variables opened by an ellipsis
-template must all be bound to sequences of the same length.
-</P>
-<P>
-
-The compiled form of a <VAR>rule</VAR> is
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>rule ==> (pattern template inserted)
-
-pattern ==> pattern_var
- | symbol
- | ()
- | (pattern . pattern)
- | ellipsis_pattern
- | #(pattern)
- | pattern_datum
-
-template ==> pattern_var
- | symbol
- | ()
- | (template2 . template2)
- | #(pattern)
- | pattern_datum
-
-template2 ==> template
- | ellipsis_template
-
-pattern_datum ==> string
- | character
- | boolean
- | number
-
-pattern_var ==> #(V symbol rank)
-
-ellipsis_pattern ==> #(E pattern pattern_vars)
-
-ellipsis_template ==> #(E template pattern_vars)
-
-inserted ==> ()
- | (symbol . inserted)
-
-pattern_vars ==> ()
- | (pattern_var . pattern_vars)
-
-rank ==> exact non-negative integer
-</pre></td></tr></table><P>
-
-where V and E are unforgeable values.
-</P>
-<P>
-
-The pattern variables associated with an ellipsis pattern are the
-variables bound by the pattern, and the pattern variables associated
-with an ellipsis template are the variables opened by the ellipsis
-template.
-</P>
-<P>
-
-If the template contains a big chunk that contains no pattern variables
-or inserted identifiers, then the big chunk will be copied
-unnecessarily. That shouldn't matter very often.
-</P>
-<P>
-
-<A NAME="Syntactic Closures"></A>
-<HR SIZE="6">
-<A NAME="SEC30"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC29"> &lt; </A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &gt;&gt; </A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 3.5 Syntactic Closures </H2>
-<!--docid::SEC30::-->
-<P>
-
-<CODE>(require 'syntactic-closures)</CODE>
-<A NAME="IDX130"></A>
-</P>
-<P>
-
-<A NAME="IDX131"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>macro:expand</B> <I>expression</I>
-<DD><A NAME="IDX132"></A>
-<DT><U>Function:</U> <B>synclo:expand</B> <I>expression</I>
-<DD>Returns scheme code with the macros and derived expression types of
-<VAR>expression</VAR> expanded to primitive expression types.
-</DL>
-<P>
-
-<A NAME="IDX133"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>macro:eval</B> <I>expression</I>
-<DD><A NAME="IDX134"></A>
-<DT><U>Function:</U> <B>synclo:eval</B> <I>expression</I>
-<DD><CODE>macro:eval</CODE> returns the value of <VAR>expression</VAR> in the current
-top level environment. <VAR>expression</VAR> can contain macro definitions.
-Side effects of <VAR>expression</VAR> will affect the top level
-environment.
-</DL>
-<P>
-
-<A NAME="IDX135"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>macro:load</B> <I>filename</I>
-<DD><A NAME="IDX136"></A>
-<DT><U>Procedure:</U> <B>synclo:load</B> <I>filename</I>
-<DD><VAR>filename</VAR> should be a string. If filename names an existing file,
-the <CODE>macro:load</CODE> procedure reads Scheme source code expressions and
-definitions from the file and evaluates them sequentially. These
-source code expressions and definitions may contain macro definitions.
-The <CODE>macro:load</CODE> procedure does not affect the values returned by
-<CODE>current-input-port</CODE> and <CODE>current-output-port</CODE>.
-</DL>
-<P>
-
-<HR SIZE="6">
-<A NAME="SEC31"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC30"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC32"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 3.5.1 Syntactic Closure Macro Facility </H3>
-<!--docid::SEC31::-->
-<P>
-
-<center>
- A Syntactic Closures Macro Facility
-</center>
-<center>
- by Chris Hanson
-</center>
-<center>
- 9 November 1991
-</center>
-</P>
-<P>
-
-This document describes <EM>syntactic closures</EM>, a low-level macro
-facility for the Scheme programming language. The facility is an
-alternative to the low-level macro facility described in the
-<CITE>Revised^4 Report on Scheme.</CITE> This document is an addendum to that
-report.
-</P>
-<P>
-
-The syntactic closures facility extends the BNF rule for
-<VAR>transformer spec</VAR> to allow a new keyword that introduces a
-low-level macro transformer:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre><VAR>transformer spec</VAR> := (transformer <VAR>expression</VAR>)
-</pre></td></tr></table><P>
-
-Additionally, the following procedures are added:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>make-syntactic-closure
-capture-syntactic-environment
-identifier?
-identifier=?
-</pre></td></tr></table><P>
-
-The description of the facility is divided into three parts. The first
-part defines basic terminology. The second part describes how macro
-transformers are defined. The third part describes the use of
-<EM>identifiers</EM>, which extend the syntactic closure mechanism to be
-compatible with <CODE>syntax-rules</CODE>.
-</P>
-<P>
-
-<HR SIZE="6">
-<A NAME="SEC32"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC31"> &lt; </A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> &lt;&lt; </A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 3.5.1.1 Terminology </H4>
-<!--docid::SEC32::-->
-<P>
-
-This section defines the concepts and data types used by the syntactic
-closures facility.
-</P>
-<P>
-
-<UL>
-
-<LI><EM>Forms</EM> are the syntactic entities out of which programs are
-recursively constructed. A form is any expression, any definition, any
-syntactic keyword, or any syntactic closure. The variable name that
-appears in a <CODE>set!</CODE> special form is also a form. Examples of
-forms:
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>17
-#t
-car
-(+ x 4)
-(lambda (x) x)
-(define pi 3.14159)
-if
-define
-</pre></td></tr></table><P>
-
-</P>
-<LI>An <EM>alias</EM> is an alternate name for a given symbol. It can
-appear anywhere in a form that the symbol could be used, and when quoted
-it is replaced by the symbol; however, it does not satisfy the predicate
-<CODE>symbol?</CODE>. Macro transformers rarely distinguish symbols from
-aliases, referring to both as identifiers.
-<P>
-
-</P>
-<LI>A <EM>syntactic</EM> environment maps identifiers to their
-meanings. More precisely, it determines whether an identifier is a
-syntactic keyword or a variable. If it is a keyword, the meaning is an
-interpretation for the form in which that keyword appears. If it is a
-variable, the meaning identifies which binding of that variable is
-referenced. In short, syntactic environments contain all of the
-contextual information necessary for interpreting the meaning of a
-particular form.
-<P>
-
-</P>
-<LI>A <EM>syntactic closure</EM> consists of a form, a syntactic
-environment, and a list of identifiers. All identifiers in the form
-take their meaning from the syntactic environment, except those in the
-given list. The identifiers in the list are to have their meanings
-determined later. A syntactic closure may be used in any context in
-which its form could have been used. Since a syntactic closure is also
-a form, it may not be used in contexts where a form would be illegal.
-For example, a form may not appear as a clause in the cond special form.
-A syntactic closure appearing in a quoted structure is replaced by its
-form.
-<P>
-
-</UL>
-<P>
-
-<HR SIZE="6">
-<A NAME="SEC33"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC32"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC34"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 3.5.1.2 Transformer Definition </H4>
-<!--docid::SEC33::-->
-<P>
-
-This section describes the <CODE>transformer</CODE> special form and the
-procedures <CODE>make-syntactic-closure</CODE> and
-<CODE>capture-syntactic-environment</CODE>.
-</P>
-<P>
-
-<A NAME="IDX137"></A>
-</P>
-<DL>
-<DT><U>Syntax:</U> <B>transformer</B> <I>expression</I>
-<DD><P>
-
-Syntax: It is an error if this syntax occurs except as a
-<VAR>transformer spec</VAR>.
-</P>
-<P>
-
-Semantics: The <VAR>expression</VAR> is evaluated in the standard transformer
-environment to yield a macro transformer as described below. This macro
-transformer is bound to a macro keyword by the special form in which the
-<CODE>transformer</CODE> expression appears (for example,
-<CODE>let-syntax</CODE>).
-</P>
-<P>
-
-A <EM>macro transformer</EM> is a procedure that takes two arguments, a
-form and a syntactic environment, and returns a new form. The first
-argument, the <EM>input form</EM>, is the form in which the macro keyword
-occurred. The second argument, the <EM>usage environment</EM>, is the
-syntactic environment in which the input form occurred. The result of
-the transformer, the <EM>output form</EM>, is automatically closed in the
-<EM>transformer environment</EM>, which is the syntactic environment in
-which the <CODE>transformer</CODE> expression occurred.
-</P>
-<P>
-
-For example, here is a definition of a push macro using
-<CODE>syntax-rules</CODE>:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define-syntax push
- (syntax-rules ()
- ((push item list)
- (set! list (cons item list)))))
-</pre></td></tr></table><P>
-
-Here is an equivalent definition using <CODE>transformer</CODE>:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define-syntax push
- (transformer
- (lambda (exp env)
- (let ((item
- (make-syntactic-closure env '() (cadr exp)))
- (list
- (make-syntactic-closure env '() (caddr exp))))
- `(set! ,list (cons ,item ,list))))))
-</pre></td></tr></table><P>
-
-In this example, the identifiers <CODE>set!</CODE> and <CODE>cons</CODE> are closed
-in the transformer environment, and thus will not be affected by the
-meanings of those identifiers in the usage environment
-<CODE>env</CODE>.
-</P>
-<P>
-
-Some macros may be non-hygienic by design. For example, the following
-defines a loop macro that implicitly binds <CODE>exit</CODE> to an escape
-procedure. The binding of <CODE>exit</CODE> is intended to capture free
-references to <CODE>exit</CODE> in the body of the loop, so <CODE>exit</CODE> must
-be left free when the body is closed:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define-syntax loop
- (transformer
- (lambda (exp env)
- (let ((body (cdr exp)))
- `(call-with-current-continuation
- (lambda (exit)
- (let f ()
- ,@(map (lambda (exp)
- (make-syntactic-closure env '(exit)
- exp))
- body)
- (f))))))))
-</pre></td></tr></table><P>
-
-To assign meanings to the identifiers in a form, use
-<CODE>make-syntactic-closure</CODE> to close the form in a syntactic
-environment.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX138"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>make-syntactic-closure</B> <I>environment free-names form</I>
-<DD><P>
-
-<VAR>environment</VAR> must be a syntactic environment, <VAR>free-names</VAR> must
-be a list of identifiers, and <VAR>form</VAR> must be a form.
-<CODE>make-syntactic-closure</CODE> constructs and returns a syntactic closure
-of <VAR>form</VAR> in <VAR>environment</VAR>, which can be used anywhere that
-<VAR>form</VAR> could have been used. All the identifiers used in
-<VAR>form</VAR>, except those explicitly excepted by <VAR>free-names</VAR>, obtain
-their meanings from <VAR>environment</VAR>.
-</P>
-<P>
-
-Here is an example where <VAR>free-names</VAR> is something other than the
-empty list. It is instructive to compare the use of <VAR>free-names</VAR> in
-this example with its use in the <CODE>loop</CODE> example above: the examples
-are similar except for the source of the identifier being left
-free.
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define-syntax let1
- (transformer
- (lambda (exp env)
- (let ((id (cadr exp))
- (init (caddr exp))
- (exp (cadddr exp)))
- `((lambda (,id)
- ,(make-syntactic-closure env (list id) exp))
- ,(make-syntactic-closure env '() init))))))
-</pre></td></tr></table><P>
-
-<CODE>let1</CODE> is a simplified version of <CODE>let</CODE> that only binds a
-single identifier, and whose body consists of a single expression. When
-the body expression is syntactically closed in its original syntactic
-environment, the identifier that is to be bound by <CODE>let1</CODE> must be
-left free, so that it can be properly captured by the <CODE>lambda</CODE> in
-the output form.
-</P>
-<P>
-
-To obtain a syntactic environment other than the usage environment, use
-<CODE>capture-syntactic-environment</CODE>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX139"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>capture-syntactic-environment</B> <I>procedure</I>
-<DD><P>
-
-<CODE>capture-syntactic-environment</CODE> returns a form that will, when
-transformed, call <VAR>procedure</VAR> on the current syntactic environment.
-<VAR>procedure</VAR> should compute and return a new form to be transformed,
-in that same syntactic environment, in place of the form.
-</P>
-<P>
-
-An example will make this clear. Suppose we wanted to define a simple
-<CODE>loop-until</CODE> keyword equivalent to
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define-syntax loop-until
- (syntax-rules ()
- ((loop-until id init test return step)
- (letrec ((loop
- (lambda (id)
- (if test return (loop step)))))
- (loop init)))))
-</pre></td></tr></table><P>
-
-The following attempt at defining <CODE>loop-until</CODE> has a subtle bug:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define-syntax loop-until
- (transformer
- (lambda (exp env)
- (let ((id (cadr exp))
- (init (caddr exp))
- (test (cadddr exp))
- (return (cadddr (cdr exp)))
- (step (cadddr (cddr exp)))
- (close
- (lambda (exp free)
- (make-syntactic-closure env free exp))))
- `(letrec ((loop
- (lambda (,id)
- (if ,(close test (list id))
- ,(close return (list id))
- (loop ,(close step (list id)))))))
- (loop ,(close init '())))))))
-</pre></td></tr></table><P>
-
-This definition appears to take all of the proper precautions to prevent
-unintended captures. It carefully closes the subexpressions in their
-original syntactic environment and it leaves the <CODE>id</CODE> identifier
-free in the <CODE>test</CODE>, <CODE>return</CODE>, and <CODE>step</CODE> expressions, so
-that it will be captured by the binding introduced by the <CODE>lambda</CODE>
-expression. Unfortunately it uses the identifiers <CODE>if</CODE> and
-<CODE>loop</CODE> within that <CODE>lambda</CODE> expression, so if the user of
-<CODE>loop-until</CODE> just happens to use, say, <CODE>if</CODE> for the
-identifier, it will be inadvertently captured.
-</P>
-<P>
-
-The syntactic environment that <CODE>if</CODE> and <CODE>loop</CODE> want to be
-exposed to is the one just outside the <CODE>lambda</CODE> expression: before
-the user's identifier is added to the syntactic environment, but after
-the identifier loop has been added.
-<CODE>capture-syntactic-environment</CODE> captures exactly that environment
-as follows:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define-syntax loop-until
- (transformer
- (lambda (exp env)
- (let ((id (cadr exp))
- (init (caddr exp))
- (test (cadddr exp))
- (return (cadddr (cdr exp)))
- (step (cadddr (cddr exp)))
- (close
- (lambda (exp free)
- (make-syntactic-closure env free exp))))
- `(letrec ((loop
- ,(capture-syntactic-environment
- (lambda (env)
- `(lambda (,id)
- (,(make-syntactic-closure env '() `if)
- ,(close test (list id))
- ,(close return (list id))
- (,(make-syntactic-closure env '()
- `loop)
- ,(close step (list id)))))))))
- (loop ,(close init '())))))))
-</pre></td></tr></table><P>
-
-In this case, having captured the desired syntactic environment, it is
-convenient to construct syntactic closures of the identifiers <CODE>if</CODE>
-and the <CODE>loop</CODE> and use them in the body of the
-<CODE>lambda</CODE>.
-</P>
-<P>
-
-A common use of <CODE>capture-syntactic-environment</CODE> is to get the
-transformer environment of a macro transformer:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(transformer
- (lambda (exp env)
- (capture-syntactic-environment
- (lambda (transformer-env)
- ...))))
-</pre></td></tr></table></DL>
-<P>
-
-<HR SIZE="6">
-<A NAME="SEC34"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC33"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC35"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 3.5.1.3 Identifiers </H4>
-<!--docid::SEC34::-->
-<P>
-
-This section describes the procedures that create and manipulate
-identifiers. Previous syntactic closure proposals did not have an
-identifier data type -- they just used symbols. The identifier data
-type extends the syntactic closures facility to be compatible with the
-high-level <CODE>syntax-rules</CODE> facility.
-</P>
-<P>
-
-As discussed earlier, an identifier is either a symbol or an
-<EM>alias</EM>. An alias is implemented as a syntactic closure whose
-<EM>form</EM> is an identifier:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(make-syntactic-closure env '() 'a)
- => an <EM>alias</EM>
-</pre></td></tr></table><P>
-
-Aliases are implemented as syntactic closures because they behave just
-like syntactic closures most of the time. The difference is that an
-alias may be bound to a new value (for example by <CODE>lambda</CODE> or
-<CODE>let-syntax</CODE>); other syntactic closures may not be used this way.
-If an alias is bound, then within the scope of that binding it is looked
-up in the syntactic environment just like any other identifier.
-</P>
-<P>
-
-Aliases are used in the implementation of the high-level facility
-<CODE>syntax-rules</CODE>. A macro transformer created by <CODE>syntax-rules</CODE>
-uses a template to generate its output form, substituting subforms of
-the input form into the template. In a syntactic closures
-implementation, all of the symbols in the template are replaced by
-aliases closed in the transformer environment, while the output form
-itself is closed in the usage environment. This guarantees that the
-macro transformation is hygienic, without requiring the transformer to
-know the syntactic roles of the substituted input subforms.
-</P>
-<P>
-
-<A NAME="IDX140"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>identifier?</B> <I>object</I>
-<DD>Returns <CODE>#t</CODE> if <VAR>object</VAR> is an identifier, otherwise returns
-<CODE>#f</CODE>. Examples:
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(identifier? 'a)
- => #t
-(identifier? (make-syntactic-closure env '() 'a))
- => #t
-(identifier? &quot;a&quot;)
- => #f
-(identifier? #\a)
- => #f
-(identifier? 97)
- => #f
-(identifier? #f)
- => #f
-(identifier? '(a))
- => #f
-(identifier? '#(a))
- => #f
-</pre></td></tr></table><P>
-
-The predicate <CODE>eq?</CODE> is used to determine if two identifers are
-&quot;the same&quot;. Thus <CODE>eq?</CODE> can be used to compare identifiers
-exactly as it would be used to compare symbols. Often, though, it is
-useful to know whether two identifiers &quot;mean the same thing&quot;. For
-example, the <CODE>cond</CODE> macro uses the symbol <CODE>else</CODE> to identify
-the final clause in the conditional. A macro transformer for
-<CODE>cond</CODE> cannot just look for the symbol <CODE>else</CODE>, because the
-<CODE>cond</CODE> form might be the output of another macro transformer that
-replaced the symbol <CODE>else</CODE> with an alias. Instead the transformer
-must look for an identifier that &quot;means the same thing&quot; in the usage
-environment as the symbol <CODE>else</CODE> means in the transformer
-environment.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX141"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>identifier=?</B> <I>environment1 identifier1 environment2 identifier2</I>
-<DD><VAR>environment1</VAR> and <VAR>environment2</VAR> must be syntactic
-environments, and <VAR>identifier1</VAR> and <VAR>identifier2</VAR> must be
-identifiers. <CODE>identifier=?</CODE> returns <CODE>#t</CODE> if the meaning of
-<VAR>identifier1</VAR> in <VAR>environment1</VAR> is the same as that of
-<VAR>identifier2</VAR> in <VAR>environment2</VAR>, otherwise it returns <CODE>#f</CODE>.
-Examples:
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(let-syntax
- ((foo
- (transformer
- (lambda (form env)
- (capture-syntactic-environment
- (lambda (transformer-env)
- (identifier=? transformer-env 'x env 'x)))))))
- (list (foo)
- (let ((x 3))
- (foo))))
- => (#t #f)
-</pre></td></tr></table><P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(let-syntax ((bar foo))
- (let-syntax
- ((foo
- (transformer
- (lambda (form env)
- (capture-syntactic-environment
- (lambda (transformer-env)
- (identifier=? transformer-env 'foo
- env (cadr form))))))))
- (list (foo foo)
- (foobar))))
- => (#f #t)
-</pre></td></tr></table></DL>
-<P>
-
-<HR SIZE="6">
-<A NAME="SEC35"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC34"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC36"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 3.5.1.4 Acknowledgements </H4>
-<!--docid::SEC35::-->
-<P>
-
-The syntactic closures facility was invented by Alan Bawden and Jonathan
-Rees. The use of aliases to implement <CODE>syntax-rules</CODE> was invented
-by Alan Bawden (who prefers to call them <EM>synthetic names</EM>). Much
-of this proposal is derived from an earlier proposal by Alan
-Bawden.
-</P>
-<P>
-
-<A NAME="Syntax-Case Macros"></A>
-<HR SIZE="6">
-<A NAME="SEC36"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC35"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC37"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 3.6 Syntax-Case Macros </H2>
-<!--docid::SEC36::-->
-<P>
-
-<CODE>(require 'syntax-case)</CODE>
-<A NAME="IDX142"></A>
-</P>
-<P>
-
-<A NAME="IDX143"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>macro:expand</B> <I>expression</I>
-<DD><A NAME="IDX144"></A>
-<DT><U>Function:</U> <B>syncase:expand</B> <I>expression</I>
-<DD>Returns scheme code with the macros and derived expression types of
-<VAR>expression</VAR> expanded to primitive expression types.
-</DL>
-<P>
-
-<A NAME="IDX145"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>macro:eval</B> <I>expression</I>
-<DD><A NAME="IDX146"></A>
-<DT><U>Function:</U> <B>syncase:eval</B> <I>expression</I>
-<DD><CODE>macro:eval</CODE> returns the value of <VAR>expression</VAR> in the current
-top level environment. <VAR>expression</VAR> can contain macro definitions.
-Side effects of <VAR>expression</VAR> will affect the top level
-environment.
-</DL>
-<P>
-
-<A NAME="IDX147"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>macro:load</B> <I>filename</I>
-<DD><A NAME="IDX148"></A>
-<DT><U>Procedure:</U> <B>syncase:load</B> <I>filename</I>
-<DD><VAR>filename</VAR> should be a string. If filename names an existing file,
-the <CODE>macro:load</CODE> procedure reads Scheme source code expressions and
-definitions from the file and evaluates them sequentially. These
-source code expressions and definitions may contain macro definitions.
-The <CODE>macro:load</CODE> procedure does not affect the values returned by
-<CODE>current-input-port</CODE> and <CODE>current-output-port</CODE>.
-</DL>
-<P>
-
-This is version 2.1 of <CODE>syntax-case</CODE>, the low-level macro facility
-proposed and implemented by Robert Hieb and R. Kent Dybvig.
-</P>
-<P>
-
-This version is further adapted by Harald Hanche-Olsen
-&lt;hanche @ imf.unit.no&gt; to make it compatible with, and easily usable
-with, SLIB. Mainly, these adaptations consisted of:
-</P>
-<P>
-
-<UL>
-<LI>
-Removing white space from `<TT>expand.pp</TT>' to save space in the
-distribution. This file is not meant for human readers anyway<small>...</small>
-<P>
-
-</P>
-<LI>
-Removed a couple of Chez scheme dependencies.
-<P>
-
-</P>
-<LI>
-Renamed global variables used to minimize the possibility of name
-conflicts.
-<P>
-
-</P>
-<LI>
-Adding an SLIB-specific initialization file.
-<P>
-
-</P>
-<LI>
-Removing a couple extra files, most notably the documentation (but see
-below).
-</UL>
-<P>
-
-If you wish, you can see exactly what changes were done by reading the
-shell script in the file `<TT>syncase.sh</TT>'.
-</P>
-<P>
-
-The two PostScript files were omitted in order to not burden the SLIB
-distribution with them. If you do intend to use <CODE>syntax-case</CODE>,
-however, you should get these files and print them out on a PostScript
-printer. They are available with the original <CODE>syntax-case</CODE>
-distribution by anonymous FTP in
-`<TT>cs.indiana.edu:/pub/scheme/syntax-case</TT>'.
-</P>
-<P>
-
-In order to use syntax-case from an interactive top level, execute:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(require 'syntax-case)
-<A NAME="IDX149"></A>(require 'repl)
-<A NAME="IDX150"></A>(repl:top-level macro:eval)
-</pre></td></tr></table>See the section Repl (see section <A HREF="slib_7.html#SEC264">7.5.1 Repl</A>) for more information.
-<P>
-
-To check operation of syntax-case get
-`<TT>cs.indiana.edu:/pub/scheme/syntax-case</TT>', and type
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(require 'syntax-case)
-<A NAME="IDX151"></A><A NAME="IDX152"></A>(syncase:sanity-check)
-</pre></td></tr></table><P>
-
-Beware that <CODE>syntax-case</CODE> takes a long time to load -- about 20s on
-a SPARCstation SLC (with SCM) and about 90s on a Macintosh SE/30 (with
-Gambit).
-</P>
-<P>
-
-<HR SIZE="6">
-<A NAME="SEC37"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC36"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC38"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 3.6.1 Notes </H3>
-<!--docid::SEC37::-->
-<P>
-
-All R4RS syntactic forms are defined, including <CODE>delay</CODE>. Along
-with <CODE>delay</CODE> are simple definitions for <CODE>make-promise</CODE> (into
-which <CODE>delay</CODE> expressions expand) and <CODE>force</CODE>.
-</P>
-<P>
-
-<CODE>syntax-rules</CODE> and <CODE>with-syntax</CODE> (described in <CITE>TR356</CITE>)
-are defined.
-</P>
-<P>
-
-<CODE>syntax-case</CODE> is actually defined as a macro that expands into
-calls to the procedure <CODE>syntax-dispatch</CODE> and the core form
-<CODE>syntax-lambda</CODE>; do not redefine these names.
-</P>
-<P>
-
-Several other top-level bindings not documented in TR356 are created:
-<UL>
-<LI>the &quot;hooks&quot; in `<TT>hooks.ss</TT>'
-<LI>the <CODE>build-</CODE> procedures in `<TT>output.ss</TT>'
-<LI><CODE>expand-syntax</CODE> (the expander)
-</UL>
-<P>
-
-The syntax of define has been extended to allow <CODE>(define <VAR>id</VAR>)</CODE>,
-which assigns <VAR>id</VAR> to some unspecified value.
-</P>
-<P>
-
-We have attempted to maintain R4RS compatibility where possible. The
-incompatibilities should be confined to `<TT>hooks.ss</TT>'. Please let us
-know if there is some incompatibility that is not flagged as such.
-</P>
-<P>
-
-Send bug reports, comments, suggestions, and questions to Kent Dybvig
-(dyb @ iuvax.cs.indiana.edu).
-</P>
-<P>
-
-<HR SIZE="6">
-<A NAME="SEC38"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC37"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC39"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 3.6.2 Note from SLIB maintainer </H3>
-<!--docid::SEC38::-->
-<P>
-
-<CODE>(require 'structure)</CODE>
-</P>
-<P>
-
-<A NAME="IDX153"></A>
-Included with the <CODE>syntax-case</CODE> files was `<TT>structure.scm</TT>'
-which defines a macro <CODE>define-structure</CODE>. I have no
-documentation for this macro; it is not used by any other code in
-SLIB.
-</P>
-<P>
-
-<A NAME="Fluid-Let"></A>
-<HR SIZE="6">
-<A NAME="SEC39"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC38"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC40"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 3.7 Fluid-Let </H2>
-<!--docid::SEC39::-->
-<P>
-
-<CODE>(require 'fluid-let)</CODE>
-<A NAME="IDX154"></A>
-</P>
-<P>
-
-<A NAME="IDX155"></A>
-</P>
-<DL>
-<DT><U>Syntax:</U> <B>fluid-let</B> <I><CODE>(<VAR>bindings</VAR> <small>...</small>)</CODE> <VAR>forms</VAR><small>...</small></I>
-<DD></DL>
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(fluid-let ((<VAR>variable</VAR> <VAR>init</VAR>) <small>...</small>)
- <VAR>expression</VAR> <VAR>expression</VAR> <small>...</small>)
-</pre></td></tr></table><P>
-
-The <VAR>init</VAR>s are evaluated in the current environment (in some
-unspecified order), the current values of the <VAR>variable</VAR>s are saved,
-the results are assigned to the <VAR>variable</VAR>s, the <VAR>expression</VAR>s
-are evaluated sequentially in the current environment, the
-<VAR>variable</VAR>s are restored to their original values, and the value of
-the last <VAR>expression</VAR> is returned.
-</P>
-<P>
-
-The syntax of this special form is similar to that of <CODE>let</CODE>, but
-<CODE>fluid-let</CODE> temporarily rebinds existing <VAR>variable</VAR>s. Unlike
-<CODE>let</CODE>, <CODE>fluid-let</CODE> creates no new bindings; instead it
-<EM>assigns</EM> the values of each <VAR>init</VAR> to the binding (determined
-by the rules of lexical scoping) of its corresponding
-<VAR>variable</VAR>.
-</P>
-<P>
-
-<A NAME="Yasos"></A>
-<HR SIZE="6">
-<A NAME="SEC40"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC39"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC41"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 3.8 Yasos </H2>
-<!--docid::SEC40::-->
-<P>
-
-<CODE>(require 'oop)</CODE> or <CODE>(require 'yasos)</CODE>
-<A NAME="IDX156"></A>
-<A NAME="IDX157"></A>
-</P>
-<P>
-
-`Yet Another Scheme Object System' is a simple object system for Scheme
-based on the paper by Norman Adams and Jonathan Rees: <CITE>Object
-Oriented Programming in Scheme</CITE>, Proceedings of the 1988 ACM Conference
-on LISP and Functional Programming, July 1988 [ACM #552880].
-</P>
-<P>
-
-Another reference is:
-</P>
-<P>
-
-Ken Dickey.
-&lt;A HREF=&quot;ftp://ftp.cs.indiana.edu/pub/scheme-repository/doc/pubs/swob.txt&quot;&gt;
-Scheming with Objects
-&lt;/A&gt;
-<CITE>AI Expert</CITE> Volume 7, Number 10 (October 1992), pp. 24-33.
-</P>
-<P>
-
-<TABLE BORDER="0" CELLSPACING="0">
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_3.html#SEC41">3.8.1 Terms</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">Definitions and disclaimer.</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_3.html#SEC42">3.8.2 Interface</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">The Yasos macros and procedures.</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_3.html#SEC43">3.8.3 Setters</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">Dylan-like setters in Yasos.</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_3.html#SEC44">3.8.4 Examples</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">Usage of Yasos and setters.</TD></TR>
-</TABLE>
-<P>
-
-<A NAME="Yasos terms"></A>
-<HR SIZE="6">
-<A NAME="SEC41"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC40"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC42"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC40"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 3.8.1 Terms </H3>
-<!--docid::SEC41::-->
-<P>
-
-</P>
-<DL COMPACT>
-<DT><EM>Object</EM>
-<DD>Any Scheme data object.
-<P>
-
-</P>
-<DT><EM>Instance</EM>
-<DD>An instance of the OO system; an <EM>object</EM>.
-<P>
-
-</P>
-<DT><EM>Operation</EM>
-<DD>A <VAR>method</VAR>.
-</DL>
-<P>
-
-</P>
-<DL COMPACT>
-<DT><EM>Notes:</EM>
-<DD>The object system supports multiple inheritance. An instance can
-inherit from 0 or more ancestors. In the case of multiple inherited
-operations with the same identity, the operation used is that from the
-first ancestor which contains it (in the ancestor <CODE>let</CODE>). An
-operation may be applied to any Scheme data object--not just instances.
-As code which creates instances is just code, there are no <EM>classes</EM>
-and no meta-<VAR>anything</VAR>. Method dispatch is by a procedure call a la
-CLOS rather than by <CODE>send</CODE> syntax a la Smalltalk.
-<P>
-
-</P>
-<DT><EM>Disclaimer:</EM>
-<DD>There are a number of optimizations which can be made. This
-implementation is expository (although performance should be quite
-reasonable). See the L&amp;FP paper for some suggestions.
-</DL>
-<P>
-
-<A NAME="Yasos interface"></A>
-<HR SIZE="6">
-<A NAME="SEC42"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC41"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC43"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC40"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 3.8.2 Interface </H3>
-<!--docid::SEC42::-->
-<P>
-
-<A NAME="IDX158"></A>
-</P>
-<DL>
-<DT><U>Syntax:</U> <B>define-operation</B> <I><CODE>(</CODE>opname self arg <small>...</small><CODE>)</CODE> <VAR>default-body</VAR></I>
-<DD>Defines a default behavior for data objects which don't handle the
-operation <VAR>opname</VAR>. The default behavior (for an empty
-<VAR>default-body</VAR>) is to generate an error.
-</DL>
-<P>
-
-<A NAME="IDX159"></A>
-</P>
-<DL>
-<DT><U>Syntax:</U> <B>define-predicate</B> <I>opname?</I>
-<DD>Defines a predicate <VAR>opname?</VAR>, usually used for determining the
-<EM>type</EM> of an object, such that <CODE>(<VAR>opname?</VAR> <VAR>object</VAR>)</CODE>
-returns <CODE>#t</CODE> if <VAR>object</VAR> has an operation <VAR>opname?</VAR> and
-<CODE>#f</CODE> otherwise.
-</DL>
-<P>
-
-<A NAME="IDX160"></A>
-</P>
-<DL>
-<DT><U>Syntax:</U> <B>object</B> <I><CODE>((<VAR>name</VAR> <VAR>self</VAR> <VAR>arg</VAR> <small>...</small>) <VAR>body</VAR>)</CODE> <small>...</small></I>
-<DD>Returns an object (an instance of the object system) with operations.
-Invoking <CODE>(<VAR>name</VAR> <VAR>object</VAR> <VAR>arg</VAR> <small>...</small></CODE> executes the
-<VAR>body</VAR> of the <VAR>object</VAR> with <VAR>self</VAR> bound to <VAR>object</VAR> and
-with argument(s) <VAR>arg</VAR><small>...</small>.
-</DL>
-<P>
-
-<A NAME="IDX161"></A>
-</P>
-<DL>
-<DT><U>Syntax:</U> <B>object-with-ancestors</B> <I><CODE>((</CODE>ancestor1 init1<CODE>)</CODE> <small>...</small><CODE>)</CODE> operation <small>...</small></I>
-<DD>A <CODE>let</CODE>-like form of <CODE>object</CODE> for multiple inheritance. It
-returns an object inheriting the behaviour of <VAR>ancestor1</VAR> etc. An
-operation will be invoked in an ancestor if the object itself does not
-provide such a method. In the case of multiple inherited operations
-with the same identity, the operation used is the one found in the first
-ancestor in the ancestor list.
-</DL>
-<P>
-
-<A NAME="IDX162"></A>
-</P>
-<DL>
-<DT><U>Syntax:</U> <B>operate-as</B> <I>component operation self arg <small>...</small></I>
-<DD>Used in an operation definition (of <VAR>self</VAR>) to invoke the
-<VAR>operation</VAR> in an ancestor <VAR>component</VAR> but maintain the object's
-identity. Also known as &quot;send-to-super&quot;.
-</DL>
-<P>
-
-<A NAME="IDX163"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>print</B> <I>obj port</I>
-<DD>A default <CODE>print</CODE> operation is provided which is just <CODE>(format
-<VAR>port</VAR> <VAR>obj</VAR>)</CODE> (see section <A HREF="slib_4.html#SEC53">4.2 Format (version 3.0)</A>) for non-instances and prints
-<VAR>obj</VAR> preceded by `<SAMP>#&lt;INSTANCE&gt;</SAMP>' for instances.
-</DL>
-<P>
-
-<A NAME="IDX164"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>size</B> <I>obj</I>
-<DD>The default method returns the number of elements in <VAR>obj</VAR> if it is
-a vector, string or list, <CODE>2</CODE> for a pair, <CODE>1</CODE> for a character
-and by default id an error otherwise. Objects such as collections
-(see section <A HREF="slib_7.html#SEC194">7.1.9 Collections</A>) may override the default in an obvious way.
-</DL>
-<P>
-
-<A NAME="Setters"></A>
-<HR SIZE="6">
-<A NAME="SEC43"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC42"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC44"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC40"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 3.8.3 Setters </H3>
-<!--docid::SEC43::-->
-<P>
-
-<EM>Setters</EM> implement <EM>generalized locations</EM> for objects
-associated with some sort of mutable state. A <EM>getter</EM> operation
-retrieves a value from a generalized location and the corresponding
-setter operation stores a value into the location. Only the getter is
-named -- the setter is specified by a procedure call as below. (Dylan
-uses special syntax.) Typically, but not necessarily, getters are
-access operations to extract values from Yasos objects (see section <A HREF="slib_3.html#SEC40">3.8 Yasos</A>).
-Several setters are predefined, corresponding to getters <CODE>car</CODE>,
-<CODE>cdr</CODE>, <CODE>string-ref</CODE> and <CODE>vector-ref</CODE> e.g., <CODE>(setter
-car)</CODE> is equivalent to <CODE>set-car!</CODE>.
-</P>
-<P>
-
-This implementation of setters is similar to that in Dylan(TM)
-(<CITE>Dylan: An object-oriented dynamic language</CITE>, Apple Computer
-Eastern Research and Technology). Common LISP provides similar
-facilities through <CODE>setf</CODE>.
-</P>
-<P>
-
-<A NAME="IDX165"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>setter</B> <I>getter</I>
-<DD>Returns the setter for the procedure <VAR>getter</VAR>. E.g., since
-<CODE>string-ref</CODE> is the getter corresponding to a setter which is
-actually <CODE>string-set!</CODE>:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define foo &quot;foo&quot;)
-((setter string-ref) foo 0 #\F) ; set element 0 of foo
-foo => &quot;Foo&quot;
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX166"></A>
-</P>
-<DL>
-<DT><U>Syntax:</U> <B>set</B> <I>place new-value</I>
-<DD>If <VAR>place</VAR> is a variable name, <CODE>set</CODE> is equivalent to
-<CODE>set!</CODE>. Otherwise, <VAR>place</VAR> must have the form of a procedure
-call, where the procedure name refers to a getter and the call indicates
-an accessible generalized location, i.e., the call would return a value.
-The return value of <CODE>set</CODE> is usually unspecified unless used with a
-setter whose definition guarantees to return a useful value.
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(set (string-ref foo 2) #\O) ; generalized location with getter
-foo => &quot;FoO&quot;
-(set foo &quot;foo&quot;) ; like set!
-foo => &quot;foo&quot;
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX167"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>add-setter</B> <I>getter setter</I>
-<DD>Add procedures <VAR>getter</VAR> and <VAR>setter</VAR> to the (inaccessible) list
-of valid setter/getter pairs. <VAR>setter</VAR> implements the store
-operation corresponding to the <VAR>getter</VAR> access operation for the
-relevant state. The return value is unspecified.
-</DL>
-<P>
-
-<A NAME="IDX168"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>remove-setter-for</B> <I>getter</I>
-<DD>Removes the setter corresponding to the specified <VAR>getter</VAR> from the
-list of valid setters. The return value is unspecified.
-</DL>
-<P>
-
-<A NAME="IDX169"></A>
-</P>
-<DL>
-<DT><U>Syntax:</U> <B>define-access-operation</B> <I>getter-name</I>
-<DD>Shorthand for a Yasos <CODE>define-operation</CODE> defining an operation
-<VAR>getter-name</VAR> that objects may support to return the value of some
-mutable state. The default operation is to signal an error. The return
-value is unspecified.
-</DL>
-<P>
-
-<A NAME="Yasos examples"></A>
-<HR SIZE="6">
-<A NAME="SEC44"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC43"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC21"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC40"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 3.8.4 Examples </H3>
-<!--docid::SEC44::-->
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>;;; These definitions for PRINT and SIZE are
-;;; already supplied by
-(require 'yasos)
-
-(define-operation (print obj port)
- (format port
- (if (instance? obj) &quot;#&lt;instance&gt;&quot; &quot;~s&quot;)
- obj))
-
-(define-operation (size obj)
- (cond
- ((vector? obj) (vector-length obj))
- ((list? obj) (length obj))
- ((pair? obj) 2)
- ((string? obj) (string-length obj))
- ((char? obj) 1)
- (else
- (slib:error &quot;Operation not supported: size&quot; obj))))
-
-(define-predicate cell?)
-(define-operation (fetch obj))
-(define-operation (store! obj newValue))
-
-(define (make-cell value)
- (object
- ((cell? self) #t)
- ((fetch self) value)
- ((store! self newValue)
- (set! value newValue)
- newValue)
- ((size self) 1)
- ((print self port)
- (format port &quot;#&lt;Cell: ~s&gt;&quot; (fetch self)))))
-
-(define-operation (discard obj value)
- (format #t &quot;Discarding ~s~%&quot; value))
-
-(define (make-filtered-cell value filter)
- (object-with-ancestors
- ((cell (make-cell value)))
- ((store! self newValue)
- (if (filter newValue)
- (store! cell newValue)
- (discard self newValue)))))
-
-(define-predicate array?)
-(define-operation (array-ref array index))
-(define-operation (array-set! array index value))
-
-(define (make-array num-slots)
- (let ((anArray (make-vector num-slots)))
- (object
- ((array? self) #t)
- ((size self) num-slots)
- ((array-ref self index)
- (vector-ref anArray index))
- ((array-set! self index newValue)
- (vector-set! anArray index newValue))
- ((print self port)
- (format port &quot;#&lt;Array ~s&gt;&quot; (size self))))))
-
-(define-operation (position obj))
-(define-operation (discarded-value obj))
-
-(define (make-cell-with-history value filter size)
- (let ((pos 0) (most-recent-discard #f))
- (object-with-ancestors
- ((cell (make-filtered-call value filter))
- (sequence (make-array size)))
- ((array? self) #f)
- ((position self) pos)
- ((store! self newValue)
- (operate-as cell store! self newValue)
- (array-set! self pos newValue)
- (set! pos (+ pos 1)))
- ((discard self value)
- (set! most-recent-discard value))
- ((discarded-value self) most-recent-discard)
- ((print self port)
- (format port &quot;#&lt;Cell-with-history ~s&gt;&quot;
- (fetch self))))))
-
-(define-access-operation fetch)
-(add-setter fetch store!)
-(define foo (make-cell 1))
-(print foo #f)
-=> &quot;#&lt;Cell: 1&gt;&quot;
-(set (fetch foo) 2)
-=>
-(print foo #f)
-=> &quot;#&lt;Cell: 2&gt;&quot;
-(fetch foo)
-=> 2
-</pre></td></tr></table><P>
-
-<A NAME="Textual Conversion Packages"></A>
-<HR SIZE="6">
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<BR>
-<FONT SIZE="-1">
-This document was generated
-by <I>Steve Langasek</I> on <I>January, 10 2005</I>
-using <A HREF="http://texi2html.cvshome.org"><I>texi2html</I></A>
-</FONT>
-
-</BODY>
-</HTML>
diff --git a/slib_4.html b/slib_4.html
deleted file mode 100644
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--- a/slib_4.html
+++ /dev/null
@@ -1,5157 +0,0 @@
-<!DOCTYPE html PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN"
- "http://www.w3.org/TR/html40/loose.dtd">
-<HTML>
-<!-- Created on January, 10 2005 by texi2html 1.66 -->
-<!--
-Written by: Lionel Cons <Lionel.Cons@cern.ch> (original author)
- Karl Berry <karl@freefriends.org>
- Olaf Bachmann <obachman@mathematik.uni-kl.de>
- and many others.
-Maintained by: Many creative people <dev@texi2html.cvshome.org>
-Send bugs and suggestions to <users@texi2html.cvshome.org>
-
--->
-<HEAD>
-<TITLE>SLIB: Textual Conversion Packages</TITLE>
-
-<META NAME="description" CONTENT="SLIB: Textual Conversion Packages">
-<META NAME="keywords" CONTENT="SLIB: Textual Conversion Packages">
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-
-<A NAME="SEC45"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_3.html#SEC44"> &lt; </A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H1> 4. Textual Conversion Packages </H1>
-<!--docid::SEC45::-->
-<P>
-
-<TABLE BORDER="0" CELLSPACING="0">
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_4.html#SEC46">4.1 Precedence Parsing</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_4.html#SEC53">4.2 Format (version 3.0)</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">Common-Lisp Format</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_4.html#SEC54">4.3 Standard Formatted I/O</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">Posix printf and scanf</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_4.html#SEC61">4.4 Program and Arguments</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_4.html#SEC69">4.5 HTML</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">Generating</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_4.html#SEC71">4.7 HTML Tables</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">Databases meet HTML</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_4.html#SEC74">4.8 HTTP and CGI</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">Serve WWW sites</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_4.html#SEC75">4.9 Parsing HTML</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'html-for-each</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_4.html#SEC76">4.10 URI</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">Uniform Resource Identifier</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_4.html#SEC78">4.11 Printing Scheme</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">Nicely</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_4.html#SEC82">4.12 Time and Date</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_4.html#SEC86">4.13 NCBI-DNA</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">DNA and protein sequences</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_4.html#SEC87">4.14 Schmooz</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">Documentation markup for Scheme programs</TD></TR>
-</TABLE>
-<P>
-
-<A NAME="Precedence Parsing"></A>
-<HR SIZE="6">
-<A NAME="SEC46"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC47"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 4.1 Precedence Parsing </H2>
-<!--docid::SEC46::-->
-<P>
-
-<CODE>(require 'precedence-parse)</CODE> or <CODE>(require 'parse)</CODE>
-<A NAME="IDX170"></A>
-<A NAME="IDX171"></A>
-</P>
-<P>
-
-This package implements:
-</P>
-<P>
-
-<UL>
-<LI>
-a Pratt style precedence parser;
-<LI>
-a <EM>tokenizer</EM> which congeals tokens according to assigned classes of
-constituent characters;
-<LI>
-procedures giving direct control of parser rulesets;
-<LI>
-procedures for higher level specification of rulesets.
-</UL>
-<P>
-
-<TABLE BORDER="0" CELLSPACING="0">
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_4.html#SEC47">4.1.1 Precedence Parsing Overview</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_4.html#SEC48">4.1.2 Rule Types</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_4.html#SEC49">4.1.3 Ruleset Definition and Use</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_4.html#SEC50">4.1.4 Token definition</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_4.html#SEC51">4.1.5 Nud and Led Definition</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_4.html#SEC52">4.1.6 Grammar Rule Definition</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-</TABLE>
-<P>
-
-<A NAME="Precedence Parsing Overview"></A>
-<HR SIZE="6">
-<A NAME="SEC47"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC46"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC48"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC46"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 4.1.1 Precedence Parsing Overview </H3>
-<!--docid::SEC47::-->
-<P>
-
-This package offers improvements over previous parsers.
-</P>
-<P>
-
-<UL>
-<LI>
-Common computer language constructs are concisely specified.
-<LI>
-Grammars can be changed dynamically. Operators can be assigned
-different meanings within a lexical context.
-<LI>
-Rulesets don't need compilation. Grammars can be changed incrementally.
-<LI>
-Operator precedence is specified by integers.
-<LI>
-All possibilities of bad input are handled <A NAME="DOCF3" HREF="slib_fot.html#FOOT3">(3)</A> and return as much structure as was
-parsed when the error occured; The symbol <CODE>?</CODE> is substituted for
-missing input.
-</UL>
-<P>
-
-<A NAME="IDX172"></A>
-The notion of <EM>binding power</EM> may be unfamiliar to those
-accustomed to BNF grammars.
-</P>
-<P>
-
-When two consecutive objects are parsed, the first might be the prefix
-to the second, or the second might be a suffix of the first.
-Comparing the left and right binding powers of the two objects decides
-which way to interpret them.
-</P>
-<P>
-
-Objects at each level of syntactic grouping have binding powers.
-</P>
-<P>
-
-<A NAME="IDX173"></A>
-A syntax tree is not built unless the rules explicitly do so. The
-call graph of grammar rules effectively instantiate the sytnax tree.
-</P>
-<P>
-
-The JACAL symbolic math system
-(<A HREF="http://swissnet.ai.mit.edu/~jaffer/JACAL.html">http://swissnet.ai.mit.edu/~jaffer/JACAL.html</A>) uses
-<TT>precedence-parse</TT>. Its grammar definitions in the file
-`<TT>jacal/English.scm</TT>' can serve as examples of use.
-</P>
-<P>
-
-<A NAME="Rule Types"></A>
-<HR SIZE="6">
-<A NAME="SEC48"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC47"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC49"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC46"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 4.1.2 Rule Types </H3>
-<!--docid::SEC48::-->
-<P>
-
-Here are the higher-level syntax types and an example of each.
-Precedence considerations are omitted for clarity. See <A HREF="slib_4.html#SEC52">4.1.6 Grammar Rule Definition</A> for full details.
-<A NAME="IDX174"></A>
-</P>
-<DL>
-<DT><U>Grammar:</U> <B>nofix</B> <I>bye exit</I>
-<DD><TABLE><tr><td>&nbsp;</td><td class=example><pre>bye
-</pre></td></tr></table>calls the function <CODE>exit</CODE> with no arguments.
-</DL>
-<A NAME="IDX175"></A>
-<DL>
-<DT><U>Grammar:</U> <B>prefix</B> <I>- negate</I>
-<DD><TABLE><tr><td>&nbsp;</td><td class=example><pre>- 42
-</pre></td></tr></table>Calls the function <CODE>negate</CODE> with the argument <CODE>42</CODE>.
-</DL>
-<A NAME="IDX176"></A>
-<DL>
-<DT><U>Grammar:</U> <B>infix</B> <I>- difference</I>
-<DD><TABLE><tr><td>&nbsp;</td><td class=example><pre>x - y
-</pre></td></tr></table>Calls the function <CODE>difference</CODE> with arguments <CODE>x</CODE> and <CODE>y</CODE>.
-</DL>
-<A NAME="IDX177"></A>
-<DL>
-<DT><U>Grammar:</U> <B>nary</B> <I>+ sum</I>
-<DD><TABLE><tr><td>&nbsp;</td><td class=example><pre>x + y + z
-</pre></td></tr></table>Calls the function <CODE>sum</CODE> with arguments <CODE>x</CODE>, <CODE>y</CODE>, and
-<CODE>y</CODE>.
-</DL>
-<A NAME="IDX178"></A>
-<DL>
-<DT><U>Grammar:</U> <B>postfix</B> <I>! factorial</I>
-<DD><TABLE><tr><td>&nbsp;</td><td class=example><pre>5 !
-</pre></td></tr></table>Calls the function <CODE>factorial</CODE> with the argument <CODE>5</CODE>.
-</DL>
-<A NAME="IDX179"></A>
-<DL>
-<DT><U>Grammar:</U> <B>prestfix</B> <I>set set!</I>
-<DD><TABLE><tr><td>&nbsp;</td><td class=example><pre>set foo bar
-</pre></td></tr></table>Calls the function <CODE>set!</CODE> with the arguments <CODE>foo</CODE> and
-<CODE>bar</CODE>.
-</DL>
-<A NAME="IDX180"></A>
-<DL>
-<DT><U>Grammar:</U> <B>commentfix</B> <I>/* */</I>
-<DD><TABLE><tr><td>&nbsp;</td><td class=example><pre>/* almost any text here */
-</pre></td></tr></table>Ignores the comment delimited by <CODE>/*</CODE> and <CODE>*/</CODE>.
-</DL>
-<A NAME="IDX181"></A>
-<DL>
-<DT><U>Grammar:</U> <B>matchfix</B> <I>{ list }</I>
-<DD><TABLE><tr><td>&nbsp;</td><td class=example><pre>{0, 1, 2}
-</pre></td></tr></table>Calls the function <CODE>list</CODE> with the arguments <CODE>0</CODE>, <CODE>1</CODE>,
-and <CODE>2</CODE>.
-</DL>
-<A NAME="IDX182"></A>
-<DL>
-<DT><U>Grammar:</U> <B>inmatchfix</B> <I>( funcall )</I>
-<DD><TABLE><tr><td>&nbsp;</td><td class=example><pre>f(x, y)
-</pre></td></tr></table>Calls the function <CODE>funcall</CODE> with the arguments <CODE>f</CODE>, <CODE>x</CODE>,
-and <CODE>y</CODE>.
-</DL>
-<A NAME="IDX183"></A>
-<DL>
-<DT><U>Grammar:</U> <B>delim</B> <I>;</I>
-<DD><TABLE><tr><td>&nbsp;</td><td class=example><pre>set foo bar;
-</pre></td></tr></table>delimits the extent of the restfix operator <CODE>set</CODE>.
-</DL>
-<P>
-
-<A NAME="Ruleset Definition and Use"></A>
-<HR SIZE="6">
-<A NAME="SEC49"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC48"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC50"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC46"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 4.1.3 Ruleset Definition and Use </H3>
-<!--docid::SEC49::-->
-<P>
-
-<A NAME="IDX184"></A>
-</P>
-<DL>
-<DT><U>Variable:</U> <B>*syn-defs*</B>
-<DD>A grammar is built by one or more calls to <CODE>prec:define-grammar</CODE>.
-The rules are appended to <VAR>*syn-defs*</VAR>. The value of
-<VAR>*syn-defs*</VAR> is the grammar suitable for passing as an argument to
-<CODE>prec:parse</CODE>.
-</DL>
-<P>
-
-<A NAME="IDX185"></A>
-</P>
-<DL>
-<DT><U>Constant:</U> <B>*syn-ignore-whitespace*</B>
-<DD>Is a nearly empty grammar with whitespace characters set to group 0,
-which means they will not be made into tokens. Most rulesets will want
-to start with <CODE>*syn-ignore-whitespace*</CODE>
-</DL>
-<P>
-
-In order to start defining a grammar, either
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(set! *syn-defs* '())
-</pre></td></tr></table>or
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(set! *syn-defs* *syn-ignore-whitespace*)
-</pre></td></tr></table><P>
-
-<A NAME="IDX186"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>prec:define-grammar</B> <I>rule1 <small>...</small></I>
-<DD>Appends <VAR>rule1</VAR> <small>...</small> to <VAR>*syn-defs*</VAR>.
-<CODE>prec:define-grammar</CODE> is used to define both the character classes
-and rules for tokens.
-</DL>
-<P>
-
-Once your grammar is defined, save the value of <CODE>*syn-defs*</CODE> in a
-variable (for use when calling <CODE>prec:parse</CODE>).
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define my-ruleset *syn-defs*)
-</pre></td></tr></table><P>
-
-<A NAME="IDX187"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>prec:parse</B> <I>ruleset delim</I>
-<DD><A NAME="IDX188"></A>
-<DT><U>Function:</U> <B>prec:parse</B> <I>ruleset delim port</I>
-<DD>The <VAR>ruleset</VAR> argument must be a list of rules as constructed by
-<CODE>prec:define-grammar</CODE> and extracted from <VAR>*syn-defs*</VAR>.
-<P>
-
-The token <VAR>delim</VAR> may be a character, symbol, or string. A
-character <VAR>delim</VAR> argument will match only a character token; i.e. a
-character for which no token-group is assigned. A symbols or string
-will match only a token string; i.e. a token resulting from a token
-group.
-</P>
-<P>
-
-<CODE>prec:parse</CODE> reads a <VAR>ruleset</VAR> grammar expression delimited
-by <VAR>delim</VAR> from the given input <VAR>port</VAR>. <CODE>prec:parse</CODE>
-returns the next object parsable from the given input <VAR>port</VAR>,
-updating <VAR>port</VAR> to point to the first character past the end of the
-external representation of the object.
-</P>
-<P>
-
-If an end of file is encountered in the input before any characters are
-found that can begin an object, then an end of file object is returned.
-If a delimiter (such as <VAR>delim</VAR>) is found before any characters are
-found that can begin an object, then <CODE>#f</CODE> is returned.
-</P>
-<P>
-
-The <VAR>port</VAR> argument may be omitted, in which case it defaults to the
-value returned by <CODE>current-input-port</CODE>. It is an error to parse
-from a closed port.
-<A NAME="IDX189"></A>
-</P>
-</DL>
-<P>
-
-<A NAME="Token definition"></A>
-<HR SIZE="6">
-<A NAME="SEC50"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC49"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC51"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC46"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 4.1.4 Token definition </H3>
-<!--docid::SEC50::-->
-<P>
-
-<A NAME="IDX190"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>tok:char-group</B> <I>group chars chars-proc</I>
-<DD>The argument <VAR>chars</VAR> may be a single character, a list of
-characters, or a string. Each character in <VAR>chars</VAR> is treated as
-though <CODE>tok:char-group</CODE> was called with that character alone.
-<P>
-
-The argument <VAR>chars-proc</VAR> must be a procedure of one argument, a
-list of characters. After <CODE>tokenize</CODE> has finished
-accumulating the characters for a token, it calls <VAR>chars-proc</VAR> with
-the list of characters. The value returned is the token which
-<CODE>tokenize</CODE> returns.
-</P>
-<P>
-
-The argument <VAR>group</VAR> may be an exact integer or a procedure of one
-character argument. The following discussion concerns the treatment
-which the tokenizing routine, <CODE>tokenize</CODE>, will accord to characters
-on the basis of their groups.
-</P>
-<P>
-
-When <VAR>group</VAR> is a non-zero integer, characters whose group number is
-equal to or exactly one less than <VAR>group</VAR> will continue to
-accumulate. Any other character causes the accumulation to stop (until
-a new token is to be read).
-</P>
-<P>
-
-The <VAR>group</VAR> of zero is special. These characters are ignored when
-parsed pending a token, and stop the accumulation of token characters
-when the accumulation has already begun. Whitespace characters are
-usually put in group 0.
-</P>
-<P>
-
-If <VAR>group</VAR> is a procedure, then, when triggerd by the occurence of
-an initial (no accumulation) <VAR>chars</VAR> character, this procedure will
-be repeatedly called with each successive character from the input
-stream until the <VAR>group</VAR> procedure returns a non-false value.
-</P>
-</DL>
-<P>
-
-The following convenient constants are provided for use with
-<CODE>tok:char-group</CODE>.
-</P>
-<P>
-
-<A NAME="IDX191"></A>
-</P>
-<DL>
-<DT><U>Constant:</U> <B>tok:decimal-digits</B>
-<DD>Is the string <CODE>&quot;0123456789&quot;</CODE>.
-</DL>
-<A NAME="IDX192"></A>
-<DL>
-<DT><U>Constant:</U> <B>tok:upper-case</B>
-<DD>Is the string consisting of all upper-case letters
-(&quot;ABCDEFGHIJKLMNOPQRSTUVWXYZ&quot;).
-</DL>
-<A NAME="IDX193"></A>
-<DL>
-<DT><U>Constant:</U> <B>tok:lower-case</B>
-<DD>Is the string consisting of all lower-case letters
-(&quot;abcdefghijklmnopqrstuvwxyz&quot;).
-</DL>
-<A NAME="IDX194"></A>
-<DL>
-<DT><U>Constant:</U> <B>tok:whitespaces</B>
-<DD>Is the string consisting of all characters between 0 and 255 for which
-<CODE>char-whitespace?</CODE> returns true.
-</DL>
-<P>
-
-For the purpose of reporting problems in error messages, this package
-keeps track of the <EM>current column</EM>. When the column does not
-simply track input characters, <CODE>tok:bump-column</CODE> can be used to
-adjust the current-column.
-</P>
-<P>
-
-<A NAME="IDX195"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>tok:bump-column</B> <I>pos port</I>
-<DD>Adds <VAR>pos</VAR> to the current-column for input-port <VAR>port</VAR>.
-</DL>
-<P>
-
-<A NAME="Nud and Led Definition"></A>
-<HR SIZE="6">
-<A NAME="SEC51"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC50"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC52"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC46"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 4.1.5 Nud and Led Definition </H3>
-<!--docid::SEC51::-->
-<P>
-
-This section describes advanced features. You can skip this section on
-first reading.
-</P>
-<P>
-
-The <EM>Null Denotation</EM> (or <EM>nud</EM>)
-<A NAME="IDX196"></A>
-of a token is the procedure and arguments applying for that token when
-<EM>Left</EM>, an unclaimed parsed expression is not extant.
-</P>
-<P>
-
-The <EM>Left Denotation</EM> (or <EM>led</EM>)
-<A NAME="IDX197"></A>
-of a token is the procedure, arguments, and lbp applying for that token
-when there is a <EM>Left</EM>, an unclaimed parsed expression.
-</P>
-<P>
-
-In his paper,
-</P>
-<P>
-
-<BLOCKQUOTE>
-Pratt, V. R.
-Top Down Operator Precendence.
-<CITE>SIGACT/SIGPLAN Symposium on Principles of Programming Languages</CITE>,
-Boston, 1973, pages 41-51
-</BLOCKQUOTE>
-<P>
-
-the <EM>left binding power</EM> (or <EM>lbp</EM>) was an independent property
-of tokens. I think this was done in order to allow tokens with NUDs but
-not LEDs to also be used as delimiters, which was a problem for
-statically defined syntaxes. It turns out that <EM>dynamically
-binding</EM> NUDs and LEDs allows them independence.
-</P>
-<P>
-
-For the rule-defining procedures that follow, the variable <VAR>tk</VAR> may
-be a character, string, or symbol, or a list composed of characters,
-strings, and symbols. Each element of <VAR>tk</VAR> is treated as though the
-procedure were called for each element.
-</P>
-<P>
-
-Character <VAR>tk</VAR> arguments will match only character tokens;
-i.e. characters for which no token-group is assigned. Symbols and
-strings will both match token strings; i.e. tokens resulting from token
-groups.
-</P>
-<P>
-
-<A NAME="IDX198"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>prec:make-nud</B> <I>tk sop arg1 <small>...</small></I>
-<DD>Returns a rule specifying that <VAR>sop</VAR> be called when <VAR>tk</VAR> is
-parsed. If <VAR>sop</VAR> is a procedure, it is called with <VAR>tk</VAR> and
-<VAR>arg1</VAR> <small>...</small> as its arguments; the resulting value is incorporated
-into the expression being built. Otherwise, <CODE>(list <VAR>sop</VAR>
-<VAR>arg1</VAR> <small>...</small>)</CODE> is incorporated.
-</DL>
-<P>
-
-If no NUD has been defined for a token; then if that token is a string,
-it is converted to a symbol and returned; if not a string, the token is
-returned.
-</P>
-<P>
-
-<A NAME="IDX199"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>prec:make-led</B> <I>tk sop arg1 <small>...</small></I>
-<DD>Returns a rule specifying that <VAR>sop</VAR> be called when <VAR>tk</VAR> is
-parsed and <VAR>left</VAR> has an unclaimed parsed expression. If <VAR>sop</VAR>
-is a procedure, it is called with <VAR>left</VAR>, <VAR>tk</VAR>, and <VAR>arg1</VAR>
-<small>...</small> as its arguments; the resulting value is incorporated into the
-expression being built. Otherwise, <VAR>left</VAR> is incorporated.
-</DL>
-<P>
-
-If no LED has been defined for a token, and <VAR>left</VAR> is set, the
-parser issues a warning.
-</P>
-<P>
-
-<A NAME="Grammar Rule Definition"></A>
-<HR SIZE="6">
-<A NAME="SEC52"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC51"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC53"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC46"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 4.1.6 Grammar Rule Definition </H3>
-<!--docid::SEC52::-->
-<P>
-
-Here are procedures for defining rules for the syntax types introduced
-in <A HREF="slib_4.html#SEC47">4.1.1 Precedence Parsing Overview</A>.
-</P>
-<P>
-
-For the rule-defining procedures that follow, the variable <VAR>tk</VAR> may
-be a character, string, or symbol, or a list composed of characters,
-strings, and symbols. Each element of <VAR>tk</VAR> is treated as though the
-procedure were called for each element.
-</P>
-<P>
-
-For procedures prec:delim, <small>...</small>, prec:prestfix, if the <VAR>sop</VAR>
-argument is <CODE>#f</CODE>, then the token which triggered this rule is
-converted to a symbol and returned. A false <VAR>sop</VAR> argument to the
-procedures prec:commentfix, prec:matchfix, or prec:inmatchfix has a
-different meaning.
-</P>
-<P>
-
-Character <VAR>tk</VAR> arguments will match only character tokens;
-i.e. characters for which no token-group is assigned. Symbols and
-strings will both match token strings; i.e. tokens resulting from token
-groups.
-</P>
-<P>
-
-<A NAME="IDX200"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>prec:delim</B> <I>tk</I>
-<DD>Returns a rule specifying that <VAR>tk</VAR> should not be returned from
-parsing; i.e. <VAR>tk</VAR>'s function is purely syntactic. The end-of-file
-is always treated as a delimiter.
-</DL>
-<P>
-
-<A NAME="IDX201"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>prec:nofix</B> <I>tk sop</I>
-<DD>Returns a rule specifying the following actions take place when <VAR>tk</VAR>
-is parsed:
-<UL>
-<LI>
-If <VAR>sop</VAR> is a procedure, it is called with no arguments; the
-resulting value is incorporated into the expression being built.
-Otherwise, the list of <VAR>sop</VAR> is incorporated.
-</UL>
-</DL>
-<P>
-
-<A NAME="IDX202"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>prec:prefix</B> <I>tk sop bp rule1 <small>...</small></I>
-<DD>Returns a rule specifying the following actions take place when <VAR>tk</VAR>
-is parsed:
-<UL>
-<LI>
-The rules <VAR>rule1</VAR> <small>...</small> augment and, in case of conflict, override
-rules currently in effect.
-<LI>
-<CODE>prec:parse1</CODE> is called with binding-power <VAR>bp</VAR>.
-<LI>
-If <VAR>sop</VAR> is a procedure, it is called with the expression returned
-from <CODE>prec:parse1</CODE>; the resulting value is incorporated into the
-expression being built. Otherwise, the list of <VAR>sop</VAR> and the
-expression returned from <CODE>prec:parse1</CODE> is incorporated.
-<LI>
-The ruleset in effect before <VAR>tk</VAR> was parsed is restored;
-<VAR>rule1</VAR> <small>...</small> are forgotten.
-</UL>
-</DL>
-<P>
-
-<A NAME="IDX203"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>prec:infix</B> <I>tk sop lbp bp rule1 <small>...</small></I>
-<DD>Returns a rule declaring the left-binding-precedence of the token
-<VAR>tk</VAR> is <VAR>lbp</VAR> and specifying the following actions take place
-when <VAR>tk</VAR> is parsed:
-<UL>
-<LI>
-The rules <VAR>rule1</VAR> <small>...</small> augment and, in case of conflict, override
-rules currently in effect.
-<LI>
-One expression is parsed with binding-power <VAR>lbp</VAR>. If instead a
-delimiter is encountered, a warning is issued.
-<LI>
-If <VAR>sop</VAR> is a procedure, it is applied to the list of <VAR>left</VAR> and
-the parsed expression; the resulting value is incorporated into the
-expression being built. Otherwise, the list of <VAR>sop</VAR>, the
-<VAR>left</VAR> expression, and the parsed expression is incorporated.
-<LI>
-The ruleset in effect before <VAR>tk</VAR> was parsed is restored;
-<VAR>rule1</VAR> <small>...</small> are forgotten.
-</UL>
-</DL>
-<P>
-
-<A NAME="IDX204"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>prec:nary</B> <I>tk sop bp</I>
-<DD>Returns a rule declaring the left-binding-precedence of the token
-<VAR>tk</VAR> is <VAR>bp</VAR> and specifying the following actions take place
-when <VAR>tk</VAR> is parsed:
-<UL>
-<LI>
-Expressions are parsed with binding-power <VAR>bp</VAR> as far as they are
-interleaved with the token <VAR>tk</VAR>.
-<LI>
-If <VAR>sop</VAR> is a procedure, it is applied to the list of <VAR>left</VAR> and
-the parsed expressions; the resulting value is incorporated into the
-expression being built. Otherwise, the list of <VAR>sop</VAR>, the
-<VAR>left</VAR> expression, and the parsed expressions is incorporated.
-</UL>
-</DL>
-<P>
-
-<A NAME="IDX205"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>prec:postfix</B> <I>tk sop lbp</I>
-<DD>Returns a rule declaring the left-binding-precedence of the token
-<VAR>tk</VAR> is <VAR>lbp</VAR> and specifying the following actions take place
-when <VAR>tk</VAR> is parsed:
-<UL>
-<LI>
-If <VAR>sop</VAR> is a procedure, it is called with the <VAR>left</VAR> expression;
-the resulting value is incorporated into the expression being built.
-Otherwise, the list of <VAR>sop</VAR> and the <VAR>left</VAR> expression is
-incorporated.
-</UL>
-</DL>
-<P>
-
-<A NAME="IDX206"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>prec:prestfix</B> <I>tk sop bp rule1 <small>...</small></I>
-<DD>Returns a rule specifying the following actions take place when <VAR>tk</VAR>
-is parsed:
-<UL>
-<LI>
-The rules <VAR>rule1</VAR> <small>...</small> augment and, in case of conflict, override
-rules currently in effect.
-<LI>
-Expressions are parsed with binding-power <VAR>bp</VAR> until a delimiter is
-reached.
-<LI>
-If <VAR>sop</VAR> is a procedure, it is applied to the list of parsed
-expressions; the resulting value is incorporated into the expression
-being built. Otherwise, the list of <VAR>sop</VAR> and the parsed
-expressions is incorporated.
-<LI>
-The ruleset in effect before <VAR>tk</VAR> was parsed is restored;
-<VAR>rule1</VAR> <small>...</small> are forgotten.
-</UL>
-</DL>
-<P>
-
-<A NAME="IDX207"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>prec:commentfix</B> <I>tk stp match rule1 <small>...</small></I>
-<DD>Returns rules specifying the following actions take place when <VAR>tk</VAR>
-is parsed:
-<UL>
-<LI>
-The rules <VAR>rule1</VAR> <small>...</small> augment and, in case of conflict, override
-rules currently in effect.
-<LI>
-Characters are read until and end-of-file or a sequence of characters
-is read which matches the <EM>string</EM> <VAR>match</VAR>.
-<LI>
-If <VAR>stp</VAR> is a procedure, it is called with the string of all that
-was read between the <VAR>tk</VAR> and <VAR>match</VAR> (exclusive).
-<LI>
-The ruleset in effect before <VAR>tk</VAR> was parsed is restored;
-<VAR>rule1</VAR> <small>...</small> are forgotten.
-</UL>
-<P>
-
-Parsing of commentfix syntax differs from the others in several ways.
-It reads directly from input without tokenizing; It calls <VAR>stp</VAR> but
-does not return its value; nay any value. I added the <VAR>stp</VAR>
-argument so that comment text could be echoed.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX208"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>prec:matchfix</B> <I>tk sop sep match rule1 <small>...</small></I>
-<DD>Returns a rule specifying the following actions take place when <VAR>tk</VAR>
-is parsed:
-<UL>
-<LI>
-The rules <VAR>rule1</VAR> <small>...</small> augment and, in case of conflict, override
-rules currently in effect.
-<LI>
-A rule declaring the token <VAR>match</VAR> a delimiter takes effect.
-<LI>
-Expressions are parsed with binding-power <CODE>0</CODE> until the token
-<VAR>match</VAR> is reached. If the token <VAR>sep</VAR> does not appear between
-each pair of expressions parsed, a warning is issued.
-<LI>
-If <VAR>sop</VAR> is a procedure, it is applied to the list of parsed
-expressions; the resulting value is incorporated into the expression
-being built. Otherwise, the list of <VAR>sop</VAR> and the parsed
-expressions is incorporated.
-<LI>
-The ruleset in effect before <VAR>tk</VAR> was parsed is restored;
-<VAR>rule1</VAR> <small>...</small> are forgotten.
-</UL>
-</DL>
-<P>
-
-<A NAME="IDX209"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>prec:inmatchfix</B> <I>tk sop sep match lbp rule1 <small>...</small></I>
-<DD>Returns a rule declaring the left-binding-precedence of the token
-<VAR>tk</VAR> is <VAR>lbp</VAR> and specifying the following actions take place
-when <VAR>tk</VAR> is parsed:
-<UL>
-<LI>
-The rules <VAR>rule1</VAR> <small>...</small> augment and, in case of conflict, override
-rules currently in effect.
-<LI>
-A rule declaring the token <VAR>match</VAR> a delimiter takes effect.
-<LI>
-Expressions are parsed with binding-power <CODE>0</CODE> until the token
-<VAR>match</VAR> is reached. If the token <VAR>sep</VAR> does not appear between
-each pair of expressions parsed, a warning is issued.
-<LI>
-If <VAR>sop</VAR> is a procedure, it is applied to the list of <VAR>left</VAR> and
-the parsed expressions; the resulting value is incorporated into the
-expression being built. Otherwise, the list of <VAR>sop</VAR>, the
-<VAR>left</VAR> expression, and the parsed expressions is incorporated.
-<LI>
-The ruleset in effect before <VAR>tk</VAR> was parsed is restored;
-<VAR>rule1</VAR> <small>...</small> are forgotten.
-</UL>
-</DL>
-<P>
-
-<A NAME="Format"></A>
-<HR SIZE="6">
-<A NAME="SEC53"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC52"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC54"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 4.2 Format (version 3.0) </H2>
-<!--docid::SEC53::-->
-<P>
-
-&lt;A NAME=&quot;format&quot;&gt;&lt;/A&gt;
-<A NAME="IDX210"></A>
-</P>
-<P>
-
-The `<TT>format.scm</TT>' package was removed because it was not
-reentrant. <A HREF="http://swissnet.ai.mit.edu/~jaffer/SLIB.FAQ">http://swissnet.ai.mit.edu/~jaffer/SLIB.FAQ</A> explains
-more about FORMAT's woes.
-</P>
-<P>
-
-<A NAME="Standard Formatted I/O"></A>
-<HR SIZE="6">
-<A NAME="SEC54"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC53"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC55"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 4.3 Standard Formatted I/O </H2>
-<!--docid::SEC54::-->
-<P>
-
-<TABLE BORDER="0" CELLSPACING="0">
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_4.html#SEC56">4.3.2 Standard Formatted Output</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'printf</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_4.html#SEC60">4.3.3 Standard Formatted Input</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'scanf</TD></TR>
-</TABLE>
-<P>
-
-<HR SIZE="6">
-<A NAME="SEC55"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC54"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC56"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 4.3.1 stdio </H3>
-<!--docid::SEC55::-->
-<P>
-
-<CODE>(require 'stdio)</CODE>
-<A NAME="IDX211"></A>
-</P>
-<P>
-
-<CODE>require</CODE>s <CODE>printf</CODE> and <CODE>scanf</CODE> and additionally defines
-the symbols:
-</P>
-<P>
-
-<A NAME="IDX212"></A>
-</P>
-<DL>
-<DT><U>Variable:</U> <B>stdin</B>
-<DD>Defined to be <CODE>(current-input-port)</CODE>.
-</DL>
-<A NAME="IDX213"></A>
-<DL>
-<DT><U>Variable:</U> <B>stdout</B>
-<DD>Defined to be <CODE>(current-output-port)</CODE>.
-</DL>
-<A NAME="IDX214"></A>
-<DL>
-<DT><U>Variable:</U> <B>stderr</B>
-<DD>Defined to be <CODE>(current-error-port)</CODE>.
-</DL>
-<P>
-
-<A NAME="Standard Formatted Output"></A>
-<HR SIZE="6">
-<A NAME="SEC56"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC55"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC57"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC54"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 4.3.2 Standard Formatted Output </H3>
-<!--docid::SEC56::-->
-<P>
-
-&lt;A NAME=&quot;printf&quot;&gt;&lt;/A&gt;
-<CODE>(require 'printf)</CODE>
-<A NAME="IDX215"></A>
-</P>
-<P>
-
-<A NAME="IDX216"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>printf</B> <I>format arg1 <small>...</small></I>
-<DD><A NAME="IDX217"></A>
-<DT><U>Procedure:</U> <B>fprintf</B> <I>port format arg1 <small>...</small></I>
-<DD><A NAME="IDX218"></A>
-<DT><U>Procedure:</U> <B>sprintf</B> <I>str format arg1 <small>...</small></I>
-<DD><A NAME="IDX219"></A>
-<DT><U>Procedure:</U> <B>sprintf</B> <I>#f format arg1 <small>...</small></I>
-<DD><A NAME="IDX220"></A>
-<DT><U>Procedure:</U> <B>sprintf</B> <I>k format arg1 <small>...</small></I>
-<DD><P>
-
-Each function converts, formats, and outputs its <VAR>arg1</VAR> <small>...</small>
-arguments according to the control string <VAR>format</VAR> argument and
-returns the number of characters output.
-</P>
-<P>
-
-<CODE>printf</CODE> sends its output to the port <CODE>(current-output-port)</CODE>.
-<CODE>fprintf</CODE> sends its output to the port <VAR>port</VAR>. <CODE>sprintf</CODE>
-<CODE>string-set!</CODE>s locations of the non-constant string argument
-<VAR>str</VAR> to the output characters.
-</P>
-<P>
-
-Two extensions of <CODE>sprintf</CODE> return new strings. If the first
-argument is <CODE>#f</CODE>, then the returned string's length is as many
-characters as specified by the <VAR>format</VAR> and data; if the first
-argument is a non-negative integer <VAR>k</VAR>, then the length of the
-returned string is also bounded by <VAR>k</VAR>.
-</P>
-<P>
-
-The string <VAR>format</VAR> contains plain characters which are copied to
-the output stream, and conversion specifications, each of which results
-in fetching zero or more of the arguments <VAR>arg1</VAR> <small>...</small>. The
-results are undefined if there are an insufficient number of arguments
-for the format. If <VAR>format</VAR> is exhausted while some of the
-<VAR>arg1</VAR> <small>...</small> arguments remain unused, the excess <VAR>arg1</VAR>
-<small>...</small> arguments are ignored.
-</P>
-<P>
-
-The conversion specifications in a format string have the form:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>% [ <VAR>flags</VAR> ] [ <VAR>width</VAR> ] [ . <VAR>precision</VAR> ] [ <VAR>type</VAR> ] <VAR>conversion</VAR>
-</pre></td></tr></table><P>
-
-An output conversion specifications consist of an initial `<SAMP>%</SAMP>'
-character followed in sequence by:
-</P>
-<P>
-
-<UL>
-<LI>
-Zero or more <EM>flag characters</EM> that modify the normal behavior of
-the conversion specification.
-<P>
-
-</P>
-<DL COMPACT>
-<DT>`<SAMP>-</SAMP>'
-<DD>Left-justify the result in the field. Normally the result is
-right-justified.
-<P>
-
-</P>
-<DT>`<SAMP>+</SAMP>'
-<DD>For the signed `<SAMP>%d</SAMP>' and `<SAMP>%i</SAMP>' conversions and all inexact
-conversions, prefix a plus sign if the value is positive.
-<P>
-
-</P>
-<DT>`<SAMP> </SAMP>'
-<DD>For the signed `<SAMP>%d</SAMP>' and `<SAMP>%i</SAMP>' conversions, if the result
-doesn't start with a plus or minus sign, prefix it with a space
-character instead. Since the `<SAMP>+</SAMP>' flag ensures that the result
-includes a sign, this flag is ignored if both are specified.
-<P>
-
-</P>
-<DT>`<SAMP>#</SAMP>'
-<DD>For inexact conversions, `<SAMP>#</SAMP>' specifies that the result should
-always include a decimal point, even if no digits follow it. For the
-`<SAMP>%g</SAMP>' and `<SAMP>%G</SAMP>' conversions, this also forces trailing zeros
-after the decimal point to be printed where they would otherwise be
-elided.
-<P>
-
-For the `<SAMP>%o</SAMP>' conversion, force the leading digit to be `<SAMP>0</SAMP>', as
-if by increasing the precision. For `<SAMP>%x</SAMP>' or `<SAMP>%X</SAMP>', prefix a
-leading `<SAMP>0x</SAMP>' or `<SAMP>0X</SAMP>' (respectively) to the result. This
-doesn't do anything useful for the `<SAMP>%d</SAMP>', `<SAMP>%i</SAMP>', or `<SAMP>%u</SAMP>'
-conversions. Using this flag produces output which can be parsed by the
-<CODE>scanf</CODE> functions with the `<SAMP>%i</SAMP>' conversion (see section <A HREF="slib_4.html#SEC60">4.3.3 Standard Formatted Input</A>).
-</P>
-<P>
-
-</P>
-<DT>`<SAMP>0</SAMP>'
-<DD>Pad the field with zeros instead of spaces. The zeros are placed after
-any indication of sign or base. This flag is ignored if the `<SAMP>-</SAMP>'
-flag is also specified, or if a precision is specified for an exact
-converson.
-</DL>
-<P>
-
-</P>
-<LI>
-An optional decimal integer specifying the <EM>minimum field width</EM>.
-If the normal conversion produces fewer characters than this, the field
-is padded (with spaces or zeros per the `<SAMP>0</SAMP>' flag) to the specified
-width. This is a <EM>minimum</EM> width; if the normal conversion
-produces more characters than this, the field is <EM>not</EM> truncated.
-<A NAME="IDX221"></A>
-<P>
-
-Alternatively, if the field width is `<SAMP>*</SAMP>', the next argument in the
-argument list (before the actual value to be printed) is used as the
-field width. The width value must be an integer. If the value is
-negative it is as though the `<SAMP>-</SAMP>' flag is set (see above) and the
-absolute value is used as the field width.
-</P>
-<P>
-
-</P>
-<LI>
-An optional <EM>precision</EM> to specify the number of digits to be
-written for numeric conversions and the maximum field width for string
-conversions. The precision is specified by a period (`<SAMP>.</SAMP>') followed
-optionally by a decimal integer (which defaults to zero if omitted).
-<A NAME="IDX222"></A>
-<P>
-
-Alternatively, if the precision is `<SAMP>.*</SAMP>', the next argument in the
-argument list (before the actual value to be printed) is used as the
-precision. The value must be an integer, and is ignored if negative.
-If you specify `<SAMP>*</SAMP>' for both the field width and precision, the
-field width argument precedes the precision argument. The `<SAMP>.*</SAMP>'
-precision is an enhancement. C library versions may not accept this
-syntax.
-</P>
-<P>
-
-For the `<SAMP>%f</SAMP>', `<SAMP>%e</SAMP>', and `<SAMP>%E</SAMP>' conversions, the precision
-specifies how many digits follow the decimal-point character. The
-default precision is <CODE>6</CODE>. If the precision is explicitly <CODE>0</CODE>,
-the decimal point character is suppressed.
-</P>
-<P>
-
-For the `<SAMP>%g</SAMP>' and `<SAMP>%G</SAMP>' conversions, the precision specifies how
-many significant digits to print. Significant digits are the first
-digit before the decimal point, and all the digits after it. If the
-precision is <CODE>0</CODE> or not specified for `<SAMP>%g</SAMP>' or `<SAMP>%G</SAMP>', it is
-treated like a value of <CODE>1</CODE>. If the value being printed cannot be
-expressed accurately in the specified number of digits, the value is
-rounded to the nearest number that fits.
-</P>
-<P>
-
-For exact conversions, if a precision is supplied it specifies the
-minimum number of digits to appear; leading zeros are produced if
-necessary. If a precision is not supplied, the number is printed with
-as many digits as necessary. Converting an exact `<SAMP>0</SAMP>' with an
-explicit precision of zero produces no characters.
-</P>
-<P>
-
-</P>
-<LI>
-An optional one of `<SAMP>l</SAMP>', `<SAMP>h</SAMP>' or `<SAMP>L</SAMP>', which is ignored for
-numeric conversions. It is an error to specify these modifiers for
-non-numeric conversions.
-<P>
-
-</P>
-<LI>
-A character that specifies the conversion to be applied.
-</UL>
-<P>
-
-<HR SIZE="6">
-<A NAME="SEC57"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC56"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC58"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC54"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 4.3.2.1 Exact Conversions </H4>
-<!--docid::SEC57::-->
-<P>
-
-</P>
-<DL COMPACT>
-<DT>`<SAMP>b</SAMP>', `<SAMP>B</SAMP>'
-<DD>Print an integer as an unsigned binary number.
-<P>
-
-<EM>Note:</EM> `<SAMP>%b</SAMP>' and `<SAMP>%B</SAMP>' are SLIB extensions.
-</P>
-<P>
-
-</P>
-<DT>`<SAMP>d</SAMP>', `<SAMP>i</SAMP>'
-<DD>Print an integer as a signed decimal number. `<SAMP>%d</SAMP>' and `<SAMP>%i</SAMP>'
-are synonymous for output, but are different when used with <CODE>scanf</CODE>
-for input (see section <A HREF="slib_4.html#SEC60">4.3.3 Standard Formatted Input</A>).
-<P>
-
-</P>
-<DT>`<SAMP>o</SAMP>'
-<DD>Print an integer as an unsigned octal number.
-<P>
-
-</P>
-<DT>`<SAMP>u</SAMP>'
-<DD>Print an integer as an unsigned decimal number.
-<P>
-
-</P>
-<DT>`<SAMP>x</SAMP>', `<SAMP>X</SAMP>'
-<DD>Print an integer as an unsigned hexadecimal number. `<SAMP>%x</SAMP>' prints
-using the digits `<SAMP>0123456789abcdef</SAMP>'. `<SAMP>%X</SAMP>' prints using the
-digits `<SAMP>0123456789ABCDEF</SAMP>'.
-</DL>
-<P>
-
-<HR SIZE="6">
-<A NAME="SEC58"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC57"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC59"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC54"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 4.3.2.2 Inexact Conversions </H4>
-<!--docid::SEC58::-->
-<P>
-
-</P>
-<DL COMPACT>
-<DT>`<SAMP>f</SAMP>'
-<DD>Print a floating-point number in fixed-point notation.
-<P>
-
-</P>
-<DT>`<SAMP>e</SAMP>', `<SAMP>E</SAMP>'
-<DD>Print a floating-point number in exponential notation. `<SAMP>%e</SAMP>' prints
-`<SAMP>e</SAMP>' between mantissa and exponont. `<SAMP>%E</SAMP>' prints `<SAMP>E</SAMP>'
-between mantissa and exponont.
-<P>
-
-</P>
-<DT>`<SAMP>g</SAMP>', `<SAMP>G</SAMP>'
-<DD>Print a floating-point number in either fixed or exponential notation,
-whichever is more appropriate for its magnitude. Unless an `<SAMP>#</SAMP>'
-flag has been supplied, trailing zeros after a decimal point will be
-stripped off. `<SAMP>%g</SAMP>' prints `<SAMP>e</SAMP>' between mantissa and exponont.
-`<SAMP>%G</SAMP>' prints `<SAMP>E</SAMP>' between mantissa and exponent.
-<P>
-
-</P>
-<DT>`<SAMP>k</SAMP>', `<SAMP>K</SAMP>'
-<DD>Print a number like `<SAMP>%g</SAMP>', except that an SI prefix is output after
-the number, which is scaled accordingly. `<SAMP>%K</SAMP>' outputs a space
-between number and prefix, `<SAMP>%k</SAMP>' does not.
-<P>
-
-</DL>
-<P>
-
-<HR SIZE="6">
-<A NAME="SEC59"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC58"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC60"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC54"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 4.3.2.3 Other Conversions </H4>
-<!--docid::SEC59::-->
-<DL COMPACT>
-<DT>`<SAMP>c</SAMP>'
-<DD>Print a single character. The `<SAMP>-</SAMP>' flag is the only one which can
-be specified. It is an error to specify a precision.
-<P>
-
-</P>
-<DT>`<SAMP>s</SAMP>'
-<DD>Print a string. The `<SAMP>-</SAMP>' flag is the only one which can be
-specified. A precision specifies the maximum number of characters to
-output; otherwise all characters in the string are output.
-<P>
-
-</P>
-<DT>`<SAMP>a</SAMP>', `<SAMP>A</SAMP>'
-<DD>Print a scheme expression. The `<SAMP>-</SAMP>' flag left-justifies the output.
-The `<SAMP>#</SAMP>' flag specifies that strings and characters should be quoted
-as by <CODE>write</CODE> (which can be read using <CODE>read</CODE>); otherwise,
-output is as <CODE>display</CODE> prints. A precision specifies the maximum
-number of characters to output; otherwise as many characters as needed
-are output.
-<P>
-
-<EM>Note:</EM> `<SAMP>%a</SAMP>' and `<SAMP>%A</SAMP>' are SLIB extensions.
-</P>
-<P>
-
-</P>
-<DT>`<SAMP>%</SAMP>'
-<DD>Print a literal `<SAMP>%</SAMP>' character. No argument is consumed. It is an
-error to specify flags, field width, precision, or type modifiers with
-`<SAMP>%%</SAMP>'.
-</DL>
-</DL>
-<P>
-
-<A NAME="Standard Formatted Input"></A>
-<HR SIZE="6">
-<A NAME="SEC60"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC59"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC61"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC54"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 4.3.3 Standard Formatted Input </H3>
-<!--docid::SEC60::-->
-<P>
-
-<CODE>(require 'scanf)</CODE>
-<A NAME="IDX223"></A>
-</P>
-<P>
-
-<A NAME="IDX224"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>scanf-read-list</B> <I>format</I>
-<DD><A NAME="IDX225"></A>
-<DT><U>Function:</U> <B>scanf-read-list</B> <I>format port</I>
-<DD><A NAME="IDX226"></A>
-<DT><U>Function:</U> <B>scanf-read-list</B> <I>format string</I>
-<DD></DL>
-<P>
-
-<A NAME="IDX227"></A>
-</P>
-<DL>
-<DT><U>Macro:</U> <B>scanf</B> <I>format arg1 <small>...</small></I>
-<DD><A NAME="IDX228"></A>
-<DT><U>Macro:</U> <B>fscanf</B> <I>port format arg1 <small>...</small></I>
-<DD><A NAME="IDX229"></A>
-<DT><U>Macro:</U> <B>sscanf</B> <I>str format arg1 <small>...</small></I>
-<DD><P>
-
-Each function reads characters, interpreting them according to the
-control string <VAR>format</VAR> argument.
-</P>
-<P>
-
-<CODE>scanf-read-list</CODE> returns a list of the items specified as far as
-the input matches <VAR>format</VAR>. <CODE>scanf</CODE>, <CODE>fscanf</CODE>, and
-<CODE>sscanf</CODE> return the number of items successfully matched and
-stored. <CODE>scanf</CODE>, <CODE>fscanf</CODE>, and <CODE>sscanf</CODE> also set the
-location corresponding to <VAR>arg1</VAR> <small>...</small> using the methods:
-</P>
-<P>
-
-</P>
-<DL COMPACT>
-<DT>symbol
-<DD><CODE>set!</CODE>
-<DT>car expression
-<DD><CODE>set-car!</CODE>
-<DT>cdr expression
-<DD><CODE>set-cdr!</CODE>
-<DT>vector-ref expression
-<DD><CODE>vector-set!</CODE>
-<DT>substring expression
-<DD><CODE>substring-move-left!</CODE>
-</DL>
-<P>
-
-The argument to a <CODE>substring</CODE> expression in <VAR>arg1</VAR> <small>...</small> must
-be a non-constant string. Characters will be stored starting at the
-position specified by the second argument to <CODE>substring</CODE>. The
-number of characters stored will be limited by either the position
-specified by the third argument to <CODE>substring</CODE> or the length of the
-matched string, whichever is less.
-</P>
-<P>
-
-The control string, <VAR>format</VAR>, contains conversion specifications and
-other characters used to direct interpretation of input sequences. The
-control string contains:
-</P>
-<P>
-
-<UL>
-<LI>White-space characters (blanks, tabs, newlines, or formfeeds)
-that cause input to be read (and discarded) up to the next
-non-white-space character.
-<P>
-
-</P>
-<LI>An ordinary character (not `<SAMP>%</SAMP>') that must match the next
-character of the input stream.
-<P>
-
-</P>
-<LI>Conversion specifications, consisting of the character `<SAMP>%</SAMP>', an
-optional assignment suppressing character `<SAMP>*</SAMP>', an optional
-numerical maximum-field width, an optional `<SAMP>l</SAMP>', `<SAMP>h</SAMP>' or
-`<SAMP>L</SAMP>' which is ignored, and a conversion code.
-<P>
-
-</UL>
-<P>
-
-Unless the specification contains the `<SAMP>n</SAMP>' conversion character
-(described below), a conversion specification directs the conversion of
-the next input field. The result of a conversion specification is
-returned in the position of the corresponding argument points, unless
-`<SAMP>*</SAMP>' indicates assignment suppression. Assignment suppression
-provides a way to describe an input field to be skipped. An input field
-is defined as a string of characters; it extends to the next
-inappropriate character or until the field width, if specified, is
-exhausted.
-</P>
-<P>
-
-<BLOCKQUOTE>
-<EM>Note:</EM> This specification of format strings differs from the
-<CITE>ANSI C</CITE> and <CITE>POSIX</CITE> specifications. In SLIB, white space
-before an input field is not skipped unless white space appears before
-the conversion specification in the format string. In order to write
-format strings which work identically with <CITE>ANSI C</CITE> and SLIB,
-prepend whitespace to all conversion specifications except `<SAMP>[</SAMP>' and
-`<SAMP>c</SAMP>'.
-</BLOCKQUOTE>
-<P>
-
-The conversion code indicates the interpretation of the input field; For
-a suppressed field, no value is returned. The following conversion
-codes are legal:
-</P>
-<P>
-
-</P>
-<DL COMPACT>
-
-<DT>`<SAMP>%</SAMP>'
-<DD>A single % is expected in the input at this point; no value is returned.
-<P>
-
-</P>
-<DT>`<SAMP>d</SAMP>', `<SAMP>D</SAMP>'
-<DD>A decimal integer is expected.
-<P>
-
-</P>
-<DT>`<SAMP>u</SAMP>', `<SAMP>U</SAMP>'
-<DD>An unsigned decimal integer is expected.
-<P>
-
-</P>
-<DT>`<SAMP>o</SAMP>', `<SAMP>O</SAMP>'
-<DD>An octal integer is expected.
-<P>
-
-</P>
-<DT>`<SAMP>x</SAMP>', `<SAMP>X</SAMP>'
-<DD>A hexadecimal integer is expected.
-<P>
-
-</P>
-<DT>`<SAMP>i</SAMP>'
-<DD>An integer is expected. Returns the value of the next input item,
-interpreted according to C conventions; a leading `<SAMP>0</SAMP>' implies
-octal, a leading `<SAMP>0x</SAMP>' implies hexadecimal; otherwise, decimal is
-assumed.
-<P>
-
-</P>
-<DT>`<SAMP>n</SAMP>'
-<DD>Returns the total number of bytes (including white space) read by
-<CODE>scanf</CODE>. No input is consumed by <CODE>%n</CODE>.
-<P>
-
-</P>
-<DT>`<SAMP>f</SAMP>', `<SAMP>F</SAMP>', `<SAMP>e</SAMP>', `<SAMP>E</SAMP>', `<SAMP>g</SAMP>', `<SAMP>G</SAMP>'
-<DD>A floating-point number is expected. The input format for
-floating-point numbers is an optionally signed string of digits,
-possibly containing a radix character `<SAMP>.</SAMP>', followed by an optional
-exponent field consisting of an `<SAMP>E</SAMP>' or an `<SAMP>e</SAMP>', followed by an
-optional `<SAMP>+</SAMP>', `<SAMP>-</SAMP>', or space, followed by an integer.
-<P>
-
-</P>
-<DT>`<SAMP>c</SAMP>', `<SAMP>C</SAMP>'
-<DD><VAR>Width</VAR> characters are expected. The normal skip-over-white-space
-is suppressed in this case; to read the next non-space character, use
-`<SAMP>%1s</SAMP>'. If a field width is given, a string is returned; up to the
-indicated number of characters is read.
-<P>
-
-</P>
-<DT>`<SAMP>s</SAMP>', `<SAMP>S</SAMP>'
-<DD>A character string is expected The input field is terminated by a
-white-space character. <CODE>scanf</CODE> cannot read a null string.
-<P>
-
-</P>
-<DT>`<SAMP>[</SAMP>'
-<DD>Indicates string data and the normal skip-over-leading-white-space is
-suppressed. The left bracket is followed by a set of characters, called
-the scanset, and a right bracket; the input field is the maximal
-sequence of input characters consisting entirely of characters in the
-scanset. `<SAMP>^</SAMP>', when it appears as the first character in the
-scanset, serves as a complement operator and redefines the scanset as
-the set of all characters not contained in the remainder of the scanset
-string. Construction of the scanset follows certain conventions. A
-range of characters may be represented by the construct first-last,
-enabling `<SAMP>[0123456789]</SAMP>' to be expressed `<SAMP>[0-9]</SAMP>'. Using this
-convention, first must be lexically less than or equal to last;
-otherwise, the dash stands for itself. The dash also stands for itself
-when it is the first or the last character in the scanset. To include
-the right square bracket as an element of the scanset, it must appear as
-the first character (possibly preceded by a `<SAMP>^</SAMP>') of the scanset, in
-which case it will not be interpreted syntactically as the closing
-bracket. At least one character must match for this conversion to
-succeed.
-</DL>
-<P>
-
-The <CODE>scanf</CODE> functions terminate their conversions at end-of-file,
-at the end of the control string, or when an input character conflicts
-with the control string. In the latter case, the offending character is
-left unread in the input stream.
-</P>
-</DL>
-<P>
-
-<A NAME="Programs and Arguments"></A>
-<HR SIZE="6">
-<A NAME="SEC61"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC60"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC62"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 4.4 Program and Arguments </H2>
-<!--docid::SEC61::-->
-<P>
-
-<TABLE BORDER="0" CELLSPACING="0">
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_4.html#SEC62">4.4.1 Getopt</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">Command Line option parsing</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_4.html#SEC64">4.4.3 Command Line</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">A command line reader for Scheme shells</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_4.html#SEC65">4.4.4 Parameter lists</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'parameters</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_4.html#SEC66">4.4.5 Getopt Parameter lists</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'getopt-parameters</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_4.html#SEC67">4.4.6 Filenames</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'glob or 'filename</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_4.html#SEC68">4.4.7 Batch</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'batch</TD></TR>
-</TABLE>
-<P>
-
-<A NAME="Getopt"></A>
-<HR SIZE="6">
-<A NAME="SEC62"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC61"> &lt; </A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 4.4.1 Getopt </H3>
-<!--docid::SEC62::-->
-<P>
-
-<CODE>(require 'getopt)</CODE>
-<A NAME="IDX230"></A>
-</P>
-<P>
-
-This routine implements Posix command line argument parsing. Notice
-that returning values through global variables means that <CODE>getopt</CODE>
-is <EM>not</EM> reentrant.
-</P>
-<P>
-
-Obedience to Posix format for the <CODE>getopt</CODE> calls sows confusion.
-Passing <VAR>argc</VAR> and <VAR>argv</VAR> as arguments while referencing
-<VAR>optind</VAR> as a global variable leads to strange behavior,
-especially when the calls to <CODE>getopt</CODE> are buried in other
-procedures.
-</P>
-<P>
-
-Even in C, <VAR>argc</VAR> can be derived from <VAR>argv</VAR>; what purpose
-does it serve beyond providing an opportunity for
-<VAR>argv</VAR>/<VAR>argc</VAR> mismatch? Just such a mismatch existed for
-years in a SLIB <CODE>getopt--</CODE> example.
-</P>
-<P>
-
-I have removed the <VAR>argc</VAR> and <VAR>argv</VAR> arguments to getopt
-procedures; and replaced them with a global variable:
-</P>
-<P>
-
-<A NAME="IDX231"></A>
-</P>
-<DL>
-<DT><U>Variable:</U> <B>*argv*</B>
-<DD>Define <VAR>*argv*</VAR> with a list of arguments before calling getopt
-procedures. If you don't want the first (0th) element to be ignored,
-set <VAR>*optind*</VAR> to 0 (after requiring getopt).
-</DL>
-<P>
-
-<A NAME="IDX232"></A>
-</P>
-<DL>
-<DT><U>Variable:</U> <B>*optind*</B>
-<DD>Is the index of the current element of the command line. It is
-initially one. In order to parse a new command line or reparse an old
-one, <VAR>*optind*</VAR> must be reset.
-</DL>
-<P>
-
-<A NAME="IDX233"></A>
-</P>
-<DL>
-<DT><U>Variable:</U> <B>*optarg*</B>
-<DD>Is set by getopt to the (string) option-argument of the current option.
-</DL>
-<P>
-
-<A NAME="IDX234"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>getopt</B> <I>optstring</I>
-<DD>Returns the next option letter in <VAR>*argv*</VAR> (starting from
-<CODE>(vector-ref argv *optind*)</CODE>) that matches a letter in
-<VAR>optstring</VAR>. <VAR>*argv*</VAR> is a vector or list of strings, the 0th
-of which getopt usually ignores. <VAR>optstring</VAR> is a string of
-recognized option characters; if a character is followed by a colon,
-the option takes an argument which may be immediately following it in
-the string or in the next element of <VAR>*argv*</VAR>.
-<P>
-
-<VAR>*optind*</VAR> is the index of the next element of the <VAR>*argv*</VAR> vector
-to be processed. It is initialized to 1 by `<TT>getopt.scm</TT>', and
-<CODE>getopt</CODE> updates it when it finishes with each element of
-<VAR>*argv*</VAR>.
-</P>
-<P>
-
-<CODE>getopt</CODE> returns the next option character from <VAR>*argv*</VAR> that
-matches a character in <VAR>optstring</VAR>, if there is one that matches.
-If the option takes an argument, <CODE>getopt</CODE> sets the variable
-<VAR>*optarg*</VAR> to the option-argument as follows:
-</P>
-<P>
-
-<UL>
-<LI>
-If the option was the last character in the string pointed to by an
-element of <VAR>*argv*</VAR>, then <VAR>*optarg*</VAR> contains the next element
-of <VAR>*argv*</VAR>, and <VAR>*optind*</VAR> is incremented by 2. If the
-resulting value of <VAR>*optind*</VAR> is greater than or equal to
-<CODE>(length <VAR>*argv*</VAR>)</CODE>, this indicates a missing option
-argument, and <CODE>getopt</CODE> returns an error indication.
-<P>
-
-</P>
-<LI>
-Otherwise, <VAR>*optarg*</VAR> is set to the string following the option
-character in that element of <VAR>*argv*</VAR>, and <VAR>*optind*</VAR> is
-incremented by 1.
-</UL>
-<P>
-
-If, when <CODE>getopt</CODE> is called, the string <CODE>(vector-ref argv
-*optind*)</CODE> either does not begin with the character <CODE>#\-</CODE> or is
-just <CODE>&quot;-&quot;</CODE>, <CODE>getopt</CODE> returns <CODE>#f</CODE> without changing
-<VAR>*optind*</VAR>. If <CODE>(vector-ref argv *optind*)</CODE> is the string
-<CODE>&quot;--&quot;</CODE>, <CODE>getopt</CODE> returns <CODE>#f</CODE> after incrementing
-<VAR>*optind*</VAR>.
-</P>
-<P>
-
-If <CODE>getopt</CODE> encounters an option character that is not contained in
-<VAR>optstring</VAR>, it returns the question-mark <CODE>#\?</CODE> character. If
-it detects a missing option argument, it returns the colon character
-<CODE>#\:</CODE> if the first character of <VAR>optstring</VAR> was a colon, or a
-question-mark character otherwise. In either case, <CODE>getopt</CODE> sets
-the variable <VAR>getopt:opt</VAR> to the option character that caused the
-error.
-</P>
-<P>
-
-The special option <CODE>&quot;--&quot;</CODE> can be used to delimit the end of the
-options; <CODE>#f</CODE> is returned, and <CODE>&quot;--&quot;</CODE> is skipped.
-</P>
-<P>
-
-RETURN VALUE
-</P>
-<P>
-
-<CODE>getopt</CODE> returns the next option character specified on the command
-line. A colon <CODE>#\:</CODE> is returned if <CODE>getopt</CODE> detects a missing
-argument and the first character of <VAR>optstring</VAR> was a colon
-<CODE>#\:</CODE>.
-</P>
-<P>
-
-A question-mark <CODE>#\?</CODE> is returned if <CODE>getopt</CODE> encounters an
-option character not in <VAR>optstring</VAR> or detects a missing argument
-and the first character of <VAR>optstring</VAR> was not a colon <CODE>#\:</CODE>.
-</P>
-<P>
-
-Otherwise, <CODE>getopt</CODE> returns <CODE>#f</CODE> when all command line options
-have been parsed.
-</P>
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>#! /usr/local/bin/scm
-;;;This code is SCM specific.
-(define argv (program-arguments))
-(require 'getopt)
-<A NAME="IDX235"></A>
-(define opts &quot;:a:b:cd&quot;)
-(let loop ((opt (getopt (length argv) argv opts)))
- (case opt
- ((#\a) (print &quot;option a: &quot; *optarg*))
- ((#\b) (print &quot;option b: &quot; *optarg*))
- ((#\c) (print &quot;option c&quot;))
- ((#\d) (print &quot;option d&quot;))
- ((#\?) (print &quot;error&quot; getopt:opt))
- ((#\:) (print &quot;missing arg&quot; getopt:opt))
- ((#f) (if (&lt; *optind* (length argv))
- (print &quot;argv[&quot; *optind* &quot;]=&quot;
- (list-ref argv *optind*)))
- (set! *optind* (+ *optind* 1))))
- (if (&lt; *optind* (length argv))
- (loop (getopt (length argv) argv opts))))
-
-(slib:exit)
-</pre></td></tr></table></DL>
-<P>
-
-<HR SIZE="6">
-<A NAME="SEC63"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC62"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC64"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC61"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 4.4.2 Getopt--- </H3>
-<!--docid::SEC63::-->
-<P>
-
-<A NAME="IDX236"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B><CODE>getopt--</CODE></B> <I>optstring</I>
-<DD>The procedure <CODE>getopt--</CODE> is an extended version of <CODE>getopt</CODE>
-which parses <EM>long option names</EM> of the form
-`<SAMP>--hold-the-onions</SAMP>' and `<SAMP>--verbosity-level=extreme</SAMP>'.
-<CODE>Getopt--</CODE> behaves as <CODE>getopt</CODE> except for non-empty
-options beginning with `<SAMP>--</SAMP>'.
-<P>
-
-Options beginning with `<SAMP>--</SAMP>' are returned as strings rather than
-characters. If a value is assigned (using `<SAMP>=</SAMP>') to a long option,
-<CODE>*optarg*</CODE> is set to the value. The `<SAMP>=</SAMP>' and value are
-not returned as part of the option string.
-</P>
-<P>
-
-No information is passed to <CODE>getopt--</CODE> concerning which long
-options should be accepted or whether such options can take arguments.
-If a long option did not have an argument, <CODE>*optarg*</CODE> will be set
-to <CODE>#f</CODE>. The caller is responsible for detecting and reporting
-errors.
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define opts &quot;:-:b:&quot;)
-(define *argv* '(&quot;foo&quot; &quot;-b9&quot; &quot;--f1&quot; &quot;--2=&quot; &quot;--g3=35234.342&quot; &quot;--&quot;))
-(define *optind* 1)
-(define *optarg* #f)
-(require 'qp)
-<A NAME="IDX237"></A>(do ((i 5 (+ -1 i)))
- ((zero? i))
- (let ((opt (getopt-- opts)))
- (print *optind* opt *optarg*)))
--|
-2 #\b &quot;9&quot;
-3 &quot;f1&quot; #f
-4 &quot;2&quot; &quot;&quot;
-5 &quot;g3&quot; &quot;35234.342&quot;
-5 #f &quot;35234.342&quot;
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="Command Line"></A>
-<HR SIZE="6">
-<A NAME="SEC64"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC63"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC65"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC61"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 4.4.3 Command Line </H3>
-<!--docid::SEC64::-->
-<P>
-
-<CODE>(require 'read-command)</CODE>
-<A NAME="IDX238"></A>
-</P>
-<P>
-
-<A NAME="IDX239"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>read-command</B> <I>port</I>
-<DD><P>
-
-<A NAME="IDX240"></A>
-<DT><U>Function:</U> <B>read-command</B>
-<DD><CODE>read-command</CODE> converts a <EM>command line</EM> into a list of strings
-<A NAME="IDX241"></A>
-<A NAME="IDX242"></A>
-suitable for parsing by <CODE>getopt</CODE>. The syntax of command lines
-supported resembles that of popular <EM>shell</EM>s. <CODE>read-command</CODE>
-<A NAME="IDX243"></A>
-updates <VAR>port</VAR> to point to the first character past the command
-delimiter.
-</P>
-<P>
-
-If an end of file is encountered in the input before any characters are
-found that can begin an object or comment, then an end of file object is
-returned.
-</P>
-<P>
-
-The <VAR>port</VAR> argument may be omitted, in which case it defaults to the
-value returned by <CODE>current-input-port</CODE>.
-</P>
-<P>
-
-The fields into which the command line is split are delimited by
-whitespace as defined by <CODE>char-whitespace?</CODE>. The end of a command
-is delimited by end-of-file or unescaped semicolon (<KBD>;</KBD>) or
-<KBD>newline</KBD>. Any character can be literally included in a field by
-escaping it with a backslach (<KBD>\</KBD>).
-</P>
-<P>
-
-The initial character and types of fields recognized are:
-</P>
-<DL COMPACT>
-<DT>`<SAMP>\</SAMP>'
-<DD>The next character has is taken literally and not interpreted as a field
-delimiter. If <KBD>\</KBD> is the last character before a <KBD>newline</KBD>,
-that <KBD>newline</KBD> is just ignored. Processing continues from the
-characters after the <KBD>newline</KBD> as though the backslash and
-<KBD>newline</KBD> were not there.
-<DT>`<SAMP>&quot;</SAMP>'
-<DD>The characters up to the next unescaped <KBD>&quot;</KBD> are taken literally,
-according to [R4RS] rules for literal strings (see section `Strings' in <CITE>Revised(4) Scheme</CITE>).
-<DT>`<SAMP>(</SAMP>', `<SAMP>%'</SAMP>'
-<DD>One scheme expression is <CODE>read</CODE> starting with this character. The
-<CODE>read</CODE> expression is evaluated, converted to a string
-(using <CODE>display</CODE>), and replaces the expression in the returned
-field.
-<DT>`<SAMP>;</SAMP>'
-<DD>Semicolon delimits a command. Using semicolons more than one command
-can appear on a line. Escaped semicolons and semicolons inside strings
-do not delimit commands.
-</DL>
-<P>
-
-The comment field differs from the previous fields in that it must be
-the first character of a command or appear after whitespace in order to
-be recognized. <KBD>#</KBD> can be part of fields if these conditions are
-not met. For instance, <CODE>ab#c</CODE> is just the field ab#c.
-</P>
-<P>
-
-</P>
-<DL COMPACT>
-<DT>`<SAMP>#</SAMP>'
-<DD>Introduces a comment. The comment continues to the end of the line on
-which the semicolon appears. Comments are treated as whitespace by
-<CODE>read-dommand-line</CODE> and backslashes before <KBD>newline</KBD>s in
-comments are also ignored.
-</DL>
-</DL>
-<P>
-
-<A NAME="IDX244"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>read-options-file</B> <I>filename</I>
-<DD><P>
-
-<CODE>read-options-file</CODE> converts an <EM>options file</EM> into a list of
-<A NAME="IDX245"></A>
-<A NAME="IDX246"></A>
-strings suitable for parsing by <CODE>getopt</CODE>. The syntax of options
-files is the same as the syntax for command
-lines, except that <KBD>newline</KBD>s do not terminate reading (only <KBD>;</KBD>
-or end of file).
-</P>
-<P>
-
-If an end of file is encountered before any characters are found that
-can begin an object or comment, then an end of file object is returned.
-</P>
-</DL>
-<P>
-
-<A NAME="Parameter lists"></A>
-<HR SIZE="6">
-<A NAME="SEC65"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC64"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC66"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC61"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 4.4.4 Parameter lists </H3>
-<!--docid::SEC65::-->
-<P>
-
-<CODE>(require 'parameters)</CODE>
-<A NAME="IDX247"></A>
-</P>
-<P>
-
-Arguments to procedures in scheme are distinguished from each other by
-their position in the procedure call. This can be confusing when a
-procedure takes many arguments, many of which are not often used.
-</P>
-<P>
-
-A <EM>parameter-list</EM> is a way of passing named information to a
-procedure. Procedures are also defined to set unused parameters to
-default values, check parameters, and combine parameter lists.
-</P>
-<P>
-
-A <VAR>parameter</VAR> has the form <CODE>(parameter-name value1
-<small>...</small>)</CODE>. This format allows for more than one value per
-parameter-name.
-</P>
-<P>
-
-A <VAR>parameter-list</VAR> is a list of <VAR>parameter</VAR>s, each with a
-different <VAR>parameter-name</VAR>.
-</P>
-<P>
-
-<A NAME="IDX248"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>make-parameter-list</B> <I>parameter-names</I>
-<DD>Returns an empty parameter-list with slots for <VAR>parameter-names</VAR>.
-</DL>
-<P>
-
-<A NAME="IDX249"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>parameter-list-ref</B> <I>parameter-list parameter-name</I>
-<DD><VAR>parameter-name</VAR> must name a valid slot of <VAR>parameter-list</VAR>.
-<CODE>parameter-list-ref</CODE> returns the value of parameter
-<VAR>parameter-name</VAR> of <VAR>parameter-list</VAR>.
-</DL>
-<P>
-
-<A NAME="IDX250"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>remove-parameter</B> <I>parameter-name parameter-list</I>
-<DD>Removes the parameter <VAR>parameter-name</VAR> from <VAR>parameter-list</VAR>.
-<CODE>remove-parameter</CODE> does not alter the argument
-<VAR>parameter-list</VAR>.
-<P>
-
-If there are more than one <VAR>parameter-name</VAR> parameters, an error is
-signaled.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX251"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>adjoin-parameters!</B> <I>parameter-list parameter1 <small>...</small></I>
-<DD>Returns <VAR>parameter-list</VAR> with <VAR>parameter1</VAR> <small>...</small> merged in.
-</DL>
-<P>
-
-<A NAME="IDX252"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>parameter-list-expand</B> <I>expanders parameter-list</I>
-<DD><VAR>expanders</VAR> is a list of procedures whose order matches the order of
-the <VAR>parameter-name</VAR>s in the call to <CODE>make-parameter-list</CODE>
-which created <VAR>parameter-list</VAR>. For each non-false element of
-<VAR>expanders</VAR> that procedure is mapped over the corresponding
-parameter value and the returned parameter lists are merged into
-<VAR>parameter-list</VAR>.
-<P>
-
-This process is repeated until <VAR>parameter-list</VAR> stops growing. The
-value returned from <CODE>parameter-list-expand</CODE> is unspecified.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX253"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>fill-empty-parameters</B> <I>defaulters parameter-list</I>
-<DD><VAR>defaulters</VAR> is a list of procedures whose order matches the order
-of the <VAR>parameter-name</VAR>s in the call to <CODE>make-parameter-list</CODE>
-which created <VAR>parameter-list</VAR>. <CODE>fill-empty-parameters</CODE>
-returns a new parameter-list with each empty parameter replaced with the
-list returned by calling the corresponding <VAR>defaulter</VAR> with
-<VAR>parameter-list</VAR> as its argument.
-</DL>
-<P>
-
-<A NAME="IDX254"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>check-parameters</B> <I>checks parameter-list</I>
-<DD><VAR>checks</VAR> is a list of procedures whose order matches the order of
-the <VAR>parameter-name</VAR>s in the call to <CODE>make-parameter-list</CODE>
-which created <VAR>parameter-list</VAR>.
-<P>
-
-<CODE>check-parameters</CODE> returns <VAR>parameter-list</VAR> if each <VAR>check</VAR>
-of the corresponding <VAR>parameter-list</VAR> returns non-false. If some
-<VAR>check</VAR> returns <CODE>#f</CODE> a warning is signaled.
-</P>
-</DL>
-<P>
-
-In the following procedures <VAR>arities</VAR> is a list of symbols. The
-elements of <CODE>arities</CODE> can be:
-</P>
-<P>
-
-</P>
-<DL COMPACT>
-<DT><CODE>single</CODE>
-<DD>Requires a single parameter.
-<DT><CODE>optional</CODE>
-<DD>A single parameter or no parameter is acceptable.
-<DT><CODE>boolean</CODE>
-<DD>A single boolean parameter or zero parameters is acceptable.
-<DT><CODE>nary</CODE>
-<DD>Any number of parameters are acceptable.
-<DT><CODE>nary1</CODE>
-<DD>One or more of parameters are acceptable.
-</DL>
-<P>
-
-<A NAME="IDX255"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>parameter-list-&gt;arglist</B> <I>positions arities parameter-list</I>
-<DD>Returns <VAR>parameter-list</VAR> converted to an argument list. Parameters
-of <VAR>arity</VAR> type <CODE>single</CODE> and <CODE>boolean</CODE> are converted to
-the single value associated with them. The other <VAR>arity</VAR> types are
-converted to lists of the value(s).
-<P>
-
-<VAR>positions</VAR> is a list of positive integers whose order matches the
-order of the <VAR>parameter-name</VAR>s in the call to
-<CODE>make-parameter-list</CODE> which created <VAR>parameter-list</VAR>. The
-integers specify in which argument position the corresponding parameter
-should appear.
-</P>
-</DL>
-<P>
-
-<A NAME="Getopt Parameter lists"></A>
-<HR SIZE="6">
-<A NAME="SEC66"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC65"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC67"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC61"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 4.4.5 Getopt Parameter lists </H3>
-<!--docid::SEC66::-->
-<P>
-
-<CODE>(require 'getopt-parameters)</CODE>
-<A NAME="IDX256"></A>
-</P>
-<P>
-
-<A NAME="IDX257"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>getopt-&gt;parameter-list</B> <I>optnames arities types aliases desc <small>...</small></I>
-<DD><P>
-
-Returns <VAR>*argv*</VAR> converted to a parameter-list. <VAR>optnames</VAR> are
-the parameter-names. <VAR>arities</VAR> and <VAR>types</VAR> are lists of symbols
-corresponding to <VAR>optnames</VAR>.
-</P>
-<P>
-
-<VAR>aliases</VAR> is a list of lists of strings or integers paired with
-elements of <VAR>optnames</VAR>. Each one-character string will be treated
-as a single `<SAMP>-</SAMP>' option by <CODE>getopt</CODE>. Longer strings will be
-treated as long-named options (see section <A HREF="slib_4.html#SEC62">getopt--</A>).
-</P>
-<P>
-
-If the <VAR>aliases</VAR> association list has only strings as its
-<CODE>car</CODE>s, then all the option-arguments after an option (and before
-the next option) are adjoined to that option.
-</P>
-<P>
-
-If the <VAR>aliases</VAR> association list has integers, then each (string)
-option will take at most one option-argument. Unoptioned arguments are
-collected in a list. A `<SAMP>-1</SAMP>' alias will take the last argument in
-this list; `<SAMP>+1</SAMP>' will take the first argument in the list. The
-aliases -2 then +2; -3 then +3; <small>...</small> are tried so long as a positive
-or negative consecutive alias is found and arguments remain in the list.
-Finally a `<SAMP>0</SAMP>' alias, if found, absorbs any remaining arguments.
-</P>
-<P>
-
-In all cases, if unclaimed arguments remain after processing, a warning
-is signaled and #f is returned.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX258"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>getopt-&gt;arglist</B> <I>optnames positions arities types defaulters checks aliases desc <small>...</small></I>
-<DD><P>
-
-Like <CODE>getopt-&gt;parameter-list</CODE>, but converts <VAR>*argv*</VAR> to an
-argument-list as specified by <VAR>optnames</VAR>, <VAR>positions</VAR>,
-<VAR>arities</VAR>, <VAR>types</VAR>, <VAR>defaulters</VAR>, <VAR>checks</VAR>, and
-<VAR>aliases</VAR>. If the options supplied violate the <VAR>arities</VAR> or
-<VAR>checks</VAR> constraints, then a warning is signaled and #f is returned.
-</P>
-</DL>
-These <CODE>getopt</CODE> functions can be used with SLIB relational
-databases. For an example, See section <A HREF="slib_6.html#SEC142">make-command-server</A>.
-<P>
-
-If errors are encountered while processing options, directions for using
-the options (and argument strings <VAR>desc</VAR> <small>...</small>) are printed to
-<CODE>current-error-port</CODE>.
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(begin
- (set! *optind* 1)
- (set! *argv* '(&quot;cmd&quot; &quot;-?&quot;)
- (getopt-&gt;parameter-list
- '(flag number symbols symbols string flag2 flag3 num2 num3)
- '(boolean optional nary1 nary single boolean boolean nary nary)
- '(boolean integer symbol symbol string boolean boolean integer integer)
- '((&quot;flag&quot; flag)
- (&quot;f&quot; flag)
- (&quot;Flag&quot; flag2)
- (&quot;B&quot; flag3)
- (&quot;optional&quot; number)
- (&quot;o&quot; number)
- (&quot;nary1&quot; symbols)
- (&quot;N&quot; symbols)
- (&quot;nary&quot; symbols)
- (&quot;n&quot; symbols)
- (&quot;single&quot; string)
- (&quot;s&quot; string)
- (&quot;a&quot; num2)
- (&quot;Abs&quot; num3))))
--|
-Usage: cmd [OPTION ARGUMENT ...] ...
-
- -f, --flag
- -o, --optional=&lt;number&gt;
- -n, --nary=&lt;symbols&gt; ...
- -N, --nary1=&lt;symbols&gt; ...
- -s, --single=&lt;string&gt;
- --Flag
- -B
- -a &lt;num2&gt; ...
- --Abs=&lt;num3&gt; ...
-
-ERROR: getopt-&gt;parameter-list &quot;unrecognized option&quot; &quot;-?&quot;
-</pre></td></tr></table><P>
-
-<A NAME="Filenames"></A>
-<HR SIZE="6">
-<A NAME="SEC67"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC66"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC68"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC61"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 4.4.6 Filenames </H3>
-<!--docid::SEC67::-->
-<P>
-
-<CODE>(require 'filename)</CODE> or <CODE>(require 'glob)</CODE>
-<A NAME="IDX259"></A>
-<A NAME="IDX260"></A>
-</P>
-<P>
-
-<A NAME="IDX261"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>filename:match??</B> <I>pattern</I>
-<DD><A NAME="IDX262"></A>
-<DT><U>Function:</U> <B>filename:match-ci??</B> <I>pattern</I>
-<DD><P>
-
-Returns a predicate which returns a non-false value if its string argument
-matches (the string) <VAR>pattern</VAR>, false otherwise. Filename matching
-is like
-<A NAME="IDX263"></A>
-<EM>glob</EM> expansion described the bash manpage, except that names
-<A NAME="IDX264"></A>
-beginning with `<SAMP>.</SAMP>' are matched and `<SAMP>/</SAMP>' characters are not
-treated specially.
-</P>
-<P>
-
-These functions interpret the following characters specially in
-<VAR>pattern</VAR> strings:
-</P>
-<DL COMPACT>
-<DT>`<SAMP>*</SAMP>'
-<DD>Matches any string, including the null string.
-<DT>`<SAMP>?</SAMP>'
-<DD>Matches any single character.
-<DT>`<SAMP>[<small>...</small>]</SAMP>'
-<DD>Matches any one of the enclosed characters. A pair of characters
-separated by a minus sign (-) denotes a range; any character lexically
-between those two characters, inclusive, is matched. If the first
-character following the `<SAMP>[</SAMP>' is a `<SAMP>!</SAMP>' or a `<SAMP>^</SAMP>' then any
-character not enclosed is matched. A `<SAMP>-</SAMP>' or `<SAMP>]</SAMP>' may be
-matched by including it as the first or last character in the set.
-</DL>
-</DL>
-<P>
-
-<A NAME="IDX265"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>filename:substitute??</B> <I>pattern template</I>
-<DD><A NAME="IDX266"></A>
-<DT><U>Function:</U> <B>filename:substitute-ci??</B> <I>pattern template</I>
-<DD><P>
-
-Returns a function transforming a single string argument according to
-glob patterns <VAR>pattern</VAR> and <VAR>template</VAR>. <VAR>pattern</VAR> and
-<VAR>template</VAR> must have the same number of wildcard specifications,
-which need not be identical. <VAR>pattern</VAR> and <VAR>template</VAR> may have
-a different number of literal sections. If an argument to the function
-matches <VAR>pattern</VAR> in the sense of <CODE>filename:match??</CODE> then it
-returns a copy of <VAR>template</VAR> in which each wildcard specification is
-replaced by the part of the argument matched by the corresponding
-wildcard specification in <VAR>pattern</VAR>. A <CODE>*</CODE> wildcard matches
-the longest leftmost string possible. If the argument does not match
-<VAR>pattern</VAR> then false is returned.
-</P>
-<P>
-
-<VAR>template</VAR> may be a function accepting the same number of string
-arguments as there are wildcard specifications in <VAR>pattern</VAR>. In
-the case of a match the result of applying <VAR>template</VAR> to a list
-of the substrings matched by wildcard specifications will be returned,
-otherwise <VAR>template</VAR> will not be called and <CODE>#f</CODE> will be returned.
-</P>
-</DL>
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>((filename:substitute?? &quot;scm_[0-9]*.html&quot; &quot;scm5c4_??.htm&quot;)
- &quot;scm_10.html&quot;)
-=> &quot;scm5c4_10.htm&quot;
-((filename:substitute?? &quot;??&quot; &quot;beg?mid?end&quot;) &quot;AZ&quot;)
-=> &quot;begAmidZend&quot;
-((filename:substitute?? &quot;*na*&quot; &quot;?NA?&quot;) &quot;banana&quot;)
-=> &quot;banaNA&quot;
-((filename:substitute?? &quot;?*?&quot; (lambda (s1 s2 s3) (string-append s3 s1)))
- &quot;ABZ&quot;)
-=> &quot;ZA&quot;
-</pre></td></tr></table><P>
-
-<A NAME="IDX267"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>replace-suffix</B> <I>str old new</I>
-<DD><P>
-
-<VAR>str</VAR> can be a string or a list of strings. Returns a new string
-(or strings) similar to <CODE>str</CODE> but with the suffix string <VAR>old</VAR>
-removed and the suffix string <VAR>new</VAR> appended. If the end of
-<VAR>str</VAR> does not match <VAR>old</VAR>, an error is signaled.
-</P>
-</DL>
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(replace-suffix &quot;/usr/local/lib/slib/batch.scm&quot; &quot;.scm&quot; &quot;.c&quot;)
-=> &quot;/usr/local/lib/slib/batch.c&quot;
-</pre></td></tr></table><P>
-
-<A NAME="IDX268"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>call-with-tmpnam</B> <I>proc k</I>
-<DD><P>
-
-<A NAME="IDX269"></A>
-<DT><U>Function:</U> <B>call-with-tmpnam</B> <I>proc</I>
-<DD>Calls <VAR>proc</VAR> with <VAR>k</VAR> arguments, strings returned by successive calls to
-<CODE>tmpnam</CODE>.
-If <VAR>proc</VAR> returns, then any files named by the arguments to <VAR>proc</VAR> are
-deleted automatically and the value(s) yielded by the <VAR>proc</VAR> is(are)
-returned. <VAR>k</VAR> may be ommited, in which case it defaults to <CODE>1</CODE>.
-</P>
-<P>
-
-<A NAME="IDX270"></A>
-<DT><U>Function:</U> <B>call-with-tmpnam</B> <I>proc suffix1 <small>...</small></I>
-<DD>Calls <VAR>proc</VAR> with strings returned by successive calls to <CODE>tmpnam</CODE>,
-each with the corresponding <VAR>suffix</VAR> string appended.
-If <VAR>proc</VAR> returns, then any files named by the arguments to <VAR>proc</VAR> are
-deleted automatically and the value(s) yielded by the <VAR>proc</VAR> is(are)
-returned.
-</P>
-</DL>
-<P>
-
-<A NAME="Batch"></A>
-<HR SIZE="6">
-<A NAME="SEC68"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC67"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC69"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC61"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 4.4.7 Batch </H3>
-<!--docid::SEC68::-->
-<P>
-
-<CODE>(require 'batch)</CODE>
-<A NAME="IDX271"></A>
-</P>
-<P>
-
-The batch procedures provide a way to write and execute portable scripts
-for a variety of operating systems. Each <CODE>batch:</CODE> procedure takes
-as its first argument a parameter-list (see section <A HREF="slib_4.html#SEC65">4.4.4 Parameter lists</A>). This
-parameter-list argument <VAR>parms</VAR> contains named associations. Batch
-currently uses 2 of these:
-</P>
-<P>
-
-</P>
-<DL COMPACT>
-<DT><CODE>batch-port</CODE>
-<DD>The port on which to write lines of the batch file.
-<DT><CODE>batch-dialect</CODE>
-<DD>The syntax of batch file to generate. Currently supported are:
-<UL>
-<LI>
-unix
-<LI>
-dos
-<LI>
-vms
-<LI>
-amigaos
-<LI>
-system
-<LI>
-*unknown*
-</UL>
-</DL>
-<P>
-
-`<TT>batch.scm</TT>' uses 2 enhanced relational tables
-(see section <A HREF="slib_6.html#SEC142">6.1.1 Using Databases</A>) to store information linking the names of
-<CODE>operating-system</CODE>s to <CODE>batch-dialect</CODE>es.
-</P>
-<P>
-
-<A NAME="IDX272"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>batch:initialize!</B> <I>database</I>
-<DD>Defines <CODE>operating-system</CODE> and <CODE>batch-dialect</CODE> tables and adds
-the domain <CODE>operating-system</CODE> to the enhanced relational database
-<VAR>database</VAR>.
-</DL>
-<P>
-
-<A NAME="IDX273"></A>
-</P>
-<DL>
-<DT><U>Variable:</U> <B>*operating-system*</B>
-<DD>Is batch's best guess as to which operating-system it is running under.
-<CODE>*operating-system*</CODE> is set to <CODE>(software-type)</CODE>
-(see section <A HREF="slib_2.html#SEC15">2.2 Configuration</A>) unless <CODE>(software-type)</CODE> is <CODE>unix</CODE>,
-in which case finer distinctions are made.
-</DL>
-<P>
-
-<A NAME="IDX274"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>batch:call-with-output-script</B> <I>parms file proc</I>
-<DD><VAR>proc</VAR> should be a procedure of one argument. If <VAR>file</VAR> is an
-output-port, <CODE>batch:call-with-output-script</CODE> writes an appropriate
-header to <VAR>file</VAR> and then calls <VAR>proc</VAR> with <VAR>file</VAR> as the
-only argument. If <VAR>file</VAR> is a string,
-<CODE>batch:call-with-output-script</CODE> opens a output-file of name
-<VAR>file</VAR>, writes an appropriate header to <VAR>file</VAR>, and then calls
-<VAR>proc</VAR> with the newly opened port as the only argument. Otherwise,
-<CODE>batch:call-with-output-script</CODE> acts as if it was called with the
-result of <CODE>(current-output-port)</CODE> as its third argument.
-</DL>
-<P>
-
-The rest of the <CODE>batch:</CODE> procedures write (or execute if
-<CODE>batch-dialect</CODE> is <CODE>system</CODE>) commands to the batch port which
-has been added to <VAR>parms</VAR> or <CODE>(copy-tree <VAR>parms</VAR>)</CODE> by the
-code:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(adjoin-parameters! <VAR>parms</VAR> (list 'batch-port <VAR>port</VAR>))
-</pre></td></tr></table><P>
-
-<A NAME="IDX275"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>batch:command</B> <I>parms string1 string2 <small>...</small></I>
-<DD>Calls <CODE>batch:try-command</CODE> (below) with arguments, but signals an
-error if <CODE>batch:try-command</CODE> returns <CODE>#f</CODE>.
-</DL>
-<P>
-
-These functions return a non-false value if the command was successfully
-translated into the batch dialect and <CODE>#f</CODE> if not. In the case of
-the <CODE>system</CODE> dialect, the value is non-false if the operation
-suceeded.
-</P>
-<P>
-
-<A NAME="IDX276"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>batch:try-command</B> <I>parms string1 string2 <small>...</small></I>
-<DD>Writes a command to the <CODE>batch-port</CODE> in <VAR>parms</VAR> which executes
-the program named <VAR>string1</VAR> with arguments <VAR>string2</VAR> <small>...</small>.
-</DL>
-<P>
-
-<A NAME="IDX277"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>batch:try-chopped-command</B> <I>parms arg1 arg2 <small>...</small> list</I>
-<DD>breaks the last argument <VAR>list</VAR> into chunks small enough so that the
-command:
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre><VAR>arg1</VAR> <VAR>arg2</VAR> <small>...</small> <VAR>chunk</VAR>
-</pre></td></tr></table><P>
-
-fits withing the platform's maximum command-line length.
-</P>
-<P>
-
-<CODE>batch:try-chopped-command</CODE> calls <CODE>batch:try-command</CODE> with the
-command and returns non-false only if the commands all fit and
-<CODE>batch:try-command</CODE> of each command line returned non-false.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX278"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>batch:run-script</B> <I>parms string1 string2 <small>...</small></I>
-<DD>Writes a command to the <CODE>batch-port</CODE> in <VAR>parms</VAR> which executes
-the batch script named <VAR>string1</VAR> with arguments <VAR>string2</VAR>
-<small>...</small>.
-<P>
-
-<EM>Note:</EM> <CODE>batch:run-script</CODE> and <CODE>batch:try-command</CODE> are not the
-same for some operating systems (VMS).
-</P>
-</DL>
-<P>
-
-<A NAME="IDX279"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>batch:comment</B> <I>parms line1 <small>...</small></I>
-<DD>Writes comment lines <VAR>line1</VAR> <small>...</small> to the <CODE>batch-port</CODE> in
-<VAR>parms</VAR>.
-</DL>
-<P>
-
-<A NAME="IDX280"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>batch:lines-&gt;file</B> <I>parms file line1 <small>...</small></I>
-<DD>Writes commands to the <CODE>batch-port</CODE> in <VAR>parms</VAR> which create a
-file named <VAR>file</VAR> with contents <VAR>line1</VAR> <small>...</small>.
-</DL>
-<P>
-
-<A NAME="IDX281"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>batch:delete-file</B> <I>parms file</I>
-<DD>Writes a command to the <CODE>batch-port</CODE> in <VAR>parms</VAR> which deletes
-the file named <VAR>file</VAR>.
-</DL>
-<P>
-
-<A NAME="IDX282"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>batch:rename-file</B> <I>parms old-name new-name</I>
-<DD>Writes a command to the <CODE>batch-port</CODE> in <VAR>parms</VAR> which renames
-the file <VAR>old-name</VAR> to <VAR>new-name</VAR>.
-</DL>
-<P>
-
-In addition, batch provides some small utilities very useful for writing
-scripts:
-</P>
-<P>
-
-<A NAME="IDX283"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>truncate-up-to</B> <I>path char</I>
-<DD><A NAME="IDX284"></A>
-<DT><U>Function:</U> <B>truncate-up-to</B> <I>path string</I>
-<DD><A NAME="IDX285"></A>
-<DT><U>Function:</U> <B>truncate-up-to</B> <I>path charlist</I>
-<DD><VAR>path</VAR> can be a string or a list of strings. Returns <VAR>path</VAR>
-sans any prefixes ending with a character of the second argument. This
-can be used to derive a filename moved locally from elsewhere.
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(truncate-up-to &quot;/usr/local/lib/slib/batch.scm&quot; &quot;/&quot;)
-=> &quot;batch.scm&quot;
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX286"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>string-join</B> <I>joiner string1 <small>...</small></I>
-<DD>Returns a new string consisting of all the strings <VAR>string1</VAR> <small>...</small>
-in order appended together with the string <VAR>joiner</VAR> between each
-adjacent pair.
-</DL>
-<P>
-
-<A NAME="IDX287"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>must-be-first</B> <I>list1 list2</I>
-<DD>Returns a new list consisting of the elements of <VAR>list2</VAR> ordered so
-that if some elements of <VAR>list1</VAR> are <CODE>equal?</CODE> to elements of
-<VAR>list2</VAR>, then those elements will appear first and in the order of
-<VAR>list1</VAR>.
-</DL>
-<P>
-
-<A NAME="IDX288"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>must-be-last</B> <I>list1 list2</I>
-<DD>Returns a new list consisting of the elements of <VAR>list1</VAR> ordered so
-that if some elements of <VAR>list2</VAR> are <CODE>equal?</CODE> to elements of
-<VAR>list1</VAR>, then those elements will appear last and in the order of
-<VAR>list2</VAR>.
-</DL>
-<P>
-
-<A NAME="IDX289"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>os-&gt;batch-dialect</B> <I>osname</I>
-<DD>Returns its best guess for the <CODE>batch-dialect</CODE> to be used for the
-operating-system named <VAR>osname</VAR>. <CODE>os-&gt;batch-dialect</CODE> uses the
-tables added to <VAR>database</VAR> by <CODE>batch:initialize!</CODE>.
-</DL>
-<P>
-
-Here is an example of the use of most of batch's procedures:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(require 'databases)
-<A NAME="IDX290"></A>(require 'parameters)
-<A NAME="IDX291"></A>(require 'batch)
-<A NAME="IDX292"></A>(require 'glob)
-<A NAME="IDX293"></A>
-(define batch (create-database #f 'alist-table))
-(batch:initialize! batch)
-
-(define my-parameters
- (list (list 'batch-dialect (os-&gt;batch-dialect *operating-system*))
- (list 'operating-system *operating-system*)
- (list 'batch-port (current-output-port)))) ;gets filled in later
-
-(batch:call-with-output-script
- my-parameters
- &quot;my-batch&quot;
- (lambda (batch-port)
- (adjoin-parameters! my-parameters (list 'batch-port batch-port))
- (and
- (batch:comment my-parameters
- &quot;================ Write file with C program.&quot;)
- (batch:rename-file my-parameters &quot;hello.c&quot; &quot;hello.c~&quot;)
- (batch:lines-&gt;file my-parameters &quot;hello.c&quot;
- &quot;#include &lt;stdio.h&gt;&quot;
- &quot;int main(int argc, char **argv)&quot;
- &quot;{&quot;
- &quot; printf(\&quot;hello world\\n\&quot;);&quot;
- &quot; return 0;&quot;
- &quot;}&quot; )
- (batch:command my-parameters &quot;cc&quot; &quot;-c&quot; &quot;hello.c&quot;)
- (batch:command my-parameters &quot;cc&quot; &quot;-o&quot; &quot;hello&quot;
- (replace-suffix &quot;hello.c&quot; &quot;.c&quot; &quot;.o&quot;))
- (batch:command my-parameters &quot;hello&quot;)
- (batch:delete-file my-parameters &quot;hello&quot;)
- (batch:delete-file my-parameters &quot;hello.c&quot;)
- (batch:delete-file my-parameters &quot;hello.o&quot;)
- (batch:delete-file my-parameters &quot;my-batch&quot;)
- )))
-</pre></td></tr></table><P>
-
-Produces the file `<TT>my-batch</TT>':
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>#! /bin/sh
-# &quot;my-batch&quot; script created by SLIB/batch Sun Oct 31 18:24:10 1999
-# ================ Write file with C program.
-mv -f hello.c hello.c~
-rm -f hello.c
-echo '#include &lt;stdio.h&gt;'&gt;&gt;hello.c
-echo 'int main(int argc, char **argv)'&gt;&gt;hello.c
-echo '{'&gt;&gt;hello.c
-echo ' printf(&quot;hello world\n&quot;);'&gt;&gt;hello.c
-echo ' return 0;'&gt;&gt;hello.c
-echo '}'&gt;&gt;hello.c
-cc -c hello.c
-cc -o hello hello.o
-hello
-rm -f hello
-rm -f hello.c
-rm -f hello.o
-rm -f my-batch
-</pre></td></tr></table><P>
-
-When run, `<TT>my-batch</TT>' prints:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>bash$ my-batch
-mv: hello.c: No such file or directory
-hello world
-</pre></td></tr></table><P>
-
-<A NAME="HTML"></A>
-<HR SIZE="6">
-<A NAME="SEC69"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC68"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC70"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 4.5 HTML </H2>
-<!--docid::SEC69::-->
-<P>
-
-<CODE>(require 'html-form)</CODE>
-<A NAME="IDX294"></A>
-</P>
-<P>
-
-<A NAME="IDX295"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>html:atval</B> <I>txt</I>
-<DD>Returns a string with character substitutions appropriate to
-send <VAR>txt</VAR> as an <EM>attribute-value</EM>.
-<A NAME="IDX296"></A>
-</DL>
-<P>
-
-<A NAME="IDX297"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>html:plain</B> <I>txt</I>
-<DD>Returns a string with character substitutions appropriate to
-send <VAR>txt</VAR> as an <EM>plain-text</EM>.
-<A NAME="IDX298"></A>
-</DL>
-<P>
-
-<A NAME="IDX299"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>html:meta</B> <I>name content</I>
-<DD>Returns a tag of meta-information suitable for passing as the
-third argument to <CODE>html:head</CODE>. The tag produced is `<SAMP>&lt;META
-NAME=&quot;<VAR>name</VAR>&quot; CONTENT=&quot;<VAR>content</VAR>&quot;&gt;</SAMP>'. The string or symbol <VAR>name</VAR> can be
-`<SAMP>author</SAMP>', `<SAMP>copyright</SAMP>', `<SAMP>keywords</SAMP>', `<SAMP>description</SAMP>',
-`<SAMP>date</SAMP>', `<SAMP>robots</SAMP>', <small>...</small>.
-</DL>
-<P>
-
-<A NAME="IDX300"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>html:http-equiv</B> <I>name content</I>
-<DD>Returns a tag of HTTP information suitable for passing as the
-third argument to <CODE>html:head</CODE>. The tag produced is `<SAMP>&lt;META
-HTTP-EQUIV=&quot;<VAR>name</VAR>&quot; CONTENT=&quot;<VAR>content</VAR>&quot;&gt;</SAMP>'. The string or symbol <VAR>name</VAR> can be
-`<SAMP>Expires</SAMP>', `<SAMP>PICS-Label</SAMP>', `<SAMP>Content-Type</SAMP>',
-`<SAMP>Refresh</SAMP>', <small>...</small>.
-</DL>
-<P>
-
-<A NAME="IDX301"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>html:meta-refresh</B> <I>delay uri</I>
-<DD><P>
-
-<A NAME="IDX302"></A>
-<DT><U>Function:</U> <B>html:meta-refresh</B> <I>delay</I>
-<DD></P>
-<P>
-
-Returns a tag suitable for passing as the third argument to
-<CODE>html:head</CODE>. If <VAR>uri</VAR> argument is supplied, then <VAR>delay</VAR> seconds after
-displaying the page with this tag, Netscape or IE browsers will fetch
-and display <VAR>uri</VAR>. Otherwise, <VAR>delay</VAR> seconds after displaying the page with
-this tag, Netscape or IE browsers will fetch and redisplay this page.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX303"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>html:head</B> <I>title backlink tags <small>...</small></I>
-<DD><P>
-
-<A NAME="IDX304"></A>
-<DT><U>Function:</U> <B>html:head</B> <I>title backlink</I>
-<DD></P>
-<P>
-
-<A NAME="IDX305"></A>
-<DT><U>Function:</U> <B>html:head</B> <I>title</I>
-<DD></P>
-<P>
-
-Returns header string for an HTML page named <VAR>title</VAR>. If <VAR>backlink</VAR> is a string,
-it is used verbatim between the `<SAMP>H1</SAMP>' tags; otherwise <VAR>title</VAR> is
-used. If string arguments <VAR>tags</VAR> ... are supplied, then they are
-included verbatim within the <TT>&lt;HEAD&gt;</TT> section.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX306"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>html:body</B> <I>body <small>...</small></I>
-<DD>Returns HTML string to end a page.
-</DL>
-<P>
-
-<A NAME="IDX307"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>html:pre</B> <I>line1 line <small>...</small></I>
-<DD>Returns the strings <VAR>line1</VAR>, <VAR>lines</VAR> as <EM>PRE</EM>formmated plain text
-<A NAME="IDX308"></A>
-(rendered in fixed-width font). Newlines are inserted between <VAR>line1</VAR>,
-<VAR>lines</VAR>. HTML tags (`<SAMP>&lt;tag&gt;</SAMP>') within <VAR>lines</VAR> will be visible verbatim.
-</DL>
-<P>
-
-<A NAME="IDX309"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>html:comment</B> <I>line1 line <small>...</small></I>
-<DD>Returns the strings <VAR>line1</VAR> as HTML comments.
-</DL>
-<HR SIZE="6">
-<A NAME="SEC70"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC69"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC71"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 4.6 HTML Forms </H2>
-<!--docid::SEC70::-->
-<P>
-
-<A NAME="IDX310"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>html:form</B> <I>method action body <small>...</small></I>
-<DD>The symbol <VAR>method</VAR> is either <CODE>get</CODE>, <CODE>head</CODE>, <CODE>post</CODE>,
-<CODE>put</CODE>, or <CODE>delete</CODE>. The strings <VAR>body</VAR> form the body of the
-form. <CODE>html:form</CODE> returns the HTML <EM>form</EM>.
-<A NAME="IDX311"></A>
-</DL>
-<P>
-
-<A NAME="IDX312"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>html:hidden</B> <I>name value</I>
-<DD>Returns HTML string which will cause <VAR>name</VAR>=<VAR>value</VAR> in form.
-</DL>
-<P>
-
-<A NAME="IDX313"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>html:checkbox</B> <I>pname default</I>
-<DD>Returns HTML string for check box.
-</DL>
-<P>
-
-<A NAME="IDX314"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>html:text</B> <I>pname default size <small>...</small></I>
-<DD>Returns HTML string for one-line text box.
-</DL>
-<P>
-
-<A NAME="IDX315"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>html:text-area</B> <I>pname default-list</I>
-<DD>Returns HTML string for multi-line text box.
-</DL>
-<P>
-
-<A NAME="IDX316"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>html:select</B> <I>pname arity default-list foreign-values</I>
-<DD>Returns HTML string for pull-down menu selector.
-</DL>
-<P>
-
-<A NAME="IDX317"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>html:buttons</B> <I>pname arity default-list foreign-values</I>
-<DD>Returns HTML string for any-of selector.
-</DL>
-<P>
-
-<A NAME="IDX318"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>form:submit</B> <I>submit-label command</I>
-<DD><P>
-
-<A NAME="IDX319"></A>
-<DT><U>Function:</U> <B>form:submit</B> <I>submit-label</I>
-<DD></P>
-<P>
-
-The string or symbol <VAR>submit-label</VAR> appears on the button which submits the form.
-If the optional second argument <VAR>command</VAR> is given, then <CODE>*command*=<VAR>command</VAR></CODE>
-and <CODE>*button*=<VAR>submit-label</VAR></CODE> are set in the query. Otherwise,
-<CODE>*command*=<VAR>submit-label</VAR></CODE> is set in the query.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX320"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>form:image</B> <I>submit-label image-src</I>
-<DD>The <VAR>image-src</VAR> appears on the button which submits the form.
-</DL>
-<P>
-
-<A NAME="IDX321"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>form:reset</B>
-<DD>Returns a string which generates a <EM>reset</EM> button.
-<A NAME="IDX322"></A>
-</DL>
-<P>
-
-<A NAME="IDX323"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>form:element</B> <I>pname arity default-list foreign-values</I>
-<DD>Returns a string which generates an INPUT element for the field
-named <VAR>pname</VAR>. The element appears in the created form with its
-representation determined by its <VAR>arity</VAR> and domain. For domains which
-are foreign-keys:
-<P>
-
-</P>
-<DL COMPACT>
-<DT><CODE>single</CODE>
-<DD>select menu
-<DT><CODE>optional</CODE>
-<DD>select menu
-<DT><CODE>nary</CODE>
-<DD>check boxes
-<DT><CODE>nary1</CODE>
-<DD>check boxes
-</DL>
-<P>
-
-If the foreign-key table has a field named `<SAMP>visible-name</SAMP>', then
-the contents of that field are the names visible to the user for
-those choices. Otherwise, the foreign-key itself is visible.
-</P>
-<P>
-
-For other types of domains:
-</P>
-<P>
-
-</P>
-<DL COMPACT>
-<DT><CODE>single</CODE>
-<DD>text area
-<DT><CODE>optional</CODE>
-<DD>text area
-<DT><CODE>boolean</CODE>
-<DD>check box
-<DT><CODE>nary</CODE>
-<DD>text area
-<DT><CODE>nary1</CODE>
-<DD>text area
-</DL>
-</DL>
-<P>
-
-<A NAME="IDX324"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>form:delimited</B> <I>pname doc aliat arity default-list foreign-values</I>
-<DD><P>
-
-Returns a HTML string for a form element embedded in a line of a
-delimited list. Apply map <CODE>form:delimited</CODE> to the list returned by
-<CODE>command-&gt;p-specs</CODE>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX325"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>html:delimited-list</B> <I>row <small>...</small></I>
-<DD>Wraps its arguments with delimited-list (`<SAMP>DL</SAMP>' command.
-</DL>
-<P>
-
-<A NAME="IDX326"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>get-foreign-choices</B> <I>tab</I>
-<DD>Returns a list of the `<SAMP>visible-name</SAMP>' or first fields of
-table <VAR>tab</VAR>.
-</DL>
-<P>
-
-<A NAME="IDX327"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>command-&gt;p-specs</B> <I>rdb command-table command</I>
-<DD><P>
-
-The symbol <VAR>command-table</VAR> names a command table in the <VAR>rdb</VAR> relational database.
-The symbol <VAR>command</VAR> names a key in <VAR>command-table</VAR>.
-</P>
-<P>
-
-<CODE>command-&gt;p-specs</CODE> returns a list of lists of <VAR>pname</VAR>, <VAR>doc</VAR>, <VAR>aliat</VAR>,
-<VAR>arity</VAR>, <VAR>default-list</VAR>, and <VAR>foreign-values</VAR>. The
-returned list has one element for each parameter of command <VAR>command</VAR>.
-</P>
-<P>
-
-This example demonstrates how to create a HTML-form for the `<SAMP>build</SAMP>'
-command.
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(require (in-vicinity (implementation-vicinity) &quot;build.scm&quot;))
-(call-with-output-file &quot;buildscm.html&quot;
- (lambda (port)
- (display
- (string-append
- (html:head 'commands)
- (html:body
- (sprintf #f &quot;&lt;H2&gt;%s:&lt;/H2&gt;&lt;BLOCKQUOTE&gt;%s&lt;/BLOCKQUOTE&gt;\\n&quot;
- (html:plain 'build)
- (html:plain ((comtab 'get 'documentation) 'build)))
- (html:form
- 'post
- (or &quot;http://localhost:8081/buildscm&quot; &quot;/cgi-bin/build.cgi&quot;)
- (apply html:delimited-list
- (apply map form:delimited
- (command-&gt;p-specs build '*commands* 'build)))
- (form:submit 'build)
- (form:reset))))
- port)))
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="HTML Tables"></A>
-<HR SIZE="6">
-<A NAME="SEC71"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC70"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC72"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 4.7 HTML Tables </H2>
-<!--docid::SEC71::-->
-<P>
-
-<CODE>(require 'db-&gt;html)</CODE>
-<A NAME="IDX328"></A>
-</P>
-<P>
-
-<A NAME="IDX329"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>html:table</B> <I>options row <small>...</small></I>
-<DD><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX330"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>html:caption</B> <I>caption align</I>
-<DD><P>
-
-<A NAME="IDX331"></A>
-<DT><U>Function:</U> <B>html:caption</B> <I>caption</I>
-<DD><VAR>align</VAR> can be `<SAMP>top</SAMP>' or `<SAMP>bottom</SAMP>'.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX332"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>html:heading</B> <I>columns</I>
-<DD>Outputs a heading row for the currently-started table.
-</DL>
-<P>
-
-<A NAME="IDX333"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>html:href-heading</B> <I>columns uris</I>
-<DD>Outputs a heading row with column-names <VAR>columns</VAR> linked to URIs <VAR>uris</VAR>.
-</DL>
-<P>
-
-<A NAME="IDX334"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>html:linked-row-converter</B> <I>k foreigns</I>
-<DD><P>
-
-The positive integer <VAR>k</VAR> is the primary-key-limit (number of
-primary-keys) of the table. <VAR>foreigns</VAR> is a list of the filenames of
-foreign-key field pages and #f for non foreign-key fields.
-</P>
-<P>
-
-<CODE>html:linked-row-converter</CODE> returns a procedure taking a row for its single argument. This
-returned procedure returns the html string for that table row.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX335"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>table-name-&gt;filename</B> <I>table-name</I>
-<DD><P>
-
-Returns the symbol <VAR>table-name</VAR> converted to a filename.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX336"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>table-&gt;linked-html</B> <I>caption db table-name match-key1 <small>...</small></I>
-<DD><P>
-
-Returns HTML string for <VAR>db</VAR> table <VAR>table-name</VAR>. Every foreign-key value is
-linked to the page (of the table) defining that key.
-</P>
-<P>
-
-The optional <VAR>match-key1</VAR> <small>...</small> arguments restrict actions to a subset of
-the table. See section <A HREF="slib_6.html#SEC147">match-key</A>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX337"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>table-&gt;linked-page</B> <I>db table-name index-filename arg <small>...</small></I>
-<DD><P>
-
-Returns a complete HTML page. The string <VAR>index-filename</VAR> names the page which
-refers to this one.
-</P>
-<P>
-
-The optional <VAR>args</VAR> <small>...</small> arguments restrict actions to a subset of
-the table. See section <A HREF="slib_6.html#SEC147">match-key</A>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX338"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>catalog-&gt;html</B> <I>db caption arg <small>...</small></I>
-<DD><P>
-
-Returns HTML string for the catalog table of <VAR>db</VAR>.
-</P>
-</DL>
-<HR SIZE="6">
-<A NAME="SEC72"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC71"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC73"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 4.7.1 HTML editing tables </H3>
-<!--docid::SEC72::-->
-<P>
-
-A client can modify one row of an editable table at a time.
-For any change submitted, these routines check if that row has been
-modified during the time the user has been editing the form. If so,
-an error page results.
-</P>
-<P>
-
-The behavior of edited rows is:
-</P>
-<P>
-
-<UL>
-<LI>
-If no fields are changed, then no change is made to the table.
-<LI>
-If the primary keys equal null-keys (parameter defaults), and no other
-user has modified that row, then that row is deleted.
-<LI>
-If only primary keys are changed, there are non-key fields, and no
-row with the new keys is in the table, then the old row is
-deleted and one with the new keys is inserted.
-<LI>
-If only non-key fields are changed, and that row has not been
-modified by another user, then the row is changed to reflect the
-fields.
-<LI>
-If both keys and non-key fields are changed, and no row with the
-new keys is in the table, then a row is created with the new
-keys and fields.
-<LI>
-If fields are changed, all fields are primary keys, and no row with
-the new keys is in the table, then a row is created with the new
-keys.
-</UL>
-<P>
-
-After any change to the table, a <CODE>sync-database</CODE> of the
-database is performed.
-</P>
-<P>
-
-<A NAME="IDX339"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>command:modify-table</B> <I>table-name null-keys update delete retrieve</I>
-<DD><P>
-
-<A NAME="IDX340"></A>
-<DT><U>Function:</U> <B>command:modify-table</B> <I>table-name null-keys update delete</I>
-<DD></P>
-<P>
-
-<A NAME="IDX341"></A>
-<DT><U>Function:</U> <B>command:modify-table</B> <I>table-name null-keys update</I>
-<DD></P>
-<P>
-
-<A NAME="IDX342"></A>
-<DT><U>Function:</U> <B>command:modify-table</B> <I>table-name null-keys</I>
-<DD></P>
-<P>
-
-Returns procedure (of <VAR>db</VAR>) which returns procedure to modify
-row of <VAR>table-name</VAR>. <VAR>null-keys</VAR> is the list of <EM>null</EM> keys indicating the row is
-<A NAME="IDX343"></A>
-to be deleted when any matches its corresponding primary key.
-Optional arguments <VAR>update</VAR>, <VAR>delete</VAR>, and <VAR>retrieve</VAR> default to the <CODE>row:update</CODE>,
-<CODE>row:delete</CODE>, and <CODE>row:retrieve</CODE> of <VAR>table-name</VAR> in <VAR>db</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX344"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>command:make-editable-table</B> <I>rdb table-name arg <small>...</small></I>
-<DD>Given <VAR>table-name</VAR> in <VAR>rdb</VAR>, creates parameter and <CODE>*command*</CODE> tables
-for editing one row of <VAR>table-name</VAR> at a time. <CODE>command:make-editable-table</CODE> returns a procedure taking a
-row argument which returns the HTML string for editing that row.
-<P>
-
-Optional <VAR>args</VAR> are expressions (lists) added to the call to
-<CODE>command:modify-table</CODE>.
-</P>
-<P>
-
-The domain name of a column determines the expected arity of the data
-stored in that column. Domain names ending in:
-</P>
-<P>
-
-</P>
-<DL COMPACT>
-<DT>`<SAMP>*</SAMP>'
-<DD>have arity `<SAMP>nary</SAMP>';
-<DT>`<SAMP>+</SAMP>'
-<DD>have arity `<SAMP>nary1</SAMP>'.
-</DL>
-</DL>
-<P>
-
-<A NAME="IDX345"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>html:editable-row-converter</B> <I>k names edit-point edit-converter</I>
-<DD><P>
-
-The positive integer <VAR>k</VAR> is the primary-key-limit (number of
-primary-keys) of the table. <VAR>names</VAR> is a list of the field-names. <VAR>edit-point</VAR> is
-the list of primary-keys denoting the row to edit (or #f). <VAR>edit-converter</VAR> is the
-procedure called with <VAR>k</VAR>, <VAR>names</VAR>, and the row to edit.
-</P>
-<P>
-
-<CODE>html:editable-row-converter</CODE> returns a procedure taking a row for its single argument. This
-returned procedure returns the html string for that table row.
-</P>
-<P>
-
-Each HTML table constructed using <CODE>html:editable-row-converter</CODE> has first <VAR>k</VAR> fields (typically
-the primary key fields) of each row linked to a text encoding of these
-fields (the result of calling <CODE>row-&gt;anchor</CODE>). The page so
-referenced typically allows the user to edit fields of that row.
-</P>
-</DL>
-<HR SIZE="6">
-<A NAME="SEC73"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC72"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC74"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 4.7.2 HTML databases </H3>
-<!--docid::SEC73::-->
-<P>
-
-<A NAME="IDX346"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>db-&gt;html-files</B> <I>db dir index-filename caption</I>
-<DD><VAR>db</VAR> must be a relational database. <VAR>dir</VAR> must be #f or a
-non-empty string naming an existing sub-directory of the current
-directory.
-<P>
-
-<CODE>db-&gt;html-files</CODE> creates an html page for each table in the database <VAR>db</VAR> in the
-sub-directory named <VAR>dir</VAR>, or the current directory if <VAR>dir</VAR> is #f. The
-top level page with the catalog of tables (captioned <VAR>caption</VAR>) is written
-to a file named <VAR>index-filename</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX347"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>db-&gt;html-directory</B> <I>db dir index-filename</I>
-<DD><P>
-
-<A NAME="IDX348"></A>
-<DT><U>Function:</U> <B>db-&gt;html-directory</B> <I>db dir</I>
-<DD><VAR>db</VAR> must be a relational database. <VAR>dir</VAR> must be a non-empty
-string naming an existing sub-directory of the current directory or
-one to be created. The optional string <VAR>index-filename</VAR> names the filename of the
-top page, which defaults to `<TT>index.html</TT>'.
-</P>
-<P>
-
-<CODE>db-&gt;html-directory</CODE> creates sub-directory <VAR>dir</VAR> if neccessary, and calls
-<CODE>(db-&gt;html-files <VAR>db</VAR> <VAR>dir</VAR> <VAR>index-filename</VAR> <VAR>dir</VAR>)</CODE>. The `<SAMP>file:</SAMP>' URI of <VAR>index-filename</VAR> is
-returned.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX349"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>db-&gt;netscape</B> <I>db dir index-filename</I>
-<DD><P>
-
-<A NAME="IDX350"></A>
-<DT><U>Function:</U> <B>db-&gt;netscape</B> <I>db dir</I>
-<DD><CODE>db-&gt;netscape</CODE> is just like <CODE>db-&gt;html-directory</CODE>, but calls
-<CODE>browse-url</CODE> with the uri for the top page after the
-pages are created.
-</P>
-</DL>
-<P>
-
-<A NAME="HTTP and CGI"></A>
-<HR SIZE="6">
-<A NAME="SEC74"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC73"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC75"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 4.8 HTTP and CGI </H2>
-<!--docid::SEC74::-->
-<P>
-
-<CODE>(require 'http)</CODE> or <CODE>(require 'cgi)</CODE>
-<A NAME="IDX351"></A>
-<A NAME="IDX352"></A>
-</P>
-<P>
-
-<A NAME="IDX353"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>http:header</B> <I>alist</I>
-<DD>Returns a string containing lines for each element of <VAR>alist</VAR>; the
-<CODE>car</CODE> of which is followed by `<SAMP>: </SAMP>', then the <CODE>cdr</CODE>.
-</DL>
-<P>
-
-<A NAME="IDX354"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>http:content</B> <I>alist body <small>...</small></I>
-<DD>Returns the concatenation of strings <VAR>body</VAR> with the
-<CODE>(http:header <VAR>alist</VAR>)</CODE> and the `<SAMP>Content-Length</SAMP>' prepended.
-</DL>
-<P>
-
-<A NAME="IDX355"></A>
-</P>
-<DL>
-<DT><U>Variable:</U> <B>*http:byline*</B>
-<DD>String appearing at the bottom of error pages.
-</DL>
-<P>
-
-<A NAME="IDX356"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>http:error-page</B> <I>status-code reason-phrase html-string <small>...</small></I>
-<DD><VAR>status-code</VAR> and <VAR>reason-phrase</VAR> should be an integer and string as specified in
-<CITE>RFC 2068</CITE>. The returned page (string) will show the <VAR>status-code</VAR> and <VAR>reason-phrase</VAR>
-and any additional <VAR>html-strings</VAR> <small>...</small>; with <VAR>*http:byline*</VAR> or SLIB's
-default at the bottom.
-</DL>
-<P>
-
-<A NAME="IDX357"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>http:forwarding-page</B> <I>title delay uri html-string <small>...</small></I>
-<DD>The string or symbol <VAR>title</VAR> is the page title. <VAR>delay</VAR> is a non-negative
-integer. The <VAR>html-strings</VAR> <small>...</small> are typically used to explain to the user why
-this page is being forwarded.
-<P>
-
-<CODE>http:forwarding-page</CODE> returns an HTML string for a page which automatically forwards to
-<VAR>uri</VAR> after <VAR>delay</VAR> seconds. The returned page (string) contains any <VAR>html-strings</VAR>
-<small>...</small> followed by a manual link to <VAR>uri</VAR>, in case the browser does not
-forward automatically.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX358"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>http:serve-query</B> <I>serve-proc input-port output-port</I>
-<DD>reads the <EM>URI</EM> and <EM>query-string</EM> from <VAR>input-port</VAR>. If the
-<A NAME="IDX359"></A>
-<A NAME="IDX360"></A>
-query is a valid `<SAMP>&quot;POST&quot;</SAMP>' or `<SAMP>&quot;GET&quot;</SAMP>' query, then <CODE>http:serve-query</CODE> calls
-<VAR>serve-proc</VAR> with three arguments, the <VAR>request-line</VAR>, <VAR>query-string</VAR>,
-and <VAR>header-alist</VAR>. Otherwise, <CODE>http:serve-query</CODE> calls <VAR>serve-proc</VAR> with the
-<VAR>request-line</VAR>, #f, and <VAR>header-alist</VAR>.
-<P>
-
-If <VAR>serve-proc</VAR> returns a string, it is sent to <VAR>output-port</VAR>. If <VAR>serve-proc</VAR> returns a list,
-then an error page with number 525 and strings from the list. If <VAR>serve-proc</VAR>
-returns #f, then a `<SAMP>Bad Request</SAMP>' (400) page is sent to <VAR>output-port</VAR>.
-</P>
-<P>
-
-Otherwise, <CODE>http:serve-query</CODE> replies (to <VAR>output-port</VAR>) with appropriate HTML describing the
-problem.
-</P>
-</DL>
-<P>
-
-This example services HTTP queries from <VAR>port-number</VAR>:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>
-(define socket (make-stream-socket AF_INET 0))
-(and (socket:bind socket port-number) ; AF_INET INADDR_ANY
- (socket:listen socket 10) ; Queue up to 10 requests.
- (dynamic-wind
- (lambda () #f)
- (lambda ()
- (do ((port (socket:accept socket) (socket:accept socket)))
- (#f)
- (let ((iport (duplicate-port port &quot;r&quot;))
- (oport (duplicate-port port &quot;w&quot;)))
- (http:serve-query build:serve iport oport)
- (close-port iport)
- (close-port oport))
- (close-port port)))
- (lambda () (close-port socket))))
-</pre></td></tr></table><P>
-
-<A NAME="IDX361"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>cgi:serve-query</B> <I>serve-proc</I>
-<DD>reads the <EM>URI</EM> and <EM>query-string</EM> from
-<A NAME="IDX362"></A>
-<A NAME="IDX363"></A>
-<CODE>(current-input-port)</CODE>. If the query is a valid `<SAMP>&quot;POST&quot;</SAMP>'
-or `<SAMP>&quot;GET&quot;</SAMP>' query, then <CODE>cgi:serve-query</CODE> calls <VAR>serve-proc</VAR> with three arguments, the
-<VAR>request-line</VAR>, <VAR>query-string</VAR>, and <VAR>header-alist</VAR>.
-Otherwise, <CODE>cgi:serve-query</CODE> calls <VAR>serve-proc</VAR> with the <VAR>request-line</VAR>, #f, and
-<VAR>header-alist</VAR>.
-<P>
-
-If <VAR>serve-proc</VAR> returns a string, it is sent to <CODE>(current-input-port)</CODE>.
-If <VAR>serve-proc</VAR> returns a list, then an error page with number 525 and strings
-from the list. If <VAR>serve-proc</VAR> returns #f, then a `<SAMP>Bad Request</SAMP>' (400)
-page is sent to <CODE>(current-input-port)</CODE>.
-</P>
-<P>
-
-Otherwise, <CODE>cgi:serve-query</CODE> replies (to <CODE>(current-input-port)</CODE>) with
-appropriate HTML describing the problem.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX364"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>make-query-alist-command-server</B> <I>rdb command-table</I>
-<DD><P>
-
-<A NAME="IDX365"></A>
-<DT><U>Function:</U> <B>make-query-alist-command-server</B> <I>rdb command-table #t</I>
-<DD></P>
-<P>
-
-Returns a procedure of one argument. When that procedure is called
-with a <VAR>query-alist</VAR> (as returned by <CODE>uri:decode-query</CODE>, the
-value of the `<SAMP>*command*</SAMP>' association will be the command invoked
-in <VAR>command-table</VAR>. If `<SAMP>*command*</SAMP>' is not in the <VAR>query-alist</VAR> then the
-value of `<SAMP>*suggest*</SAMP>' is tried. If neither name is in the
-<VAR>query-alist</VAR>, then the literal value `<SAMP>*default*</SAMP>' is tried in
-<VAR>command-table</VAR>.
-</P>
-<P>
-
-If optional third argument is non-false, then the command is called
-with just the parameter-list; otherwise, command is called with the
-arguments described in its table.
-</P>
-</DL>
-<P>
-
-<A NAME="Parsing HTML"></A>
-<HR SIZE="6">
-<A NAME="SEC75"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC74"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC76"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 4.9 Parsing HTML </H2>
-<!--docid::SEC75::-->
-<P>
-
-<CODE>(require 'html-for-each)</CODE>
-<A NAME="IDX366"></A>
-</P>
-<P>
-
-<A NAME="IDX367"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>html-for-each</B> <I>file word-proc markup-proc white-proc newline-proc</I>
-<DD><P>
-
-<VAR>file</VAR> is an input port or a string naming an existing file containing
-HTML text.
-<VAR>word-proc</VAR> is a procedure of one argument or #f.
-<VAR>markup-proc</VAR> is a procedure of one argument or #f.
-<VAR>white-proc</VAR> is a procedure of one argument or #f.
-<VAR>newline-proc</VAR> is a procedure of no arguments or #f.
-</P>
-<P>
-
-<CODE>html-for-each</CODE> opens and reads characters from port <VAR>file</VAR> or the file named by
-string <VAR>file</VAR>. Sequential groups of characters are assembled into
-strings which are either
-</P>
-<P>
-
-<UL>
-<LI>
-enclosed by `<SAMP>&lt;</SAMP>' and `<SAMP>&gt;</SAMP>' (hypertext markups or comments);
-<LI>
-end-of-line;
-<LI>
-whitespace; or
-<LI>
-none of the above (words).
-</UL>
-<P>
-
-Procedures are called according to these distinctions in order of
-the string's occurrence in <VAR>file</VAR>.
-</P>
-<P>
-
-<VAR>newline-proc</VAR> is called with no arguments for end-of-line <EM>not within a
-markup or comment</EM>.
-</P>
-<P>
-
-<VAR>white-proc</VAR> is called with strings of non-newline whitespace.
-</P>
-<P>
-
-<VAR>markup-proc</VAR> is called with hypertext markup strings (including `<SAMP>&lt;</SAMP>' and
-`<SAMP>&gt;</SAMP>').
-</P>
-<P>
-
-<VAR>word-proc</VAR> is called with the remaining strings.
-</P>
-<P>
-
-<CODE>html-for-each</CODE> returns an unspecified value.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX368"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>html:read-title</B> <I>file limit</I>
-<DD><P>
-
-<A NAME="IDX369"></A>
-<DT><U>Function:</U> <B>html:read-title</B> <I>file</I>
-<DD><VAR>file</VAR> is an input port or a string naming an existing file containing
-HTML text. If supplied, <VAR>limit</VAR> must be an integer. <VAR>limit</VAR> defaults to
-1000.
-</P>
-<P>
-
-<CODE>html:read-title</CODE> opens and reads HTML from port <VAR>file</VAR> or the file named by string <VAR>file</VAR>,
-until reaching the (mandatory) `<SAMP>TITLE</SAMP>' field. <CODE>html:read-title</CODE> returns the
-title string with adjacent whitespaces collapsed to one space. <CODE>html:read-title</CODE>
-returns #f if the title field is empty, absent, if the first
-character read from <VAR>file</VAR> is not `<SAMP>#\&lt;</SAMP>', or if the end of title is
-not found within the first (approximately) <VAR>limit</VAR> words.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX370"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>htm-fields</B> <I>htm</I>
-<DD><P>
-
-<VAR>htm</VAR> is a hypertext markup string.
-</P>
-<P>
-
-If <VAR>htm</VAR> is a (hypertext) comment, then <CODE>htm-fields</CODE> returns #f.
-Otherwise <CODE>htm-fields</CODE> returns the hypertext element symbol (created by
-<CODE>string-ci-&gt;symbol</CODE>) consed onto an association list of the
-attribute name-symbols and values. Each value is a number or
-string; or #t if the name had no value assigned within the markup.
-</P>
-</DL>
-<P>
-
-<A NAME="URI"></A>
-<HR SIZE="6">
-<A NAME="SEC76"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC75"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC78"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 4.10 URI </H2>
-<!--docid::SEC76::-->
-<P>
-
-<CODE>(require 'uri)</CODE>
-<A NAME="IDX371"></A>
-</P>
-<P>
-
-Implements <EM>Uniform Resource Identifiers</EM> (URI) as
-<A NAME="IDX372"></A>
-described in RFC 2396.
-</P>
-<P>
-
-<A NAME="IDX373"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>make-uri</B>
-<DD><P>
-
-<A NAME="IDX374"></A>
-<DT><U>Function:</U> <B>make-uri</B> <I>fragment</I>
-<DD></P>
-<P>
-
-<A NAME="IDX375"></A>
-<DT><U>Function:</U> <B>make-uri</B> <I>query fragment</I>
-<DD></P>
-<P>
-
-<A NAME="IDX376"></A>
-<DT><U>Function:</U> <B>make-uri</B> <I>path query fragment</I>
-<DD></P>
-<P>
-
-<A NAME="IDX377"></A>
-<DT><U>Function:</U> <B>make-uri</B> <I>authority path query fragment</I>
-<DD></P>
-<P>
-
-<A NAME="IDX378"></A>
-<DT><U>Function:</U> <B>make-uri</B> <I>scheme authority path query fragment</I>
-<DD></P>
-<P>
-
-Returns a Uniform Resource Identifier string from component arguments.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX379"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>uri:make-path</B> <I>path</I>
-<DD><P>
-
-Returns a URI string combining the components of list <VAR>path</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX380"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>html:anchor</B> <I>name</I>
-<DD>Returns a string which defines this location in the (HTML) file
-as <VAR>name</VAR>. The hypertext `<SAMP>&lt;A HREF=&quot;#<VAR>name</VAR>&quot;&gt;</SAMP>' will link to this point.
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(html:anchor &quot;(section 7)&quot;)
-=>
-&quot;&lt;A NAME=\&quot;(section%207)\&quot;&gt;&lt;/A&gt;&quot;
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX381"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>html:link</B> <I>uri highlighted</I>
-<DD>Returns a string which links the <VAR>highlighted</VAR> text to <VAR>uri</VAR>.
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(html:link (make-uri &quot;(section 7)&quot;) &quot;section 7&quot;)
-=>
-&quot;&lt;A HREF=\&quot;#(section%207)\&quot;&gt;section 7&lt;/A&gt;&quot;
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX382"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>html:base</B> <I>uri</I>
-<DD>Returns a string specifying the <EM>base</EM> <VAR>uri</VAR> of a document, for
-<A NAME="IDX383"></A>
-inclusion in the HEAD of the document (see section <A HREF="slib_4.html#SEC69">head</A>).
-</DL>
-<P>
-
-<A NAME="IDX384"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>html:isindex</B> <I>prompt</I>
-<DD>Returns a string specifying the search <VAR>prompt</VAR> of a document, for
-inclusion in the HEAD of the document (see section <A HREF="slib_4.html#SEC69">head</A>).
-</DL>
-<P>
-
-<A NAME="IDX385"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>uri-&gt;tree</B> <I>uri-reference base-tree</I>
-<DD><P>
-
-<A NAME="IDX386"></A>
-<DT><U>Function:</U> <B>uri-&gt;tree</B> <I>uri-reference</I>
-<DD></P>
-<P>
-
-Returns a list of 5 elements corresponding to the parts
-(<VAR>scheme</VAR> <VAR>authority</VAR> <VAR>path</VAR> <VAR>query</VAR> <VAR>fragment</VAR>)
-of string <VAR>uri-reference</VAR>. Elements corresponding to absent parts are #f.
-</P>
-<P>
-
-The <VAR>path</VAR> is a list of strings. If the first string is empty,
-then the path is absolute; otherwise relative. The optional <VAR>base-tree</VAR> is a
-tree as returned by <CODE>uri-&gt;tree</CODE>; and is used as the base address for relative
-URIs.
-</P>
-<P>
-
-If the <VAR>authority</VAR> component is a
-<EM>Server-based Naming Authority</EM>, then it is a list of the
-<A NAME="IDX387"></A>
-<VAR>userinfo</VAR>, <VAR>host</VAR>, and <VAR>port</VAR> strings (or #f). For other
-types of <VAR>authority</VAR> components the <VAR>authority</VAR> will be a
-string.
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(uri-&gt;tree &quot;http://www.ics.uci.edu/pub/ietf/uri/#Related&quot;)
-=>
-(http &quot;www.ics.uci.edu&quot; (&quot;&quot; &quot;pub&quot; &quot;ietf&quot; &quot;uri&quot; &quot;&quot;) #f &quot;Related&quot;)
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX388"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>uri:split-fields</B> <I>txt chr</I>
-<DD><P>
-
-Returns a list of <VAR>txt</VAR> split at each occurrence of <VAR>chr</VAR>. <VAR>chr</VAR> does not
-appear in the returned list of strings.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX389"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>uri:decode-query</B> <I>query-string</I>
-<DD>Converts a <EM>URI</EM> encoded <VAR>query-string</VAR> to a query-alist.
-<A NAME="IDX390"></A>
-</DL>
-<P>
-
-<CODE>uric:</CODE> prefixes indicate procedures dealing with
-URI-components.
-</P>
-<P>
-
-<A NAME="IDX391"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>uric:encode</B> <I>uri-component allows</I>
-<DD>Returns a copy of the string <VAR>uri-component</VAR> in which all <EM>unsafe</EM> octets
-<A NAME="IDX392"></A>
-(as defined in RFC 2396) have been `<SAMP>%</SAMP>' <EM>escaped</EM>.
-<A NAME="IDX393"></A>
-<CODE>uric:decode</CODE> decodes strings encoded by <CODE>uric:encode</CODE>.
-</DL>
-<P>
-
-<A NAME="IDX394"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>uric:decode</B> <I>uri-component</I>
-<DD>Returns a copy of the string <VAR>uri-component</VAR> in which each `<SAMP>%</SAMP>' escaped
-characters in <VAR>uri-component</VAR> is replaced with the character it encodes. This
-routine is useful for showing URI contents on error pages.
-</DL>
-<P>
-
-<A NAME="IDX395"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>uri:path-&gt;keys</B> <I>path-list ptypes</I>
-<DD><VAR>path-list</VAR> is a path-list as returned by <CODE>uri:split-fields</CODE>. <CODE>uri:path-&gt;keys</CODE>
-returns a list of items returned by <CODE>uri:decode-path</CODE>, coerced
-to types <VAR>ptypes</VAR>.
-</DL>
-<A NAME="SEC77"></A>
-<H3> File-system Locators and Predicates </H3>
-<!--docid::SEC77::-->
-<P>
-
-<A NAME="IDX396"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>path-&gt;uri</B> <I>path</I>
-<DD>Returns a URI-string for <VAR>path</VAR> on the local host.
-</DL>
-<P>
-
-<A NAME="IDX397"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>absolute-uri?</B> <I>str</I>
-<DD>Returns #t if <VAR>str</VAR> is an absolute-URI as indicated by a
-syntactically valid (per RFC 2396) <EM>scheme</EM>; otherwise returns
-<A NAME="IDX398"></A>
-#f.
-</DL>
-<P>
-
-<A NAME="IDX399"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>absolute-path?</B> <I>file-name</I>
-<DD>Returns #t if <VAR>file-name</VAR> is a fully specified pathname (does not
-depend on the current working directory); otherwise returns #f.
-</DL>
-<P>
-
-<A NAME="IDX400"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>null-directory?</B> <I>str</I>
-<DD>Returns #t if changing directory to <VAR>str</VAR> would leave the current
-directory unchanged; otherwise returns #f.
-</DL>
-<P>
-
-<A NAME="IDX401"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>glob-pattern?</B> <I>str</I>
-<DD>Returns #t if the string <VAR>str</VAR> contains characters used for
-specifying glob patterns, namely `<SAMP>*</SAMP>', `<SAMP>?</SAMP>', or `<SAMP>[</SAMP>'.
-</DL>
-Before RFC 2396, the <EM>File Transfer Protocol</EM> (FTP) served a
-<A NAME="IDX402"></A>
-similar purpose.
-<P>
-
-<A NAME="IDX403"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>parse-ftp-address</B> <I>uri</I>
-<DD><P>
-
-Returns a list of the decoded FTP <VAR>uri</VAR>; or #f if indecipherable. FTP
-<EM>Uniform Resource Locator</EM>, <EM>ange-ftp</EM>, and <EM>getit</EM>
-<A NAME="IDX404"></A>
-<A NAME="IDX405"></A>
-<A NAME="IDX406"></A>
-formats are handled. The returned list has four elements which are
-strings or #f:
-</P>
-<P>
-
-<OL>
-<LI>
-username
-<LI>
-password
-<LI>
-remote-site
-<LI>
-remote-directory
-</OL>
-</DL>
-<P>
-
-<A NAME="Printing Scheme"></A>
-<HR SIZE="6">
-<A NAME="SEC78"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC76"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC79"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 4.11 Printing Scheme </H2>
-<!--docid::SEC78::-->
-<P>
-
-<TABLE BORDER="0" CELLSPACING="0">
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_4.html#SEC79">4.11.1 Generic-Write</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'generic-write</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_4.html#SEC80">4.11.2 Object-To-String</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'object-&gt;string</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_4.html#SEC81">4.11.3 Pretty-Print</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'pretty-print, 'pprint-file</TD></TR>
-</TABLE>
-<P>
-
-<A NAME="Generic-Write"></A>
-<HR SIZE="6">
-<A NAME="SEC79"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC78"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC80"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC78"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 4.11.1 Generic-Write </H3>
-<!--docid::SEC79::-->
-<P>
-
-<CODE>(require 'generic-write)</CODE>
-<A NAME="IDX407"></A>
-</P>
-<P>
-
-<CODE>generic-write</CODE> is a procedure that transforms a Scheme data value
-(or Scheme program expression) into its textual representation and
-prints it. The interface to the procedure is sufficiently general to
-easily implement other useful formatting procedures such as pretty
-printing, output to a string and truncated output.
-</P>
-<P>
-
-<A NAME="IDX408"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>generic-write</B> <I>obj display? width output</I>
-<DD><DL COMPACT>
-<DT><VAR>obj</VAR>
-<DD>Scheme data value to transform.
-<DT><VAR>display?</VAR>
-<DD>Boolean, controls whether characters and strings are quoted.
-<DT><VAR>width</VAR>
-<DD>Extended boolean, selects format:
-<DL COMPACT>
-<DT>#f
-<DD>single line format
-<DT>integer &gt; 0
-<DD>pretty-print (value = max nb of chars per line)
-</DL>
-<DT><VAR>output</VAR>
-<DD>Procedure of 1 argument of string type, called repeatedly with
-successive substrings of the textual representation. This procedure can
-return <CODE>#f</CODE> to stop the transformation.
-</DL>
-<P>
-
-The value returned by <CODE>generic-write</CODE> is undefined.
-</P>
-<P>
-
-Examples:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(write obj) == (generic-write obj #f #f <VAR>display-string</VAR>)
-(display obj) == (generic-write obj #t #f <VAR>display-string</VAR>)
-</pre></td></tr></table>where
-<TABLE><tr><td>&nbsp;</td><td class=example><pre><VAR>display-string</VAR> ==
-(lambda (s) (for-each write-char (string-&gt;list s)) #t)
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="Object-To-String"></A>
-<HR SIZE="6">
-<A NAME="SEC80"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC79"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC81"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC78"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 4.11.2 Object-To-String </H3>
-<!--docid::SEC80::-->
-<P>
-
-<CODE>(require 'object-&gt;string)</CODE>
-<A NAME="IDX409"></A>
-</P>
-<P>
-
-<A NAME="IDX410"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>object-&gt;string</B> <I>obj</I>
-<DD>Returns the textual representation of <VAR>obj</VAR> as a string.
-</DL>
-<P>
-
-<A NAME="IDX411"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>object-&gt;limited-string</B> <I>obj limit</I>
-<DD>Returns the textual representation of <VAR>obj</VAR> as a string of length
-at most <VAR>limit</VAR>.
-</DL>
-<P>
-
-<A NAME="Pretty-Print"></A>
-<HR SIZE="6">
-<A NAME="SEC81"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC80"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC82"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC78"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 4.11.3 Pretty-Print </H3>
-<!--docid::SEC81::-->
-<P>
-
-<CODE>(require 'pretty-print)</CODE>
-<A NAME="IDX412"></A>
-</P>
-<P>
-
-<A NAME="IDX413"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>pretty-print</B> <I>obj</I>
-<DD><A NAME="IDX414"></A>
-<DT><U>Procedure:</U> <B>pretty-print</B> <I>obj port</I>
-<DD><P>
-
-<CODE>pretty-print</CODE>s <VAR>obj</VAR> on <VAR>port</VAR>. If <VAR>port</VAR> is not
-specified, <CODE>current-output-port</CODE> is used.
-</P>
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(pretty-print '((1 2 3 4 5) (6 7 8 9 10) (11 12 13 14 15)
- (16 17 18 19 20) (21 22 23 24 25)))
- -| ((1 2 3 4 5)
- -| (6 7 8 9 10)
- -| (11 12 13 14 15)
- -| (16 17 18 19 20)
- -| (21 22 23 24 25))
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX415"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>pretty-print-&gt;string</B> <I>obj</I>
-<DD><A NAME="IDX416"></A>
-<DT><U>Procedure:</U> <B>pretty-print-&gt;string</B> <I>obj width</I>
-<DD><P>
-
-Returns the string of <VAR>obj</VAR> <CODE>pretty-print</CODE>ed in <VAR>width</VAR>
-columns. If <VAR>width</VAR> is not specified, <CODE>(output-port-width)</CODE> is
-used.
-</P>
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(pretty-print-&gt;string '((1 2 3 4 5) (6 7 8 9 10) (11 12 13 14 15)
- (16 17 18 19 20) (21 22 23 24 25)))
-=>
-&quot;((1 2 3 4 5)
- (6 7 8 9 10)
- (11 12 13 14 15)
- (16 17 18 19 20)
- (21 22 23 24 25))
-&quot;
-(pretty-print-&gt;string '((1 2 3 4 5) (6 7 8 9 10) (11 12 13 14 15)
- (16 17 18 19 20) (21 22 23 24 25))
- 16)
-=>
-&quot;((1 2 3 4 5)
- (6 7 8 9 10)
- (11
- 12
- 13
- 14
- 15)
- (16
- 17
- 18
- 19
- 20)
- (21
- 22
- 23
- 24
- 25))
-&quot;
-</pre></td></tr></table></DL>
-<P>
-
-<CODE>(require 'pprint-file)</CODE>
-<A NAME="IDX417"></A>
-</P>
-<P>
-
-<A NAME="IDX418"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>pprint-file</B> <I>infile</I>
-<DD><A NAME="IDX419"></A>
-<DT><U>Procedure:</U> <B>pprint-file</B> <I>infile outfile</I>
-<DD>Pretty-prints all the code in <VAR>infile</VAR>. If <VAR>outfile</VAR> is
-specified, the output goes to <VAR>outfile</VAR>, otherwise it goes to
-<CODE>(current-output-port)</CODE>.
-</DL>
-<P>
-
-<A NAME="IDX420"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>pprint-filter-file</B> <I>infile proc outfile</I>
-<DD><A NAME="IDX421"></A>
-<DT><U>Function:</U> <B>pprint-filter-file</B> <I>infile proc</I>
-<DD><VAR>infile</VAR> is a port or a string naming an existing file. Scheme
-source code expressions and definitions are read from the port (or file)
-and <VAR>proc</VAR> is applied to them sequentially.
-<P>
-
-<VAR>outfile</VAR> is a port or a string. If no <VAR>outfile</VAR> is specified
-then <CODE>current-output-port</CODE> is assumed. These expanded expressions
-are then <CODE>pretty-print</CODE>ed to this port.
-</P>
-<P>
-
-Whitepsace and comments (introduced by <CODE>;</CODE>) which are not part of
-scheme expressions are reproduced in the output. This procedure does
-not affect the values returned by <CODE>current-input-port</CODE> and
-<CODE>current-output-port</CODE>.
-</P>
-</DL>
-<P>
-
-<CODE>pprint-filter-file</CODE> can be used to pre-compile macro-expansion and
-thus can reduce loading time. The following will write into
-`<TT>exp-code.scm</TT>' the result of expanding all defmacros in
-`<TT>code.scm</TT>'.
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(require 'pprint-file)
-<A NAME="IDX422"></A>(require 'defmacroexpand)
-<A NAME="IDX423"></A>(defmacro:load &quot;my-macros.scm&quot;)
-(pprint-filter-file &quot;code.scm&quot; defmacro:expand* &quot;exp-code.scm&quot;)
-</pre></td></tr></table><P>
-
-<A NAME="Time and Date"></A>
-<HR SIZE="6">
-<A NAME="SEC82"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC81"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC83"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 4.12 Time and Date </H2>
-<!--docid::SEC82::-->
-<P>
-
-<TABLE BORDER="0" CELLSPACING="0">
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_4.html#SEC83">4.12.1 Time Zone</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_4.html#SEC84">4.12.2 Posix Time</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'posix-time</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_4.html#SEC85">4.12.3 Common-Lisp Time</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'common-lisp-time</TD></TR>
-</TABLE>
-<P>
-
-If <CODE>(provided? 'current-time)</CODE>:
-</P>
-<P>
-
-The procedures <CODE>current-time</CODE>, <CODE>difftime</CODE>, and
-<CODE>offset-time</CODE> deal with a <EM>calendar time</EM> datatype
-<A NAME="IDX424"></A>
-<A NAME="IDX425"></A>
-which may or may not be disjoint from other Scheme datatypes.
-</P>
-<P>
-
-<A NAME="IDX426"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>current-time</B>
-<DD>Returns the time since 00:00:00 GMT, January 1, 1970, measured in
-seconds. Note that the reference time is different from the reference
-time for <CODE>get-universal-time</CODE> in <A HREF="slib_4.html#SEC85">4.12.3 Common-Lisp Time</A>.
-</DL>
-<P>
-
-<A NAME="IDX427"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>difftime</B> <I>caltime1 caltime0</I>
-<DD>Returns the difference (number of seconds) between twe calendar times:
-<VAR>caltime1</VAR> - <VAR>caltime0</VAR>. <VAR>caltime0</VAR> may also be a number.
-</DL>
-<P>
-
-<A NAME="IDX428"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>offset-time</B> <I>caltime offset</I>
-<DD>Returns the calendar time of <VAR>caltime</VAR> offset by <VAR>offset</VAR> number
-of seconds <CODE>(+ caltime offset)</CODE>.
-</DL>
-<P>
-
-<A NAME="Time Zone"></A>
-<HR SIZE="6">
-<A NAME="SEC83"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC82"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC84"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC82"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 4.12.1 Time Zone </H3>
-<!--docid::SEC83::-->
-<P>
-
-(require 'time-zone)
-</P>
-<P>
-
-<A NAME="IDX429"></A>
-</P>
-<DL>
-<DT><U>Data Format:</U> <B>TZ-string</B>
-<DD><P>
-
-POSIX standards specify several formats for encoding time-zone rules.
-</P>
-<P>
-
-</P>
-<DL COMPACT>
-<DT><TT>:<I>&lt;pathname&gt;</I></TT>
-<DD>If the first character of <I>&lt;pathname&gt;</I> is `<SAMP>/</SAMP>', then
-<I>&lt;pathname&gt;</I> specifies the absolute pathname of a tzfile(5) format
-time-zone file. Otherwise, <I>&lt;pathname&gt;</I> is interpreted as a pathname
-within <VAR>tzfile:vicinity</VAR> (/usr/lib/zoneinfo/) naming a tzfile(5)
-format time-zone file.
-<DT><TT><I>&lt;std&gt;</I><I>&lt;offset&gt;</I></TT>
-<DD>The string <I>&lt;std&gt;</I> consists of 3 or more alphabetic characters.
-<I>&lt;offset&gt;</I> specifies the time difference from GMT. The <I>&lt;offset&gt;</I>
-is positive if the local time zone is west of the Prime Meridian and
-negative if it is east. <I>&lt;offset&gt;</I> can be the number of hours or
-hours and minutes (and optionally seconds) separated by `<SAMP>:</SAMP>'. For
-example, <CODE>-4:30</CODE>.
-<DT><TT><I>&lt;std&gt;</I><I>&lt;offset&gt;</I><I>&lt;dst&gt;</I></TT>
-<DD><I>&lt;dst&gt;</I> is the at least 3 alphabetic characters naming the local
-daylight-savings-time.
-<DT><TT><I>&lt;std&gt;</I><I>&lt;offset&gt;</I><I>&lt;dst&gt;</I><I>&lt;doffset&gt;</I></TT>
-<DD><I>&lt;doffset&gt;</I> specifies the offset from the Prime Meridian when
-daylight-savings-time is in effect.
-</DL>
-<P>
-
-The non-tzfile formats can optionally be followed by transition times
-specifying the day and time when a zone changes from standard to
-daylight-savings and back again.
-</P>
-<P>
-
-</P>
-<DL COMPACT>
-<DT><TT>,<I>&lt;date&gt;</I>/<I>&lt;time&gt;</I>,<I>&lt;date&gt;</I>/<I>&lt;time&gt;</I></TT>
-<DD>The <I>&lt;time&gt;</I>s are specified like the <I>&lt;offset&gt;</I>s above, except that
-leading `<SAMP>+</SAMP>' and `<SAMP>-</SAMP>' are not allowed.
-<P>
-
-Each <I>&lt;date&gt;</I> has one of the formats:
-</P>
-<P>
-
-</P>
-<DL COMPACT>
-<DT><TT>J<I>&lt;day&gt;</I></TT>
-<DD>specifies the Julian day with <I>&lt;day&gt;</I> between 1 and 365. February 29
-is never counted and cannot be referenced.
-<DT><TT><I>&lt;day&gt;</I></TT>
-<DD>This specifies the Julian day with n between 0 and 365. February 29 is
-counted in leap years and can be specified.
-<DT><TT>M<I>&lt;month&gt;</I>.<I>&lt;week&gt;</I>.<I>&lt;day&gt;</I></TT>
-<DD>This specifies day <I>&lt;day&gt;</I> (0 &lt;= <I>&lt;day&gt;</I> &lt;= 6) of week <I>&lt;week&gt;</I> (1
-&lt;= <I>&lt;week&gt;</I> &lt;= 5) of month <I>&lt;month&gt;</I> (1 &lt;= <I>&lt;month&gt;</I> &lt;= 12). Week
-1 is the first week in which day d occurs and week 5 is the last week in
-which day <I>&lt;day&gt;</I> occurs. Day 0 is a Sunday.
-</DL>
-</DL>
-<P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX430"></A>
-</P>
-<DL>
-<DT><U>Data Type:</U> <B>time-zone</B>
-<DD>is a datatype encoding how many hours from Greenwich Mean Time the local
-time is, and the <EM>Daylight Savings Time</EM> rules for changing it.
-</DL>
-<P>
-
-<A NAME="IDX431"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>time-zone</B> <I>TZ-string</I>
-<DD>Creates and returns a time-zone object specified by the string
-<VAR>TZ-string</VAR>. If <CODE>time-zone</CODE> cannot interpret <VAR>TZ-string</VAR>,
-<CODE>#f</CODE> is returned.
-</DL>
-<P>
-
-<A NAME="IDX432"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>tz:params</B> <I>caltime tz</I>
-<DD><VAR>tz</VAR> is a time-zone object. <CODE>tz:params</CODE> returns a list of
-three items:
-<OL>
-<LI>
-An integer. 0 if standard time is in effect for timezone <VAR>tz</VAR> at
-<VAR>caltime</VAR>; 1 if daylight savings time is in effect for timezone
-<VAR>tz</VAR> at <VAR>caltime</VAR>.
-<LI>
-The number of seconds west of the Prime Meridian timezone <VAR>tz</VAR> is at
-<VAR>caltime</VAR>.
-<LI>
-The name for timezone <VAR>tz</VAR> at <VAR>caltime</VAR>.
-</OL>
-<P>
-
-<CODE>tz:params</CODE> is unaffected by the default timezone; inquiries can be
-made of any timezone at any calendar time.
-</P>
-<P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX433"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>tz:std-offset</B> <I>tz</I>
-<DD><VAR>tz</VAR> is a time-zone object. <CODE>tz:std-offset</CODE> returns the
-number of seconds west of the Prime Meridian timezone <VAR>tz</VAR> is.
-<P>
-
-</P>
-</DL>
-<P>
-
-The rest of these procedures and variables are provided for POSIX
-compatability. Because of shared state they are not thread-safe.
-</P>
-<P>
-
-<A NAME="IDX434"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>tzset</B>
-<DD>Returns the default time-zone.
-<P>
-
-<A NAME="IDX435"></A>
-<DT><U>Function:</U> <B>tzset</B> <I>tz</I>
-<DD>Sets (and returns) the default time-zone to <VAR>tz</VAR>.
-</P>
-<P>
-
-<A NAME="IDX436"></A>
-<DT><U>Function:</U> <B>tzset</B> <I>TZ-string</I>
-<DD>Sets (and returns) the default time-zone to that specified by
-<VAR>TZ-string</VAR>.
-</P>
-<P>
-
-<CODE>tzset</CODE> also sets the variables <VAR>*timezone*</VAR>, <VAR>daylight?</VAR>,
-and <VAR>tzname</VAR>. This function is automatically called by the time
-conversion procedures which depend on the time zone (see section <A HREF="slib_4.html#SEC82">4.12 Time and Date</A>).
-</P>
-</DL>
-<P>
-
-<A NAME="IDX437"></A>
-</P>
-<DL>
-<DT><U>Variable:</U> <B>*timezone*</B>
-<DD>Contains the difference, in seconds, between Greenwich Mean Time and
-local standard time (for example, in the U.S. Eastern time zone (EST),
-timezone is 5*60*60). <CODE>*timezone*</CODE> is initialized by <CODE>tzset</CODE>.
-</DL>
-<P>
-
-<A NAME="IDX438"></A>
-</P>
-<DL>
-<DT><U>Variable:</U> <B>daylight?</B>
-<DD>is <CODE>#t</CODE> if the default timezone has rules for <EM>Daylight Savings
-Time</EM>. <EM>Note:</EM> <VAR>daylight?</VAR> does not tell you when Daylight
-Savings Time is in effect, just that the default zone sometimes has
-Daylight Savings Time.
-</DL>
-<P>
-
-<A NAME="IDX439"></A>
-</P>
-<DL>
-<DT><U>Variable:</U> <B>tzname</B>
-<DD>is a vector of strings. Index 0 has the abbreviation for the standard
-timezone; If <VAR>daylight?</VAR>, then index 1 has the abbreviation for the
-Daylight Savings timezone.
-</DL>
-<P>
-
-<A NAME="Posix Time"></A>
-<HR SIZE="6">
-<A NAME="SEC84"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC83"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC85"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC82"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 4.12.2 Posix Time </H3>
-<!--docid::SEC84::-->
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(require 'posix-time)
-<A NAME="IDX440"></A></pre></td></tr></table><P>
-
-<A NAME="IDX441"></A>
-</P>
-<DL>
-<DT><U>Data Type:</U> <B>Calendar-Time</B>
-<DD><A NAME="IDX442"></A>
-<A NAME="IDX443"></A>
-is a datatype encapsulating time.
-</DL>
-<P>
-
-<A NAME="IDX444"></A>
-</P>
-<DL>
-<DT><U>Data Type:</U> <B>Coordinated Universal Time</B>
-<DD><A NAME="IDX445"></A>
-<A NAME="IDX446"></A>
-(abbreviated <EM>UTC</EM>) is a vector of integers representing time:
-<P>
-
-<OL>
-<LI>
- seconds (0 - 61)
-<LI>
- minutes (0 - 59)
-<LI>
- hours since midnight (0 - 23)
-<LI>
- day of month (1 - 31)
-<LI>
- month (0 - 11). Note difference from <CODE>decode-universal-time</CODE>.
-<LI>
- the number of years since 1900. Note difference from
-<CODE>decode-universal-time</CODE>.
-<LI>
- day of week (0 - 6)
-<LI>
- day of year (0 - 365)
-<LI>
- 1 for daylight savings, 0 for regular time
-</OL>
-</DL>
-<P>
-
-<A NAME="IDX447"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>gmtime</B> <I>caltime</I>
-<DD>Converts the calendar time <VAR>caltime</VAR> to UTC and returns it.
-<P>
-
-<A NAME="IDX448"></A>
-<DT><U>Function:</U> <B>localtime</B> <I>caltime tz</I>
-<DD>Returns <VAR>caltime</VAR> converted to UTC relative to timezone <VAR>tz</VAR>.
-</P>
-<P>
-
-<A NAME="IDX449"></A>
-<DT><U>Function:</U> <B>localtime</B> <I>caltime</I>
-<DD>converts the calendar time <VAR>caltime</VAR> to a vector of integers
-expressed relative to the user's time zone. <CODE>localtime</CODE> sets the
-variable <VAR>*timezone*</VAR> with the difference between Coordinated
-Universal Time (UTC) and local standard time in seconds
-(see section <A HREF="slib_4.html#SEC83">tzset</A>).
-</P>
-<P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX450"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>gmktime</B> <I>univtime</I>
-<DD>Converts a vector of integers in GMT Coordinated Universal Time (UTC)
-format to a calendar time.
-<P>
-
-<A NAME="IDX451"></A>
-<DT><U>Function:</U> <B>mktime</B> <I>univtime</I>
-<DD>Converts a vector of integers in local Coordinated Universal Time (UTC)
-format to a calendar time.
-</P>
-<P>
-
-<A NAME="IDX452"></A>
-<DT><U>Function:</U> <B>mktime</B> <I>univtime tz</I>
-<DD>Converts a vector of integers in Coordinated Universal Time (UTC) format
-(relative to time-zone <VAR>tz</VAR>)
-to calendar time.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX453"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>asctime</B> <I>univtime</I>
-<DD>Converts the vector of integers <VAR>caltime</VAR> in Coordinated
-Universal Time (UTC) format into a string of the form
-<CODE>&quot;Wed Jun 30 21:49:08 1993&quot;</CODE>.
-</DL>
-<P>
-
-<A NAME="IDX454"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>gtime</B> <I>caltime</I>
-<DD><A NAME="IDX455"></A>
-<DT><U>Function:</U> <B>ctime</B> <I>caltime</I>
-<DD><A NAME="IDX456"></A>
-<DT><U>Function:</U> <B>ctime</B> <I>caltime tz</I>
-<DD>Equivalent to <CODE>(asctime (gmtime <VAR>caltime</VAR>))</CODE>,
-<CODE>(asctime (localtime <VAR>caltime</VAR>))</CODE>, and
-<CODE>(asctime (localtime <VAR>caltime</VAR> <VAR>tz</VAR>))</CODE>, respectively.
-</DL>
-<P>
-
-<A NAME="Common-Lisp Time"></A>
-<HR SIZE="6">
-<A NAME="SEC85"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC84"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC86"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC82"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 4.12.3 Common-Lisp Time </H3>
-<!--docid::SEC85::-->
-<P>
-
-<A NAME="IDX457"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>get-decoded-time</B>
-<DD>Equivalent to <CODE>(decode-universal-time (get-universal-time))</CODE>.
-</DL>
-<P>
-
-<A NAME="IDX458"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>get-universal-time</B>
-<DD>Returns the current time as <EM>Universal Time</EM>, number of seconds
-since 00:00:00 Jan 1, 1900 GMT. Note that the reference time is
-different from <CODE>current-time</CODE>.
-</DL>
-<P>
-
-<A NAME="IDX459"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>decode-universal-time</B> <I>univtime</I>
-<DD>Converts <VAR>univtime</VAR> to <EM>Decoded Time</EM> format.
-Nine values are returned:
-<OL>
-<LI>
- seconds (0 - 61)
-<LI>
- minutes (0 - 59)
-<LI>
- hours since midnight
-<LI>
- day of month
-<LI>
- month (1 - 12). Note difference from <CODE>gmtime</CODE> and <CODE>localtime</CODE>.
-<LI>
- year (A.D.). Note difference from <CODE>gmtime</CODE> and <CODE>localtime</CODE>.
-<LI>
- day of week (0 - 6)
-<LI>
- #t for daylight savings, #f otherwise
-<LI>
- hours west of GMT (-24 - +24)
-</OL>
-<P>
-
-Notice that the values returned by <CODE>decode-universal-time</CODE> do not
-match the arguments to <CODE>encode-universal-time</CODE>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX460"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>encode-universal-time</B> <I>second minute hour date month year</I>
-<DD><A NAME="IDX461"></A>
-<DT><U>Function:</U> <B>encode-universal-time</B> <I>second minute hour date month year time-zone</I>
-<DD>Converts the arguments in Decoded Time format to Universal Time format.
-If <VAR>time-zone</VAR> is not specified, the returned time is adjusted for
-daylight saving time. Otherwise, no adjustment is performed.
-<P>
-
-Notice that the values returned by <CODE>decode-universal-time</CODE> do not
-match the arguments to <CODE>encode-universal-time</CODE>.
-</P>
-</DL>
-<P>
-
-<A NAME="NCBI-DNA"></A>
-<HR SIZE="6">
-<A NAME="SEC86"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC85"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC87"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 4.13 NCBI-DNA </H2>
-<!--docid::SEC86::-->
-<P>
-
-<A NAME="IDX462"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>ncbi:read-dna-sequence</B> <I>port</I>
-<DD><P>
-
-Reads the NCBI-format DNA sequence following the word `<SAMP>ORIGIN</SAMP>'
-from <VAR>port</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX463"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>ncbi:read-file</B> <I>file</I>
-<DD><P>
-
-Reads the NCBI-format DNA sequence following the word `<SAMP>ORIGIN</SAMP>'
-from <VAR>file</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX464"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>mrna&lt;-cdna</B> <I>str</I>
-<DD><P>
-
-Replaces `<SAMP>T</SAMP>' with `<SAMP>U</SAMP>' in <VAR>str</VAR>
-</P>
-</DL>
-<P>
-
-<A NAME="IDX465"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>codons&lt;-cdna</B> <I>cdna</I>
-<DD><P>
-
-Returns a list of three-letter symbol codons comprising the protein
-sequence encoded by <VAR>cdna</VAR> starting with its first occurence of
-`<SAMP>atg</SAMP>'.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX466"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>protein&lt;-cdna</B> <I>cdna</I>
-<DD><P>
-
-Returns a list of three-letter symbols for the protein sequence
-encoded by <VAR>cdna</VAR> starting with its first occurence of `<SAMP>atg</SAMP>'.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX467"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>p&lt;-cdna</B> <I>cdna</I>
-<DD><P>
-
-Returns a string of one-letter amino acid codes for the protein
-sequence encoded by <VAR>cdna</VAR> starting with its first occurence of
-`<SAMP>atg</SAMP>'.
-</P>
-</DL>
-<P>
-
-These cDNA count routines provide a means to check the nucleotide
-sequence with the `<SAMP>BASE COUNT</SAMP>' line preceding the sequence from
-NCBI.
-</P>
-<P>
-
-<A NAME="IDX468"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>cdna:base-count</B> <I>cdna</I>
-<DD><P>
-
-Returns a list of counts of `<SAMP>a</SAMP>', `<SAMP>c</SAMP>', `<SAMP>g</SAMP>', and
-`<SAMP>t</SAMP>' occurrencing in <VAR>cdna</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX469"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>cdna:report-base-count</B> <I>cdna</I>
-<DD><P>
-
-Prints the counts of `<SAMP>a</SAMP>', `<SAMP>c</SAMP>', `<SAMP>g</SAMP>', and `<SAMP>t</SAMP>'
-occurrencing in <VAR>cdna</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="Schmooz"></A>
-<HR SIZE="6">
-<A NAME="SEC87"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC86"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 4.14 Schmooz </H2>
-<!--docid::SEC87::-->
-<P>
-
-<A NAME="IDX470"></A>
-<EM>Schmooz</EM> is a simple, lightweight markup language for interspersing
-Texinfo documentation with Scheme source code. Schmooz does not create
-the top level Texinfo file; it creates `<SAMP>txi</SAMP>' files which can be
-imported into the documentation using the Texinfo command
-`<SAMP>@include</SAMP>'.
-</P>
-<P>
-
-<A NAME="IDX471"></A>
-<CODE>(require 'schmooz)</CODE> defines the function <CODE>schmooz</CODE>, which is
-used to process files. Files containing schmooz documentation should
-not contain <CODE>(require 'schmooz)</CODE>.
-</P>
-<P>
-
-<A NAME="IDX472"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>schmooz</B> <I>filename.scm <small>...</small></I>
-<DD><VAR>Filename</VAR>.scm should be a string ending with `<SAMP>.scm</SAMP>' naming an
-existing file containing Scheme source code. <CODE>schmooz</CODE> extracts
-top-level comments containing schmooz commands from <VAR>filename</VAR>.scm
-and writes the converted Texinfo source to a file named
-<VAR>filename</VAR>.txi.
-<P>
-
-<A NAME="IDX473"></A>
-<DT><U>Procedure:</U> <B>schmooz</B> <I>filename.texi <small>...</small></I>
-<DD><A NAME="IDX474"></A>
-<DT><U>Procedure:</U> <B>schmooz</B> <I>filename.tex <small>...</small></I>
-<DD><A NAME="IDX475"></A>
-<DT><U>Procedure:</U> <B>schmooz</B> <I>filename.txi <small>...</small></I>
-<DD><VAR>Filename</VAR> should be a string naming an existing file containing
-Texinfo source code. For every occurrence of the string `<SAMP>@include
-<VAR>filename</VAR>.txi</SAMP>' within that file, <CODE>schmooz</CODE> calls itself with
-the argument `<SAMP><VAR>filename</VAR>.scm</SAMP>'.
-</P>
-</DL>
-<P>
-
-Schmooz comments are distinguished (from non-schmooz comments) by their
-first line, which must start with an at-sign (@) preceded by one or
-more semicolons (<TT>;</TT>). A schmooz comment ends at the first subsequent
-line which does <EM>not</EM> start with a semicolon. Currently schmooz
-comments are recognized only at top level.
-</P>
-<P>
-
-Schmooz comments are copied to the Texinfo output file with the leading
-contiguous semicolons removed. Certain character sequences starting
-with at-sign are treated specially. Others are copied unchanged.
-</P>
-<P>
-
-A schmooz comment starting with `<SAMP>@body</SAMP>' must be followed by a
-Scheme definition. All comments between the `<SAMP>@body</SAMP>' line and
-the definition will be included in a Texinfo definition, either
-a `<SAMP>@defun</SAMP>' or a `<SAMP>@defvar</SAMP>', depending on whether a procedure
-or a variable is being defined.
-</P>
-<P>
-
-Within the text of that schmooz comment, at-sign
-followed by `<SAMP>0</SAMP>' will be replaced by <CODE>@code{procedure-name}</CODE>
-if the following definition is of a procedure; or
-<CODE>@var{variable}</CODE> if defining a variable.
-</P>
-<P>
-
-An at-sign followed by a non-zero digit will expand to the variable
-citation of that numbered argument: `<SAMP>@var{argument-name}</SAMP>'.
-</P>
-<P>
-
-If more than one definition follows a `<SAMP>@body</SAMP>' comment line
-without an intervening blank or comment line, then those definitions
-will be included in the same Texinfo definition using `<SAMP>@defvarx</SAMP>'
-or `<SAMP>@defunx</SAMP>', depending on whether the first definition is of
-a variable or of a procedure.
-</P>
-<P>
-
-Schmooz can figure out whether a definition is of a procedure if
-it is of the form:
-</P>
-<P>
-
-`<SAMP>(define (&lt;identifier&gt; &lt;arg&gt; ...) &lt;expression&gt;)</SAMP>'
-</P>
-<P>
-
-or if the left hand side of the definition is some form ending in
-a lambda expression. Obviously, it can be fooled. In order to
-force recognition of a procedure definition, start the documentation
-with `<SAMP>@args</SAMP>' instead of `<SAMP>@body</SAMP>'. `<SAMP>@args</SAMP>' should
-be followed by the argument list of the function being defined,
-which may be enclosed in parentheses and delimited by whitespace,
-(as in Scheme), enclosed in braces and separated by commas, (as
-in Texinfo), or consist of the remainder of the line, separated
-by whitespace.
-</P>
-<P>
-
-For example:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>;;@args arg1 args ...
-;;@0 takes argument @1 and any number of @2
-(define myfun (some-function-returning-magic))
-</pre></td></tr></table><P>
-
-Will result in:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>@defun myfun arg1 args @dots{}
-
-@code{myfun} takes argument @var{arg1} and any number of @var{args}
-@end defun
-</pre></td></tr></table><P>
-
-`<SAMP>@args</SAMP>' may also be useful for indicating optional arguments
-by name. If `<SAMP>@args</SAMP>' occurs inside a schmooz comment section,
-rather than at the beginning, then it will generate a `<SAMP>@defunx</SAMP>'
-line with the arguments supplied.
-</P>
-<P>
-
-If the first at-sign in a schmooz comment is immediately followed by
-whitespace, then the comment will be expanded to whatever follows that
-whitespace. If the at-sign is followed by a non-whitespace character
-then the at-sign will be included as the first character of the expansion.
-This feature is intended to make it easy to include Texinfo directives
-in schmooz comments.
-</P>
-<P>
-
-<A NAME="Mathematical Packages"></A>
-<HR SIZE="6">
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_4.html#SEC45"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<BR>
-<FONT SIZE="-1">
-This document was generated
-by <I>Steve Langasek</I> on <I>January, 10 2005</I>
-using <A HREF="http://texi2html.cvshome.org"><I>texi2html</I></A>
-</FONT>
-
-</BODY>
-</HTML>
diff --git a/slib_5.html b/slib_5.html
deleted file mode 100644
index b3ef4b8..0000000
--- a/slib_5.html
+++ /dev/null
@@ -1,6100 +0,0 @@
-<!DOCTYPE html PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN"
- "http://www.w3.org/TR/html40/loose.dtd">
-<HTML>
-<!-- Created on January, 10 2005 by texi2html 1.66 -->
-<!--
-Written by: Lionel Cons <Lionel.Cons@cern.ch> (original author)
- Karl Berry <karl@freefriends.org>
- Olaf Bachmann <obachman@mathematik.uni-kl.de>
- and many others.
-Maintained by: Many creative people <dev@texi2html.cvshome.org>
-Send bugs and suggestions to <users@texi2html.cvshome.org>
-
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-</TR></TABLE>
-<H1> 5. Mathematical Packages </H1>
-<!--docid::SEC88::-->
-<P>
-
-<TABLE BORDER="0" CELLSPACING="0">
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_5.html#SEC89">5.1 Bit-Twiddling</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'logical</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_5.html#SEC95">5.2 Modular Arithmetic</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'modular</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_5.html#SEC96">5.3 Prime Numbers</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'factor</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_5.html#SEC97">5.4 Random Numbers</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'random</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_5.html#SEC100">5.5 Fast Fourier Transform</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'fft</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_5.html#SEC101">5.6 Cyclic Checksum</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'crc</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_5.html#SEC102">5.7 Graphing</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_5.html#SEC112">5.8 Solid Modeling</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">VRML97</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_5.html#SEC118">5.9 Color</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_5.html#SEC134">5.10 Root Finding</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'root</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_5.html#SEC135">5.11 Minimizing</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'minimize</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_5.html#SEC136">5.12 Commutative Rings</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'commutative-ring</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_5.html#SEC139">5.15 Matrix Algebra</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'determinant</TD></TR>
-</TABLE>
-<P>
-
-<A NAME="Bit-Twiddling"></A>
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-</TR></TABLE>
-<H2> 5.1 Bit-Twiddling </H2>
-<!--docid::SEC89::-->
-<P>
-
-<CODE>(require 'logical)</CODE>
-<A NAME="IDX476"></A>
-</P>
-<P>
-
-The bit-twiddling functions are made available through the use of the
-<CODE>logical</CODE> package. <CODE>logical</CODE> is loaded by inserting
-<CODE>(require 'logical)</CODE> before the code that uses these
-<A NAME="IDX477"></A>
-functions. These functions behave as though operating on integers
-in two's-complement representation.
-</P>
-<P>
-
-<HR SIZE="6">
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-</TR></TABLE>
-<H3> 5.1.1 Bitwise Operations </H3>
-<!--docid::SEC90::-->
-<P>
-
-<A NAME="IDX478"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>logand</B> <I>n1 n1</I>
-<DD>Returns the integer which is the bit-wise AND of the two integer
-arguments.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(number-&gt;string (logand #b1100 #b1010) 2)
- => &quot;1000&quot;
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX479"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>logior</B> <I>n1 n2</I>
-<DD>Returns the integer which is the bit-wise OR of the two integer
-arguments.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(number-&gt;string (logior #b1100 #b1010) 2)
- => &quot;1110&quot;
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX480"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>logxor</B> <I>n1 n2</I>
-<DD>Returns the integer which is the bit-wise XOR of the two integer
-arguments.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(number-&gt;string (logxor #b1100 #b1010) 2)
- => &quot;110&quot;
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX481"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>lognot</B> <I>n</I>
-<DD>Returns the integer which is the 2s-complement of the integer argument.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(number-&gt;string (lognot #b10000000) 2)
- => &quot;-10000001&quot;
-(number-&gt;string (lognot #b0) 2)
- => &quot;-1&quot;
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX482"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>bitwise-if</B> <I>mask n0 n1</I>
-<DD>Returns an integer composed of some bits from integer <VAR>n0</VAR> and some
-from integer <VAR>n1</VAR>. A bit of the result is taken from <VAR>n0</VAR> if the
-corresponding bit of integer <VAR>mask</VAR> is 1 and from <VAR>n1</VAR> if that bit
-of <VAR>mask</VAR> is 0.
-</DL>
-<P>
-
-<A NAME="IDX483"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>logtest</B> <I>j k</I>
-<DD><TABLE><tr><td>&nbsp;</td><td class=example><pre>(logtest j k) == (not (zero? (logand j k)))
-
-(logtest #b0100 #b1011) => #f
-(logtest #b0100 #b0111) => #t
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX484"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>logcount</B> <I>n</I>
-<DD>Returns the number of bits in integer <VAR>n</VAR>. If integer is positive,
-the 1-bits in its binary representation are counted. If negative, the
-0-bits in its two's-complement binary representation are counted. If 0,
-0 is returned.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(logcount #b10101010)
- => 4
-(logcount 0)
- => 0
-(logcount -2)
- => 1
-</pre></td></tr></table></DL>
-<P>
-
-<HR SIZE="6">
-<A NAME="SEC91"></A>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 5.1.2 Bit Within Word </H3>
-<!--docid::SEC91::-->
-<P>
-
-<A NAME="IDX485"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>logbit?</B> <I>index j</I>
-<DD><TABLE><tr><td>&nbsp;</td><td class=example><pre>(logbit? index j) == (logtest (integer-expt 2 index) j)
-
-(logbit? 0 #b1101) => #t
-(logbit? 1 #b1101) => #f
-(logbit? 2 #b1101) => #t
-(logbit? 3 #b1101) => #t
-(logbit? 4 #b1101) => #f
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX486"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>copy-bit</B> <I>index from bit</I>
-<DD>Returns an integer the same as <VAR>from</VAR> except in the <VAR>index</VAR>th bit,
-which is 1 if <VAR>bit</VAR> is <CODE>#t</CODE> and 0 if <VAR>bit</VAR> is <CODE>#f</CODE>.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(number-&gt;string (copy-bit 0 0 #t) 2) => &quot;1&quot;
-(number-&gt;string (copy-bit 2 0 #t) 2) => &quot;100&quot;
-(number-&gt;string (copy-bit 2 #b1111 #f) 2) => &quot;1011&quot;
-</pre></td></tr></table></DL>
-<P>
-
-<HR SIZE="6">
-<A NAME="SEC92"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 5.1.3 Fields of Bits </H3>
-<!--docid::SEC92::-->
-<P>
-
-<A NAME="IDX487"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>logical:ones</B> <I>n</I>
-<DD>Returns the smallest non-negative integer having <VAR>n</VAR> binary ones.
-</DL>
-<P>
-
-<A NAME="IDX488"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>bit-field</B> <I>n start end</I>
-<DD>Returns the integer composed of the <VAR>start</VAR> (inclusive) through
-<VAR>end</VAR> (exclusive) bits of <VAR>n</VAR>. The <VAR>start</VAR>th bit becomes
-the 0-th bit in the result.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(number-&gt;string (bit-field #b1101101010 0 4) 2)
- => &quot;1010&quot;
-(number-&gt;string (bit-field #b1101101010 4 9) 2)
- => &quot;10110&quot;
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX489"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>copy-bit-field</B> <I>to start end from</I>
-<DD>Returns an integer the same as <VAR>to</VAR> except possibly in the
-<VAR>start</VAR> (inclusive) through <VAR>end</VAR> (exclusive) bits, which are
-the same as those of <VAR>from</VAR>. The 0-th bit of <VAR>from</VAR> becomes the
-<VAR>start</VAR>th bit of the result.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(number-&gt;string (copy-bit-field #b1101101010 0 4 0) 2)
- => &quot;1101100000&quot;
-(number-&gt;string (copy-bit-field #b1101101010 0 4 -1) 2)
- => &quot;1101101111&quot;
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX490"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>ash</B> <I>n count</I>
-<DD>Returns an integer equivalent to
-<CODE>(inexact-&gt;exact (floor (* <VAR>n</VAR> (expt 2 <VAR>count</VAR>))))</CODE>.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(number-&gt;string (ash #b1 3) 2)
- => &quot;1000&quot;
-(number-&gt;string (ash #b1010 -1) 2)
- => &quot;101&quot;
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX491"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>integer-length</B> <I>n</I>
-<DD>Returns the number of bits neccessary to represent <VAR>n</VAR>.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(integer-length #b10101010)
- => 8
-(integer-length 0)
- => 0
-(integer-length #b1111)
- => 4
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX492"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>integer-expt</B> <I>n k</I>
-<DD>Returns <VAR>n</VAR> raised to the non-negative integer exponent <VAR>k</VAR>.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(integer-expt 2 5)
- => 32
-(integer-expt -3 3)
- => -27
-</pre></td></tr></table></DL>
-<P>
-
-<HR SIZE="6">
-<A NAME="SEC93"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC92"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC94"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &gt;&gt; </A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 5.1.4 Bit order and Lamination </H3>
-<!--docid::SEC93::-->
-<P>
-
-<A NAME="IDX493"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>logical:rotate</B> <I>k count len</I>
-<DD>Returns the low-order <VAR>len</VAR> bits of <VAR>k</VAR> cyclically permuted
-<VAR>count</VAR> bits towards high-order.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(number-&gt;string (logical:rotate #b0100 3 4) 2)
-=> &quot;10&quot;
-(number-&gt;string (logical:rotate #b0100 -1 4) 2)
-=> &quot;10&quot;
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX494"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>bit-reverse</B> <I>k n</I>
-<DD>Returns the low-order <VAR>k</VAR> bits of <VAR>n</VAR> with the bit order
-reversed. The low-order bit of <VAR>n</VAR> is the high order bit of the
-returned value.
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(number-&gt;string (bit-reverse 8 #xa7) 16)
- => &quot;e5&quot;
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX495"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>integer-&gt;list</B> <I>k len</I>
-<DD><A NAME="IDX496"></A>
-<DT><U>Function:</U> <B>integer-&gt;list</B> <I>k</I>
-<DD><CODE>integer-&gt;list</CODE> returns a list of <VAR>len</VAR> booleans corresponding
-to each bit of the given integer. #t is coded for each 1; #f for 0.
-The <VAR>len</VAR> argument defaults to <CODE>(integer-length <VAR>k</VAR>)</CODE>.
-<P>
-
-<A NAME="IDX497"></A>
-<DT><U>Function:</U> <B>list-&gt;integer</B> <I>list</I>
-<DD><CODE>list-&gt;integer</CODE> returns an integer formed from the booleans in the
-list <VAR>list</VAR>, which must be a list of booleans. A 1 bit is coded for
-each #t; a 0 bit for #f.
-</P>
-<P>
-
-<CODE>integer-&gt;list</CODE> and <CODE>list-&gt;integer</CODE> are inverses so far as
-<CODE>equal?</CODE> is concerned.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX498"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>booleans-&gt;integer</B> <I>bool1 <small>...</small></I>
-<DD>Returns the integer coded by the <VAR>bool1</VAR> <small>...</small> arguments.
-</DL>
-<P>
-
-<A NAME="IDX499"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>bitwise:laminate</B> <I>k1 <small>...</small></I>
-<DD>Returns an integer composed of the bits of <VAR>k1</VAR> <small>...</small> interlaced
-in argument order. Given <VAR>k1</VAR>, <small>...</small> <VAR>kn</VAR>, the n low-order
-bits of the returned value will be the lowest-order bit of each
-argument.
-<P>
-
-<A NAME="IDX500"></A>
-<DT><U>Function:</U> <B>bitwise:delaminate</B> <I>count k</I>
-<DD>Returns a list of <VAR>count</VAR> integers comprised of every <VAR>count</VAR>h
-bit of the integer <VAR>k</VAR>.
-</P>
-<P>
-
-For any non-negative integers <VAR>k</VAR> and <VAR>count</VAR>:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(eqv? k (bitwise:laminate (bitwise:delaminate count k)))
-</pre></td></tr></table></DL>
-<P>
-
-<HR SIZE="6">
-<A NAME="SEC94"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC93"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC95"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &gt;&gt; </A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 5.1.5 Gray code </H3>
-<!--docid::SEC94::-->
-<P>
-
-<A NAME="IDX501"></A>
-A <EM>Gray code</EM> is an ordering of non-negative integers in which
-exactly one bit differs between each pair of successive elements. There
-are multiple Gray codings. An n-bit Gray code corresponds to a
-Hamiltonian cycle on an n-dimensional hypercube.
-</P>
-<P>
-
-Gray codes find use communicating incrementally changing values between
-asynchronous agents. De-laminated Gray codes comprise the coordinates
-of Peano-Hilbert space-filling curves.
-</P>
-<P>
-
-<A NAME="IDX502"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>integer-&gt;gray-code</B> <I>k</I>
-<DD>Converts <VAR>k</VAR> to a Gray code of the same <CODE>integer-length</CODE> as
-<VAR>k</VAR>.
-<P>
-
-<A NAME="IDX503"></A>
-<DT><U>Function:</U> <B>gray-code-&gt;integer</B> <I>k</I>
-<DD>Converts the Gray code <VAR>k</VAR> to an integer of the same
-<CODE>integer-length</CODE> as <VAR>k</VAR>.
-</P>
-<P>
-
-For any non-negative integer <VAR>k</VAR>,
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(eqv? k (gray-code-&gt;integer (integer-&gt;gray-code k)))
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX504"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>=</B> <I>k1 k2</I>
-<DD><A NAME="IDX505"></A>
-<DT><U>Function:</U> <B>gray-code&lt;?</B> <I>k1 k2</I>
-<DD><A NAME="IDX506"></A>
-<DT><U>Function:</U> <B>gray-code&gt;?</B> <I>k1 k2</I>
-<DD><A NAME="IDX507"></A>
-<DT><U>Function:</U> <B>gray-code&lt;=?</B> <I>k1 k2</I>
-<DD><A NAME="IDX508"></A>
-<DT><U>Function:</U> <B>gray-code&gt;=?</B> <I>k1 k2</I>
-<DD>These procedures return #t if their Gray code arguments are
-(respectively): equal, monotonically increasing, monotonically
-decreasing, monotonically nondecreasing, or monotonically nonincreasing.
-<P>
-
-For any non-negative integers <VAR>k1</VAR> and <VAR>k2</VAR>, the Gray code
-predicate of <CODE>(integer-&gt;gray-code k1)</CODE> and
-<CODE>(integer-&gt;gray-code k2)</CODE> will return the same value as the
-corresponding predicate of <VAR>k1</VAR> and <VAR>k2</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="Modular Arithmetic"></A>
-<HR SIZE="6">
-<A NAME="SEC95"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC94"> &lt; </A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &gt;&gt; </A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 5.2 Modular Arithmetic </H2>
-<!--docid::SEC95::-->
-<P>
-
-<CODE>(require 'modular)</CODE>
-<A NAME="IDX509"></A>
-</P>
-<P>
-
-<A NAME="IDX510"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>mod</B> <I>x1 x2</I>
-<DD><A NAME="IDX511"></A>
-<DT><U>Function:</U> <B>rem</B> <I>x1 x2</I>
-<DD><P>
-
-These procedures implement the Common-Lisp functions of the same names.
-The real number <VAR>x2</VAR> must be non-zero.
-<CODE>mod</CODE> returns <CODE>(- <VAR>x1</VAR> (* <VAR>x2</VAR> (floor (/ <VAR>x1</VAR> <VAR>x2</VAR>))))</CODE>.
-<CODE>rem</CODE> returns <CODE>(- <VAR>x1</VAR> (* <VAR>x2</VAR> (truncate (/ <VAR>x1</VAR> <VAR>x2</VAR>))))</CODE>.
-</P>
-<P>
-
-If <VAR>x1</VAR> and <VAR>x2</VAR> are integers, then <CODE>mod</CODE> behaves like
-<CODE>modulo</CODE> and <CODE>rem</CODE> behaves like <CODE>remainder</CODE>.
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=display><pre style="font-family: serif"><TT>(mod -90 360) => 270
-(rem -90 180) => -90
-
-(mod 540 360) => 180
-(rem 540 360) => 180
-
-(mod (* 5/2 pi) (* 2 pi)) => 1.5707963267948965
-(rem (* -5/2 pi) (* 2 pi)) => -1.5707963267948965
-</TT>
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX512"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>extended-euclid</B> <I>n1 n2</I>
-<DD><P>
-
-Returns a list of 3 integers <CODE>(d x y)</CODE> such that d = gcd(<VAR>n1</VAR>,
-<VAR>n2</VAR>) = <VAR>n1</VAR> * x + <VAR>n2</VAR> * y.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX513"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>symmetric:modulus</B> <I>n</I>
-<DD><P>
-
-Returns <CODE>(quotient (+ -1 n) -2)</CODE> for positive odd integer <VAR>n</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX514"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>modulus-&gt;integer</B> <I>modulus</I>
-<DD><P>
-
-Returns the non-negative integer characteristic of the ring formed when
-<VAR>modulus</VAR> is used with <CODE>modular:</CODE> procedures.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX515"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>modular:normalize</B> <I>modulus n</I>
-<DD><P>
-
-Returns the integer <CODE>(modulo <VAR>n</VAR> (modulus-&gt;integer
-<VAR>modulus</VAR>))</CODE> in the representation specified by <VAR>modulus</VAR>.
-</P>
-</DL>
-The rest of these functions assume normalized arguments; That is, the
-arguments are constrained by the following table:
-<P>
-
-For all of these functions, if the first argument (<VAR>modulus</VAR>) is:
-</P>
-<DL COMPACT>
-<DT><CODE>positive?</CODE>
-<DD>Work as before. The result is between 0 and <VAR>modulus</VAR>.
-<P>
-
-</P>
-<DT><CODE>zero?</CODE>
-<DD>The arguments are treated as integers. An integer is returned.
-<P>
-
-</P>
-<DT><CODE>negative?</CODE>
-<DD>The arguments and result are treated as members of the integers modulo
-<CODE>(+ 1 (* -2 <VAR>modulus</VAR>))</CODE>, but with <EM>symmetric</EM>
-<A NAME="IDX516"></A>
-representation; i.e. <CODE>(&lt;= (- <VAR>modulus</VAR>) <VAR>n</VAR>
-<VAR>modulus</VAR>)</CODE>.
-</DL>
-<P>
-
-If all the arguments are fixnums the computation will use only fixnums.
-</P>
-<P>
-
-<A NAME="IDX517"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>modular:invertable?</B> <I>modulus k</I>
-<DD><P>
-
-Returns <CODE>#t</CODE> if there exists an integer n such that <VAR>k</VAR> * n
-== 1 mod <VAR>modulus</VAR>, and <CODE>#f</CODE> otherwise.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX518"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>modular:invert</B> <I>modulus n2</I>
-<DD><P>
-
-Returns an integer n such that 1 = (n * <VAR>n2</VAR>) mod <VAR>modulus</VAR>. If
-<VAR>n2</VAR> has no inverse mod <VAR>modulus</VAR> an error is signaled.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX519"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>modular:negate</B> <I>modulus n2</I>
-<DD><P>
-
-Returns (-<VAR>n2</VAR>) mod <VAR>modulus</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX520"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>modular:+</B> <I>modulus n2 n3</I>
-<DD><P>
-
-Returns (<VAR>n2</VAR> + <VAR>n3</VAR>) mod <VAR>modulus</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX521"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>modular:-</B> <I>modulus n2 n3</I>
-<DD><P>
-
-Returns (<VAR>n2</VAR> - <VAR>n3</VAR>) mod <VAR>modulus</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX522"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>modular:*</B> <I>modulus n2 n3</I>
-<DD><P>
-
-Returns (<VAR>n2</VAR> * <VAR>n3</VAR>) mod <VAR>modulus</VAR>.
-</P>
-<P>
-
-The Scheme code for <CODE>modular:*</CODE> with negative <VAR>modulus</VAR> is
-not completed for fixnum-only implementations.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX523"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>modular:expt</B> <I>modulus n2 n3</I>
-<DD><P>
-
-Returns (<VAR>n2</VAR> ^ <VAR>n3</VAR>) mod <VAR>modulus</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="Prime Numbers"></A>
-<HR SIZE="6">
-<A NAME="SEC96"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC95"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC97"> &gt; </A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 5.3 Prime Numbers </H2>
-<!--docid::SEC96::-->
-<P>
-
-<CODE>(require 'factor)</CODE>
-<A NAME="IDX524"></A>
-<A NAME="IDX525"></A>
-</P>
-<P>
-
-<A NAME="IDX526"></A>
-</P>
-<DL>
-<DT><U>Variable:</U> <B>prime:prngs</B>
-<DD><P>
-
-<VAR>prime:prngs</VAR> is the random-state (see section <A HREF="slib_5.html#SEC97">5.4 Random Numbers</A>) used by these
-procedures. If you call these procedures from more than one thread
-(or from interrupt), <CODE>random</CODE> may complain about reentrant
-calls.
-</P>
-</DL>
-<EM>Note:</EM> The prime test and generation procedures implement (or
-use) the Solovay-Strassen primality test. See
-<P>
-
-<UL>
-<LI>Robert Solovay and Volker Strassen,
-<CITE>A Fast Monte-Carlo Test for Primality</CITE>,
-SIAM Journal on Computing, 1977, pp 84-85.
-</UL>
-<P>
-
-<A NAME="IDX527"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>jacobi-symbol</B> <I>p q</I>
-<DD><P>
-
-Returns the value (+1, -1, or 0) of the Jacobi-Symbol of
-exact non-negative integer <VAR>p</VAR> and exact positive odd integer <VAR>q</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX528"></A>
-</P>
-<DL>
-<DT><U>Variable:</U> <B>prime:trials</B>
-<DD><P>
-
-<VAR>prime:trials</VAR> the maxinum number of iterations of Solovay-Strassen that will
-be done to test a number for primality.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX529"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>prime?</B> <I>n</I>
-<DD><P>
-
-Returns <CODE>#f</CODE> if <VAR>n</VAR> is composite; <CODE>#t</CODE> if <VAR>n</VAR> is prime.
-There is a slight chance <CODE>(expt 2 (- prime:trials))</CODE> that a
-composite will return <CODE>#t</CODE>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX530"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>primes&lt;</B> <I>start count</I>
-<DD><P>
-
-Returns a list of the first <VAR>count</VAR> prime numbers less than
-<VAR>start</VAR>. If there are fewer than <VAR>count</VAR> prime numbers
-less than <VAR>start</VAR>, then the returned list will have fewer than
-<VAR>start</VAR> elements.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX531"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>primes&gt;</B> <I>start count</I>
-<DD><P>
-
-Returns a list of the first <VAR>count</VAR> prime numbers greater than <VAR>start</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX532"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>factor</B> <I>k</I>
-<DD><P>
-
-Returns a list of the prime factors of <VAR>k</VAR>. The order of the
-factors is unspecified. In order to obtain a sorted list do
-<CODE>(sort! (factor <VAR>k</VAR>) &lt;)</CODE>.
-</P>
-</DL>
-<P>
-
-<A NAME="Random Numbers"></A>
-<HR SIZE="6">
-<A NAME="SEC97"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC96"> &lt; </A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 5.4 Random Numbers </H2>
-<!--docid::SEC97::-->
-<P>
-
-<A NAME="IDX533"></A>
-<A NAME="IDX534"></A>
-A pseudo-random number generator is only as good as the tests it passes.
-George Marsaglia of Florida State University developed a battery of
-tests named <EM>DIEHARD</EM> (<A HREF="http://stat.fsu.edu/~geo/diehard.html">http://stat.fsu.edu/~geo/diehard.html</A>).
-`<TT>diehard.c</TT>' has a bug which the patch
-<A HREF="http://swissnet.ai.mit.edu/ftpdir/users/jaffer/diehard.c.pat">http://swissnet.ai.mit.edu/ftpdir/users/jaffer/diehard.c.pat</A> corrects.
-</P>
-<P>
-
-SLIB's PRNG generates 8 bits at a time. With the degenerate seed
-`<SAMP>0</SAMP>', the numbers generated pass DIEHARD; but when bits are
-combined from sequential bytes, tests fail. With the seed
-`<SAMP>http://swissnet.ai.mit.edu/~jaffer/SLIB.html</SAMP>', all of those
-tests pass.
-</P>
-<P>
-
-<TABLE BORDER="0" CELLSPACING="0">
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_5.html#SEC98">5.4.1 Exact Random Numbers</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'random</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_5.html#SEC99">5.4.2 Inexact Random Numbers</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'random-inexact</TD></TR>
-</TABLE>
-<P>
-
-<A NAME="Exact Random Numbers"></A>
-<HR SIZE="6">
-<A NAME="SEC98"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 5.4.1 Exact Random Numbers </H3>
-<!--docid::SEC98::-->
-<P>
-
-<CODE>(require 'random)</CODE>
-<A NAME="IDX535"></A>
-</P>
-<P>
-
-<A NAME="IDX536"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>random</B> <I>n state</I>
-<DD><P>
-
-<A NAME="IDX537"></A>
-<DT><U>Function:</U> <B>random</B> <I>n</I>
-<DD></P>
-<P>
-
-<VAR>n</VAR> must be an exact positive integer. <CODE>random</CODE> returns an exact integer
-between zero (inclusive) and <VAR>n</VAR> (exclusive). The values returned by
-<CODE>random</CODE> are uniformly distributed from 0 to <VAR>n</VAR>.
-</P>
-<P>
-
-The optional argument <VAR>state</VAR> must be of the type returned by
-<CODE>(seed-&gt;random-state)</CODE> or <CODE>(make-random-state)</CODE>. It
-defaults to the value of the variable <CODE>*random-state*</CODE>. This
-object is used to maintain the state of the pseudo-random-number
-generator and is altered as a side effect of calls to <CODE>random</CODE>.
-</P>
-</DL>
-<A NAME="IDX538"></A>
-<DL>
-<DT><U>Variable:</U> <B>*random-state*</B>
-<DD>Holds a data structure that encodes the internal state of the
-random-number generator that <CODE>random</CODE> uses by default. The nature
-of this data structure is implementation-dependent. It may be printed
-out and successfully read back in, but may or may not function correctly
-as a random-number state object in another implementation.
-</DL>
-<P>
-
-<A NAME="IDX539"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>copy-random-state</B> <I>state</I>
-<DD><P>
-
-Returns a new copy of argument <VAR>state</VAR>.
-</P>
-<P>
-
-<A NAME="IDX540"></A>
-<DT><U>Function:</U> <B>copy-random-state</B>
-<DD>Returns a new copy of <CODE>*random-state*</CODE>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX541"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>seed-&gt;random-state</B> <I>seed</I>
-<DD><P>
-
-Returns a new object of type suitable for use as the value of the
-variable <CODE>*random-state*</CODE> or as a second argument to <CODE>random</CODE>.
-The number or string <VAR>seed</VAR> is used to initialize the state. If
-<CODE>seed-&gt;random-state</CODE> is called twice with arguments which are
-<CODE>equal?</CODE>, then the returned data structures will be <CODE>equal?</CODE>.
-Calling <CODE>seed-&gt;random-state</CODE> with unequal arguments will nearly
-always return unequal states.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX542"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>make-random-state</B>
-<DD><P>
-
-<A NAME="IDX543"></A>
-<DT><U>Function:</U> <B>make-random-state</B> <I>obj</I>
-<DD>Returns a new object of type suitable for use as the value of the
-variable <CODE>*random-state*</CODE> or as a second argument to <CODE>random</CODE>.
-If the optional argument <VAR>obj</VAR> is given, it should be a printable
-Scheme object; the first 50 characters of its printed representation
-will be used as the seed. Otherwise the value of <CODE>*random-state*</CODE>
-is used as the seed.
-</P>
-</DL>
-<P>
-
-<A NAME="Inexact Random Numbers"></A>
-<HR SIZE="6">
-<A NAME="SEC99"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC98"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC100"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC97"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 5.4.2 Inexact Random Numbers </H3>
-<!--docid::SEC99::-->
-<P>
-
-<CODE>(require 'random-inexact)</CODE>
-<A NAME="IDX544"></A>
-</P>
-<P>
-
-<A NAME="IDX545"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>random:uniform</B>
-<DD><P>
-
-<A NAME="IDX546"></A>
-<DT><U>Function:</U> <B>random:uniform</B> <I>state</I>
-<DD>Returns an uniformly distributed inexact real random number in the
-range between 0 and 1.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX547"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>random:exp</B>
-<DD><P>
-
-<A NAME="IDX548"></A>
-<DT><U>Function:</U> <B>random:exp</B> <I>state</I>
-<DD>Returns an inexact real in an exponential distribution with mean 1. For
-an exponential distribution with mean <VAR>u</VAR> use
-<CODE>(* <VAR>u</VAR> (random:exp))</CODE>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX549"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>random:normal</B>
-<DD><P>
-
-<A NAME="IDX550"></A>
-<DT><U>Function:</U> <B>random:normal</B> <I>state</I>
-<DD>Returns an inexact real in a normal distribution with mean 0 and
-standard deviation 1. For a normal distribution with mean <VAR>m</VAR> and
-standard deviation <VAR>d</VAR> use
-<CODE>(+ <VAR>m</VAR> (* <VAR>d</VAR> (random:normal)))</CODE>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX551"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>random:normal-vector!</B> <I>vect</I>
-<DD><P>
-
-<A NAME="IDX552"></A>
-<DT><U>Procedure:</U> <B>random:normal-vector!</B> <I>vect state</I>
-<DD>Fills <VAR>vect</VAR> with inexact real random numbers which are independent
-and standard normally distributed (i.e., with mean 0 and variance 1).
-</P>
-</DL>
-<P>
-
-<A NAME="IDX553"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>random:hollow-sphere!</B> <I>vect</I>
-<DD><P>
-
-<A NAME="IDX554"></A>
-<DT><U>Procedure:</U> <B>random:hollow-sphere!</B> <I>vect state</I>
-<DD>Fills <VAR>vect</VAR> with inexact real random numbers the sum of whose
-squares is equal to 1.0. Thinking of <VAR>vect</VAR> as coordinates in space
-of dimension n = <CODE>(vector-length <VAR>vect</VAR>)</CODE>, the coordinates are
-uniformly distributed over the surface of the unit n-shere.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX555"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>random:solid-sphere!</B> <I>vect</I>
-<DD><P>
-
-<A NAME="IDX556"></A>
-<DT><U>Procedure:</U> <B>random:solid-sphere!</B> <I>vect state</I>
-<DD>Fills <VAR>vect</VAR> with inexact real random numbers the sum of whose
-squares is less than 1.0. Thinking of <VAR>vect</VAR> as coordinates in
-space of dimension <VAR>n</VAR> = <CODE>(vector-length <VAR>vect</VAR>)</CODE>, the
-coordinates are uniformly distributed within the unit <VAR>n</VAR>-shere.
-The sum of the squares of the numbers is returned.
-</P>
-</DL>
-<P>
-
-<A NAME="Fast Fourier Transform"></A>
-<HR SIZE="6">
-<A NAME="SEC100"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC99"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC101"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 5.5 Fast Fourier Transform </H2>
-<!--docid::SEC100::-->
-<P>
-
-<CODE>(require 'fft)</CODE>
-<A NAME="IDX557"></A>
-</P>
-<P>
-
-<A NAME="IDX558"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>fft</B> <I>array</I>
-<DD><P>
-
-<VAR>array</VAR> is an array of <CODE>(expt 2 n)</CODE> numbers. <CODE>fft</CODE>
-returns an array of complex numbers comprising the
-<EM>Discrete Fourier Transform</EM> of <VAR>array</VAR>.
-<A NAME="IDX559"></A>
-</P>
-</DL>
-<P>
-
-<A NAME="IDX560"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>fft-1</B> <I>array</I>
-<DD><P>
-
-<CODE>fft-1</CODE> returns an array of complex numbers comprising the
-inverse Discrete Fourier Transform of <VAR>array</VAR>.
-</P>
-</DL>
-<CODE>(fft-1 (fft <VAR>array</VAR>))</CODE> will return an array of values close to
-<VAR>array</VAR>.
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(fft '#(1 0+i -1 0-i 1 0+i -1 0-i)) =>
-
-#(0.0 0.0 0.0+628.0783185208527e-18i 0.0
- 0.0 0.0 8.0-628.0783185208527e-18i 0.0)
-
-(fft-1 '#(0 0 0 0 0 0 8 0)) =>
-
-#(1.0 -61.23031769111886e-18+1.0i -1.0 61.23031769111886e-18-1.0i
- 1.0 -61.23031769111886e-18+1.0i -1.0 61.23031769111886e-18-1.0i)
-</pre></td></tr></table><P>
-
-<A NAME="Cyclic Checksum"></A>
-<HR SIZE="6">
-<A NAME="SEC101"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC100"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC102"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 5.6 Cyclic Checksum </H2>
-<!--docid::SEC101::-->
-<P>
-
-<CODE>(require 'crc)</CODE>
-<A NAME="IDX561"></A>
-Cyclic Redundancy Checks using Galois field GF(2) polynomial
-arithmetic are used for error detection in many data transmission
-and storage applications.
-</P>
-<P>
-
-The generator polynomials for various CRC protocols are availble
-from many sources. But the polynomial is just one of many
-parameters which must match in order for a CRC implementation to
-interoperate with existing systems:
-</P>
-<P>
-
-<UL>
-
-<LI>
-the byte-order and bit-order of the data stream;
-<P>
-
-</P>
-<LI>
-whether the CRC or its inverse is being calculated;
-<P>
-
-</P>
-<LI>
-the initial CRC value; and
-<P>
-
-</P>
-<LI>
-whether and where the CRC value is appended (inverted
-or non-inverted) to the data stream.
-<P>
-
-</UL>
-<P>
-
-There is even some controversy over the polynomials themselves.
-</P>
-<P>
-
-<A NAME="IDX562"></A>
-</P>
-<DL>
-<DT><U>Constant:</U> <B>crc-32-polynomial</B>
-<DD>For CRC-32, http://www2.sis.pitt.edu/~jkabara/tele-2100/lect08.html
-gives x^32+x^26+x^23+x^16+x^12+x^11+x^10+x^8+x^7+x^5+x^4+x^2+x^1+1.
-<P>
-
-But
-http://www.cs.ncl.ac.uk/people/harry.whitfield/home.formal/CRCs.html,
-http://duchon.umuc.edu/Web_Pages/duchon/99_f_cm435/ShiftRegister.htm,
-http://spinroot.com/spin/Doc/Book91_PDF/ch3.pdf,
-http://www.erg.abdn.ac.uk/users/gorry/course/dl-pages/crc.html,
-http://www.rad.com/networks/1994/err_con/crc_most.htm, and
-http://www.gpfn.sk.ca/~rhg/csc8550s02/crc.html,
-http://www.nobugconsulting.ro/crc.php give
-x^32+x^26+x^23+x^22+x^16+x^12+x^11+x^10+x^8+x^7+x^5+x^4+x^2+x+1.
-</P>
-<P>
-
-SLIB <CODE>crc-32-polynomial</CODE> uses the latter definition.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX563"></A>
-</P>
-<DL>
-<DT><U>Constant:</U> <B>crc-ccitt-polynomial</B>
-<DD><P>
-
-http://www.math.grin.edu/~rebelsky/Courses/CS364/2000S/Outlines/outline.12.html,
-http://duchon.umuc.edu/Web_Pages/duchon/99_f_cm435/ShiftRegister.htm,
-http://www.cs.ncl.ac.uk/people/harry.whitfield/home.formal/CRCs.html,
-http://www2.sis.pitt.edu/~jkabara/tele-2100/lect08.html, and
-http://www.gpfn.sk.ca/~rhg/csc8550s02/crc.html give
-CRC-CCITT: x^16+x^12+x^5+1.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX564"></A>
-</P>
-<DL>
-<DT><U>Constant:</U> <B>crc-16-polynomial</B>
-<DD><P>
-
-http://www.math.grin.edu/~rebelsky/Courses/CS364/2000S/Outlines/outline.12.html,
-http://duchon.umuc.edu/Web_Pages/duchon/99_f_cm435/ShiftRegister.htm,
-http://www.cs.ncl.ac.uk/people/harry.whitfield/home.formal/CRCs.html,
-http://www.gpfn.sk.ca/~rhg/csc8550s02/crc.html, and
-http://www.usb.org/developers/data/crcdes.pdf give
-CRC-16: x^16+x^15+x^2+1.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX565"></A>
-</P>
-<DL>
-<DT><U>Constant:</U> <B>crc-12-polynomial</B>
-<DD><P>
-
-http://www.math.grin.edu/~rebelsky/Courses/CS364/2000S/Outlines/outline.12.html,
-http://www.cs.ncl.ac.uk/people/harry.whitfield/home.formal/CRCs.html,
-http://www.it.iitb.ac.in/it605/lectures/link/node4.html, and
-http://spinroot.com/spin/Doc/Book91_PDF/ch3.pdf give
-CRC-12: x^12+x^11+x^3+x^2+1.
-</P>
-<P>
-
-But
-http://www.ffldusoe.edu/Faculty/Denenberg/Topics/Networks/Error_Detection_Correction/crc.html,
-http://duchon.umuc.edu/Web_Pages/duchon/99_f_cm435/ShiftRegister.htm,
-http://www.eng.uwi.tt/depts/elec/staff/kimal/errorcc.html,
-http://www.ee.uwa.edu.au/~roberto/teach/itc314/java/CRC/,
-http://www.gpfn.sk.ca/~rhg/csc8550s02/crc.html, and
-http://www.efg2.com/Lab/Mathematics/CRC.htm give
-CRC-12: x^12+x^11+x^3+x^2+x+1.
-</P>
-<P>
-
-These differ in bit 1 and calculations using them return different
-values. With citations near evenly split, it is hard to know which is
-correct.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX566"></A>
-</P>
-<DL>
-<DT><U>Constant:</U> <B>crc-10-polynomial</B>
-<DD><P>
-
-http://www.math.grin.edu/~rebelsky/Courses/CS364/2000S/Outlines/outline.12.html gives
-CRC-10: x^10+x^9+x^5+x^4+1;
-but
-http://cell-relay.indiana.edu/cell-relay/publications/software/CRC/crc10.html,
-http://www.it.iitb.ac.in/it605/lectures/link/node4.html,
-http://www.gpfn.sk.ca/~rhg/csc8550s02/crc.html,
-http://www.techfest.com/networking/atm/atm.htm,
-http://www.protocols.com/pbook/atmcell2.htm, and
-http://www.nobugconsulting.ro/crc.php give
-CRC-10: x^10+x^9+x^5+x^4+x+1.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX567"></A>
-</P>
-<DL>
-<DT><U>Constant:</U> <B>crc-08-polynomial</B>
-<DD><P>
-
-http://www.math.grin.edu/~rebelsky/Courses/CS364/2000S/Outlines/outline.12.html,
-http://www.cs.ncl.ac.uk/people/harry.whitfield/home.formal/CRCs.html,
-http://www.it.iitb.ac.in/it605/lectures/link/node4.html, and
-http://www.nobugconsulting.ro/crc.php give
-CRC-8: x^8+x^2+x^1+1
-</P>
-</DL>
-<P>
-
-<A NAME="IDX568"></A>
-</P>
-<DL>
-<DT><U>Constant:</U> <B>atm-hec-polynomial</B>
-<DD><P>
-
-http://cell-relay.indiana.edu/cell-relay/publications/software/CRC/32bitCRC.tutorial.html and
-http://www.gpfn.sk.ca/~rhg/csc8550s02/crc.html give
-ATM HEC: x^8+x^2+x+1.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX569"></A>
-</P>
-<DL>
-<DT><U>Constant:</U> <B>dowcrc-polynomial</B>
-<DD><P>
-
-http://www.cs.ncl.ac.uk/people/harry.whitfield/home.formal/CRCs.html gives
-DOWCRC: x^8+x^5+x^4+1.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX570"></A>
-</P>
-<DL>
-<DT><U>Constant:</U> <B>usb-token-polynomial</B>
-<DD><P>
-
-http://www.usb.org/developers/data/crcdes.pdf and
-http://www.nobugconsulting.ro/crc.php give
-USB-token: x^5+x^2+1.
-</P>
-</DL>
-<P>
-
-Each of these polynomial constants is a string of `<SAMP>1</SAMP>'s and
-`<SAMP>0</SAMP>'s, the exponent of each power of <VAR>x</VAR> in descending order.
-</P>
-<P>
-
-<A NAME="IDX571"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>crc:make-table</B> <I>poly</I>
-<DD><P>
-
-<VAR>poly</VAR> must be string of `<SAMP>1</SAMP>'s and `<SAMP>0</SAMP>'s beginning with
-`<SAMP>1</SAMP>' and having length greater than 8. <CODE>crc:make-table</CODE>
-returns a vector of 256 integers, such that:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(set! <VAR>crc</VAR>
- (logxor (ash (logand (+ -1 (ash 1 (- <VAR>deg</VAR> 8))) <VAR>crc</VAR>) 8)
- (vector-ref <VAR>crc-table</VAR>
- (logxor (ash <VAR>crc</VAR> (- 8 <VAR>deg</VAR>)) <VAR>byte</VAR>))))
-</pre></td></tr></table><P>
-
-will compute the <VAR>crc</VAR> with the 8 additional bits in <VAR>byte</VAR>;
-where <VAR>crc</VAR> is the previous accumulated CRC value, <VAR>deg</VAR> is
-the degree of <VAR>poly</VAR>, and <VAR>crc-table</VAR> is the vector returned
-by <CODE>crc:make-table</CODE>.
-</P>
-<P>
-
-If the implementation does not support <VAR>deg</VAR>-bit integers, then
-<CODE>crc:make-table</CODE> returns #f.
-</P>
-<P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX572"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>cksum</B> <I>file</I>
-<DD><P>
-
-Computes the P1003.2/D11.2 (POSIX.2) 32-bit checksum of <VAR>file</VAR>.
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(require 'crc)
-<A NAME="IDX573"></A>(cksum (in-vicinity (library-vicinity) &quot;ratize.scm&quot;))
-=> 157103930
-</pre></td></tr></table><P>
-
-<A NAME="IDX574"></A>
-<DT><U>Function:</U> <B>cksum</B> <I>port</I>
-<DD>Computes the checksum of the bytes read from <VAR>port</VAR> until the
-end-of-file.
-</P>
-<P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX575"></A>
-<CODE>cksum-string</CODE>, which returns the P1003.2/D11.2 (POSIX.2) 32-bit
-checksum of the bytes in <VAR>str</VAR>, can be defined as follows:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(require 'string-port)
-(define (cksum-string str) (call-with-input-string str cksum))
-</pre></td></tr></table><P>
-
-<A NAME="IDX576"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>crc16</B> <I>file</I>
-<DD><P>
-
-Computes the USB data-packet (16-bit) CRC of <VAR>file</VAR>.
-</P>
-<P>
-
-<A NAME="IDX577"></A>
-<DT><U>Function:</U> <B>crc16</B> <I>port</I>
-<DD>Computes the USB data-packet (16-bit) CRC of the bytes read from
-<VAR>port</VAR> until the end-of-file.
-</P>
-<P>
-
-<CODE>crc16</CODE> calculates the same values as the crc16.pl program given
-in http://www.usb.org/developers/data/crcdes.pdf.
-</P>
-<P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX578"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>crc5</B> <I>file</I>
-<DD><P>
-
-Computes the USB token (5-bit) CRC of <VAR>file</VAR>.
-</P>
-<P>
-
-<A NAME="IDX579"></A>
-<DT><U>Function:</U> <B>crc5</B> <I>port</I>
-<DD>Computes the USB token (5-bit) CRC of the bytes read from
-<VAR>port</VAR> until the end-of-file.
-</P>
-<P>
-
-<CODE>crc5</CODE> calculates the same values as the crc5.pl program given
-in http://www.usb.org/developers/data/crcdes.pdf.
-</P>
-<P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="Graphing"></A>
-<HR SIZE="6">
-<A NAME="SEC102"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC101"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC103"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 5.7 Graphing </H2>
-<!--docid::SEC102::-->
-<P>
-
-<TABLE BORDER="0" CELLSPACING="0">
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_5.html#SEC103">5.7.1 Character Plotting</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_5.html#SEC104">5.7.2 PostScript Graphing</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-</TABLE>
-<P>
-
-<A NAME="Character Plotting"></A>
-<HR SIZE="6">
-<A NAME="SEC103"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC102"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC104"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC102"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 5.7.1 Character Plotting </H3>
-<!--docid::SEC103::-->
-<P>
-
-<CODE>(require 'charplot)</CODE>
-<A NAME="IDX580"></A>
-</P>
-<P>
-
-<A NAME="IDX581"></A>
-</P>
-<DL>
-<DT><U>Variable:</U> <B>charplot:dimensions</B>
-<DD>A list of the maximum height (number of lines) and maximum width (number
-of columns) for the graph, its scales, and labels.
-<P>
-
-The default value for <VAR>charplot:dimensions</VAR> is the
-<CODE>output-port-height</CODE> and <CODE>output-port-width</CODE> of
-<CODE>current-output-port</CODE>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX582"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>plot</B> <I>coords x-label y-label</I>
-<DD><VAR>coords</VAR> is a list or vector of coordinates, lists of x and y
-coordinates. <VAR>x-label</VAR> and <VAR>y-label</VAR> are strings with which to
-label the x and y axes.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(require 'charplot)
-<A NAME="IDX583"></A>(set! charplot:dimensions '(20 55))
-
-(define (make-points n)
- (if (zero? n)
- '()
- (cons (list (/ n 6) (sin (/ n 6))) (make-points (1- n)))))
-
-(plot (make-points 40) &quot;x&quot; &quot;Sin(x)&quot;)
--|
- Sin(x) _________________________________________
- 1|- **** |
- | ** ** |
- 0.75|- * * |
- | * * |
- 0.5|- * * |
- | * *|
- 0.25|- * * |
- | * * |
- 0|-------------------*------------------*--|
- | * |
- -0.25|- * * |
- | * * |
- -0.5|- * |
- | * * |
- -0.75|- * * |
- | ** ** |
- -1|- **** |
- |:_____._____:_____._____:_____._____:____|
- x 2 4 6
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX584"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>plot</B> <I>func x1 x2</I>
-<DD><A NAME="IDX585"></A>
-<DT><U>Procedure:</U> <B>plot</B> <I>func x1 x2 npts</I>
-<DD>Plots the function of one argument <VAR>func</VAR> over the range <VAR>x1</VAR> to
-<VAR>x2</VAR>. If the optional integer argument <VAR>npts</VAR> is supplied, it
-specifies the number of points to evaluate <VAR>func</VAR> at.
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(plot sin 0 (* 2 pi))
--|
- _________________________________________
- 1|-: **** |
- | : ** ** |
- 0.75|-: * * |
- | : * * |
- 0.5|-: ** ** |
- | : * * |
- 0.25|-:** ** |
- | :* * |
- 0|-*------------------*--------------------|
- | : * * |
- -0.25|-: ** ** |
- | : * * |
- -0.5|-: * ** |
- | : * * |
- -0.75|-: * ** |
- | : ** ** |
- -1|-: **** |
- |_:_____._____:_____._____:_____._____:___|
- 0 2 4 6
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX586"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>histograph</B> <I>data label</I>
-<DD>Creates and displays a histogram of the numerical values contained in
-vector or list <VAR>data</VAR>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(require 'random-inexact)
-(histograph (do ((idx 99 (+ -1 idx))
- (lst '() (cons (* .02 (random:normal)) lst)))
- ((negative? idx) lst))
- &quot;normal&quot;)
--|
- _________________________________________
- 8|- : I |
- | : I |
- 7|- I I : I |
- | I I : I |
- 6|- III I :I I |
- | III I :I I |
- 5|- IIIIIIIIII I |
- | IIIIIIIIII I |
- 4|- IIIIIIIIIIII |
- | IIIIIIIIIIII |
- 3|-I I I IIIIIIIIIIII II I |
- | I I I IIIIIIIIIIII II I |
- 2|-I I I IIIIIIIIIIIIIIIII I |
- | I I I IIIIIIIIIIIIIIIII I |
- 1|-II I I IIIIIIIIIIIIIIIIIIIII I I I |
- | II I I IIIIIIIIIIIIIIIIIIIII I I I |
- 0|-IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII----|
- |__.____:____.____:____.____:____.____:___|
- normal -0.025 0 0.025 0.05
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="PostScript Graphing"></A>
-<HR SIZE="6">
-<A NAME="SEC104"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC103"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC105"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC102"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 5.7.2 PostScript Graphing </H3>
-<!--docid::SEC104::-->
-<P>
-
-<CODE>(require 'eps-graph)</CODE>
-</P>
-<P>
-
-This is a graphing package creating encapsulated-PostScript files.
-Its motivations and design choice are described in
-<A HREF="http://swissnet.ai.mit.edu/~jaffer/Docupage/grapheps">http://swissnet.ai.mit.edu/~jaffer/Docupage/grapheps</A>
-</P>
-<P>
-
-A dataset to be plotted is taken from a 2-dimensional array.
-Corresponding coordinates are in rows. Coordinates from any
-pair of columns can be plotted.
-</P>
-<P>
-
-<A NAME="IDX587"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>create-postscript-graph</B> <I>filename.eps size elt1 <small>...</small></I>
-<DD><P>
-
-<VAR>filename.eps</VAR> should be a string naming an output file to be created. <VAR>size</VAR>
-should be an exact integer, a list of two exact integers, or #f.
-<VAR>elt1</VAR>, ... are values returned by graphing primitives described here.
-</P>
-<P>
-
-<CODE>create-postscript-graph</CODE> creates an <EM>Encapsulated-PostScript</EM> file named <VAR>filename.eps</VAR> containing
-<A NAME="IDX588"></A>
-graphs as directed by the <VAR>elt1</VAR>, ... arguments.
-</P>
-<P>
-
-The size of the graph is determined by the <VAR>size</VAR> argument. If a list
-of two integers, they specify the width and height. If one integer,
-then that integer is the width and the height is 3/4 of the width.
-If #f, the graph will be 800 by 600.
-</P>
-</DL>
-These graphing procedures should be called as arguments to
-<CODE>create-postscript-graph</CODE>. The order of these arguments is
-significant; PostScript graphics state is affected serially from the
-first <VAR>elt</VAR> argument to the last.
-<P>
-
-<A NAME="IDX589"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>whole-page</B>
-<DD><P>
-
-Pushes a rectangle for the whole encapsulated page onto the
-PostScript stack. This pushed rectangle is an implicit argument to
-<CODE>partition-page</CODE> or <CODE>setup-plot</CODE>.
-</P>
-</DL>
-<TABLE BORDER="0" CELLSPACING="0">
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_5.html#SEC105">5.7.2.1 Column Ranges</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_5.html#SEC106">5.7.2.2 Drawing the Graph</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_5.html#SEC107">5.7.2.3 Graphics Context</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_5.html#SEC108">5.7.2.4 Rectangles</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_5.html#SEC109">5.7.2.5 Legending</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_5.html#SEC110">5.7.2.6 Legacy Plotting</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_5.html#SEC111">5.7.2.7 Example Graph</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-</TABLE>
-<P>
-
-<A NAME="Column Ranges"></A>
-<HR SIZE="6">
-<A NAME="SEC105"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC104"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC106"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC104"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 5.7.2.1 Column Ranges </H4>
-<!--docid::SEC105::-->
-<P>
-
-A <EM>range</EM> is a list of two numbers, the minimum and the maximum.
-<A NAME="IDX590"></A>
-<A NAME="IDX591"></A>
-Ranges can be given explicity or computed in PostScript by
-<CODE>column-range</CODE>.
-</P>
-<P>
-
-<A NAME="IDX592"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>column-range</B> <I>array k</I>
-<DD><P>
-
-Returns the range of values in 2-dimensional <VAR>array</VAR> column <VAR>k</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX593"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>pad-range</B> <I>range p</I>
-<DD><P>
-
-Expands <VAR>range</VAR> by <VAR>p</VAR>/100 on each end.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX594"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>snap-range</B> <I>range</I>
-<DD><P>
-
-Expands <VAR>range</VAR> to round number of ticks.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX595"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>combine-ranges</B> <I>range1 range2 <small>...</small></I>
-<DD><P>
-
-Returns the minimal range covering all <VAR>range1</VAR>, <VAR>range2</VAR>, ...
-</P>
-</DL>
-<P>
-
-<A NAME="IDX596"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>setup-plot</B> <I>x-range y-range pagerect</I>
-<DD><P>
-
-<A NAME="IDX597"></A>
-<DT><U>Function:</U> <B>setup-plot</B> <I>x-range y-range</I>
-<DD><VAR>x-range</VAR> and <VAR>y-range</VAR> should each be a list of two numbers or the value returned
-by <CODE>pad-range</CODE>, <CODE>snap-range</CODE>, or <CODE>combine-range</CODE>.
-<VAR>pagerect</VAR> is the rectangle bounding the graph to be drawn; if missing, the
-rectangle from the top of the PostScript stack is popped and used.
-</P>
-<P>
-
-Based on the given ranges, <CODE>setup-plot</CODE> sets up scaling and margins for making
-a graph. The margins are sized proportional to the <VAR>fontheight</VAR>
-value at the time of the call to setup-plot. <CODE>setup-plot</CODE> sets two variables:
-</P>
-<P>
-
-</P>
-<DL COMPACT>
-<DT><VAR>plotrect</VAR>
-<DD>The region where data points will be plotted.
-<DT><VAR>graphrect</VAR>
-<DD>The <VAR>pagerect</VAR> argument to <CODE>setup-plot</CODE>. Includes plotrect, legends, etc.
-</DL>
-</DL>
-<A NAME="Drawing the Graph"></A>
-<HR SIZE="6">
-<A NAME="SEC106"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC105"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC107"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC104"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 5.7.2.2 Drawing the Graph </H4>
-<!--docid::SEC106::-->
-<P>
-
-<A NAME="IDX598"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>plot-column</B> <I>array x-column y-column proc3s</I>
-<DD><P>
-
-Plots points with x coordinate in <VAR>x-column</VAR> of <VAR>array</VAR> and y coordinate <VAR>y-column</VAR> of
-<VAR>array</VAR>. The symbol <VAR>proc3s</VAR> specifies the type of glyph or drawing style for
-presenting these coordinates.
-</P>
-</DL>
-The glyphs and drawing styles available are:
-<P>
-
-</P>
-<DL COMPACT>
-<DT><CODE>line</CODE>
-<DD>Draws line connecting points in order.
-<DT><CODE>mountain</CODE>
-<DD>Fill area below line connecting points.
-<DT><CODE>cloud</CODE>
-<DD>Fill area above line connecting points.
-<DT><CODE>impulse</CODE>
-<DD>Draw line from x-axis to each point.
-<DT><CODE>bargraph</CODE>
-<DD>Draw rectangle from x-axis to each point.
-<DT><CODE>disc</CODE>
-<DD>Solid round dot.
-<DT><CODE>point</CODE>
-<DD>Minimal point -- invisible if linewidth is 0.
-<DT><CODE>square</CODE>
-<DD>Square box.
-<DT><CODE>diamond</CODE>
-<DD>Square box at 45.o
-<DT><CODE>plus</CODE>
-<DD>Plus sign.
-<DT><CODE>cross</CODE>
-<DD>X sign.
-<DT><CODE>triup</CODE>
-<DD>Triangle pointing upward
-<DT><CODE>tridown</CODE>
-<DD>Triangle pointing downward
-<DT><CODE>pentagon</CODE>
-<DD>Five sided polygon
-<DT><CODE>circle</CODE>
-<DD>Hollow circle
-</DL>
-<P>
-
-<A NAME="Graphics Context"></A>
-<HR SIZE="6">
-<A NAME="SEC107"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC106"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC108"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC104"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 5.7.2.3 Graphics Context </H4>
-<!--docid::SEC107::-->
-<P>
-
-<A NAME="IDX599"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>in-graphic-context</B> <I>arg <small>...</small></I>
-<DD><P>
-
-Saves the current graphics state, executes <VAR>args</VAR>, then restores
-to saved graphics state.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX600"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>set-color</B> <I>color</I>
-<DD><P>
-
-<VAR>color</VAR> should be a string naming a Resene color, a saturate color, or a
-number between 0 and 100.
-</P>
-<P>
-
-<CODE>set-color</CODE> sets the PostScript color to the color of the given string, or a
-grey value between black (0) and white (100).
-</P>
-</DL>
-<P>
-
-<A NAME="IDX601"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>set-font</B> <I>name fontheight</I>
-<DD><P>
-
-<VAR>name</VAR> should be a (case-sensitive) string naming a PostScript font.
-<VAR>fontheight</VAR> should be a positive real number.
-</P>
-<P>
-
-<CODE>set-font</CODE> Changes the current PostScript font to <VAR>name</VAR> with height equal to
-<VAR>fontheight</VAR>. The default font is Helvetica (12pt).
-</P>
-</DL>
-The base set of PostScript fonts is:
-<P>
-
-</P>
-<TABLE>
-<TR><TD>Times </TD><TD> Times-Italic </TD><TD> Times-Bold </TD><TD> Times-BoldItalic</TD>
-</TR>
-<TR><TD>Helvetica </TD><TD> Helvetica-Oblique </TD><TD> Helvetica-Bold </TD><TD> Helvetica-BoldOblique</TD>
-</TR>
-<TR><TD>Courier </TD><TD> Courier-Oblique </TD><TD> Courier-Bold </TD><TD> Courier-BoldOblique</TD>
-</TR>
-<TR><TD>Symbol</TD>
-</TR></TABLE>
-<P>
-
-Line parameters do no affect fonts; they do effect glyphs.
-</P>
-<P>
-
-<A NAME="IDX602"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>set-linewidth</B> <I>w</I>
-<DD><P>
-
-The default linewidth is 1. Setting it to 0 makes the lines drawn
-as skinny as possible. Linewidth must be much smaller than
-glyphsize for readable glyphs.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX603"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>set-linedash</B> <I>j k</I>
-<DD><P>
-
-Lines are drawn <VAR>j</VAR>-on <VAR>k</VAR>-off.
-</P>
-<P>
-
-<A NAME="IDX604"></A>
-<DT><U>Function:</U> <B>set-linedash</B> <I>j</I>
-<DD>Lines are drawn <VAR>j</VAR>-on <VAR>j</VAR>-off.
-</P>
-<P>
-
-<A NAME="IDX605"></A>
-<DT><U>Function:</U> <B>set-linedash</B>
-<DD>Turns off dashing.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX606"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>set-glyphsize</B> <I>w</I>
-<DD><P>
-
-Sets the (PostScript) variable glyphsize to <VAR>w</VAR>. The default
-glyphsize is 6.
-</P>
-</DL>
-The effects of <CODE>clip-to-rect</CODE> are also part of the graphic
-context.
-<P>
-
-<A NAME="Rectangles"></A>
-<HR SIZE="6">
-<A NAME="SEC108"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC107"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC109"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC104"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 5.7.2.4 Rectangles </H4>
-<!--docid::SEC108::-->
-<P>
-
-A <EM>rectangle</EM> is a list of 4 numbers; the first two elements are
-<A NAME="IDX607"></A>
-the x and y coordinates of lower left corner of the rectangle. The
-other two elements are the width and height of the rectangle.
-</P>
-<P>
-
-<A NAME="IDX608"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>whole-page</B>
-<DD><P>
-
-Pushes a rectangle for the whole encapsulated page onto the
-PostScript stack. This pushed rectangle is an implicit argument to
-<CODE>partition-page</CODE> or <CODE>setup-plot</CODE>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX609"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>partition-page</B> <I>xparts yparts</I>
-<DD><P>
-
-Pops the rectangle currently on top of the stack and pushes <VAR>xparts</VAR> * <VAR>yparts</VAR>
-sub-rectangles onto the stack in decreasing y and increasing x order.
-If you are drawing just one graph, then you don't need <CODE>partition-page</CODE>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX610"></A>
-</P>
-<DL>
-<DT><U>Variable:</U> <B>plotrect</B>
-<DD><P>
-
-The rectangle where data points should be plotted. <VAR>plotrect</VAR> is set by
-<CODE>setup-plot</CODE>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX611"></A>
-</P>
-<DL>
-<DT><U>Variable:</U> <B>graphrect</B>
-<DD><P>
-
-The <VAR>pagerect</VAR> argument of the most recent call to
-<CODE>setup-plot</CODE>. Includes plotrect, legends, etc.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX612"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>fill-rect</B> <I>rect</I>
-<DD><P>
-
-fills <VAR>rect</VAR> with the current color.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX613"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>outline-rect</B> <I>rect</I>
-<DD><P>
-
-Draws the perimiter of <VAR>rect</VAR> in the current color.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX614"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>clip-to-rect</B> <I>rect</I>
-<DD><P>
-
-Modifies the current graphics-state so that nothing will be drawn
-outside of the rectangle <VAR>rect</VAR>. Use <CODE>in-graphic-context</CODE> to limit
-the extent of <CODE>clip-to-rect</CODE>.
-</P>
-</DL>
-<A NAME="Legending"></A>
-<HR SIZE="6">
-<A NAME="SEC109"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC108"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC110"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC104"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 5.7.2.5 Legending </H4>
-<!--docid::SEC109::-->
-<P>
-
-<A NAME="IDX615"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>title-top</B> <I>title subtitle</I>
-<DD><P>
-
-<A NAME="IDX616"></A>
-<DT><U>Function:</U> <B>title-top</B> <I>title</I>
-<DD>Puts a <VAR>title</VAR> line and an optional <VAR>subtitle</VAR> line above the <CODE>graphrect</CODE>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX617"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>title-bottom</B> <I>title subtitle</I>
-<DD><P>
-
-<A NAME="IDX618"></A>
-<DT><U>Function:</U> <B>title-bottom</B> <I>title</I>
-<DD>Puts a <VAR>title</VAR> line and an optional <VAR>subtitle</VAR> line below the <CODE>graphrect</CODE>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX619"></A>
-</P>
-<DL>
-<DT><U>Variable:</U> <B>topedge</B>
-<DD><A NAME="IDX620"></A>
-<DT><U>Variable:</U> <B>bottomedge</B>
-<DD><P>
-
-These edge coordinates of <CODE>graphrect</CODE> are suitable for passing
-as the first argument to <CODE>rule-horizontal</CODE>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX621"></A>
-</P>
-<DL>
-<DT><U>Variable:</U> <B>leftedge</B>
-<DD><A NAME="IDX622"></A>
-<DT><U>Variable:</U> <B>rightedge</B>
-<DD><P>
-
-These edge coordinates of <CODE>graphrect</CODE> are suitable for passing
-as the first argument to <CODE>rule-vertical</CODE>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX623"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>rule-vertical</B> <I>x-coord text tick-width</I>
-<DD><P>
-
-Draws a vertical ruler with X coordinate <VAR>x-coord</VAR> and labeled with string
-<VAR>text</VAR>. If <VAR>tick-width</VAR> is positive, then the ticks are <VAR>tick-width</VAR> long on the right side
-of <VAR>x-coord</VAR>; and <VAR>text</VAR> and numeric legends are on the left. If <VAR>tick-width</VAR> is
-negative, then the ticks are -<VAR>tick-width</VAR> long on the left side of <VAR>x-coord</VAR>; and <VAR>text</VAR>
-and numeric legends are on the right.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX624"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>rule-horizontal</B> <I>x-coord text tick-height</I>
-<DD><P>
-
-Draws a horizontal ruler with X coordinate <VAR>x-coord</VAR> and labeled with
-string <VAR>text</VAR>. If <VAR>tick-height</VAR> is positive, then the ticks are <VAR>tick-height</VAR> long on the
-right side of <VAR>x-coord</VAR>; and <VAR>text</VAR> and numeric legends are on the left. If <VAR>tick-height</VAR>
-is negative, then the ticks are -<VAR>tick-height</VAR> long on the left side of <VAR>x-coord</VAR>; and
-<VAR>text</VAR> and numeric legends are on the right.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX625"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>y-axis</B>
-<DD><P>
-
-Draws the y-axis.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX626"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>x-axis</B>
-<DD><P>
-
-Draws the x-axis.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX627"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>grid-verticals</B>
-<DD><P>
-
-Draws vertical lines through <CODE>graphrect</CODE> at each tick on the
-vertical ruler.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX628"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>grid-horizontals</B>
-<DD><P>
-
-Draws horizontal lines through <CODE>graphrect</CODE> at each tick on the
-horizontal ruler.
-</P>
-</DL>
-<A NAME="Legacy Plotting"></A>
-<HR SIZE="6">
-<A NAME="SEC110"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC109"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC111"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC104"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 5.7.2.6 Legacy Plotting </H4>
-<!--docid::SEC110::-->
-<P>
-
-<A NAME="IDX629"></A>
-</P>
-<DL>
-<DT><U>Variable:</U> <B>graph:dimensions</B>
-<DD><P>
-
-A list of the width and height of the graph to be plotted using
-<CODE>plot</CODE>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX630"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>plot</B> <I>func x1 x2 npts</I>
-<DD><P>
-
-<A NAME="IDX631"></A>
-<DT><U>Function:</U> <B>plot</B> <I>func x1 x2</I>
-<DD>Creates and displays using <CODE>(system &quot;gv tmp.eps&quot;)</CODE> an
-encapsulated PostScript graph of the function of one argument <VAR>func</VAR>
-over the range <VAR>x1</VAR> to <VAR>x2</VAR>. If the optional integer argument <VAR>npts</VAR> is
-supplied, it specifies the number of points to evaluate <VAR>func</VAR> at.
-</P>
-<P>
-
-<A NAME="IDX632"></A>
-<DT><U>Function:</U> <B>plot</B> <I>coords x-label y-label</I>
-<DD><VAR>coords</VAR> is a list or vector of coordinates, lists of x and y
-coordinates. <VAR>x-label</VAR> and <VAR>y-label</VAR> are strings with which
-to label the x and y axes.
-</P>
-</DL>
-<A NAME="Example Graph"></A>
-<HR SIZE="6">
-<A NAME="SEC111"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC110"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC112"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC104"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 5.7.2.7 Example Graph </H4>
-<!--docid::SEC111::-->
-<P>
-
-The file `<TT>am1.5.html</TT>', a table of solar irradiance, is fetched
-with `<SAMP>wget</SAMP>' if it isn't already in the working directory. The
-file is read and stored into an array, <VAR>irradiance</VAR>.
-</P>
-<P>
-
-<CODE>create-postscript-graph</CODE> is then called to create an
-encapsulated-PostScript file, `<TT>solarad.eps</TT>'. The size of the
-page is set to 600 by 300. <CODE>whole-page</CODE> is called and leaves
-the rectangle on the PostScript stack. <CODE>setup-plot</CODE> is called
-with a literal range for x and computes the range for column 1.
-</P>
-<P>
-
-Two calls to <CODE>top-title</CODE> are made so a different font can be
-used for the lower half. <CODE>in-graphic-context</CODE> is used to limit
-the scope of the font change. The graphing area is outlined and a
-rule drawn on the left side.
-</P>
-<P>
-
-Because the X range was intentionally reduced,
-<CODE>in-graphic-context</CODE> is called and <CODE>clip-to-rect</CODE> limits
-drawing to the plotting area. A black line is drawn from data
-column 1. That line is then overlayed with a mountain plot of the
-same column colored &quot;Bright Sun&quot;.
-</P>
-<P>
-
-After returning from the <CODE>in-graphic-context</CODE>, the bottom ruler
-is drawn. Had it been drawn earlier, all its ticks would have been
-painted over by the mountain plot.
-</P>
-<P>
-
-The color is then changed to `<SAMP>seagreen</SAMP>' and the same graphrect
-is setup again, this time with a different Y scale, 0 to 1000. The
-graphic context is again clipped to <VAR>plotrect</VAR>, linedash is set,
-and column 2 is plotted as a dashed line. Finally the rightedge is
-ruled. Having the line and its scale both in green helps
-disambiguate the scales.
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(require 'eps-graph)
-(require 'line-i/o)
-(require 'string-port)
-
-(define irradiance
- (let ((url &quot;http://www.pv.unsw.edu.au/am1.5.html&quot;)
- (file &quot;am1.5.html&quot;))
- (define (read-&gt;list line)
- (define elts '())
- (call-with-input-string line
- (lambda (iprt) (do ((elt (read iprt) (read iprt)))
- ((eof-object? elt) elts)
- (set! elts (cons elt elts))))))
- (if (not (file-exists? file))
- (system (string-append &quot;wget -c -O&quot; file &quot; &quot; url)))
- (call-with-input-file file
- (lambda (iprt)
- (define lines '())
- (do ((line (read-line iprt) (read-line iprt)))
- ((eof-object? line)
- (let ((nra (create-array (Ar64)
- (length lines)
- (length (car lines)))))
- (do ((lns lines (cdr lns))
- (idx (+ -1 (length lines)) (+ -1 idx)))
- ((null? lns) nra)
- (do ((kdx (+ -1 (length (car lines))) (+ -1 kdx))
- (lst (car lns) (cdr lst)))
- ((null? lst))
- (array-set! nra (car lst) idx kdx)))))
- (if (and (positive? (string-length line))
- (char-numeric? (string-ref line 0)))
- (set! lines (cons (read-&gt;list line) lines))))))))
-
-(let ((xrange '(.25 2.5)))
- (create-postscript-graph
- &quot;solarad.eps&quot; '(600 300)
- (whole-page)
- (setup-plot xrange (column-range irradiance 1))
- (title-top
- &quot;Solar Irradiance http://www.pv.unsw.edu.au/am1.5.html&quot;)
- (in-graphic-context
- (set-font &quot;Helvetica-Oblique&quot; 12)
- (title-top
- &quot;&quot;
- &quot;Key Centre for Photovoltaic Engineering UNSW - Air Mass 1.5 Global Spectrum&quot;))
- (outline-rect plotrect)
- (rule-vertical leftedge &quot;W/(m^2.um)&quot; 10)
- (in-graphic-context (clip-to-rect plotrect)
- (plot-column irradiance 0 1 'line)
- (set-color &quot;Bright Sun&quot;)
- (plot-column irradiance 0 1 'mountain)
- )
- (rule-horizontal bottomedge &quot;Wavelength in .um&quot; 5)
- (set-color 'seagreen)
-
- (setup-plot xrange '(0 1000) graphrect)
- (in-graphic-context (clip-to-rect plotrect)
- (set-linedash 5 2)
- (plot-column irradiance 0 2 'line))
- (rule-vertical rightedge &quot;Integrated .W/(m^2)&quot; -10)
- ))
-
-(system &quot;gv solarad.eps&quot;)
-</pre></td></tr></table><P>
-
-<A NAME="Solid Modeling"></A>
-<HR SIZE="6">
-<A NAME="SEC112"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC111"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC118"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 5.8 Solid Modeling </H2>
-<!--docid::SEC112::-->
-<P>
-
-&lt;A NAME=&quot;Solid&quot;&gt;
-<CODE>(require 'solid)</CODE>
-&lt;/A&gt;
-<A NAME="IDX633"></A>
-<A NAME="IDX634"></A>
-<A NAME="IDX635"></A>
-</P>
-<P>
-
-<A HREF="http://swissnet.ai.mit.edu/~jaffer/Solid/#Example">http://swissnet.ai.mit.edu/~jaffer/Solid/#Example</A> gives an
-example use of this package.
-</P>
-<P>
-
-<A NAME="IDX636"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>vrml</B> <I>node <small>...</small></I>
-<DD>Returns the VRML97 string (including header) of the concatenation
-of strings <VAR>nodes</VAR>, <small>...</small>.
-</DL>
-<P>
-
-<A NAME="IDX637"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>vrml-append</B> <I>node1 node2 <small>...</small></I>
-<DD>Returns the concatenation with interdigitated newlines of
-strings <VAR>node1</VAR>, <VAR>node2</VAR>, <small>...</small>.
-</DL>
-<P>
-
-<A NAME="IDX638"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>vrml-to-file</B> <I>file node <small>...</small></I>
-<DD>Writes to file named <VAR>file</VAR> the VRML97 string (including header) of
-the concatenation of strings <VAR>nodes</VAR>, <small>...</small>.
-</DL>
-<P>
-
-<A NAME="IDX639"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>world:info</B> <I>title info <small>...</small></I>
-<DD>Returns a VRML97 string setting the title of the file in which
-it appears to <VAR>title</VAR>. Additional strings <VAR>info</VAR>, <small>...</small> are comments.
-</DL>
-<P>
-
-VRML97 strings passed to <CODE>vrml</CODE> and <CODE>vrml-to-file</CODE> as
-arguments will appear in the resulting VRML code. This string turns
-off the headlight at the viewpoint:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>&quot; NavigationInfo {headlight FALSE}&quot;
-</pre></td></tr></table><P>
-
-<A NAME="IDX640"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>scene:panorama</B> <I>front right back left top bottom</I>
-<DD>Specifies the distant images on the inside faces of the cube
-enclosing the virtual world.
-</DL>
-<P>
-
-<A NAME="IDX641"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>scene:sphere</B> <I>colors angles</I>
-<DD><P>
-
-<VAR>colors</VAR> is a list of color objects. Each may be of type <A HREF="slib_5.html#SEC119">color</A>, a 24-bit sRGB integer, or a list of 3 numbers
-between 0.0 and 1.0.
-</P>
-<P>
-
-<VAR>angles</VAR> is a list of non-increasing angles the same length as
-<VAR>colors</VAR>. Each angle is between 90 and -90 degrees. If 90 or -90 are not
-elements of <VAR>angles</VAR>, then the color at the zenith and nadir are taken from
-the colors paired with the angles nearest them.
-</P>
-<P>
-
-<CODE>scene:sphere</CODE> fills horizontal bands with interpolated colors on the backgroud
-sphere encasing the world.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX642"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>scene:sky-and-dirt</B>
-<DD>Returns a blue and brown backgroud sphere encasing the world.
-</DL>
-<P>
-
-<A NAME="IDX643"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>scene:sky-and-grass</B>
-<DD>Returns a blue and green backgroud sphere encasing the world.
-</DL>
-<P>
-
-<A NAME="IDX644"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>scene:sun</B> <I>latitude julian-day hour turbidity strength</I>
-<DD><P>
-
-<A NAME="IDX645"></A>
-<DT><U>Function:</U> <B>scene:sun</B> <I>latitude julian-day hour turbidity</I>
-<DD></P>
-<P>
-
-<VAR>latitude</VAR> is the virtual place's latitude in degrees. <VAR>julian-day</VAR> is an integer from
-0 to 366, the day of the year. <VAR>hour</VAR> is a real number from 0 to 24 for
-the time of day; 12 is noon. <VAR>turbidity</VAR> is the degree of fogginess described
-in See section <A HREF="slib_5.html#SEC133">turbidity</A>.
-</P>
-<P>
-
-<CODE>scene:sun</CODE> returns a bright yellow, distant sphere where the sun would be at
-<VAR>hour</VAR> on <VAR>julian-day</VAR> at <VAR>latitude</VAR>. If <VAR>strength</VAR> is positive, included is a light source of <VAR>strength</VAR>
-(default 1).
-</P>
-</DL>
-<P>
-
-<A NAME="IDX646"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>scene:overcast</B> <I>latitude julian-day hour turbidity strength</I>
-<DD><P>
-
-<A NAME="IDX647"></A>
-<DT><U>Function:</U> <B>scene:overcast</B> <I>latitude julian-day hour turbidity</I>
-<DD></P>
-<P>
-
-<VAR>latitude</VAR> is the virtual place's latitude in degrees. <VAR>julian-day</VAR> is an integer from
-0 to 366, the day of the year. <VAR>hour</VAR> is a real number from 0 to 24 for
-the time of day; 12 is noon. <VAR>turbidity</VAR> is the degree of cloudiness described
-in See section <A HREF="slib_5.html#SEC133">turbidity</A>.
-</P>
-<P>
-
-<CODE>scene:overcast</CODE> returns an overcast sky as it might look at <VAR>hour</VAR> on <VAR>julian-day</VAR> at <VAR>latitude</VAR>. If <VAR>strength</VAR>
-is positive, included is an ambient light source of <VAR>strength</VAR> (default 1).
-</P>
-</DL>
-Viewpoints are objects in the virtual world, and can be transformed
-individually or with solid objects.
-<P>
-
-<A NAME="IDX648"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>scene:viewpoint</B> <I>name distance compass pitch</I>
-<DD><P>
-
-<A NAME="IDX649"></A>
-<DT><U>Function:</U> <B>scene:viewpoint</B> <I>name distance compass</I>
-<DD>Returns a viewpoint named <VAR>name</VAR> facing the origin and placed <VAR>distance</VAR> from it.
-<VAR>compass</VAR> is a number from 0 to 360 giving the compass heading. <VAR>pitch</VAR> is a
-number from -90 to 90, defaulting to 0, specifying the angle from the
-horizontal.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX650"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>scene:viewpoints</B> <I>proximity</I>
-<DD>Returns 6 viewpoints, one at the center of each face of a cube
-with sides 2 * <VAR>proximity</VAR>, centered on the origin.
-</DL>
-<A NAME="SEC113"></A>
-<H3> Light Sources </H3>
-<!--docid::SEC113::-->
-<P>
-
-In VRML97, lights shine only on objects within the same children node
-and descendants of that node. Although it would have been convenient
-to let light direction be rotated by <CODE>solid:rotation</CODE>, this
-restricts a rotated light's visibility to objects rotated with it.
-</P>
-<P>
-
-To workaround this limitation, these directional light source
-procedures accept either Cartesian or spherical coordinates for
-direction. A spherical coordinate is a list <CODE>(<VAR>theta</VAR>
-<VAR>azimuth</VAR>)</CODE>; where <VAR>theta</VAR> is the angle in degrees from the
-zenith, and <VAR>azimuth</VAR> is the angle in degrees due west of south.
-</P>
-<P>
-
-It is sometimes useful for light sources to be brighter than `<SAMP>1</SAMP>'.
-When <VAR>intensity</VAR> arguments are greater than 1, these functions
-gang multiple sources to reach the desired strength.
-</P>
-<P>
-
-<A NAME="IDX651"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>light:ambient</B> <I>color intensity</I>
-<DD><P>
-
-<A NAME="IDX652"></A>
-<DT><U>Function:</U> <B>light:ambient</B> <I>color</I>
-<DD>Ambient light shines on all surfaces with which it is grouped.
-</P>
-<P>
-
-<VAR>color</VAR> is a an object of type <A HREF="slib_5.html#SEC119">color</A>, a 24-bit sRGB
-integer, or a list of 3 numbers between 0.0 and 1.0. If <VAR>color</VAR> is #f,
-then the default color will be used. <VAR>intensity</VAR> is a real non-negative number
-defaulting to `<SAMP>1</SAMP>'.
-</P>
-<P>
-
-<CODE>light:ambient</CODE> returns a light source or sources of <VAR>color</VAR> with total strength of <VAR>intensity</VAR>
-(or 1 if omitted).
-</P>
-</DL>
-<P>
-
-<A NAME="IDX653"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>light:directional</B> <I>color direction intensity</I>
-<DD><P>
-
-<A NAME="IDX654"></A>
-<DT><U>Function:</U> <B>light:directional</B> <I>color direction</I>
-<DD></P>
-<P>
-
-<A NAME="IDX655"></A>
-<DT><U>Function:</U> <B>light:directional</B> <I>color</I>
-<DD>Directional light shines parallel rays with uniform intensity on all
-objects with which it is grouped.
-</P>
-<P>
-
-<VAR>color</VAR> is a an object of type <A HREF="slib_5.html#SEC119">color</A>, a 24-bit sRGB
-integer, or a list of 3 numbers between 0.0 and 1.0. If <VAR>color</VAR> is #f,
-then the default color will be used.
-</P>
-<P>
-
-<VAR>direction</VAR> must be a list or vector of 2 or 3 numbers specifying the direction
-to this light. If <VAR>direction</VAR> has 2 numbers, then these numbers are the angle
-from zenith and the azimuth in degrees; if <VAR>direction</VAR> has 3 numbers, then
-these are taken as a Cartesian vector specifying the direction to the
-light source. The default direction is upwards; thus its light will
-shine down.
-</P>
-<P>
-
-<VAR>intensity</VAR> is a real non-negative number defaulting to `<SAMP>1</SAMP>'.
-</P>
-<P>
-
-<CODE>light:directional</CODE> returns a light source or sources of <VAR>color</VAR> with total strength of <VAR>intensity</VAR>,
-shining from <VAR>direction</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX656"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>light:beam</B> <I>attenuation radius aperture peak</I>
-<DD><P>
-
-<A NAME="IDX657"></A>
-<DT><U>Function:</U> <B>light:beam</B> <I>attenuation radius aperture</I>
-<DD></P>
-<P>
-
-<A NAME="IDX658"></A>
-<DT><U>Function:</U> <B>light:beam</B> <I>attenuation radius</I>
-<DD></P>
-<P>
-
-<A NAME="IDX659"></A>
-<DT><U>Function:</U> <B>light:beam</B> <I>attenuation</I>
-<DD></P>
-<P>
-
-<VAR>attenuation</VAR> is a list or vector of three nonnegative real numbers specifying
-the reduction of intensity, the reduction of intensity with distance,
-and the reduction of intensity as the square of distance. <VAR>radius</VAR> is the
-distance beyond which the light does not shine. <VAR>radius</VAR> defaults to
-`<SAMP>100</SAMP>'.
-</P>
-<P>
-
-<VAR>aperture</VAR> is a real number between 0 and 180, the angle centered on the
-light's axis through which it sheds some light. <VAR>peak</VAR> is a real number
-between 0 and 90, the angle of greatest illumination.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX660"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>light:point</B> <I>location color intensity beam</I>
-<DD><P>
-
-<A NAME="IDX661"></A>
-<DT><U>Function:</U> <B>light:point</B> <I>location color intensity</I>
-<DD></P>
-<P>
-
-<A NAME="IDX662"></A>
-<DT><U>Function:</U> <B>light:point</B> <I>location color</I>
-<DD></P>
-<P>
-
-<A NAME="IDX663"></A>
-<DT><U>Function:</U> <B>light:point</B> <I>location</I>
-<DD></P>
-<P>
-
-Point light radiates from <VAR>location</VAR>, intensity decreasing with distance,
-towards all objects with which it is grouped.
-</P>
-<P>
-
-<VAR>color</VAR> is a an object of type <A HREF="slib_5.html#SEC119">color</A>, a 24-bit sRGB
-integer, or a list of 3 numbers between 0.0 and 1.0. If <VAR>color</VAR> is #f,
-then the default color will be used. <VAR>intensity</VAR> is a real non-negative number
-defaulting to `<SAMP>1</SAMP>'. <VAR>beam</VAR> is a structure returned by
-<CODE>light:beam</CODE> or #f.
-</P>
-<P>
-
-<CODE>light:point</CODE> returns a light source or sources at <VAR>location</VAR> of <VAR>color</VAR> with total strength
-<VAR>intensity</VAR> and <VAR>beam</VAR> properties. Note that the pointlight itself is not visible.
-To make it so, place an object with emissive appearance at <VAR>location</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX664"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>light:spot</B> <I>location direction color intensity beam</I>
-<DD><P>
-
-<A NAME="IDX665"></A>
-<DT><U>Function:</U> <B>light:spot</B> <I>location direction color intensity</I>
-<DD></P>
-<P>
-
-<A NAME="IDX666"></A>
-<DT><U>Function:</U> <B>light:spot</B> <I>location direction color</I>
-<DD></P>
-<P>
-
-<A NAME="IDX667"></A>
-<DT><U>Function:</U> <B>light:spot</B> <I>location direction</I>
-<DD></P>
-<P>
-
-<A NAME="IDX668"></A>
-<DT><U>Function:</U> <B>light:spot</B> <I>location</I>
-<DD></P>
-<P>
-
-Spot light radiates from <VAR>location</VAR> towards <VAR>direction</VAR>, intensity decreasing with
-distance, illuminating objects with which it is grouped.
-</P>
-<P>
-
-<VAR>direction</VAR> must be a list or vector of 2 or 3 numbers specifying the direction
-to this light. If <VAR>direction</VAR> has 2 numbers, then these numbers are the angle
-from zenith and the azimuth in degrees; if <VAR>direction</VAR> has 3 numbers, then
-these are taken as a Cartesian vector specifying the direction to the
-light source. The default direction is upwards; thus its light will
-shine down.
-</P>
-<P>
-
-<VAR>color</VAR> is a an object of type <A HREF="slib_5.html#SEC119">color</A>, a 24-bit sRGB
-integer, or a list of 3 numbers between 0.0 and 1.0. If <VAR>color</VAR> is #f,
-then the default color will be used.
-</P>
-<P>
-
-<VAR>intensity</VAR> is a real non-negative number defaulting to `<SAMP>1</SAMP>'.
-</P>
-<P>
-
-<CODE>light:spot</CODE> returns a light source or sources at <VAR>location</VAR> of <VAR>direction</VAR> with total strength
-<VAR>color</VAR>. Note that the spotlight itself is not visible. To make it so,
-place an object with emissive appearance at <VAR>location</VAR>.
-</P>
-</DL>
-<A NAME="SEC114"></A>
-<H3> Object Primitives </H3>
-<!--docid::SEC114::-->
-<P>
-
-<A NAME="IDX669"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>solid:box</B> <I>geometry appearance</I>
-<DD><P>
-
-<A NAME="IDX670"></A>
-<DT><U>Function:</U> <B>solid:box</B> <I>geometry</I>
-<DD><VAR>geometry</VAR> must be a number or a list or vector of three numbers. If <VAR>geometry</VAR> is a
-number, the <CODE>solid:box</CODE> returns a cube with sides of length <VAR>geometry</VAR> centered on the
-origin. Otherwise, <CODE>solid:box</CODE> returns a rectangular box with dimensions <VAR>geometry</VAR>
-centered on the origin. <VAR>appearance</VAR> determines the surface properties of the
-returned object.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX671"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>solid:cylinder</B> <I>radius height appearance</I>
-<DD><P>
-
-<A NAME="IDX672"></A>
-<DT><U>Function:</U> <B>solid:cylinder</B> <I>radius height</I>
-<DD>Returns a right cylinder with dimensions <VAR>radius</VAR> and <CODE>(abs <VAR>height</VAR>)</CODE>
-centered on the origin. If <VAR>height</VAR> is positive, then the cylinder ends
-will be capped. <VAR>appearance</VAR> determines the surface properties of the returned
-object.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX673"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>solid:disk</B> <I>radius thickness appearance</I>
-<DD><P>
-
-<A NAME="IDX674"></A>
-<DT><U>Function:</U> <B>solid:disk</B> <I>radius thickness</I>
-<DD><VAR>thickness</VAR> must be a positive real number. <CODE>solid:disk</CODE> returns a circular disk
-with dimensions <VAR>radius</VAR> and <VAR>thickness</VAR> centered on the origin. <VAR>appearance</VAR> determines the
-surface properties of the returned object.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX675"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>solid:cone</B> <I>radius height appearance</I>
-<DD><P>
-
-<A NAME="IDX676"></A>
-<DT><U>Function:</U> <B>solid:cone</B> <I>radius height</I>
-<DD>Returns an isosceles cone with dimensions <VAR>radius</VAR> and <VAR>height</VAR> centered on
-the origin. <VAR>appearance</VAR> determines the surface properties of the returned
-object.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX677"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>solid:pyramid</B> <I>side height appearance</I>
-<DD><P>
-
-<A NAME="IDX678"></A>
-<DT><U>Function:</U> <B>solid:pyramid</B> <I>side height</I>
-<DD>Returns an isosceles pyramid with dimensions <VAR>side</VAR> and <VAR>height</VAR> centered on
-the origin. <VAR>appearance</VAR> determines the surface properties of the returned
-object.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX679"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>solid:sphere</B> <I>radius appearance</I>
-<DD><P>
-
-<A NAME="IDX680"></A>
-<DT><U>Function:</U> <B>solid:sphere</B> <I>radius</I>
-<DD>Returns a sphere of radius <VAR>radius</VAR> centered on the origin. <VAR>appearance</VAR> determines
-the surface properties of the returned object.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX681"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>solid:ellipsoid</B> <I>geometry appearance</I>
-<DD><P>
-
-<A NAME="IDX682"></A>
-<DT><U>Function:</U> <B>solid:ellipsoid</B> <I>geometry</I>
-<DD><VAR>geometry</VAR> must be a number or a list or vector of three numbers. If <VAR>geometry</VAR> is a
-number, the <CODE>solid:ellipsoid</CODE> returns a sphere of diameter <VAR>geometry</VAR> centered on the origin.
-Otherwise, <CODE>solid:ellipsoid</CODE> returns an ellipsoid with diameters <VAR>geometry</VAR> centered on the
-origin. <VAR>appearance</VAR> determines the surface properties of the returned object.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX683"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>solid:basrelief</B> <I>width height depth colorray appearance</I>
-<DD><P>
-
-<A NAME="IDX684"></A>
-<DT><U>Function:</U> <B>solid:basrelief</B> <I>width height depth appearance</I>
-<DD></P>
-<P>
-
-<A NAME="IDX685"></A>
-<DT><U>Function:</U> <B>solid:basrelief</B> <I>width height depth</I>
-<DD>One of <VAR>width</VAR>, <VAR>height</VAR>, or <VAR>depth</VAR> must be a 2-dimensional array; the others must
-be real numbers giving the length of the basrelief in those
-dimensions. The rest of this description assumes that <VAR>height</VAR> is an
-array of heights.
-</P>
-<P>
-
-<CODE>solid:basrelief</CODE> returns a <VAR>width</VAR> by <VAR>depth</VAR> basrelief solid with heights per array <VAR>height</VAR> with
-the buttom surface centered on the origin.
-</P>
-<P>
-
-If present, <VAR>appearance</VAR> determines the surface properties of the returned
-object. If present, <VAR>colorray</VAR> must be an array of objects of type
-<A HREF="slib_5.html#SEC119">color</A>, 24-bit sRGB integers or lists of 3
-numbers between 0.0 and 1.0.
-</P>
-<P>
-
-If <VAR>colorray</VAR>'s dimensions match <VAR>height</VAR>, then each element of <VAR>colorray</VAR> paints its
-corresponding vertex of <VAR>height</VAR>. If <VAR>colorray</VAR> has all dimensions one smaller
-than <VAR>height</VAR>, then each element of <VAR>colorray</VAR> paints the corresponding face of
-<VAR>height</VAR>. Other dimensions for <VAR>colorray</VAR> are in error.
-</P>
-</DL>
-<A NAME="SEC115"></A>
-<H3> Surface Attributes </H3>
-<!--docid::SEC115::-->
-<P>
-
-<A NAME="IDX686"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>solid:color</B> <I>diffuseColor ambientIntensity specularColor shininess emissiveColor transparency</I>
-<DD><P>
-
-<A NAME="IDX687"></A>
-<DT><U>Function:</U> <B>solid:color</B> <I>diffuseColor ambientIntensity specularColor shininess emissiveColor</I>
-<DD></P>
-<P>
-
-<A NAME="IDX688"></A>
-<DT><U>Function:</U> <B>solid:color</B> <I>diffuseColor ambientIntensity specularColor shininess</I>
-<DD></P>
-<P>
-
-<A NAME="IDX689"></A>
-<DT><U>Function:</U> <B>solid:color</B> <I>diffuseColor ambientIntensity specularColor</I>
-<DD></P>
-<P>
-
-<A NAME="IDX690"></A>
-<DT><U>Function:</U> <B>solid:color</B> <I>diffuseColor ambientIntensity</I>
-<DD></P>
-<P>
-
-<A NAME="IDX691"></A>
-<DT><U>Function:</U> <B>solid:color</B> <I>diffuseColor</I>
-<DD></P>
-<P>
-
-Returns an <EM>appearance</EM>, the optical properties of the objects
-<A NAME="IDX692"></A>
-with which it is associated. <VAR>ambientIntensity</VAR>, <VAR>shininess</VAR>, and <VAR>transparency</VAR> must be numbers between 0
-and 1. <VAR>diffuseColor</VAR>, <VAR>specularColor</VAR>, and <VAR>emissiveColor</VAR> are objects of type <A HREF="slib_5.html#SEC119">color</A>,
-24-bit sRGB integers or lists of 3 numbers between 0.0 and 1.0.
-If a color argument is omitted or #f, then the default color will be used.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX693"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>solid:texture</B> <I>image color scale rotation center translation</I>
-<DD><P>
-
-<A NAME="IDX694"></A>
-<DT><U>Function:</U> <B>solid:texture</B> <I>image color scale rotation center</I>
-<DD></P>
-<P>
-
-<A NAME="IDX695"></A>
-<DT><U>Function:</U> <B>solid:texture</B> <I>image color scale rotation</I>
-<DD></P>
-<P>
-
-<A NAME="IDX696"></A>
-<DT><U>Function:</U> <B>solid:texture</B> <I>image color scale</I>
-<DD></P>
-<P>
-
-<A NAME="IDX697"></A>
-<DT><U>Function:</U> <B>solid:texture</B> <I>image color</I>
-<DD></P>
-<P>
-
-<A NAME="IDX698"></A>
-<DT><U>Function:</U> <B>solid:texture</B> <I>image</I>
-<DD></P>
-<P>
-
-Returns an <EM>appearance</EM>, the optical properties of the objects
-<A NAME="IDX699"></A>
-with which it is associated. <VAR>image</VAR> is a string naming a JPEG or PNG
-image resource. <VAR>color</VAR> is #f, a color, or the string returned by
-<CODE>solid:color</CODE>. The rest of the optional arguments specify
-2-dimensional transforms applying to the <VAR>image</VAR>.
-</P>
-<P>
-
-<VAR>scale</VAR> must be #f, a number, or list or vector of 2 numbers specifying the
-scale to apply to <VAR>image</VAR>. <VAR>rotation</VAR> must be #f or the number of degrees to
-rotate <VAR>image</VAR>. <VAR>center</VAR> must be #f or a list or vector of 2 numbers specifying
-the center of <VAR>image</VAR> relative to the <VAR>image</VAR> dimensions. <VAR>translation</VAR> must be #f or a
-list or vector of 2 numbers specifying the translation to apply to <VAR>image</VAR>.
-</P>
-</DL>
-<A NAME="SEC116"></A>
-<H3> Aggregating Objects </H3>
-<!--docid::SEC116::-->
-<P>
-
-<A NAME="IDX700"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>solid:center-row-of</B> <I>number solid spacing</I>
-<DD>Returns a row of <VAR>number</VAR> <VAR>solid</VAR> objects spaced evenly <VAR>spacing</VAR> apart.
-</DL>
-<P>
-
-<A NAME="IDX701"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>solid:center-array-of</B> <I>number-a number-b solid spacing-a spacing-b</I>
-<DD>Returns <VAR>number-b</VAR> rows, <VAR>spacing-b</VAR> apart, of <VAR>number-a</VAR> <VAR>solid</VAR> objects <VAR>spacing-a</VAR> apart.
-</DL>
-<P>
-
-<A NAME="IDX702"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>solid:center-pile-of</B> <I>number-a number-b number-c solid spacing-a spacing-b spacing-c</I>
-<DD>Returns <VAR>number-c</VAR> planes, <VAR>spacing-c</VAR> apart, of <VAR>number-b</VAR> rows, <VAR>spacing-b</VAR> apart, of <VAR>number-a</VAR> <VAR>solid</VAR> objects <VAR>spacing-a</VAR> apart.
-</DL>
-<P>
-
-<A NAME="IDX703"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>solid:arrow</B> <I>center</I>
-<DD><P>
-
-<VAR>center</VAR> must be a list or vector of three numbers. Returns an upward
-pointing metallic arrow centered at <VAR>center</VAR>.
-</P>
-<P>
-
-<A NAME="IDX704"></A>
-<DT><U>Function:</U> <B>solid:arrow</B>
-<DD>Returns an upward pointing metallic arrow centered at the origin.
-</P>
-</DL>
-<A NAME="SEC117"></A>
-<H3> Spatial Transformations </H3>
-<!--docid::SEC117::-->
-<P>
-
-<A NAME="IDX705"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>solid:translation</B> <I>center solid <small>...</small></I>
-<DD><VAR>center</VAR> must be a list or vector of three numbers. <CODE>solid:translation</CODE> Returns an
-aggregate of <VAR>solids</VAR>, <small>...</small> with their origin moved to <VAR>center</VAR>.
-</DL>
-<P>
-
-<A NAME="IDX706"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>solid:scale</B> <I>scale solid <small>...</small></I>
-<DD><VAR>scale</VAR> must be a number or a list or vector of three numbers. <CODE>solid:scale</CODE>
-Returns an aggregate of <VAR>solids</VAR>, <small>...</small> scaled per <VAR>scale</VAR>.
-</DL>
-<P>
-
-<A NAME="IDX707"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>solid:rotation</B> <I>axis angle solid <small>...</small></I>
-<DD><VAR>axis</VAR> must be a list or vector of three numbers. <CODE>solid:rotation</CODE> Returns an
-aggregate of <VAR>solids</VAR>, <small>...</small> rotated <VAR>angle</VAR> degrees around the axis <VAR>axis</VAR>.
-</DL>
-<P>
-
-<A NAME="Color"></A>
-<HR SIZE="6">
-<A NAME="SEC118"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC112"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC119"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 5.9 Color </H2>
-<!--docid::SEC118::-->
-<P>
-
-&lt;A NAME=&quot;Color&quot;&gt;&lt;/A&gt;
-</P>
-<P>
-
-<A HREF="http://swissnet.ai.mit.edu/~jaffer/Color">http://swissnet.ai.mit.edu/~jaffer/Color</A>
-</P>
-<P>
-
-The goals of this package are to provide methods to specify, compute,
-and transform colors in a core set of additive color spaces. The color
-spaces supported should be sufficient for working with the color data
-encountered in practice and the literature.
-</P>
-<P>
-
-<TABLE BORDER="0" CELLSPACING="0">
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_5.html#SEC119">5.9.1 Color Data-Type</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'color</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_5.html#SEC122">5.9.2 Color Spaces</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">XYZ, L*a*b*, L*u*v*, L*C*h, RGB709, sRGB</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_5.html#SEC127">5.9.3 Spectra</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">Color Temperatures and CIEXYZ(1931)</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_5.html#SEC128">5.9.4 Color Difference Metrics</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">Society of Dyers and Colorists</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_5.html#SEC129">5.9.5 Color Conversions</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">Low-level</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_5.html#SEC130">5.9.6 Color Names</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">in relational databases</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_5.html#SEC133">5.9.7 Daylight</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">Sunlight and sky colors</TD></TR>
-</TABLE>
-<P>
-
-<A NAME="Color Data-Type"></A>
-<HR SIZE="6">
-<A NAME="SEC119"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC118"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC120"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC118"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 5.9.1 Color Data-Type </H3>
-<!--docid::SEC119::-->
-<P>
-
-&lt;A NAME=&quot;Color_Data-Type&quot;&gt;&lt;/A&gt;
-<CODE>(require 'color)</CODE>
-</P>
-<P>
-
-<A NAME="IDX708"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>color?</B> <I>obj</I>
-<DD>Returns #t if <VAR>obj</VAR> is a color.
-<P>
-
-<A NAME="IDX709"></A>
-<DT><U>Function:</U> <B>color?</B> <I>obj typ</I>
-<DD>Returns #t if <VAR>obj</VAR> is a color of color-space <VAR>typ</VAR>. The symbol
-<VAR>typ</VAR> must be one of:
-</P>
-<P>
-
-<UL>
-<LI>
-CIEXYZ
-<LI>
-RGB709
-<LI>
-L*a*b*
-<LI>
-L*u*v*
-<LI>
-sRGB
-<LI>
-e-sRGB
-<LI>
-L*C*h
-</UL>
-</DL>
-<P>
-
-<A NAME="IDX710"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>make-color</B> <I>space arg <small>...</small></I>
-<DD>Returns a color of type <VAR>space</VAR>.
-</DL>
-<P>
-
-<A NAME="IDX711"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>color-space</B> <I>color</I>
-<DD>Returns the symbol for the color-space in which <VAR>color</VAR> is embedded.
-</DL>
-<P>
-
-<A NAME="IDX712"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>color-precision</B> <I>color</I>
-<DD>For colors in digital color-spaces, <CODE>color-precision</CODE> returns the
-number of bits used for each of the R, G, and B channels of the
-encoding. Otherwise, <CODE>color-precision</CODE> returns #f
-</DL>
-<P>
-
-<A NAME="IDX713"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>color-white-point</B> <I>color</I>
-<DD>Returns the white-point of <VAR>color</VAR> in all color-spaces except CIEXYZ.
-</DL>
-<P>
-
-<A NAME="IDX714"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>convert-color</B> <I>color space white-point</I>
-<DD><A NAME="IDX715"></A>
-<DT><U>Function:</U> <B>convert-color</B> <I>color space</I>
-<DD><A NAME="IDX716"></A>
-<DT><U>Function:</U> <B>convert-color</B> <I>color e-sRGB precision</I>
-<DD>Converts <VAR>color</VAR> into <VAR>space</VAR> at optional <VAR>white-point</VAR>.
-</DL>
-<P>
-
-<HR SIZE="6">
-<A NAME="SEC120"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC119"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC121"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC118"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 5.9.1.1 External Representation </H4>
-<!--docid::SEC120::-->
-<P>
-
-Each color encoding has an external, case-insensitive representation.
-To ensure portability, the white-point for all color strings is D65.
-<A NAME="DOCF4" HREF="slib_fot.html#FOOT4">(4)</A>
-</P>
-<P>
-
-</P>
-<TABLE>
-<TR><TD>Color Space</TD>
-</TD><TD> External Representation
-</TR>
-<TR><TD>CIEXYZ</TD>
-</TD><TD> CIEXYZ:<I>&lt;X&gt;</I>/<I>&lt;Y&gt;</I>/<I>&lt;Z&gt;</I>
-</TR>
-<TR><TD>RGB709</TD>
-</TD><TD> RGBi:<I>&lt;R&gt;</I>/<I>&lt;G&gt;</I>/<I>&lt;B&gt;</I>
-</TR>
-<TR><TD>L*a*b*</TD>
-</TD><TD> CIELAB:<I>&lt;L&gt;</I>/<I>&lt;a&gt;</I>/<I>&lt;b&gt;</I>
-</TR>
-<TR><TD>L*u*v*</TD>
-</TD><TD> CIELuv:<I>&lt;L&gt;</I>/<I>&lt;u&gt;</I>/<I>&lt;v&gt;</I>
-</TR>
-<TR><TD>L*C*h</TD>
-</TD><TD> CIELCh:<I>&lt;L&gt;</I>/<I>&lt;C&gt;</I>/<I>&lt;h&gt;</I>
-</TR></TABLE>
-<P>
-
-The <VAR>X</VAR>, <VAR>Y</VAR>, <VAR>Z</VAR>, <VAR>L</VAR>, <VAR>a</VAR>, <VAR>b</VAR>, <VAR>u</VAR>,
-<VAR>v</VAR>, <VAR>C</VAR>, <VAR>h</VAR>, <VAR>R</VAR>, <VAR>G</VAR>, and <VAR>B</VAR> fields are
-(Scheme) real numbers within the appropriate ranges.
-</P>
-<P>
-
-</P>
-<TABLE>
-<TR><TD>Color Space</TD>
-</TD><TD> External Representation
-</TR>
-<TR><TD>sRGB</TD>
-</TD><TD> sRGB:<I>&lt;R&gt;</I>/<I>&lt;G&gt;</I>/<I>&lt;B&gt;</I>
-</TR>
-<TR><TD>e-sRGB10</TD>
-</TD><TD> e-sRGB10:<I>&lt;R&gt;</I>/<I>&lt;G&gt;</I>/<I>&lt;B&gt;</I>
-</TR>
-<TR><TD>e-sRGB12</TD>
-</TD><TD> e-sRGB12:<I>&lt;R&gt;</I>/<I>&lt;G&gt;</I>/<I>&lt;B&gt;</I>
-</TR>
-<TR><TD>e-sRGB16</TD>
-</TD><TD> e-sRGB16:<I>&lt;R&gt;</I>/<I>&lt;G&gt;</I>/<I>&lt;B&gt;</I>
-</TR></TABLE>
-<P>
-
-The <VAR>R</VAR>, <VAR>G</VAR>, and <VAR>B</VAR>, fields are non-negative exact decimal
-integers within the appropriate ranges.
-</P>
-<P>
-
-Several additional syntaxes are supported by <CODE>string-&gt;color</CODE>:
-</P>
-<P>
-
-</P>
-<TABLE>
-<TR><TD>Color Space</TD>
-</TD><TD> External Representation
-</TR>
-<TR><TD>sRGB</TD>
-</TD><TD> sRGB:<I>&lt;RRGGBB&gt;</I>
-</TR>
-<TR><TD>sRGB</TD>
-</TD><TD> #<I>&lt;RRGGBB&gt;</I>
-</TR>
-<TR><TD>sRGB</TD>
-</TD><TD> 0x<I>&lt;RRGGBB&gt;</I>
-</TR>
-<TR><TD>sRGB</TD>
-</TD><TD> #x<I>&lt;RRGGBB&gt;</I>
-</TR></TABLE>
-<P>
-
-Where <VAR>RRGGBB</VAR> is a non-negative six-digit hexadecimal number.
-</P>
-<P>
-
-<A NAME="IDX717"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>color-&gt;string</B> <I>color</I>
-<DD>Returns a string representation of <VAR>color</VAR>.
-</DL>
-<P>
-
-<A NAME="IDX718"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>string-&gt;color</B> <I>string</I>
-<DD>Returns the color represented by <VAR>string</VAR>. If <VAR>string</VAR> is not a
-syntactically valid notation for a color, then <CODE>string-&gt;color</CODE>
-returns #f.
-</DL>
-<P>
-
-<HR SIZE="6">
-<A NAME="SEC121"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC120"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC122"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC118"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 5.9.1.2 White </H4>
-<!--docid::SEC121::-->
-<P>
-
-We experience color relative to the illumination around us.
-CIEXYZ coordinates, although subject to uniform scaling, are
-objective. Thus other color spaces are specified relative to a
-<A NAME="IDX719"></A>
-<EM>white point</EM> in CIEXYZ coordinates.
-<A NAME="IDX720"></A>
-</P>
-<P>
-
-The white point for digital color spaces is set to D65. For the other
-spaces a <VAR>white-point</VAR> argument can be specified. The default if
-none is specified is the white-point with which the color was created
-or last converted; and D65 if none has been specified.
-</P>
-<P>
-
-<A NAME="IDX721"></A>
-</P>
-<DL>
-<DT><U>Constant:</U> <B>D65</B>
-<DD>Is the color of 6500.K (blackbody) illumination. D65 is close
-to the average color of daylight.
-</DL>
-<P>
-
-<A NAME="IDX722"></A>
-</P>
-<DL>
-<DT><U>Constant:</U> <B>D50</B>
-<DD>Is the color of 5000.K (blackbody) illumination. D50 is the color of
-indoor lighting by incandescent bulbs, whose filaments have
-temperatures around 5000.K.
-</DL>
-<P>
-
-<A NAME="Color Spaces"></A>
-<HR SIZE="6">
-<A NAME="SEC122"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC121"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC127"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC118"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 5.9.2 Color Spaces </H3>
-<!--docid::SEC122::-->
-<P>
-
-&lt;A NAME=&quot;Color_Spaces&quot;&gt;&lt;/A&gt;
-<A NAME="SEC123"></A>
-<H4> Measurement-based Color Spaces </H4>
-<!--docid::SEC123::-->
-<P>
-
-<A NAME="IDX723"></A>
-The <EM>tristimulus</EM> color spaces are those whose component values
-<A NAME="IDX724"></A>
-are proportional measurements of light intensity. The CIEXYZ(1931)
-system provides 3 sets of spectra to convolve with a spectrum of
-interest. The result of those convolutions is coordinates in CIEXYZ
-space. All tristimuls color spaces are related to CIEXYZ by linear
-transforms, namely matrix multiplication. Of the color spaces listed
-here, CIEXYZ and RGB709 are tristimulus spaces.
-</P>
-<P>
-
-<A NAME="IDX725"></A>
-</P>
-<DL>
-<DT><U>Color Space:</U> <B>CIEXYZ</B>
-<DD>The CIEXYZ color space covers the full <EM>gamut</EM>.
-<A NAME="IDX726"></A>
-It is the basis for color-space conversions.
-<P>
-
-CIEXYZ is a list of three inexact numbers between 0 and 1.1.
-'(0. 0. 0.) is black; '(1. 1. 1.) is white.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX727"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>ciexyz-&gt;color</B> <I>xyz</I>
-<DD><P>
-
-<VAR>xyz</VAR> must be a list of 3 numbers. If <VAR>xyz</VAR> is valid CIEXYZ coordinates,
-then <CODE>ciexyz-&gt;color</CODE> returns the color specified by <VAR>xyz</VAR>; otherwise returns #f.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX728"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>color:ciexyz</B> <I>x y z</I>
-<DD><P>
-
-Returns the CIEXYZ color composed of <VAR>x</VAR>, <VAR>y</VAR>, <VAR>z</VAR>. If the
-coordinates do not encode a valid CIEXYZ color, then an error is
-signaled.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX729"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>color-&gt;ciexyz</B> <I>color</I>
-<DD>Returns the list of 3 numbers encoding <VAR>color</VAR> in CIEXYZ.
-</DL>
-<A NAME="IDX730"></A>
-<DL>
-<DT><U>Color Space:</U> <B>RGB709</B>
-<DD>BT.709-4 (03/00) <CITE>Parameter values for the HDTV standards for
-production and international programme exchange</CITE> specifies parameter
-values for chromaticity, sampling, signal format, frame rates, etc., of
-high definition television signals.
-<P>
-
-An RGB709 color is represented by a list of three inexact numbers
-between 0 and 1. '(0. 0. 0.) is black '(1. 1. 1.) is white.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX731"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>rgb709-&gt;color</B> <I>rgb</I>
-<DD><P>
-
-<VAR>rgb</VAR> must be a list of 3 numbers. If <VAR>rgb</VAR> is valid RGB709 coordinates,
-then <CODE>rgb709-&gt;color</CODE> returns the color specified by <VAR>rgb</VAR>; otherwise returns #f.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX732"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>color:rgb709</B> <I>r g b</I>
-<DD><P>
-
-Returns the RGB709 color composed of <VAR>r</VAR>, <VAR>g</VAR>, <VAR>b</VAR>. If the
-coordinates do not encode a valid RGB709 color, then an error is
-signaled.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX733"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>color-&gt;rgb709</B> <I>color</I>
-<DD>Returns the list of 3 numbers encoding <VAR>color</VAR> in RGB709.
-</DL>
-<A NAME="SEC124"></A>
-<H4> Perceptual Uniformity </H4>
-<!--docid::SEC124::-->
-<P>
-
-Although properly encoding the chromaticity, tristimulus spaces do not
-match the logarithmic response of human visual systems to intensity.
-Minimum detectable differences between colors correspond to a smaller
-range of distances (6:1) in the L*a*b* and L*u*v* spaces than in
-tristimulus spaces (80:1). For this reason, color distances are
-computed in L*a*b* (or L*C*h).
-</P>
-<P>
-
-<A NAME="IDX734"></A>
-</P>
-<DL>
-<DT><U>Color Space:</U> <B>L*a*b*</B>
-<DD>Is a CIE color space which better matches the human visual system's
-perception of color. It is a list of three numbers:
-<P>
-
-<UL>
-<LI>
-0 &lt;= L* &lt;= 100 (CIE <EM>Lightness</EM>)
-<A NAME="IDX735"></A>
-<P>
-
-</P>
-<LI>
--500 &lt;= a* &lt;= 500
-<LI>
--200 &lt;= b* &lt;= 200
-</UL>
-</DL>
-<P>
-
-<A NAME="IDX736"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>l*a*b*-&gt;color</B> <I>L*a*b* white-point</I>
-<DD><P>
-
-<VAR>L*a*b*</VAR> must be a list of 3 numbers. If <VAR>L*a*b*</VAR> is valid L*a*b* coordinates,
-then <CODE>l*a*b*-&gt;color</CODE> returns the color specified by <VAR>L*a*b*</VAR>; otherwise returns #f.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX737"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>color:l*a*b*</B> <I>L* a* b* white-point</I>
-<DD><P>
-
-Returns the L*a*b* color composed of <VAR>L*</VAR>, <VAR>a*</VAR>, <VAR>b*</VAR> with <VAR>white-point</VAR>.
-</P>
-<P>
-
-<A NAME="IDX738"></A>
-<DT><U>Function:</U> <B>color:l*a*b*</B> <I>L* a* b*</I>
-<DD>Returns the L*a*b* color composed of <VAR>L*</VAR>, <VAR>a*</VAR>, <VAR>b*</VAR>. If the coordinates
-do not encode a valid L*a*b* color, then an error is signaled.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX739"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>color-&gt;l*a*b*</B> <I>color white-point</I>
-<DD><P>
-
-Returns the list of 3 numbers encoding <VAR>color</VAR> in L*a*b* with <VAR>white-point</VAR>.
-</P>
-<P>
-
-<A NAME="IDX740"></A>
-<DT><U>Function:</U> <B>color-&gt;l*a*b*</B> <I>color</I>
-<DD>Returns the list of 3 numbers encoding <VAR>color</VAR> in L*a*b*.
-</P>
-</DL>
-<A NAME="IDX741"></A>
-<DL>
-<DT><U>Color Space:</U> <B>L*u*v*</B>
-<DD>Is another CIE encoding designed to better match the human visual
-system's perception of color.
-</DL>
-<P>
-
-<A NAME="IDX742"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>l*u*v*-&gt;color</B> <I>L*u*v* white-point</I>
-<DD><P>
-
-<VAR>L*u*v*</VAR> must be a list of 3 numbers. If <VAR>L*u*v*</VAR> is valid L*u*v* coordinates,
-then <CODE>l*u*v*-&gt;color</CODE> returns the color specified by <VAR>L*u*v*</VAR>; otherwise returns #f.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX743"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>color:l*u*v*</B> <I>L* u* v* white-point</I>
-<DD><P>
-
-Returns the L*u*v* color composed of <VAR>L*</VAR>, <VAR>u*</VAR>, <VAR>v*</VAR> with <VAR>white-point</VAR>.
-</P>
-<P>
-
-<A NAME="IDX744"></A>
-<DT><U>Function:</U> <B>color:l*u*v*</B> <I>L* u* v*</I>
-<DD>Returns the L*u*v* color composed of <VAR>L*</VAR>, <VAR>u*</VAR>, <VAR>v*</VAR>. If the coordinates
-do not encode a valid L*u*v* color, then an error is signaled.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX745"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>color-&gt;l*u*v*</B> <I>color white-point</I>
-<DD><P>
-
-Returns the list of 3 numbers encoding <VAR>color</VAR> in L*u*v* with <VAR>white-point</VAR>.
-</P>
-<P>
-
-<A NAME="IDX746"></A>
-<DT><U>Function:</U> <B>color-&gt;l*u*v*</B> <I>color</I>
-<DD>Returns the list of 3 numbers encoding <VAR>color</VAR> in L*u*v*.
-</P>
-</DL>
-<A NAME="SEC125"></A>
-<H4> Cylindrical Coordinates </H4>
-<!--docid::SEC125::-->
-<P>
-
-HSL (Hue Saturation Lightness), HSV (Hue Saturation Value), HSI (Hue
-Saturation Intensity) and HCI (Hue Chroma Intensity) are cylindrical
-color spaces (with angle hue). But these spaces are all defined in
-terms device-dependent RGB spaces.
-</P>
-<P>
-
-One might wonder if there is some fundamental reason why intuitive
-specification of color must be device-dependent. But take heart! A
-cylindrical system can be based on L*a*b* and is used for predicting how
-close colors seem to observers.
-</P>
-<P>
-
-<A NAME="IDX747"></A>
-</P>
-<DL>
-<DT><U>Color Space:</U> <B>L*C*h</B>
-<DD>Expresses the *a and b* of L*a*b* in polar coordinates. It is a list of
-three numbers:
-<P>
-
-<UL>
-<LI>
-0 &lt;= L* &lt;= 100 (CIE <EM>Lightness</EM>)
-<A NAME="IDX748"></A>
-<P>
-
-</P>
-<LI>
-C* (CIE <EM>Chroma</EM>) is the distance from the neutral (gray) axis.
-<A NAME="IDX749"></A>
-<LI>
-0 &lt;= h &lt;= 360 (CIE <EM>Hue</EM>) is the angle.
-<A NAME="IDX750"></A>
-</UL>
-<P>
-
-The colors by quadrant of h are:
-</P>
-<P>
-
-</P>
-<TABLE>
-<TR><TD>0 </TD><TD> red, orange, yellow </TD><TD> 90</TD>
-</TR>
-<TR><TD>90 </TD><TD> yellow, yellow-green, green </TD><TD> 180</TD>
-</TR>
-<TR><TD>180 </TD><TD> green, cyan (blue-green), blue </TD><TD> 270</TD>
-</TR>
-<TR><TD>270 </TD><TD> blue, purple, magenta </TD><TD> 360</TD>
-</TR></TABLE>
-<P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX751"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>l*c*h-&gt;color</B> <I>L*C*h white-point</I>
-<DD><P>
-
-<VAR>L*C*h</VAR> must be a list of 3 numbers. If <VAR>L*C*h</VAR> is valid L*C*h coordinates,
-then <CODE>l*c*h-&gt;color</CODE> returns the color specified by <VAR>L*C*h</VAR>; otherwise returns #f.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX752"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>color:l*c*h</B> <I>L* C* h white-point</I>
-<DD><P>
-
-Returns the L*C*h color composed of <VAR>L*</VAR>, <VAR>C*</VAR>, <VAR>h</VAR> with <VAR>white-point</VAR>.
-</P>
-<P>
-
-<A NAME="IDX753"></A>
-<DT><U>Function:</U> <B>color:l*c*h</B> <I>L* C* h</I>
-<DD>Returns the L*C*h color composed of <VAR>L*</VAR>, <VAR>C*</VAR>, <VAR>h</VAR>. If the coordinates
-do not encode a valid L*C*h color, then an error is signaled.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX754"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>color-&gt;l*c*h</B> <I>color white-point</I>
-<DD><P>
-
-Returns the list of 3 numbers encoding <VAR>color</VAR> in L*C*h with <VAR>white-point</VAR>.
-</P>
-<P>
-
-<A NAME="IDX755"></A>
-<DT><U>Function:</U> <B>color-&gt;l*c*h</B> <I>color</I>
-<DD>Returns the list of 3 numbers encoding <VAR>color</VAR> in L*C*h.
-</P>
-</DL>
-<A NAME="SEC126"></A>
-<H4> Digital Color Spaces </H4>
-<!--docid::SEC126::-->
-<P>
-
-The color spaces discussed so far are impractical for image data because
-of numerical precision and computational requirements. In 1998 the IEC
-adopted <CITE>A Standard Default Color Space for the Internet - sRGB</CITE>
-(<A HREF="http://www.w3.org/Graphics/Color/sRGB">http://www.w3.org/Graphics/Color/sRGB</A>). sRGB was cleverly
-designed to employ the 24-bit (256x256x256) color encoding already in
-widespread use; and the 2.2 gamma intrinsic to CRT monitors.
-</P>
-<P>
-
-Conversion from CIEXYZ to digital (sRGB) color spaces is accomplished by
-conversion first to a RGB709 tristimulus space with D65 white-point;
-then each coordinate is individually subjected to the same non-linear
-mapping. Inverse operations in the reverse order create the inverse
-transform.
-</P>
-<P>
-
-<A NAME="IDX756"></A>
-</P>
-<DL>
-<DT><U>Color Space:</U> <B>sRGB</B>
-<DD>Is &quot;A Standard Default Color Space for the Internet&quot;. Most display
-monitors will work fairly well with sRGB directly. Systems using ICC
-profiles
-<A NAME="IDX757"></A>
-<A NAME="DOCF5" HREF="slib_fot.html#FOOT5">(5)</A>
-should work very well with sRGB.
-<P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX758"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>srgb-&gt;color</B> <I>rgb</I>
-<DD><P>
-
-<VAR>rgb</VAR> must be a list of 3 numbers. If <VAR>rgb</VAR> is valid sRGB coordinates,
-then <CODE>srgb-&gt;color</CODE> returns the color specified by <VAR>rgb</VAR>; otherwise returns #f.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX759"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>color:srgb</B> <I>r g b</I>
-<DD><P>
-
-Returns the sRGB color composed of <VAR>r</VAR>, <VAR>g</VAR>, <VAR>b</VAR>. If the
-coordinates do not encode a valid sRGB color, then an error is
-signaled.
-</P>
-</DL>
-<A NAME="IDX760"></A>
-<DL>
-<DT><U>Color Space:</U> <B>xRGB</B>
-<DD>Represents the equivalent sRGB color with a single 24-bit integer. The
-most significant 8 bits encode red, the middle 8 bits blue, and the
-least significant 8 bits green.
-</DL>
-<P>
-
-<A NAME="IDX761"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>color-&gt;srgb</B> <I>color</I>
-<DD><P>
-
-Returns the list of 3 integers encoding <VAR>color</VAR> in sRGB.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX762"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>color-&gt;xrgb</B> <I>color</I>
-<DD>Returns the 24-bit integer encoding <VAR>color</VAR> in sRGB.
-</DL>
-<P>
-
-<A NAME="IDX763"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>xrgb-&gt;color</B> <I>k</I>
-<DD><P>
-
-Returns the sRGB color composed of the 24-bit integer <VAR>k</VAR>.
-</P>
-</DL>
-<A NAME="IDX764"></A>
-<DL>
-<DT><U>Color Space:</U> <B>e-sRGB</B>
-<DD>Is &quot;Photography - Electronic still picture imaging - Extended sRGB color
-encoding&quot; (PIMA 7667:2001). It extends the gamut of sRGB; and its
-higher precision numbers provide a larger dynamic range.
-<P>
-
-A triplet of integers represent e-sRGB colors. Three precisions are
-supported:
-</P>
-<P>
-
-</P>
-<DL COMPACT>
-<DT>e-sRGB10
-<DD>0 to 1023
-<DT>e-sRGB12
-<DD>0 to 4095
-<DT>e-sRGB16
-<DD>0 to 65535
-</DL>
-</DL>
-<P>
-
-<A NAME="IDX765"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>e-srgb-&gt;color</B> <I>precision rgb</I>
-<DD><VAR>precision</VAR> must be the integer 10, 12, or 16. <VAR>rgb</VAR> must be a list of 3
-numbers. If <VAR>rgb</VAR> is valid e-sRGB coordinates, then <CODE>e-srgb-&gt;color</CODE> returns the color
-specified by <VAR>rgb</VAR>; otherwise returns #f.
-</DL>
-<P>
-
-<A NAME="IDX766"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>color:e-srgb</B> <I>10 r g b</I>
-<DD><P>
-
-Returns the e-sRGB10 color composed of integers <VAR>r</VAR>, <VAR>g</VAR>, <VAR>b</VAR>.
-</P>
-<P>
-
-<A NAME="IDX767"></A>
-<DT><U>Function:</U> <B>color:e-srgb</B> <I>12 r g b</I>
-<DD>Returns the e-sRGB12 color composed of integers <VAR>r</VAR>, <VAR>g</VAR>, <VAR>b</VAR>.
-</P>
-<P>
-
-<A NAME="IDX768"></A>
-<DT><U>Function:</U> <B>color:e-srgb</B> <I>16 r g b</I>
-<DD>Returns the e-sRGB16 color composed of integers <VAR>r</VAR>, <VAR>g</VAR>, <VAR>b</VAR>.
-If the coordinates do not encode a valid e-sRGB color, then an error
-is signaled.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX769"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>color-&gt;e-srgb</B> <I>precision color</I>
-<DD><VAR>precision</VAR> must be the integer 10, 12, or 16. <CODE>color-&gt;e-srgb</CODE> returns the list of 3
-integers encoding <VAR>color</VAR> in sRGB10, sRGB12, or sRGB16.
-</DL>
-<P>
-
-<A NAME="Spectra"></A>
-<HR SIZE="6">
-<A NAME="SEC127"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC122"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC128"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &lt;&lt; </A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 5.9.3 Spectra </H3>
-<!--docid::SEC127::-->
-<P>
-
-&lt;A NAME=&quot;Spectra&quot;&gt;&lt;/A&gt;
-The following functions compute colors from spectra, scale color
-luminance, and extract chromaticity. XYZ is used in the names of
-procedures for unnormalized colors; the coordinates of CIEXYZ colors are
-constrained as described in <A HREF="slib_5.html#SEC122">5.9.2 Color Spaces</A>.
-</P>
-<P>
-
-<CODE>(require 'color-space)</CODE>
-</P>
-<P>
-
-A spectrum may be represented as:
-</P>
-<P>
-
-<UL>
-<LI>
-A procedure of one argument accepting real numbers from 380e-9 to
-780e-9, the wavelength in meters; or
-<LI>
-A vector of real numbers representing intensity samples evenly spaced
-over some range of wavelengths overlapping the range 380e-9 to 780e-9.
-</UL>
-<P>
-
-CIEXYZ values are calculated as dot-product with the X, Y (Luminance),
-and Z <EM>Spectral Tristimulus Values</EM>. The files `<TT>cie1931.xyz</TT>'
-and `<TT>cie1964.xyz</TT>' in the distribution contain these CIE-defined
-values.
-<A NAME="IDX770"></A>
-</P>
-<P>
-
-<A NAME="IDX771"></A>
-</P>
-<DL>
-<DT><U>Feature:</U> <B>cie1964</B>
-<DD><A NAME="IDX772"></A>
-Loads the Spectral Tristimulus Values defining <CITE>CIE 1964
-Supplementary Standard Colorimetric Observer</CITE>.
-<A NAME="IDX773"></A>
-<DT><U>Feature:</U> <B>cie1931</B>
-<DD><A NAME="IDX774"></A>
-Loads the Spectral Tristimulus Values defining <CITE>CIE 1931
-Supplementary Standard Colorimetric Observer</CITE>.
-<A NAME="IDX775"></A>
-<DT><U>Feature:</U> <B>ciexyz</B>
-<DD><A NAME="IDX776"></A>
-Requires Spectral Tristimulus Values, defaulting to cie1931.
-</DL>
-<P>
-
-<CODE>(require 'cie1964)</CODE> or <CODE>(require 'cie1931)</CODE> will
-<A NAME="IDX777"></A>
-<CODE>load-ciexyz</CODE> specific values used by the following spectrum
-conversion procedures. The spectrum conversion procedures
-<CODE>(require 'ciexyz)</CODE> to assure that a set is loaded.
-</P>
-<P>
-
-<A NAME="IDX778"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>spectrum-&gt;XYZ</B> <I>proc</I>
-<DD><VAR>proc</VAR> must be a function of one argument. <CODE>spectrum-&gt;XYZ</CODE>
-computes the CIEXYZ(1931) values for the spectrum returned by <VAR>proc</VAR>
-when called with arguments from 380e-9 to 780e-9, the wavelength in
-meters.
-<P>
-
-<A NAME="IDX779"></A>
-<DT><U>Function:</U> <B>spectrum-&gt;XYZ</B> <I>spectrum x1 x2</I>
-<DD><VAR>x1</VAR> and <VAR>x2</VAR> must be positive real numbers specifying the
-wavelengths (in meters) corresponding to the zeroth and last elements of
-vector or list <VAR>spectrum</VAR>. <CODE>spectrum-&gt;XYZ</CODE> returns the
-CIEXYZ(1931) values for a light source with spectral values proportional
-to the elements of <VAR>spectrum</VAR> at evenly spaced wavelengths between
-<VAR>x1</VAR> and <VAR>x2</VAR>.
-</P>
-<P>
-
-Compute the colors of 6500.K and 5000.K blackbody radiation:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(require 'color-space)
-(define xyz (spectrum-&gt;XYZ (blackbody-spectrum 6500)))
-(define y_n (cadr xyz))
-(map (lambda (x) (/ x y_n)) xyz)
- => (0.9687111145512467 1.0 1.1210875945303613)
-
-(define xyz (spectrum-&gt;XYZ (blackbody-spectrum 5000)))
-(map (lambda (x) (/ x y_n)) xyz)
- => (0.2933441826889158 0.2988931825387761 0.25783646831201573)
-</pre></td></tr></table><P>
-
-<A NAME="IDX780"></A>
-<DT><U>Function:</U> <B>spectrum-&gt;CIEXYZ</B> <I>proc</I>
-<DD><A NAME="IDX781"></A>
-<DT><U>Function:</U> <B>spectrum-&gt;CIEXYZ</B> <I>spectrum x1 x2</I>
-<DD><CODE>spectrum-&gt;CIEXYZ</CODE> computes the CIEXYZ(1931) values for the
-spectrum, scaled so their sum is 1.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX782"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>spectrum-&gt;chromaticity</B> <I>proc</I>
-<DD><A NAME="IDX783"></A>
-<DT><U>Function:</U> <B>spectrum-&gt;chromaticity</B> <I>spectrum x1 x2</I>
-<DD>Computes the chromaticity for the given spectrum.
-</DL>
-<P>
-
-<A NAME="IDX784"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>wavelength-&gt;XYZ</B> <I>w</I>
-<DD><A NAME="IDX785"></A>
-<DT><U>Function:</U> <B>wavelength-&gt;chromaticity</B> <I>w</I>
-<DD><A NAME="IDX786"></A>
-<DT><U>Function:</U> <B>wavelength-&gt;CIEXYZ</B> <I>w</I>
-<DD><VAR>w</VAR> must be a number between 380e-9 to 780e-9.
-<CODE>wavelength-&gt;XYZ</CODE> returns (unnormalized) XYZ values for a
-monochromatic light source with wavelength <VAR>w</VAR>.
-<CODE>wavelength-&gt;chromaticity</CODE> returns the chromaticity for a
-monochromatic light source with wavelength <VAR>w</VAR>.
-<CODE>wavelength-&gt;CIEXYZ</CODE> returns XYZ values for the saturated color
-having chromaticity of a monochromatic light source with wavelength
-<VAR>w</VAR>.
-</DL>
-<P>
-
-<A NAME="IDX787"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>blackbody-spectrum</B> <I>temp</I>
-<DD><A NAME="IDX788"></A>
-<DT><U>Function:</U> <B>blackbody-spectrum</B> <I>temp span</I>
-<DD>Returns a procedure of one argument (wavelength in meters), which
-returns the radiance of a black body at <VAR>temp</VAR>.
-<P>
-
-The optional argument <VAR>span</VAR> is the wavelength analog of bandwidth.
-With the default <VAR>span</VAR> of 1.nm (1e-9.m), the values returned by the
-procedure correspond to the power of the photons with wavelengths
-<VAR>w</VAR> to <VAR>w</VAR>+1e-9.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX789"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>temperature-&gt;XYZ</B> <I>x</I>
-<DD>The positive number <VAR>x</VAR> is a temperature in degrees kelvin.
-<CODE>temperature-&gt;XYZ</CODE> computes the CIEXYZ(1931) values for the
-spectrum of a black body at temperature <VAR>x</VAR>.
-<P>
-
-Compute the chromaticities of 6500.K and 5000.K blackbody radiation:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(require 'color-space)
-(XYZ-&gt;chromaticity (temperature-&gt;XYZ 6500))
- => (0.3135191660557008 0.3236456786200268)
-
-(XYZ-&gt;chromaticity (temperature-&gt;XYZ 5000))
- => (0.34508082841161052 0.3516084965163377)
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX790"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>temperature-&gt;CIEXYZ</B> <I>x</I>
-<DD>The positive number <VAR>x</VAR> is a temperature in degrees kelvin.
-<CODE>temperature-&gt;CIEXYZ</CODE> computes the CIEXYZ(1931) values for the
-spectrum of a black body at temperature <VAR>x</VAR>, scaled to be just
-inside the RGB709 gamut.
-</DL>
-<P>
-
-<A NAME="IDX791"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>temperature-&gt;chromaticity</B> <I>x</I>
-<DD></DL>
-<P>
-
-<A NAME="IDX792"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>XYZ:normalize</B> <I>xyz</I>
-<DD><VAR>xyz</VAR> is a list of three non-negative real numbers.
-<CODE>XYZ:normalize</CODE> returns a list of numbers proportional to
-<VAR>xyz</VAR>; scaled so their sum is 1.
-</DL>
-<P>
-
-<A NAME="IDX793"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>XYZ:normalize-colors</B> <I>colors <small>...</small></I>
-<DD><VAR>colors</VAR> is a list of XYZ triples. <CODE>XYZ:normalize-colors</CODE>
-scales all the triples by a common factor such that the maximum sum of
-numbers in a scaled triple is 1.
-</DL>
-<P>
-
-<A NAME="IDX794"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>XYZ-&gt;chromaticity</B> <I>xyz</I>
-<DD>Returns a two element list: the x and y components of <VAR>xyz</VAR>
-normalized to 1 (= <VAR>x</VAR> + <VAR>y</VAR> + <VAR>z</VAR>).
-</DL>
-<P>
-
-<A NAME="IDX795"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>chromaticity-&gt;CIEXYZ</B> <I>x y</I>
-<DD>Returns the list of <VAR>x</VAR>, and <VAR>y</VAR>, 1 - <VAR>y</VAR> - <VAR>x</VAR>.
-</DL>
-<P>
-
-<A NAME="IDX796"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>chromaticity-&gt;whitepoint</B> <I>x y</I>
-<DD>Returns the CIEXYZ(1931) values having luminosity 1 and chromaticity
-<VAR>x</VAR> and <VAR>y</VAR>.
-</DL>
-<P>
-
-<A NAME="IDX797"></A>
-Many color datasets are expressed in <EM>xyY</EM> format; chromaticity with
-CIE luminance (Y). But xyY is not a CIE standard like CIEXYZ, CIELAB,
-and CIELUV. Although chrominance is well defined, the luminance
-component is sometimes scaled to 1, sometimes to 100, but usually has no
-obvious range. With no given whitepoint, the only reasonable course is
-to ascertain the luminance range of a dataset and normalize the values
-to lie from 0 to 1.
-</P>
-<P>
-
-<A NAME="IDX798"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>XYZ-&gt;xyY</B> <I>xyz</I>
-<DD>Returns a three element list: the <VAR>x</VAR> and <VAR>y</VAR> components of
-<VAR>XYZ</VAR> normalized to 1, and CIE luminance <VAR>Y</VAR>.
-</DL>
-<P>
-
-<A NAME="IDX799"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>xyY-&gt;XYZ</B> <I>xyY</I>
-<DD></DL>
-<P>
-
-<A NAME="IDX800"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>xyY:normalize-colors</B> <I>colors</I>
-<DD><VAR>colors</VAR> is a list of xyY triples. <CODE>xyY:normalize-colors</CODE>
-scales each chromaticity so it sums to 1 or less; and divides the
-<VAR>Y</VAR> values by the maximum <VAR>Y</VAR> in the dataset, so all lie between
-0 and 1.
-<P>
-
-<A NAME="IDX801"></A>
-<DT><U>Function:</U> <B>xyY:normalize-colors</B> <I>colors n</I>
-<DD>If <VAR>n</VAR> is positive real, then <CODE>xyY:normalize-colors</CODE> divides
-the <VAR>Y</VAR> values by <VAR>n</VAR> times the maximum <VAR>Y</VAR> in the dataset.
-</P>
-<P>
-
-If <VAR>n</VAR> is an exact non-positive integer, then
-<CODE>xyY:normalize-colors</CODE> divides the <VAR>Y</VAR> values by the maximum of
-the <VAR>Y</VAR>s in the dataset excepting the -<VAR>n</VAR> largest <VAR>Y</VAR>
-values.
-</P>
-<P>
-
-In all cases, returned <VAR>Y</VAR> values are limited to lie from 0 to 1.
-</P>
-</DL>
-<P>
-
-Why would one want to normalize to other than 1? If the sun or its
-reflection is the brightest object in a scene, then normalizing to its
-luminance will tend to make the rest of the scene very dark. As with
-photographs, limiting the specular highlights looks better than
-darkening everything else.
-</P>
-<P>
-
-The results of measurements being what they are,
-<CODE>xyY:normalize-colors</CODE> is extremely tolerant. Negative numbers are
-replaced with zero, and chromaticities with sums greater than one are
-scaled to sum to one.
-</P>
-<P>
-
-<A NAME="Color Difference Metrics"></A>
-<HR SIZE="6">
-<A NAME="SEC128"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC127"> &lt; </A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 5.9.4 Color Difference Metrics </H3>
-<!--docid::SEC128::-->
-<P>
-
-&lt;A NAME=&quot;Color_Difference_Metrics&quot;&gt;&lt;/A&gt;
-</P>
-<P>
-
-<CODE>(require 'color-space)</CODE>
-</P>
-<P>
-
-The low-level metric functions operate on lists of 3 numbers, lab1,
-lab2, lch1, or lch2.
-</P>
-<P>
-
-<CODE>(require 'color)</CODE>
-</P>
-<P>
-
-The wrapped functions operate on objects of type color, color1 and
-color2 in the function entries.
-</P>
-<P>
-
-<A NAME="IDX802"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>L*a*b*:DE*</B> <I>lab1 lab2</I>
-<DD>Returns the Euclidean distance between <VAR>lab1</VAR> and <VAR>lab2</VAR>.
-<P>
-
-<A NAME="IDX803"></A>
-<DT><U>Function:</U> <B>CIE:DE*</B> <I>color1 color2 white-point</I>
-<DD><A NAME="IDX804"></A>
-<DT><U>Function:</U> <B>CIE:DE*</B> <I>color1 color2</I>
-<DD>Returns the Euclidean distance in L*a*b* space between <VAR>color1</VAR> and
-<VAR>color2</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX805"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>L*C*h:DE*94</B> <I>lch1 lch2 parametric-factors</I>
-<DD><A NAME="IDX806"></A>
-<DT><U>Function:</U> <B>L*C*h:DE*94</B> <I>lch1 lch2</I>
-<DD><P>
-
-<A NAME="IDX807"></A>
-<DT><U>Function:</U> <B>CIE:DE*94</B> <I>color1 color2 parametric-factors</I>
-<DD><A NAME="IDX808"></A>
-<DT><U>Function:</U> <B>CIE:DE*94</B> <I>color1 color2</I>
-<DD></P>
-<P>
-
-Measures distance in the L*C*h cylindrical color-space.
-The three axes are individually scaled (depending on C*) in their
-contributions to the total distance.
-</P>
-<P>
-
-The CIE has defined reference conditions under which the metric with
-default parameters can be expected to perform well. These are:
-</P>
-<P>
-
-<UL>
-<LI>
-The specimens are homogeneous in colour.
-<LI>
-The colour difference (CIELAB) is &lt;= 5 units.
-<LI>
-They are placed in direct edge contact.
-<LI>
-Each specimen subtends an angle of &gt;4 degrees to the assessor, whose
-colour vision is normal.
-<LI>
-They are illuminated at 1000 lux, and viewed against a background of
-uniform grey, with L* of 50, under illumination simulating D65.
-</UL>
-<P>
-
-The <VAR>parametric-factors</VAR> argument is a list of 3 quantities kL, kC
-and kH. <VAR>parametric-factors</VAR> independently adjust each
-colour-difference term to account for any deviations from the reference
-viewing conditions. Under the reference conditions explained above, the
-default is kL = kC = kH = 1.
-</P>
-</DL>
-<P>
-
-The Color Measurement Committee of The Society of Dyers and Colorists in
-Great Britain created a more sophisticated color-distance function for
-use in judging the consistency of dye lots. With CMC:DE* it is possible
-to use a single value pass/fail tolerance for all shades.
-</P>
-<P>
-
-<A NAME="IDX809"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>CMC-DE</B> <I>lch1 lch2 parametric-factors</I>
-<DD><A NAME="IDX810"></A>
-<DT><U>Function:</U> <B>CMC-DE</B> <I>lch1 lch2 l c</I>
-<DD><A NAME="IDX811"></A>
-<DT><U>Function:</U> <B>CMC-DE</B> <I>lch1 lch2 l</I>
-<DD><A NAME="IDX812"></A>
-<DT><U>Function:</U> <B>CMC-DE</B> <I>lch1 lch2</I>
-<DD><P>
-
-<A NAME="IDX813"></A>
-<DT><U>Function:</U> <B>CMC:DE*</B> <I>color1 color2 l c</I>
-<DD><A NAME="IDX814"></A>
-<DT><U>Function:</U> <B>CMC:DE*</B> <I>color1 color2</I>
-<DD></P>
-<P>
-
-<CODE>CMC:DE</CODE> is a L*C*h metric. The <VAR>parametric-factors</VAR>
-argument is a list of 2 numbers <VAR>l</VAR> and <VAR>c</VAR>. <VAR>l</VAR> and
-<VAR>c</VAR> parameterize this metric. 1 and 1 are recommended for
-perceptibility; the default, 2 and 1, for acceptability.
-</P>
-</DL>
-<P>
-
-<A NAME="Color Conversions"></A>
-<HR SIZE="6">
-<A NAME="SEC129"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC128"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC130"> &gt; </A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC118"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 5.9.5 Color Conversions </H3>
-<!--docid::SEC129::-->
-<P>
-
-&lt;A NAME=&quot;Color_Conversions&quot;&gt;&lt;/A&gt;
-</P>
-<P>
-
-This package contains the low-level color conversion and color metric
-routines operating on lists of 3 numbers. There is no type or range
-checking.
-</P>
-<P>
-
-<CODE>(require 'color-space)</CODE>
-</P>
-<P>
-
-<A NAME="IDX815"></A>
-</P>
-<DL>
-<DT><U>Constant:</U> <B>CIEXYZ:D65</B>
-<DD>Is the color of 6500.K (blackbody) illumination. D65 is close to the
-average color of daylight.
-</DL>
-<P>
-
-<A NAME="IDX816"></A>
-</P>
-<DL>
-<DT><U>Constant:</U> <B>CIEXYZ:D50</B>
-<DD>Is the color of 5000.K (blackbody) illumination. D50 is the color of
-indoor lighting by incandescent bulbs.
-</DL>
-<P>
-
-<A NAME="IDX817"></A>
-</P>
-<DL>
-<DT><U>Constant:</U> <B>CIEXYZ:A</B>
-<DD><A NAME="IDX818"></A>
-<DT><U>Constant:</U> <B>CIEXYZ:B</B>
-<DD><A NAME="IDX819"></A>
-<DT><U>Constant:</U> <B>CIEXYZ:C</B>
-<DD><A NAME="IDX820"></A>
-<DT><U>Constant:</U> <B>CIEXYZ:E</B>
-<DD>CIE 1931 illuminants normalized to 1 = y.
-</DL>
-<P>
-
-<A NAME="IDX821"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>color:linear-transform</B> <I>matrix row</I>
-<DD></DL>
-<P>
-
-<A NAME="IDX822"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>CIEXYZ-&gt;RGB709</B> <I>xyz</I>
-<DD><A NAME="IDX823"></A>
-<DT><U>Function:</U> <B>RGB709-&gt;CIEXYZ</B> <I>srgb</I>
-<DD></DL>
-<P>
-
-<A NAME="IDX824"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>CIEXYZ-&gt;L*u*v*</B> <I>xyz white-point</I>
-<DD><A NAME="IDX825"></A>
-<DT><U>Function:</U> <B>CIEXYZ-&gt;L*u*v*</B> <I>xyz</I>
-<DD><A NAME="IDX826"></A>
-<DT><U>Function:</U> <B>L*u*v*-&gt;CIEXYZ</B> <I>L*u*v* white-point</I>
-<DD><A NAME="IDX827"></A>
-<DT><U>Function:</U> <B>L*u*v*-&gt;CIEXYZ</B> <I>L*u*v*</I>
-<DD>The <VAR>white-point</VAR> defaults to CIEXYZ:D65.
-</DL>
-<P>
-
-<A NAME="IDX828"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>CIEXYZ-&gt;L*a*b*</B> <I>xyz white-point</I>
-<DD><A NAME="IDX829"></A>
-<DT><U>Function:</U> <B>CIEXYZ-&gt;L*a*b*</B> <I>xyz</I>
-<DD><A NAME="IDX830"></A>
-<DT><U>Function:</U> <B>L*a*b*-&gt;CIEXYZ</B> <I>L*a*b* white-point</I>
-<DD><A NAME="IDX831"></A>
-<DT><U>Function:</U> <B>L*a*b*-&gt;CIEXYZ</B> <I>L*a*b*</I>
-<DD>The XYZ <VAR>white-point</VAR> defaults to CIEXYZ:D65.
-</DL>
-<P>
-
-<A NAME="IDX832"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>L*a*b*-&gt;L*C*h</B> <I>L*a*b*</I>
-<DD><A NAME="IDX833"></A>
-<DT><U>Function:</U> <B>L*C*h-&gt;L*a*b*</B> <I>L*C*h</I>
-<DD></DL>
-<P>
-
-<A NAME="IDX834"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>CIEXYZ-&gt;sRGB</B> <I>xyz</I>
-<DD><A NAME="IDX835"></A>
-<DT><U>Function:</U> <B>sRGB-&gt;CIEXYZ</B> <I>srgb</I>
-<DD></DL>
-<P>
-
-<A NAME="IDX836"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>CIEXYZ-&gt;xRGB</B> <I>xyz</I>
-<DD><A NAME="IDX837"></A>
-<DT><U>Function:</U> <B>xRGB-&gt;CIEXYZ</B> <I>srgb</I>
-<DD></DL>
-<P>
-
-<A NAME="IDX838"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>sRGB-&gt;xRGB</B> <I>xyz</I>
-<DD><A NAME="IDX839"></A>
-<DT><U>Function:</U> <B>xRGB-&gt;sRGB</B> <I>srgb</I>
-<DD></DL>
-<P>
-
-<A NAME="IDX840"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>CIEXYZ-&gt;e-sRGB</B> <I>n xyz</I>
-<DD><A NAME="IDX841"></A>
-<DT><U>Function:</U> <B>e-sRGB-&gt;CIEXYZ</B> <I>n srgb</I>
-<DD></DL>
-<P>
-
-<A NAME="IDX842"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>sRGB-&gt;e-sRGB</B> <I>n srgb</I>
-<DD><A NAME="IDX843"></A>
-<DT><U>Function:</U> <B>e-sRGB-&gt;sRGB</B> <I>n srgb</I>
-<DD>The integer <VAR>n</VAR> must be 10, 12, or 16. Because sRGB and e-sRGB use
-the same RGB709 chromaticities, conversion between them is simpler than
-conversion through CIEXYZ.
-</DL>
-<P>
-
-Do not convert e-sRGB precision through <CODE>e-sRGB-&gt;sRGB</CODE> then
-<CODE>sRGB-&gt;e-sRGB</CODE> -- values would be truncated to 8-bits!
-</P>
-<P>
-
-<A NAME="IDX844"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>e-sRGB-&gt;e-sRGB</B> <I>n1 srgb n2</I>
-<DD>The integers <VAR>n1</VAR> and <VAR>n2</VAR> must be 10, 12, or 16.
-<CODE>e-sRGB-&gt;e-sRGB</CODE> converts <VAR>srgb</VAR> to e-sRGB of precision
-<VAR>n2</VAR>.
-</DL>
-<P>
-
-<A NAME="Color Names"></A>
-<HR SIZE="6">
-<A NAME="SEC130"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC129"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC133"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC118"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 5.9.6 Color Names </H3>
-<!--docid::SEC130::-->
-<P>
-
-&lt;A NAME=&quot;Color_Names&quot;&gt;&lt;/A&gt;
-<CODE>(require 'color-names)</CODE>
-<A NAME="IDX845"></A>
-</P>
-<P>
-
-Rather than ballast the color dictionaries with numbered grays,
-<CODE>file-&gt;color-dictionary</CODE> discards them. They are provided
-through the <CODE>grey</CODE> procedure:
-</P>
-<P>
-
-<A NAME="IDX846"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>grey</B> <I>k</I>
-<DD><P>
-
-Returns <CODE>(inexact-&gt;exact (round (* k 2.55)))</CODE>, the X11 color
-grey<I>&lt;k&gt;</I>.
-</P>
-</DL>
-A color dictionary is a database table relating <EM>canonical</EM>
-<A NAME="IDX847"></A>
-color-names to color-strings
-(see section <A HREF="slib_5.html#SEC119">External Representation</A>).
-<P>
-
-The column names in a color dictionary are unimportant; the first
-field is the key, and the second is the color-string.
-</P>
-<P>
-
-<A NAME="IDX848"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>color-name:canonicalize</B> <I>name</I>
-<DD>Returns a downcased copy of the string or symbol <VAR>name</VAR> with
-`<SAMP>_</SAMP>', `<SAMP>-</SAMP>', and whitespace removed.
-</DL>
-<P>
-
-<A NAME="IDX849"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>color-name-&gt;color</B> <I>name table1 table2 <small>...</small></I>
-<DD><P>
-
-<VAR>table1</VAR>, <VAR>table2</VAR>, <small>...</small> must be color-dictionary tables. <CODE>color-name-&gt;color</CODE> searches for the
-canonical form of <VAR>name</VAR> in <VAR>table1</VAR>, <VAR>table2</VAR>, <small>...</small> in order; returning the
-color-string of the first matching record; #f otherwise.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX850"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>color-dictionaries-&gt;lookup</B> <I>table1 table2 <small>...</small></I>
-<DD><P>
-
-<VAR>table1</VAR>, <VAR>table2</VAR>, <small>...</small> must be color-dictionary tables. <CODE>color-dictionaries-&gt;lookup</CODE> returns a
-procedure which searches for the canonical form of its string argument
-in <VAR>table1</VAR>, <VAR>table2</VAR>, <small>...</small>; returning the color-string of the first matching
-record; and #f otherwise.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX851"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>color-dictionary</B> <I>name rdb base-table-type</I>
-<DD><P>
-
-<VAR>rdb</VAR> must be a string naming a relational database file; and the symbol
-<VAR>name</VAR> a table therein. The database will be opened as
-<VAR>base-table-type</VAR>. <CODE>color-dictionary</CODE> returns the read-only table <VAR>name</VAR> in database
-<VAR>name</VAR> if it exists; #f otherwise.
-</P>
-<P>
-
-<A NAME="IDX852"></A>
-<DT><U>Function:</U> <B>color-dictionary</B> <I>name rdb</I>
-<DD></P>
-<P>
-
-<VAR>rdb</VAR> must be an open relational database or a string naming a relational
-database file; and the symbol <VAR>name</VAR> a table therein. <CODE>color-dictionary</CODE> returns the
-read-only table <VAR>name</VAR> in database <VAR>name</VAR> if it exists; #f otherwise.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX853"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>load-color-dictionary</B> <I>name rdb base-table-type</I>
-<DD><P>
-
-<A NAME="IDX854"></A>
-<DT><U>Function:</U> <B>load-color-dictionary</B> <I>name rdb</I>
-<DD></P>
-<P>
-
-<VAR>rdb</VAR> must be a string naming a relational database file; and the symbol
-<VAR>name</VAR> a table therein. If the symbol <VAR>base-table-type</VAR> is provided, the database will
-be opened as <VAR>base-table-type</VAR>. <CODE>load-color-dictionary</CODE> creates a top-level definition of the symbol <VAR>name</VAR>
-to a lookup procedure for the color dictionary <VAR>name</VAR> in <VAR>rdb</VAR>.
-</P>
-<P>
-
-The value returned by <CODE>load-color-dictionary</CODE> is unspecified.
-</P>
-</DL>
-<P>
-
-<A NAME="SEC131"></A>
-<H4> Dictionary Creation </H4>
-<!--docid::SEC131::-->
-<P>
-
-<CODE>(require 'color-database)</CODE>
-<A NAME="IDX855"></A>
-</P>
-<P>
-
-<A NAME="IDX856"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>file-&gt;color-dictionary</B> <I>file table-name rdb base-table-type</I>
-<DD><P>
-
-<A NAME="IDX857"></A>
-<DT><U>Function:</U> <B>file-&gt;color-dictionary</B> <I>file table-name rdb</I>
-<DD></P>
-<P>
-
-<VAR>rdb</VAR> must be an open relational database or a string naming a relational
-database file, <VAR>table-name</VAR> a symbol, and the string <VAR>file</VAR> must name an existing
-file with colornames and their corresponding xRGB (6-digit hex)
-values. <CODE>file-&gt;color-dictionary</CODE> creates a table <VAR>table-name</VAR> in <VAR>rdb</VAR> and enters the associations found
-in <VAR>file</VAR> into it.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX858"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>url-&gt;color-dictionary</B> <I>url table-name rdb base-table-type</I>
-<DD><P>
-
-<A NAME="IDX859"></A>
-<DT><U>Function:</U> <B>url-&gt;color-dictionary</B> <I>url table-name rdb</I>
-<DD></P>
-<P>
-
-<VAR>rdb</VAR> must be an open relational database or a string naming a relational
-database file and <VAR>table-name</VAR> a symbol. <CODE>url-&gt;color-dictionary</CODE> retrieves the resource named by the
-string <VAR>url</VAR> using the <EM>wget</EM> program; then calls
-<A NAME="IDX860"></A>
-<CODE>file-&gt;color-dictionary</CODE> to enter its associations in <VAR>table-name</VAR> in <VAR>url</VAR>.
-</P>
-</DL>
-This section has detailed the procedures for creating and loading
-color dictionaries. So where are the dictionaries to load?
-<P>
-
-<A HREF="http://swissnet.ai.mit.edu/~jaffer/Color/Dictionaries.html">http://swissnet.ai.mit.edu/~jaffer/Color/Dictionaries.html</A>
-</P>
-<P>
-
-Describes and evaluates several color-name dictionaries on the web.
-The following procedure creates a database containing two of these
-dictionaries.
-</P>
-<P>
-
-<A NAME="IDX861"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>make-slib-color-name-db</B>
-<DD><P>
-
-Creates an alist-table relational database in library-vicinity
-containing the <EM>Resene</EM> and <EM>saturate</EM> color-name
-<A NAME="IDX862"></A>
-<A NAME="IDX863"></A>
-dictionaries.
-</P>
-<P>
-
-If the files `<TT>resenecolours.txt</TT>' and `<TT>saturate.txt</TT>' exist in
-the library-vicinity, then they used as the source of color-name
-data. Otherwise, <CODE>make-slib-color-name-db</CODE> calls url-&gt;color-dictionary with the URLs of
-appropriate source files.
-</P>
-</DL>
-<P>
-
-<A NAME="SEC132"></A>
-<H4> The Short List </H4>
-<!--docid::SEC132::-->
-<P>
-
-<CODE>(require 'saturate)</CODE>
-<A NAME="IDX864"></A>
-</P>
-<P>
-
-<A NAME="IDX865"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>saturate</B> <I>name</I>
-<DD>Looks for <VAR>name</VAR> among the 19 saturated colors from
-<CITE>Approximate Colors on CIE Chromaticity Diagram</CITE>:
-<P>
-
-</P>
-<TABLE>
-<TR><TD>reddish orange </TD><TD> orange </TD><TD> yellowish orange </TD><TD> yellow</TD>
-</TR>
-<TR><TD>greenish yellow </TD><TD> yellow green </TD><TD> yellowish green </TD><TD> green</TD>
-</TR>
-<TR><TD>bluish green </TD><TD> blue green </TD><TD> greenish blue </TD><TD> blue</TD>
-</TR>
-<TR><TD>purplish blue </TD><TD> bluish purple </TD><TD> purple </TD><TD> reddish purple</TD>
-</TR>
-<TR><TD>red purple </TD><TD> purplish red </TD><TD> red</TD>
-</TR></TABLE>
-<P>
-
-(<A HREF="http://swissnet.ai.mit.edu/~jaffer/Color/saturate.pdf">http://swissnet.ai.mit.edu/~jaffer/Color/saturate.pdf</A>). If
-<VAR>name</VAR> is found, the corresponding color is returned. Otherwise #f
-is returned. Use saturate only for light source colors.
-</P>
-</DL>
-<P>
-
-Resene Paints Limited, New Zealand's largest privately-owned and
-operated paint manufacturing company, has generously made their
-<CITE>Resene RGB Values List</CITE> available.
-</P>
-<P>
-
-<CODE>(require 'resene)</CODE>
-<A NAME="IDX866"></A>
-</P>
-<P>
-
-<A NAME="IDX867"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>resene</B> <I>name</I>
-<DD>Looks for <VAR>name</VAR> among the 1300 entries in the Resene color-name
-dictionary (<A HREF="http://swissnet.ai.mit.edu/~jaffer/Color/resene.pdf">http://swissnet.ai.mit.edu/~jaffer/Color/resene.pdf</A>).
-If <VAR>name</VAR> is found, the corresponding color is returned. Otherwise
-#f is returned. The <CITE>Resene RGB Values List</CITE> is an excellent
-source for surface colors.
-</DL>
-<P>
-
-If you include the <EM>Resene RGB Values List</EM> in binary form in a
-program, then you must include its license with your program:
-</P>
-<P>
-
-<BLOCKQUOTE>
-Resene RGB Values List<BR>
-For further information refer to http://www.resene.co.nz<BR>
-Copyright Resene Paints Ltd 2001
-<P>
-
-Permission to copy this dictionary, to modify it, to redistribute it,
-to distribute modified versions, and to use it for any purpose is
-granted, subject to the following restrictions and understandings.
-</P>
-<P>
-
-<OL>
-<LI>
-Any text copy made of this dictionary must include this copyright
-notice in full.
-<P>
-
-</P>
-<LI>
-Any redistribution in binary form must reproduce this copyright
-notice in the documentation or other materials provided with the
-distribution.
-<P>
-
-</P>
-<LI>
-Resene Paints Ltd makes no warranty or representation that this
-dictionary is error-free, and is under no obligation to provide any
-services, by way of maintenance, update, or otherwise.
-<P>
-
-</P>
-<LI>
-There shall be no use of the name of Resene or Resene Paints Ltd
-in any advertising, promotional, or sales literature without prior
-written consent in each case.
-<P>
-
-</P>
-<LI>
-These RGB colour formulations may not be used to the detriment of
-Resene Paints Ltd.
-</OL>
-</BLOCKQUOTE>
-<P>
-
-<A NAME="Daylight"></A>
-<HR SIZE="6">
-<A NAME="SEC133"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC130"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC134"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC118"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 5.9.7 Daylight </H3>
-<!--docid::SEC133::-->
-<P>
-
-&lt;A NAME=&quot;Daylight&quot;&gt;&lt;/A&gt;
-<CODE>(require 'daylight)</CODE>
-<A NAME="IDX868"></A>
-<A NAME="IDX869"></A>
-<A NAME="IDX870"></A>
-<A NAME="IDX871"></A>
-</P>
-<P>
-
-This package calculates the colors of sky as detailed in:<BR>
-<A HREF="http://www.cs.utah.edu/vissim/papers/sunsky/sunsky.pdf">http://www.cs.utah.edu/vissim/papers/sunsky/sunsky.pdf</A><BR>
-<CITE>A Practical Analytic Model for Daylight</CITE><BR>
-A. J. Preetham, Peter Shirley, Brian Smits
-</P>
-<P>
-
-<A NAME="IDX872"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>solar-hour</B> <I>julian-day hour</I>
-<DD><P>
-
-Returns the solar-time in hours given the integer <VAR>julian-day</VAR> in the range 1 to
-366, and the local time in hours.
-</P>
-<P>
-
-To be meticulous, subtract 4 minutes for each degree of longitude west
-of the standard meridian of your time zone.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX873"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>solar-declination</B> <I>julian-day</I>
-<DD><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX874"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>solar-polar</B> <I>declination latitude solar-hour</I>
-<DD>Returns a list of <VAR>theta_s</VAR>, the solar angle from the
-zenith, and <VAR>phi_s</VAR>, the solar azimuth. 0 &lt;= <VAR>theta_s</VAR>
-measured in degrees. <VAR>phi_s</VAR> is measured in degrees from due
-south; west of south being positive.
-</DL>
-In the following procedures, the number 0 &lt;= <VAR>theta_s</VAR> &lt;= 90 is
-the solar angle from the zenith in degrees.
-<P>
-
-<A NAME="IDX875"></A>
-Turbidity is a measure of the fraction of scattering due to haze as
-opposed to molecules. This is a convenient quantity because it can be
-estimated based on visibility of distant objects. This model fails
-for turbidity values less than 1.3.
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre> _______________________________________________________________
-512|-: |
- | * pure-air |
-256|-:** |
- | : ** exceptionally-clear |
-128|-: * |
- | : ** |
- 64|-: * |
- | : ** very-clear |
- 32|-: ** |
- | : ** |
- 16|-: *** clear |
- | : **** |
- 8|-: **** |
- | : **** light-haze |
- 4|-: **** |
- | : ****** |
- 2|-: ******** haze thin-|
- | : *********** fog |
- 1|-:----------------------------------------------------*******--|
- |_:____.____:____.____:____.____:____.____:____.____:____.____:_|
- 1 2 4 8 16 32 64
- Meterorological range (km) versus Turbidity
-</pre></td></tr></table><P>
-
-<A NAME="IDX876"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>sunlight-spectrum</B> <I>turbidity theta_s</I>
-<DD>Returns a vector of 41 values, the spectrum of sunlight from
-380.nm to 790.nm for a given <VAR>turbidity</VAR> and <VAR>theta_s</VAR>.
-</DL>
-<P>
-
-<A NAME="IDX877"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>sunlight-xyz</B> <I>turbidity theta_s</I>
-<DD>Returns (unnormalized) XYZ values for color of sunlight for a
-given <VAR>turbidity</VAR> and <VAR>theta_s</VAR>.
-</DL>
-<P>
-
-<A NAME="IDX878"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>sunlight-ciexyz</B> <I>turbidity theta_s</I>
-<DD>Given <VAR>turbidity</VAR> and <VAR>theta_s</VAR>, <CODE>sunlight-ciexyz</CODE> returns the CIEXYZ triple for color of
-sunlight scaled to be just inside the RGB709 gamut.
-</DL>
-<P>
-
-<A NAME="IDX879"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>zenith-xyy</B> <I>turbidity theta_s</I>
-<DD>Returns the xyY (chromaticity and luminance) at the zenith. The
-Luminance has units kcd/m^2.
-</DL>
-<P>
-
-<A NAME="IDX880"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>overcast-sky-color-xyy</B> <I>turbidity theta_s</I>
-<DD><VAR>turbidity</VAR> is a positive real number expressing the amount of light
-scattering. The real number <VAR>theta_s</VAR> is the solar angle from the zenith in
-degrees.
-<P>
-
-<CODE>overcast-sky-color-xyy</CODE> returns a function of one angle <VAR>theta</VAR>, the angle from the
-zenith of the viewing direction (in degrees); and returning the xyY
-value for light coming from that elevation of the sky.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX881"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>clear-sky-color-xyy</B> <I>turbidity theta_s phi_s</I>
-<DD><A NAME="IDX882"></A>
-<DT><U>Function:</U> <B>sky-color-xyy</B> <I>turbidity theta_s phi_s</I>
-<DD><VAR>turbidity</VAR> is a positive real number expressing the amount of light
-scattering. The real number <VAR>theta_s</VAR> is the solar angle from the zenith in
-degrees. The real number <VAR>phi_s</VAR> is the solar angle from south.
-<P>
-
-<CODE>clear-sky-color-xyy</CODE> returns a function of two angles, <VAR>theta</VAR> and <VAR>phi</VAR> which
-specify the angles from the zenith and south meridian of the viewing
-direction (in degrees); returning the xyY value for light coming from
-that direction of the sky.
-</P>
-<P>
-
-<CODE>sky-color-xyY</CODE> calls <CODE>overcast-sky-color-xyY</CODE> for
-<VAR>turbidity</VAR> &lt;= 20; otherwise the <CODE>clear-sky-color-xyy</CODE> function.
-</P>
-</DL>
-<P>
-
-<A NAME="Root Finding"></A>
-<HR SIZE="6">
-<A NAME="SEC134"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC133"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC135"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 5.10 Root Finding </H2>
-<!--docid::SEC134::-->
-<P>
-
-<CODE>(require 'root)</CODE>
-<A NAME="IDX883"></A>
-</P>
-<P>
-
-<A NAME="IDX884"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>newton:find-integer-root</B> <I>f df/dx x0</I>
-<DD>Given integer valued procedure <VAR>f</VAR>, its derivative (with respect to
-its argument) <VAR>df/dx</VAR>, and initial integer value <VAR>x0</VAR> for which
-<VAR>df/dx</VAR>(<VAR>x0</VAR>) is non-zero, returns an integer <VAR>x</VAR> for which
-<VAR>f</VAR>(<VAR>x</VAR>) is closer to zero than either of the integers adjacent
-to <VAR>x</VAR>; or returns <CODE>#f</CODE> if such an integer can't be found.
-<P>
-
-To find the closest integer to a given integers square root:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define (integer-sqrt y)
- (newton:find-integer-root
- (lambda (x) (- (* x x) y))
- (lambda (x) (* 2 x))
- (ash 1 (quotient (integer-length y) 2))))
-
-(integer-sqrt 15) => 4
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX885"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>integer-sqrt</B> <I>y</I>
-<DD>Given a non-negative integer <VAR>y</VAR>, returns the rounded square-root of
-<VAR>y</VAR>.
-</DL>
-<P>
-
-<A NAME="IDX886"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>newton:find-root</B> <I>f df/dx x0 prec</I>
-<DD>Given real valued procedures <VAR>f</VAR>, <VAR>df/dx</VAR> of one (real)
-argument, initial real value <VAR>x0</VAR> for which <VAR>df/dx</VAR>(<VAR>x0</VAR>) is
-non-zero, and positive real number <VAR>prec</VAR>, returns a real <VAR>x</VAR>
-for which <CODE>abs</CODE>(<VAR>f</VAR>(<VAR>x</VAR>)) is less than <VAR>prec</VAR>; or
-returns <CODE>#f</CODE> if such a real can't be found.
-<P>
-
-If <VAR>prec</VAR> is instead a negative integer, <CODE>newton:find-root</CODE>
-returns the result of -<VAR>prec</VAR> iterations.
-</P>
-</DL>
-<P>
-
-H. J. Orchard, <CITE>The Laguerre Method for Finding the Zeros of
-Polynomials</CITE>, IEEE Transactions on Circuits and Systems, Vol. 36,
-No. 11, November 1989, pp 1377-1381.
-</P>
-<P>
-
-<BLOCKQUOTE>
-There are 2 errors in Orchard's Table II. Line k=2 for starting
-value of 1000+j0 should have Z_k of 1.0475 + j4.1036 and line k=2
-for starting value of 0+j1000 should have Z_k of 1.0988 + j4.0833.
-</BLOCKQUOTE>
-<P>
-
-<A NAME="IDX887"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>laguerre:find-root</B> <I>f df/dz ddf/dz^2 z0 prec</I>
-<DD>Given complex valued procedure <VAR>f</VAR> of one (complex) argument, its
-derivative (with respect to its argument) <VAR>df/dx</VAR>, its second
-derivative <VAR>ddf/dz^2</VAR>, initial complex value <VAR>z0</VAR>, and positive
-real number <VAR>prec</VAR>, returns a complex number <VAR>z</VAR> for which
-<CODE>magnitude</CODE>(<VAR>f</VAR>(<VAR>z</VAR>)) is less than <VAR>prec</VAR>; or returns
-<CODE>#f</CODE> if such a number can't be found.
-<P>
-
-If <VAR>prec</VAR> is instead a negative integer, <CODE>laguerre:find-root</CODE>
-returns the result of -<VAR>prec</VAR> iterations.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX888"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>laguerre:find-polynomial-root</B> <I>deg f df/dz ddf/dz^2 z0 prec</I>
-<DD>Given polynomial procedure <VAR>f</VAR> of integer degree <VAR>deg</VAR> of one
-argument, its derivative (with respect to its argument) <VAR>df/dx</VAR>, its
-second derivative <VAR>ddf/dz^2</VAR>, initial complex value <VAR>z0</VAR>, and
-positive real number <VAR>prec</VAR>, returns a complex number <VAR>z</VAR> for
-which <CODE>magnitude</CODE>(<VAR>f</VAR>(<VAR>z</VAR>)) is less than <VAR>prec</VAR>; or
-returns <CODE>#f</CODE> if such a number can't be found.
-<P>
-
-If <VAR>prec</VAR> is instead a negative integer,
-<CODE>laguerre:find-polynomial-root</CODE> returns the result of -<VAR>prec</VAR>
-iterations.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX889"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>secant:find-root</B> <I>f x0 x1 prec</I>
-<DD><A NAME="IDX890"></A>
-<DT><U>Function:</U> <B>secant:find-bracketed-root</B> <I>f x0 x1 prec</I>
-<DD>Given a real valued procedure <VAR>f</VAR> and two real valued starting
-points <VAR>x0</VAR> and <VAR>x1</VAR>, returns a real <VAR>x</VAR> for which
-<CODE>(abs (f x))</CODE> is less than <VAR>prec</VAR>; or returns
-<CODE>#f</CODE> if such a real can't be found.
-<P>
-
-If <VAR>x0</VAR> and <VAR>x1</VAR> are chosen such that they bracket a root, that is
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(or (&lt; (f x0) 0 (f x1))
- (&lt; (f x1) 0 (f x0)))
-</pre></td></tr></table>then the root returned will be between <VAR>x0</VAR> and <VAR>x1</VAR>, and
-<VAR>f</VAR> will not be passed an argument outside of that interval.
-<P>
-
-<CODE>secant:find-bracketed-root</CODE> will return <CODE>#f</CODE> unless <VAR>x0</VAR>
-and <VAR>x1</VAR> bracket a root.
-</P>
-<P>
-
-The secant method is used until a bracketing interval is found, at which point
-a modified <I>regula falsi</I> method is used.
-</P>
-<P>
-
-If <VAR>prec</VAR> is instead a negative integer, <CODE>secant:find-root</CODE>
-returns the result of -<VAR>prec</VAR> iterations.
-</P>
-<P>
-
-If <VAR>prec</VAR> is a procedure it should accept 5 arguments: <VAR>x0</VAR>
-<VAR>f0</VAR> <VAR>x1</VAR> <VAR>f1</VAR> and <VAR>count</VAR>, where <VAR>f0</VAR> will be
-<CODE>(f x0)</CODE>, <VAR>f1</VAR> <CODE>(f x1)</CODE>, and <VAR>count</VAR> the number of
-iterations performed so far. <VAR>prec</VAR> should return non-false
-if the iteration should be stopped.
-</P>
-</DL>
-<P>
-
-<A NAME="Minimizing"></A>
-<HR SIZE="6">
-<A NAME="SEC135"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC134"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC136"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 5.11 Minimizing </H2>
-<!--docid::SEC135::-->
-<P>
-
-<CODE>(require 'minimize)</CODE>
-<A NAME="IDX891"></A>
-<A NAME="IDX892"></A>
-</P>
-<P>
-
-</P>
-<P>
-
-The Golden Section Search
-<A NAME="DOCF6" HREF="slib_fot.html#FOOT6">(6)</A>
-algorithm finds minima of functions which
-are expensive to compute or for which derivatives are not available.
-Although optimum for the general case, convergence is slow,
-requiring nearly 100 iterations for the example (x^3-2x-5).
-</P>
-<P>
-
-</P>
-<P>
-
-If the derivative is available, Newton-Raphson is probably a better
-choice. If the function is inexpensive to compute, consider
-approximating the derivative.
-</P>
-<P>
-
-<A NAME="IDX893"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>golden-section-search</B> <I>f x0 x1 prec</I>
-<DD><P>
-
-<VAR>x_0</VAR> are <VAR>x_1</VAR> real numbers. The (single argument)
-procedure <VAR>f</VAR> is unimodal over the open interval (<VAR>x_0</VAR>,
-<VAR>x_1</VAR>). That is, there is exactly one point in the interval for
-which the derivative of <VAR>f</VAR> is zero.
-</P>
-<P>
-
-<CODE>golden-section-search</CODE> returns a pair (<VAR>x</VAR> . <VAR>f</VAR>(<VAR>x</VAR>)) where <VAR>f</VAR>(<VAR>x</VAR>)
-is the minimum. The <VAR>prec</VAR> parameter is the stop criterion. If
-<VAR>prec</VAR> is a positive number, then the iteration continues until
-<VAR>x</VAR> is within <VAR>prec</VAR> from the true value. If <VAR>prec</VAR> is
-a negative integer, then the procedure will iterate <VAR>-prec</VAR>
-times or until convergence. If <VAR>prec</VAR> is a procedure of seven
-arguments, <VAR>x0</VAR>, <VAR>x1</VAR>, <VAR>a</VAR>, <VAR>b</VAR>, <VAR>fa</VAR>, <VAR>fb</VAR>,
-and <VAR>count</VAR>, then the iterations will stop when the procedure
-returns <CODE>#t</CODE>.
-</P>
-<P>
-
-Analytically, the minimum of x^3-2x-5 is 0.816497.
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define func (lambda (x) (+ (* x (+ (* x x) -2)) -5)))
-(golden-section-search func 0 1 (/ 10000))
- ==&gt; (816.4883855245578e-3 . -6.0886621077391165)
-(golden-section-search func 0 1 -5)
- ==&gt; (819.6601125010515e-3 . -6.088637561916407)
-(golden-section-search func 0 1
- (lambda (a b c d e f g ) (= g 500)))
- ==&gt; (816.4965933140557e-3 . -6.088662107903635)
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="Commutative Rings"></A>
-<HR SIZE="6">
-<A NAME="SEC136"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC135"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC137"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 5.12 Commutative Rings </H2>
-<!--docid::SEC136::-->
-<P>
-
-Scheme provides a consistent and capable set of numeric functions.
-Inexacts implement a field; integers a commutative ring (and Euclidean
-domain). This package allows one to use basic Scheme numeric functions
-with symbols and non-numeric elements of commutative rings.
-</P>
-<P>
-
-<CODE>(require 'commutative-ring)</CODE>
-<A NAME="IDX894"></A>
-<A NAME="IDX895"></A>
-</P>
-<P>
-
-The <EM>commutative-ring</EM> package makes the procedures <CODE>+</CODE>,
-<CODE>-</CODE>, <CODE>*</CODE>, <CODE>/</CODE>, and <CODE>^</CODE> <EM>careful</EM> in the sense
-<A NAME="IDX896"></A>
-that any non-numeric arguments they do not reduce appear in the
-expression output. In order to see what working with this package is
-like, self-set all the single letter identifiers (to their corresponding
-symbols).
-<A NAME="IDX897"></A>
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define a 'a)
-<small>...</small>
-(define z 'z)
-</pre></td></tr></table><P>
-
-Or just <CODE>(require 'self-set)</CODE>. Now try some sample expressions:
-<A NAME="IDX898"></A>
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(+ (+ a b) (- a b)) => (* a 2)
-(* (+ a b) (+ a b)) => (^ (+ a b) 2)
-(* (+ a b) (- a b)) => (* (+ a b) (- a b))
-(* (- a b) (- a b)) => (^ (- a b) 2)
-(* (- a b) (+ a b)) => (* (+ a b) (- a b))
-(/ (+ a b) (+ c d)) => (/ (+ a b) (+ c d))
-(^ (+ a b) 3) => (^ (+ a b) 3)
-(^ (+ a 2) 3) => (^ (+ 2 a) 3)
-</pre></td></tr></table><P>
-
-Associative rules have been applied and repeated addition and
-multiplication converted to multiplication and exponentiation.
-</P>
-<P>
-
-We can enable distributive rules, thus expanding to sum of products
-form:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(set! *ruleset* (combined-rulesets distribute* distribute/))
-
-(* (+ a b) (+ a b)) => (+ (* 2 a b) (^ a 2) (^ b 2))
-(* (+ a b) (- a b)) => (- (^ a 2) (^ b 2))
-(* (- a b) (- a b)) => (- (+ (^ a 2) (^ b 2)) (* 2 a b))
-(* (- a b) (+ a b)) => (- (^ a 2) (^ b 2))
-(/ (+ a b) (+ c d)) => (+ (/ a (+ c d)) (/ b (+ c d)))
-(/ (+ a b) (- c d)) => (+ (/ a (- c d)) (/ b (- c d)))
-(/ (- a b) (- c d)) => (- (/ a (- c d)) (/ b (- c d)))
-(/ (- a b) (+ c d)) => (- (/ a (+ c d)) (/ b (+ c d)))
-(^ (+ a b) 3) => (+ (* 3 a (^ b 2)) (* 3 b (^ a 2)) (^ a 3) (^ b 3))
-(^ (+ a 2) 3) => (+ 8 (* a 12) (* (^ a 2) 6) (^ a 3))
-</pre></td></tr></table><P>
-
-Use of this package is not restricted to simple arithmetic expressions:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(require 'determinant)
-
-(determinant '((a b c) (d e f) (g h i))) =>
-(- (+ (* a e i) (* b f g) (* c d h)) (* a f h) (* b d i) (* c e g))
-</pre></td></tr></table><P>
-
-Currently, only <CODE>+</CODE>, <CODE>-</CODE>, <CODE>*</CODE>, <CODE>/</CODE>, and <CODE>^</CODE>
-support non-numeric elements. Expressions with <CODE>-</CODE> are converted
-to equivalent expressions without <CODE>-</CODE>, so behavior for <CODE>-</CODE> is
-not defined separately. <CODE>/</CODE> expressions are handled similarly.
-</P>
-<P>
-
-This list might be extended to include <CODE>quotient</CODE>, <CODE>modulo</CODE>,
-<CODE>remainder</CODE>, <CODE>lcm</CODE>, and <CODE>gcd</CODE>; but these work only for
-the more restrictive Euclidean (Unique Factorization) Domain.
-<A NAME="IDX899"></A>
-<A NAME="IDX900"></A>
-</P>
-<P>
-
-<HR SIZE="6">
-<A NAME="SEC137"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC136"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC138"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 5.13 Rules and Rulesets </H2>
-<!--docid::SEC137::-->
-<P>
-
-The <EM>commutative-ring</EM> package allows control of ring properties
-through the use of <EM>rulesets</EM>.
-</P>
-<P>
-
-<A NAME="IDX901"></A>
-</P>
-<DL>
-<DT><U>Variable:</U> <B>*ruleset*</B>
-<DD>Contains the set of rules currently in effect. Rules defined by
-<CODE>cring:define-rule</CODE> are stored within the value of *ruleset* at the
-time <CODE>cring:define-rule</CODE> is called. If <VAR>*ruleset*</VAR> is
-<CODE>#f</CODE>, then no rules apply.
-</DL>
-<P>
-
-<A NAME="IDX902"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>make-ruleset</B> <I>rule1 <small>...</small></I>
-<DD><A NAME="IDX903"></A>
-<DT><U>Function:</U> <B>make-ruleset</B> <I>name rule1 <small>...</small></I>
-<DD>Returns a new ruleset containing the rules formed by applying
-<CODE>cring:define-rule</CODE> to each 4-element list argument <VAR>rule</VAR>. If
-the first argument to <CODE>make-ruleset</CODE> is a symbol, then the database
-table created for the new ruleset will be named <VAR>name</VAR>. Calling
-<CODE>make-ruleset</CODE> with no rule arguments creates an empty ruleset.
-</DL>
-<P>
-
-<A NAME="IDX904"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>combined-rulesets</B> <I>ruleset1 <small>...</small></I>
-<DD><A NAME="IDX905"></A>
-<DT><U>Function:</U> <B>combined-rulesets</B> <I>name ruleset1 <small>...</small></I>
-<DD>Returns a new ruleset containing the rules contained in each ruleset
-argument <VAR>ruleset</VAR>. If the first argument to
-<CODE>combined-ruleset</CODE> is a symbol, then the database table created for
-the new ruleset will be named <VAR>name</VAR>. Calling
-<CODE>combined-ruleset</CODE> with no ruleset arguments creates an empty
-ruleset.
-</DL>
-<P>
-
-Two rulesets are defined by this package.
-</P>
-<P>
-
-<A NAME="IDX906"></A>
-</P>
-<DL>
-<DT><U>Constant:</U> <B>distribute*</B>
-<DD>Contains the ruleset to distribute multiplication over addition and
-subtraction.
-</DL>
-<P>
-
-<A NAME="IDX907"></A>
-</P>
-<DL>
-<DT><U>Constant:</U> <B>distribute/</B>
-<DD>Contains the ruleset to distribute division over addition and
-subtraction.
-<P>
-
-Take care when using both <VAR>distribute*</VAR> and <VAR>distribute/</VAR>
-simultaneously. It is possible to put <CODE>/</CODE> into an infinite loop.
-</P>
-</DL>
-<P>
-
-You can specify how sum and product expressions containing non-numeric
-elements simplify by specifying the rules for <CODE>+</CODE> or <CODE>*</CODE> for
-cases where expressions involving objects reduce to numbers or to
-expressions involving different non-numeric elements.
-</P>
-<P>
-
-<A NAME="IDX908"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>cring:define-rule</B> <I>op sub-op1 sub-op2 reduction</I>
-<DD>Defines a rule for the case when the operation represented by symbol
-<VAR>op</VAR> is applied to lists whose <CODE>car</CODE>s are <VAR>sub-op1</VAR> and
-<VAR>sub-op2</VAR>, respectively. The argument <VAR>reduction</VAR> is a
-procedure accepting 2 arguments which will be lists whose <CODE>car</CODE>s
-are <VAR>sub-op1</VAR> and <VAR>sub-op2</VAR>.
-<P>
-
-<A NAME="IDX909"></A>
-<DT><U>Function:</U> <B>cring:define-rule</B> <I>op sub-op1 'identity reduction</I>
-<DD>Defines a rule for the case when the operation represented by symbol
-<VAR>op</VAR> is applied to a list whose <CODE>car</CODE> is <VAR>sub-op1</VAR>, and
-some other argument. <VAR>Reduction</VAR> will be called with the list whose
-<CODE>car</CODE> is <VAR>sub-op1</VAR> and some other argument.
-</P>
-<P>
-
-If <VAR>reduction</VAR> returns <CODE>#f</CODE>, the reduction has failed and other
-reductions will be tried. If <VAR>reduction</VAR> returns a non-false value,
-that value will replace the two arguments in arithmetic (<CODE>+</CODE>,
-<CODE>-</CODE>, and <CODE>*</CODE>) calculations involving non-numeric elements.
-</P>
-<P>
-
-The operations <CODE>+</CODE> and <CODE>*</CODE> are assumed commutative; hence both
-orders of arguments to <VAR>reduction</VAR> will be tried if necessary.
-</P>
-<P>
-
-The following rule is the definition for distributing <CODE>*</CODE> over
-<CODE>+</CODE>.
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(cring:define-rule
- '* '+ 'identity
- (lambda (exp1 exp2)
- (apply + (map (lambda (trm) (* trm exp2)) (cdr exp1))))))
-</pre></td></tr></table></DL>
-<P>
-
-<HR SIZE="6">
-<A NAME="SEC138"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC137"> &lt; </A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 5.14 How to Create a Commutative Ring </H2>
-<!--docid::SEC138::-->
-<P>
-
-The first step in creating your commutative ring is to write procedures
-to create elements of the ring. A non-numeric element of the ring must
-be represented as a list whose first element is a symbol or string.
-This first element identifies the type of the object. A convenient and
-clear convention is to make the type-identifying element be the same
-symbol whose top-level value is the procedure to create it.
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define (n . list1)
- (cond ((and (= 2 (length list1))
- (eq? (car list1) (cadr list1)))
- 0)
- ((not (term&lt; (first list1) (last1 list1)))
- (apply n (reverse list1)))
- (else (cons 'n list1))))
-
-(define (s x y) (n x y))
-
-(define (m . list1)
- (cond ((neq? (first list1) (term_min list1))
- (apply m (cyclicrotate list1)))
- ((term&lt; (last1 list1) (cadr list1))
- (apply m (reverse (cyclicrotate list1))))
- (else (cons 'm list1))))
-</pre></td></tr></table><P>
-
-Define a procedure to multiply 2 non-numeric elements of the ring.
-Other multiplicatons are handled automatically. Objects for which rules
-have <EM>not</EM> been defined are not changed.
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define (n*n ni nj)
- (let ((list1 (cdr ni)) (list2 (cdr nj)))
- (cond ((null? (intersection list1 list2)) #f)
- ((and (eq? (last1 list1) (first list2))
- (neq? (first list1) (last1 list2)))
- (apply n (splice list1 list2)))
- ((and (eq? (first list1) (first list2))
- (neq? (last1 list1) (last1 list2)))
- (apply n (splice (reverse list1) list2)))
- ((and (eq? (last1 list1) (last1 list2))
- (neq? (first list1) (first list2)))
- (apply n (splice list1 (reverse list2))))
- ((and (eq? (last1 list1) (first list2))
- (eq? (first list1) (last1 list2)))
- (apply m (cyclicsplice list1 list2)))
- ((and (eq? (first list1) (first list2))
- (eq? (last1 list1) (last1 list2)))
- (apply m (cyclicsplice (reverse list1) list2)))
- (else #f))))
-</pre></td></tr></table><P>
-
-Test the procedures to see if they work.
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>;;; where cyclicrotate(list) is cyclic rotation of the list one step
-;;; by putting the first element at the end
-(define (cyclicrotate list1)
- (append (rest list1) (list (first list1))))
-;;; and where term_min(list) is the element of the list which is
-;;; first in the term ordering.
-(define (term_min list1)
- (car (sort list1 term&lt;)))
-(define (term&lt; sym1 sym2)
- (string&lt;? (symbol-&gt;string sym1) (symbol-&gt;string sym2)))
-(define first car)
-(define rest cdr)
-(define (last1 list1) (car (last-pair list1)))
-(define (neq? obj1 obj2) (not (eq? obj1 obj2)))
-;;; where splice is the concatenation of list1 and list2 except that their
-;;; common element is not repeated.
-(define (splice list1 list2)
- (cond ((eq? (last1 list1) (first list2))
- (append list1 (cdr list2)))
- (else (slib:error 'splice list1 list2))))
-;;; where cyclicsplice is the result of leaving off the last element of
-;;; splice(list1,list2).
-(define (cyclicsplice list1 list2)
- (cond ((and (eq? (last1 list1) (first list2))
- (eq? (first list1) (last1 list2)))
- (butlast (splice list1 list2) 1))
- (else (slib:error 'cyclicsplice list1 list2))))
-
-(N*N (S a b) (S a b)) => (m a b)
-</pre></td></tr></table><P>
-
-Then register the rule for multiplying type N objects by type N objects.
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(cring:define-rule '* 'N 'N N*N))
-</pre></td></tr></table><P>
-
-Now we are ready to compute!
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define (t)
- (define detM
- (+ (* (S g b)
- (+ (* (S f d)
- (- (* (S a f) (S d g)) (* (S a g) (S d f))))
- (* (S f f)
- (- (* (S a g) (S d d)) (* (S a d) (S d g))))
- (* (S f g)
- (- (* (S a d) (S d f)) (* (S a f) (S d d))))))
- (* (S g d)
- (+ (* (S f b)
- (- (* (S a g) (S d f)) (* (S a f) (S d g))))
- (* (S f f)
- (- (* (S a b) (S d g)) (* (S a g) (S d b))))
- (* (S f g)
- (- (* (S a f) (S d b)) (* (S a b) (S d f))))))
- (* (S g f)
- (+ (* (S f b)
- (- (* (S a d) (S d g)) (* (S a g) (S d d))))
- (* (S f d)
- (- (* (S a g) (S d b)) (* (S a b) (S d g))))
- (* (S f g)
- (- (* (S a b) (S d d)) (* (S a d) (S d b))))))
- (* (S g g)
- (+ (* (S f b)
- (- (* (S a f) (S d d)) (* (S a d) (S d f))))
- (* (S f d)
- (- (* (S a b) (S d f)) (* (S a f) (S d b))))
- (* (S f f)
- (- (* (S a d) (S d b)) (* (S a b) (S d d))))))))
- (* (S b e) (S c a) (S e c)
- detM
- ))
-(pretty-print (t))
--|
-(- (+ (m a c e b d f g)
- (m a c e b d g f)
- (m a c e b f d g)
- (m a c e b f g d)
- (m a c e b g d f)
- (m a c e b g f d))
- (* 2 (m a b e c) (m d f g))
- (* (m a c e b d) (m f g))
- (* (m a c e b f) (m d g))
- (* (m a c e b g) (m d f)))
-</pre></td></tr></table><P>
-
-<A NAME="Matrix Algebra"></A>
-<HR SIZE="6">
-<A NAME="SEC139"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC138"> &lt; </A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 5.15 Matrix Algebra </H2>
-<!--docid::SEC139::-->
-<P>
-
-<CODE>(require 'determinant)</CODE>
-<A NAME="IDX910"></A>
-</P>
-<P>
-
-A Matrix can be either a list of lists (rows) or an array.
-As with linear-algebra texts, this package uses 1-based coordinates.
-</P>
-<P>
-
-<A NAME="IDX911"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>matrix-&gt;lists</B> <I>matrix</I>
-<DD><P>
-
-Returns the list-of-lists form of <VAR>matrix</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX912"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>matrix-&gt;array</B> <I>matrix</I>
-<DD><P>
-
-Returns the (ones-based) array form of <VAR>matrix</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX913"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>determinant</B> <I>matrix</I>
-<DD><P>
-
-<VAR>matrix</VAR> must be a square matrix.
-<CODE>determinant</CODE> returns the determinant of <VAR>matrix</VAR>.
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(require 'determinant)
-(determinant '((1 2) (3 4))) => -2
-(determinant '((1 2 3) (4 5 6) (7 8 9))) => 0
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX914"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>transpose</B> <I>matrix</I>
-<DD><P>
-
-Returns a copy of <VAR>matrix</VAR> flipped over the diagonal containing the 1,1
-element.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX915"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>matrix:product</B> <I>m1 m2</I>
-<DD><P>
-
-Returns the product of matrices <VAR>m1</VAR> and <VAR>m2</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX916"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>matrix:inverse</B> <I>matrix</I>
-<DD><P>
-
-<VAR>matrix</VAR> must be a square matrix.
-If <VAR>matrix</VAR> is singlar, then <CODE>matrix:inverse</CODE> returns #f; otherwise <CODE>matrix:inverse</CODE> returns the
-<CODE>matrix:product</CODE> inverse of <VAR>matrix</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="Database Packages"></A>
-<HR SIZE="6">
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_5.html#SEC88"> &lt;&lt; </A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<BR>
-<FONT SIZE="-1">
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-by <I>Steve Langasek</I> on <I>January, 10 2005</I>
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-<TITLE>SLIB: Database Packages</TITLE>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H1> 6. Database Packages </H1>
-<!--docid::SEC140::-->
-<P>
-
-<TABLE BORDER="0" CELLSPACING="0">
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_6.html#SEC141">6.1 Relational Database</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'relational-database</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_6.html#SEC165">6.2 Relational Infrastructure</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_6.html#SEC178">6.3 Weight-Balanced Trees</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'wt-tree</TD></TR>
-</TABLE>
-<P>
-
-<A NAME="Relational Database"></A>
-<HR SIZE="6">
-<A NAME="SEC141"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &lt; </A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 6.1 Relational Database </H2>
-<!--docid::SEC141::-->
-<P>
-
-<CODE>(require 'relational-database)</CODE>
-<A NAME="IDX917"></A>
-</P>
-<P>
-
-This package implements a database system inspired by the Relational
-Model (<CITE>E. F. Codd, A Relational Model of Data for Large Shared
-Data Banks</CITE>). An SLIB relational database implementation can be created
-from any <A HREF="slib_6.html#SEC166">6.2.1 Base Table</A> implementation.
-</P>
-<P>
-
-Why relational database? For motivations and design issues see<BR>
-<A HREF="http://swissnet.ai.mit.edu/~jaffer/DBManifesto.html">http://swissnet.ai.mit.edu/~jaffer/DBManifesto.html</A>.
-</P>
-<P>
-
-<TABLE BORDER="0" CELLSPACING="0">
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_6.html#SEC142">6.1.1 Using Databases</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'databases</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_6.html#SEC147">6.1.2 Table Operations</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_6.html#SEC154">6.1.3 Database Interpolation</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'database-interpolate</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_6.html#SEC155">6.1.4 Embedded Commands</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'database-commands</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_6.html#SEC162">6.1.5 Database Macros</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'within-database</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_6.html#SEC164">6.1.6 Database Browser</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'database-browse</TD></TR>
-</TABLE>
-<P>
-
-<A NAME="Using Databases"></A>
-<HR SIZE="6">
-<A NAME="SEC142"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC141"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC147"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC141"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 6.1.1 Using Databases </H3>
-<!--docid::SEC142::-->
-<P>
-
-<CODE>(require 'databases)</CODE>
-<A NAME="IDX918"></A>
-</P>
-<P>
-
-This enhancement wraps a utility layer on <CODE>relational-database</CODE>
-which provides:
-</P>
-<P>
-
-<UL>
-<LI>
-Identification of open databases by filename.
-<LI>
-Automatic sharing of open (immutable) databases.
-<LI>
-Automatic loading of base-table package when creating a database.
-<LI>
-Detection and automatic loading of the appropriate base-table package
-when opening a database.
-<LI>
-Table and data definition from Scheme lists.
-</UL>
-<P>
-
-<A NAME="SEC143"></A>
-<H4> Database Sharing </H4>
-<!--docid::SEC143::-->
-<P>
-
-<EM>Auto-sharing</EM> refers to a call to the procedure
-<A NAME="IDX919"></A>
-<CODE>open-database</CODE> returning an already open database (procedure),
-rather than opening the database file a second time.
-</P>
-<P>
-
-<BLOCKQUOTE>
-<EM>Note:</EM> Databases returned by <CODE>open-database</CODE> do not include
-wrappers applied by packages like <A HREF="slib_6.html#SEC155">6.1.4 Embedded Commands</A>. But
-wrapped databases do work as arguments to these functions.
-</BLOCKQUOTE>
-<P>
-
-When a database is created, it is mutable by the creator and not
-auto-sharable. A database opened mutably is also not auto-sharable.
-But any number of readers can (open) share a non-mutable database file.
-</P>
-<P>
-
-This next set of procedures mirror the whole-database methods in
-<A HREF="slib_6.html#SEC177">6.2.4 Database Operations</A>. Except for <CODE>create-database</CODE>, each
-procedure will accept either a filename or database procedure for its
-first argument.
-</P>
-<P>
-
-<A NAME="IDX920"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>create-database</B> <I>filename base-table-type</I>
-<DD><P>
-
-<VAR>filename</VAR> should be a string naming a file; or <CODE>#f</CODE>. <VAR>base-table-type</VAR> must be a
-symbol naming a feature which can be passed to <CODE>require</CODE>. <CODE>create-database</CODE>
-returns a new, open relational database (with base-table type <VAR>base-table-type</VAR>)
-associated with <VAR>filename</VAR>, or a new ephemeral database if <VAR>filename</VAR> is <CODE>#f</CODE>.
-</P>
-<P>
-
-<CODE>create-database</CODE> is the only run-time use of require in SLIB
-which crosses module boundaries. When <VAR>base-table-type</VAR> is <CODE>require</CODE>d by <CODE>create-database</CODE>; it
-adds an association of <VAR>base-table-type</VAR> with its <EM>relational-system</EM> procedure
-<A NAME="IDX921"></A>
-to <VAR>mdbm:*databases*</VAR>.
-</P>
-<P>
-
-alist-table is the default base-table type:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(require 'databases)
-(define my-rdb (create-database &quot;my.db&quot; 'alist-table))
-</pre></td></tr></table></DL>
-Only <CODE>alist-table</CODE> and base-table modules which have been
-<CODE>require</CODE>d will dispatch correctly from the
-<CODE>open-database</CODE> procedures. Therefore, either pass two
-arguments to <CODE>open-database</CODE>, or require the base-table of your
-database file uses before calling <CODE>open-database</CODE> with one
-argument.
-<P>
-
-<A NAME="IDX922"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>open-database!</B> <I>rdb base-table-type</I>
-<DD><P>
-
-Returns <EM>mutable</EM> open relational database or #f.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX923"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>open-database</B> <I>rdb base-table-type</I>
-<DD><P>
-
-Returns an open relational database associated with <VAR>rdb</VAR>. The
-database will be opened with base-table type <VAR>base-table-type</VAR>).
-</P>
-<P>
-
-<A NAME="IDX924"></A>
-<DT><U>Function:</U> <B>open-database</B> <I>rdb</I>
-<DD>Returns an open relational database associated with <VAR>rdb</VAR>.
-<CODE>open-database</CODE> will attempt to deduce the correct base-table-type.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX925"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>write-database</B> <I>rdb filename</I>
-<DD><P>
-
-Writes the mutable relational-database <VAR>rdb</VAR> to <VAR>filename</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX926"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>sync-database</B> <I>rdb</I>
-<DD><P>
-
-Writes the mutable relational-database <VAR>rdb</VAR> to the filename it was
-opened with.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX927"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>solidify-database</B> <I>rdb</I>
-<DD><P>
-
-Syncs <VAR>rdb</VAR> and makes it immutable.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX928"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>close-database</B> <I>rdb</I>
-<DD><P>
-
-<VAR>rdb</VAR> will only be closed when the count of <CODE>open-database</CODE> - <CODE>close-database</CODE>
-calls for <VAR>rdb</VAR> (and its filename) is 0. <CODE>close-database</CODE> returns #t if successful;
-and #f otherwise.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX929"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>mdbm:report</B>
-<DD><P>
-
-Prints a table of open database files. The columns are the
-base-table type, number of opens, `<SAMP>!</SAMP>' for mutable, the
-filename, and the lock certificate (if locked).
-</P>
-</DL>
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(mdbm:report)
--|
- alist-table 003 /usr/local/lib/slib/clrnamdb.scm
- alist-table 001 ! sdram.db jaffer@aubrey.jaffer.3166:1038628199
-</pre></td></tr></table><P>
-
-<A NAME="SEC144"></A>
-<H4> Opening Tables </H4>
-<!--docid::SEC144::-->
-<P>
-
-<A NAME="IDX930"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>open-table</B> <I>rdb table-name</I>
-<DD><P>
-
-<VAR>rdb</VAR> must be a relational database and <VAR>table-name</VAR> a symbol.
-</P>
-<P>
-
-<CODE>open-table</CODE> returns a &quot;methods&quot; procedure for an existing relational table in
-<VAR>rdb</VAR> if it exists and can be opened for reading, otherwise returns
-<CODE>#f</CODE>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX931"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>open-table!</B> <I>rdb table-name</I>
-<DD><P>
-
-<VAR>rdb</VAR> must be a relational database and <VAR>table-name</VAR> a symbol.
-</P>
-<P>
-
-<CODE>open-table!</CODE> returns a &quot;methods&quot; procedure for an existing relational table in
-<VAR>rdb</VAR> if it exists and can be opened in mutable mode, otherwise returns
-<CODE>#f</CODE>.
-</P>
-</DL>
-<A NAME="SEC145"></A>
-<H4> Defining Tables </H4>
-<!--docid::SEC145::-->
-<P>
-
-<A NAME="IDX932"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>define-domains</B> <I>rdb row5 <small>...</small></I>
-<DD><P>
-
-Adds the domain rows <VAR>row5</VAR> <small>...</small> to the `<SAMP>*domains-data*</SAMP>' table
-in <VAR>rdb</VAR>. The format of the row is given in <A HREF="slib_6.html#SEC175">6.2.2 Catalog Representation</A>.
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define-domains rdb '(permittivity #f complex? c64 #f))
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX933"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>add-domain</B> <I>rdb row5</I>
-<DD><P>
-
-Use <CODE>define-domains</CODE> instead.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX934"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>define-tables</B> <I>rdb spec-0 <small>...</small></I>
-<DD><P>
-
-Adds tables as specified in <VAR>spec-0</VAR> <small>...</small> to the open
-relational-database <VAR>rdb</VAR>. Each <VAR>spec</VAR> has the form:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(&lt;name&gt; &lt;descriptor-name&gt; &lt;descriptor-name&gt; &lt;rows&gt;)
-</pre></td></tr></table>or
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(&lt;name&gt; &lt;primary-key-fields&gt; &lt;other-fields&gt; &lt;rows&gt;)
-</pre></td></tr></table><P>
-
-where &lt;name&gt; is the table name, &lt;descriptor-name&gt; is the symbol
-name of a descriptor table, &lt;primary-key-fields&gt; and
-&lt;other-fields&gt; describe the primary keys and other fields
-respectively, and &lt;rows&gt; is a list of data rows to be added to the
-table.
-</P>
-<P>
-
-&lt;primary-key-fields&gt; and &lt;other-fields&gt; are lists of field
-descriptors of the form:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(&lt;column-name&gt; &lt;domain&gt;)
-</pre></td></tr></table>or
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(&lt;column-name&gt; &lt;domain&gt; &lt;column-integrity-rule&gt;)
-</pre></td></tr></table><P>
-
-where &lt;column-name&gt; is the column name, &lt;domain&gt; is the domain
-of the column, and &lt;column-integrity-rule&gt; is an expression whose
-value is a procedure of one argument (which returns <CODE>#f</CODE> to signal
-an error).
-</P>
-<P>
-
-If &lt;domain&gt; is not a defined domain name and it matches the name of
-this table or an already defined (in one of <VAR>spec-0</VAR> <small>...</small>) single
-key field table, a foreign-key domain will be created for it.
-</P>
-</DL>
-<A NAME="SEC146"></A>
-<H4> Listing Tables </H4>
-<!--docid::SEC146::-->
-<P>
-
-<A NAME="IDX935"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>list-table-definition</B> <I>rdb table-name</I>
-<DD><P>
-
-If symbol <VAR>table-name</VAR> exists in the open relational-database
-<VAR>rdb</VAR>, then returns a list of the table-name, its primary key names
-and domains, its other key names and domains, and the table's records
-(as lists). Otherwise, returns #f.
-</P>
-<P>
-
-The list returned by <CODE>list-table-definition</CODE>, when passed as an
-argument to <CODE>define-tables</CODE>, will recreate the table.
-</P>
-</DL>
-<P>
-
-<A NAME="Table Operations"></A>
-<HR SIZE="6">
-<A NAME="SEC147"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC142"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC148"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC141"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 6.1.2 Table Operations </H3>
-<!--docid::SEC147::-->
-<P>
-
-These are the descriptions of the methods available from an open
-relational table. A method is retrieved from a table by calling
-the table with the symbol name of the operation. For example:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>((plat 'get 'processor) 'djgpp) => i386
-</pre></td></tr></table><P>
-
-Some operations described below require primary key arguments. Primary
-keys arguments are denoted <VAR>key1</VAR> <VAR>key2</VAR> <small>...</small>. It is an
-error to call an operation for a table which takes primary key arguments
-with the wrong number of primary keys for that table.
-</P>
-<P>
-
-<A NAME="IDX936"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> relational-table <B>get</B> <I>column-name</I>
-<DD>Returns a procedure of arguments <VAR>key1</VAR> <VAR>key2</VAR> <small>...</small> which
-returns the value for the <VAR>column-name</VAR> column of the row associated
-with primary keys <VAR>key1</VAR>, <VAR>key2</VAR> <small>...</small> if that row exists in
-the table, or <CODE>#f</CODE> otherwise.
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>((plat 'get 'processor) 'djgpp) => i386
-((plat 'get 'processor) 'be-os) => #f
-</pre></td></tr></table></DL>
-<P>
-
-<TABLE BORDER="0" CELLSPACING="0">
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_6.html#SEC148">6.1.2.1 Single Row Operations</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_6.html#SEC149">6.1.2.2 Match-Keys</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_6.html#SEC150">6.1.2.3 Multi-Row Operations</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_6.html#SEC151">6.1.2.4 Indexed Sequential Access Methods</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_6.html#SEC152">6.1.2.5 Sequential Index Operations</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_6.html#SEC153">6.1.2.6 Table Administration</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-</TABLE>
-<P>
-
-<A NAME="Single Row Operations"></A>
-<HR SIZE="6">
-<A NAME="SEC148"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC147"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC149"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC147"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 6.1.2.1 Single Row Operations </H4>
-<!--docid::SEC148::-->
-<P>
-
-The term <EM>row</EM> used below refers to a Scheme list of values (one for
-each column) in the order specified in the descriptor (table) for this
-table. Missing values appear as <CODE>#f</CODE>. Primary keys must not
-be missing.
-</P>
-<P>
-
-<A NAME="IDX937"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> relational-table <B>row:insert</B>
-<DD>Adds the row <VAR>row</VAR> to this table. If a row for the primary key(s)
-specified by <VAR>row</VAR> already exists in this table an error is
-signaled. The value returned is unspecified.
-</DL>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define telephone-table-desc
- ((my-database 'create-table) 'telephone-table-desc))
-(define ndrp (telephone-table-desc 'row:insert))
-(ndrp '(1 #t name #f string))
-(ndrp '(2 #f telephone
- (lambda (d)
- (and (string? d) (&gt; (string-length d) 2)
- (every
- (lambda (c)
- (memv c '(#\0 #\1 #\2 #\3 #\4 #\5 #\6 #\7 #\8 #\9
- #\+ #\( #\ #\) #\-)))
- (string-&gt;list d))))
- string))
-</pre></td></tr></table><P>
-
-<A NAME="IDX938"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> relational-table <B>row:update</B>
-<DD>Returns a procedure of one argument, <VAR>row</VAR>, which adds the row,
-<VAR>row</VAR>, to this table. If a row for the primary key(s) specified by
-<VAR>row</VAR> already exists in this table, it will be overwritten. The
-value returned is unspecified.
-</DL>
-<P>
-
-<A NAME="IDX939"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> relational-table <B>row:retrieve</B>
-<DD>Returns a procedure of arguments <VAR>key1</VAR> <VAR>key2</VAR> <small>...</small> which
-returns the row associated with primary keys <VAR>key1</VAR>, <VAR>key2</VAR>
-<small>...</small> if it exists, or <CODE>#f</CODE> otherwise.
-</DL>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>((plat 'row:retrieve) 'linux) => (linux i386 linux gcc)
-((plat 'row:retrieve) 'multics) => #f
-</pre></td></tr></table><P>
-
-<A NAME="IDX940"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> relational-table <B>row:remove</B>
-<DD>Returns a procedure of arguments <VAR>key1</VAR> <VAR>key2</VAR> <small>...</small> which
-removes and returns the row associated with primary keys <VAR>key1</VAR>,
-<VAR>key2</VAR> <small>...</small> if it exists, or <CODE>#f</CODE> otherwise.
-</DL>
-<P>
-
-<A NAME="IDX941"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> relational-table <B>row:delete</B>
-<DD>Returns a procedure of arguments <VAR>key1</VAR> <VAR>key2</VAR> <small>...</small> which
-deletes the row associated with primary keys <VAR>key1</VAR>, <VAR>key2</VAR>
-<small>...</small> if it exists. The value returned is unspecified.
-</DL>
-<P>
-
-<A NAME="Match-Keys"></A>
-<HR SIZE="6">
-<A NAME="SEC149"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC148"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC150"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC147"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 6.1.2.2 Match-Keys </H4>
-<!--docid::SEC149::-->
-<P>
-
-<A NAME="IDX942"></A>
-The (optional) <VAR>match-key1</VAR> <small>...</small> arguments are used to restrict
-actions of a whole-table operation to a subset of that table. Those
-procedures (returned by methods) which accept match-key arguments will
-accept any number of match-key arguments between zero and the number of
-primary keys in the table. Any unspecified <VAR>match-key</VAR> arguments
-default to <CODE>#f</CODE>.
-</P>
-<P>
-
-The <VAR>match-key1</VAR> <small>...</small> restrict the actions of the table command
-to those records whose primary keys each satisfy the corresponding
-<VAR>match-key</VAR> argument. The arguments and their actions are:
-</P>
-<P>
-
-<BLOCKQUOTE>
-<DL COMPACT>
-<DT><CODE>#f</CODE>
-<DD>The false value matches any key in the corresponding position.
-<DT>an object of type procedure
-<DD>This procedure must take a single argument, the key in the corresponding
-position. Any key for which the procedure returns a non-false value is
-a match; Any key for which the procedure returns a <CODE>#f</CODE> is not.
-<DT>other values
-<DD>Any other value matches only those keys <CODE>equal?</CODE> to it.
-</DL>
-</BLOCKQUOTE>
-<P>
-
-<A NAME="IDX943"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> relational-table <B>get*</B> <I>column-name</I>
-<DD>Returns a procedure of optional arguments <VAR>match-key1</VAR> <small>...</small> which
-returns a list of the values for the specified column for all rows in
-this table. The optional <VAR>match-key1</VAR> <small>...</small> arguments restrict
-actions to a subset of the table.
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>((plat 'get* 'processor)) =>
-(i386 i8086 i386 i8086 i386 i386 i8086 m68000
- m68000 m68000 m68000 m68000 powerpc)
-
-((plat 'get* 'processor) #f) =>
-(i386 i8086 i386 i8086 i386 i386 i8086 m68000
- m68000 m68000 m68000 m68000 powerpc)
-
-(define (a-key? key)
- (char=? #\a (string-ref (symbol-&gt;string key) 0)))
-
-((plat 'get* 'processor) a-key?) =>
-(m68000 m68000 m68000 m68000 m68000 powerpc)
-
-((plat 'get* 'name) a-key?) =>
-(atari-st-turbo-c atari-st-gcc amiga-sas/c-5.10
- amiga-aztec amiga-dice-c aix)
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="Multi-Row Operations"></A>
-<HR SIZE="6">
-<A NAME="SEC150"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC149"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC151"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC147"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 6.1.2.3 Multi-Row Operations </H4>
-<!--docid::SEC150::-->
-<P>
-
-<A NAME="IDX944"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> relational-table <B>row:retrieve*</B>
-<DD>Returns a procedure of optional arguments <VAR>match-key1</VAR> <small>...</small>
-which returns a list of all rows in this table. The optional
-<VAR>match-key1</VAR> <small>...</small> arguments restrict actions to a subset of the
-table. For details see See section <A HREF="slib_6.html#SEC149">6.1.2.2 Match-Keys</A>.
-</DL>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>((plat 'row:retrieve*) a-key?) =>
-((atari-st-turbo-c m68000 atari turbo-c)
- (atari-st-gcc m68000 atari gcc)
- (amiga-sas/c-5.10 m68000 amiga sas/c)
- (amiga-aztec m68000 amiga aztec)
- (amiga-dice-c m68000 amiga dice-c)
- (aix powerpc aix -))
-</pre></td></tr></table><P>
-
-<A NAME="IDX945"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> relational-table <B>row:remove*</B>
-<DD>Returns a procedure of optional arguments <VAR>match-key1</VAR> <small>...</small> which
-removes and returns a list of all rows in this table. The optional
-<VAR>match-key1</VAR> <small>...</small> arguments restrict actions to a subset of the
-table.
-</DL>
-<P>
-
-<A NAME="IDX946"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> relational-table <B>row:delete*</B>
-<DD>Returns a procedure of optional arguments <VAR>match-key1</VAR> <small>...</small>
-which Deletes all rows from this table. The optional <VAR>match-key1</VAR>
-<small>...</small> arguments restrict deletions to a subset of the table. The
-value returned is unspecified. The descriptor table and catalog entry
-for this table are not affected.
-</DL>
-<P>
-
-<A NAME="IDX947"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> relational-table <B>for-each-row</B>
-<DD>Returns a procedure of arguments <VAR>proc</VAR> <VAR>match-key1</VAR> <small>...</small>
-which calls <VAR>proc</VAR> with each <VAR>row</VAR> in this table. The
-optional <VAR>match-key1</VAR> <small>...</small> arguments restrict actions to a
-subset of the table. For details see See section <A HREF="slib_6.html#SEC149">6.1.2.2 Match-Keys</A>.
-</DL>
-<P>
-
-Note that <CODE>row:insert*</CODE> and <CODE>row:update*</CODE> do <EM>not</EM> use
-match-keys.
-</P>
-<P>
-
-<A NAME="IDX948"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> relational-table <B>row:insert*</B>
-<DD>Returns a procedure of one argument, <VAR>rows</VAR>, which adds each row in
-the list of rows, <VAR>rows</VAR>, to this table. If a row for the primary
-key specified by an element of <VAR>rows</VAR> already exists in this table,
-an error is signaled. The value returned is unspecified.
-</DL>
-<P>
-
-<A NAME="IDX949"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> relational-table <B>row:update*</B>
-<DD>Returns a procedure of one argument, <VAR>rows</VAR>, which adds each row in
-the list of rows, <VAR>rows</VAR>, to this table. If a row for the primary
-key specified by an element of <VAR>rows</VAR> already exists in this table,
-it will be overwritten. The value returned is unspecified.
-</DL>
-<P>
-
-<A NAME="Indexed Sequential Access Methods"></A>
-<HR SIZE="6">
-<A NAME="SEC151"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC150"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC152"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC147"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 6.1.2.4 Indexed Sequential Access Methods </H4>
-<!--docid::SEC151::-->
-<P>
-
-<A NAME="IDX950"></A>
-<EM>Indexed Sequential Access Methods</EM> are a way of arranging
-database information so that records can be accessed both by key and
-by key sequence (ordering). <EM>ISAM</EM> is not part of Codd's
-relational model. Hardcore relational programmers might use some
-least-upper-bound join for every row to get them into an order.
-</P>
-<P>
-
-Associative memory in B-Trees is an example of a database
-implementation which can support a native key ordering. SLIB's
-<CODE>alist-table</CODE> implementation uses <CODE>sort</CODE> to implement
-<CODE>for-each-row-in-order</CODE>, but does not support <CODE>isam-next</CODE>
-and <CODE>isam-prev</CODE>.
-</P>
-<P>
-
-The multi-primary-key ordering employed by these operations is the
-lexicographic collation of those primary-key fields in their given
-order. For example:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(12 a 34) &lt; (12 a 36) &lt; (12 b 1) &lt; (13 a 0)
-</pre></td></tr></table><P>
-
-<A NAME="Sequential Index Operations"></A>
-<HR SIZE="6">
-<A NAME="SEC152"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC151"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC153"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC147"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 6.1.2.5 Sequential Index Operations </H4>
-<!--docid::SEC152::-->
-<P>
-
-The following procedures are individually optional depending on the
-base-table implememtation. If an operation is <EM>not</EM> supported,
-then calling the table with that operation symbol will return false.
-</P>
-<P>
-
-<A NAME="IDX951"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> relational-table <B>for-each-row-in-order</B>
-<DD>Returns a procedure of arguments <VAR>proc</VAR> <VAR>match-key1</VAR> <small>...</small>
-which calls <VAR>proc</VAR> with each <VAR>row</VAR> in this table in the
-(implementation-dependent) natural, repeatable ordering for rows. The
-optional <VAR>match-key1</VAR> <small>...</small> arguments restrict actions to a
-subset of the table. For details see See section <A HREF="slib_6.html#SEC149">6.1.2.2 Match-Keys</A>.
-</DL>
-<P>
-
-<A NAME="IDX952"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> relational-table <B>isam-next</B>
-<DD>Returns a procedure of arguments <VAR>key1</VAR> <VAR>key2</VAR> <small>...</small> which
-returns the key-list identifying the lowest record higher than
-<VAR>key1</VAR> <VAR>key2</VAR> <small>...</small> which is stored in the relational-table;
-or false if no higher record is present.
-<P>
-
-<A NAME="IDX953"></A>
-<DT><U>Operation:</U> relational-table <B>isam-next</B> <I>column-name</I>
-<DD>The symbol <VAR>column-name</VAR> names a key field. In the list returned
-by <CODE>isam-next</CODE>, that field, or a field to its left, will be
-changed. This allows one to skip over less significant key fields.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX954"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> relational-table <B>isam-prev</B>
-<DD>Returns a procedure of arguments <VAR>key1</VAR> <VAR>key2</VAR> <small>...</small> which
-returns the key-list identifying the highest record less than
-<VAR>key1</VAR> <VAR>key2</VAR> <small>...</small> which is stored in the relational-table;
-or false if no lower record is present.
-<P>
-
-<A NAME="IDX955"></A>
-<DT><U>Operation:</U> relational-table <B>isam-prev</B> <I>index</I>
-<DD>The symbol <VAR>column-name</VAR> names a key field. In the list returned
-by <CODE>isam-next</CODE>, that field, or a field to its left, will be
-changed. This allows one to skip over less significant key fields.
-</P>
-</DL>
-<P>
-
-For example, if a table has key fields:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(col1 col2)
-(9 5)
-(9 6)
-(9 7)
-(9 8)
-(12 5)
-(12 6)
-(12 7)
-</pre></td></tr></table><P>
-
-Then:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>((table 'isam-next) '(9 5)) => (9 6)
-((table 'isam-next 'col2) '(9 5)) => (9 6)
-((table 'isam-next 'col1) '(9 5)) => (12 5)
-((table 'isam-prev) '(12 7)) => (12 6)
-((table 'isam-prev 'col2) '(12 7)) => (12 6)
-((table 'isam-prev 'col1) '(12 7)) => (9 8)
-</pre></td></tr></table><P>
-
-<A NAME="Table Administration"></A>
-<HR SIZE="6">
-<A NAME="SEC153"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC152"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC154"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC147"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 6.1.2.6 Table Administration </H4>
-<!--docid::SEC153::-->
-<P>
-
-<A NAME="IDX956"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> relational-table <B>column-names</B>
-<DD><A NAME="IDX957"></A>
-<DT><U>Operation:</U> relational-table <B>column-foreigns</B>
-<DD><A NAME="IDX958"></A>
-<DT><U>Operation:</U> relational-table <B>column-domains</B>
-<DD><A NAME="IDX959"></A>
-<DT><U>Operation:</U> relational-table <B>column-types</B>
-<DD>Return a list of the column names, foreign-key table names, domain
-names, or type names respectively for this table. These 4 methods are
-different from the others in that the list is returned, rather than a
-procedure to obtain the list.
-<P>
-
-<A NAME="IDX960"></A>
-<DT><U>Operation:</U> relational-table <B>primary-limit</B>
-<DD>Returns the number of primary keys fields in the relations in this
-table.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX961"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> relational-table <B>close-table</B>
-<DD>Subsequent operations to this table will signal an error.
-</DL>
-<P>
-
-<A NAME="Database Interpolation"></A>
-<HR SIZE="6">
-<A NAME="SEC154"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC153"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC155"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC141"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 6.1.3 Database Interpolation </H3>
-<!--docid::SEC154::-->
-<P>
-
-<CODE>(require 'database-interpolate)</CODE>
-</P>
-<P>
-
-Indexed sequential access methods allow finding the keys (having
-associations) closest to a given value. This facilitates the
-interpolation of associations between those in the table.
-</P>
-<P>
-
-<A NAME="IDX962"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>interpolate-from-table</B> <I>table column</I>
-<DD><VAR>Table</VAR> should be a relational table with one numeric primary key
-field which supports the <CODE>isam-prev</CODE> and <CODE>isam-next</CODE>
-operations. <VAR>column</VAR> should be a symbol or exact positive integer
-designating a numerically valued column of <VAR>table</VAR>.
-<P>
-
-<CODE>interpolate-from-table</CODE> calculates and returns a value
-proportionally intermediate between its values in the next and
-previous key records contained in <VAR>table</VAR>. For keys larger than
-all the stored keys the value associated with the largest stored key
-is used. For keys smaller than all the stored keys the value
-associated with the smallest stored key is used.
-</P>
-</DL>
-<P>
-
-<A NAME="Embedded Commands"></A>
-<HR SIZE="6">
-<A NAME="SEC155"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC154"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC156"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC141"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 6.1.4 Embedded Commands </H3>
-<!--docid::SEC155::-->
-<P>
-
-<CODE>(require 'database-commands)</CODE>
-</P>
-<P>
-
-This enhancement wraps a utility layer on <CODE>relational-database</CODE>
-which provides:
-</P>
-<P>
-
-<UL>
-<LI>
-Automatic execution of initialization commands stored in database.
-<LI>
-Transparent execution of database commands stored in <CODE>*commands*</CODE>
-table in database.
-</UL>
-<P>
-
-When an enhanced relational-database is called with a symbol which
-matches a <VAR>name</VAR> in the <CODE>*commands*</CODE> table, the associated
-procedure expression is evaluated and applied to the enhanced
-relational-database. A procedure should then be returned which the user
-can invoke on (optional) arguments.
-</P>
-<P>
-
-The command <CODE>*initialize*</CODE> is special. If present in the
-<CODE>*commands*</CODE> table, <CODE>open-database</CODE> or <CODE>open-database!</CODE>
-will return the value of the <CODE>*initialize*</CODE> command. Notice that
-arbitrary code can be run when the <CODE>*initialize*</CODE> procedure is
-automatically applied to the enhanced relational-database.
-</P>
-<P>
-
-Note also that if you wish to shadow or hide from the user
-relational-database methods described in <A HREF="slib_6.html#SEC177">6.2.4 Database Operations</A>, this
-can be done by a dispatch in the closure returned by the
-<CODE>*initialize*</CODE> expression rather than by entries in the
-<CODE>*commands*</CODE> table if it is desired that the underlying methods
-remain accessible to code in the <CODE>*commands*</CODE> table.
-</P>
-<P>
-
-<TABLE BORDER="0" CELLSPACING="0">
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_6.html#SEC156">6.1.4.1 Database Extension</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_6.html#SEC157">6.1.4.2 Command Intrinsics</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_6.html#SEC158">6.1.4.3 Define-tables Example</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_6.html#SEC159">6.1.4.4 The *commands* Table</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_6.html#SEC160">6.1.4.5 Command Service</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_6.html#SEC161">6.1.4.6 Command Example</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-</TABLE>
-<P>
-
-<A NAME="Database Extension"></A>
-<HR SIZE="6">
-<A NAME="SEC156"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC155"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC157"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC155"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 6.1.4.1 Database Extension </H4>
-<!--docid::SEC156::-->
-<P>
-
-<A NAME="IDX963"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>wrap-command-interface</B> <I>rdb</I>
-<DD>Returns relational database <VAR>rdb</VAR> wrapped with additional commands
-defined in its *commands* table.
-</DL>
-<P>
-
-<A NAME="IDX964"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>add-command-tables</B> <I>rdb</I>
-<DD>The relational database <VAR>rdb</VAR> must be mutable.
-<VAR>add-command-tables</VAR> adds a *command* table to <VAR>rdb</VAR>; then
-returns <CODE>(wrap-command-interface <VAR>rdb</VAR>)</CODE>.
-</DL>
-<P>
-
-<A NAME="IDX965"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>define-*commands*</B> <I>rdb spec-0 <small>...</small></I>
-<DD><P>
-
-Adds commands to the <CODE>*commands*</CODE> table as specified in
-<VAR>spec-0</VAR> <small>...</small> to the open relational-database <VAR>rdb</VAR>. Each
-<VAR>spec</VAR> has the form:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>((&lt;name&gt; &lt;rdb&gt;) &quot;comment&quot; &lt;expression1&gt; &lt;expression2&gt; <small>...</small>)
-</pre></td></tr></table>or
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>((&lt;name&gt; &lt;rdb&gt;) &lt;expression1&gt; &lt;expression2&gt; <small>...</small>)
-</pre></td></tr></table><P>
-
-where &lt;name&gt; is the command name, &lt;rdb&gt; is a formal passed the
-calling relational database, &quot;comment&quot; describes the
-command, and &lt;expression1&gt;, &lt;expression1&gt;, <small>...</small> are the
-body of the procedure.
-</P>
-<P>
-
-<CODE>define-*commands*</CODE> adds to the <CODE>*commands*</CODE> table a command
-&lt;name&gt;:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(lambda (&lt;name&gt; &lt;rdb&gt;) &lt;expression1&gt; &lt;expression2&gt; <small>...</small>)
-</pre></td></tr></table><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX966"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>open-command-database</B> <I>filename</I>
-<DD><A NAME="IDX967"></A>
-<DT><U>Function:</U> <B>open-command-database</B> <I>filename base-table-type</I>
-<DD>Returns an open enhanced relational database associated with
-<VAR>filename</VAR>. The database will be opened with base-table type
-<VAR>base-table-type</VAR>) if supplied. If <VAR>base-table-type</VAR> is not
-supplied, <CODE>open-command-database</CODE> will attempt to deduce the correct
-base-table-type. If the database can not be opened or if it lacks the
-<CODE>*commands*</CODE> table, <CODE>#f</CODE> is returned.
-<P>
-
-<A NAME="IDX968"></A>
-<DT><U>Function:</U> <B>open-command-database!</B> <I>filename</I>
-<DD><A NAME="IDX969"></A>
-<DT><U>Function:</U> <B>open-command-database!</B> <I>filename base-table-type</I>
-<DD>Returns <EM>mutable</EM> open enhanced relational database <small>...</small>
-</P>
-<P>
-
-<A NAME="IDX970"></A>
-<DT><U>Function:</U> <B>open-command-database</B> <I>database</I>
-<DD>Returns <VAR>database</VAR> if it is an immutable relational database; #f
-otherwise.
-</P>
-<P>
-
-<A NAME="IDX971"></A>
-<DT><U>Function:</U> <B>open-command-database!</B> <I>database</I>
-<DD>Returns <VAR>database</VAR> if it is a mutable relational database; #f
-otherwise.
-</P>
-</DL>
-<P>
-
-<A NAME="Command Intrinsics"></A>
-<HR SIZE="6">
-<A NAME="SEC157"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC156"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC158"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC155"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 6.1.4.2 Command Intrinsics </H4>
-<!--docid::SEC157::-->
-<P>
-
-Some commands are defined in all extended relational-databases. The are
-called just like <A HREF="slib_6.html#SEC177">6.2.4 Database Operations</A>.
-</P>
-<P>
-
-<A NAME="IDX972"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> relational-database <B>add-domain</B> <I>domain-row</I>
-<DD>Adds <VAR>domain-row</VAR> to the <EM>domains</EM> table if there is no row in
-the domains table associated with key <CODE>(car <VAR>domain-row</VAR>)</CODE> and
-returns <CODE>#t</CODE>. Otherwise returns <CODE>#f</CODE>.
-<P>
-
-For the fields and layout of the domain table, See section <A HREF="slib_6.html#SEC175">6.2.2 Catalog Representation</A>. Currently, these fields are
-<UL>
-<LI>
-domain-name
-<LI>
-foreign-table
-<LI>
-domain-integrity-rule
-<LI>
-type-id
-<LI>
-type-param
-</UL>
-<P>
-
-The following example adds 3 domains to the `<SAMP>build</SAMP>' database.
-`<SAMP>Optstring</SAMP>' is either a string or <CODE>#f</CODE>. <CODE>filename</CODE> is a
-string and <CODE>build-whats</CODE> is a symbol.
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(for-each (build 'add-domain)
- '((optstring #f
- (lambda (x) (or (not x) (string? x)))
- string
- #f)
- (filename #f #f string #f)
- (build-whats #f #f symbol #f)))
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX973"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> relational-database <B>delete-domain</B> <I>domain-name</I>
-<DD>Removes and returns the <VAR>domain-name</VAR> row from the <EM>domains</EM>
-table.
-</DL>
-<P>
-
-<A NAME="IDX974"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> relational-database <B>domain-checker</B> <I>domain</I>
-<DD>Returns a procedure to check an argument for conformance to domain
-<VAR>domain</VAR>.
-</DL>
-<P>
-
-<A NAME="Define-tables Example"></A>
-<HR SIZE="6">
-<A NAME="SEC158"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC157"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC159"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC155"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 6.1.4.3 Define-tables Example </H4>
-<!--docid::SEC158::-->
-<P>
-
-The following example shows a new database with the name of
-`<TT>foo.db</TT>' being created with tables describing processor families
-and processor/os/compiler combinations. The database is then
-solidified; saved and changed to immutable.
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(require 'databases)
-<A NAME="IDX975"></A>(define my-rdb (create-database &quot;foo.db&quot; 'alist-table))
-(define-tables my-rdb
- '(processor-family
- ((family atom))
- ((also-ran processor-family))
- ((m68000 #f)
- (m68030 m68000)
- (i386 i8086)
- (i8086 #f)
- (powerpc #f)))
-
- '(platform
- ((name symbol))
- ((processor processor-family)
- (os symbol)
- (compiler symbol))
- ((aix powerpc aix -)
- (amiga-dice-c m68000 amiga dice-c)
- (amiga-aztec m68000 amiga aztec)
- (amiga-sas/c-5.10 m68000 amiga sas/c)
- (atari-st-gcc m68000 atari gcc)
- (atari-st-turbo-c m68000 atari turbo-c)
- (borland-c-3.1 i8086 ms-dos borland-c)
- (djgpp i386 ms-dos gcc)
- (linux i386 linux gcc)
- (microsoft-c i8086 ms-dos microsoft-c)
- (os/2-emx i386 os/2 gcc)
- (turbo-c-2 i8086 ms-dos turbo-c)
- (watcom-9.0 i386 ms-dos watcom))))
-
-(solidify-database my-rdb)
-</pre></td></tr></table><P>
-
-<A NAME="The *commands* Table"></A>
-<HR SIZE="6">
-<A NAME="SEC159"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC158"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC160"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC155"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 6.1.4.4 The *commands* Table </H4>
-<!--docid::SEC159::-->
-<P>
-
-The table <CODE>*commands*</CODE> in an <EM>enhanced</EM> relational-database has
-the fields (with domains):
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>PRI name symbol
- parameters parameter-list
- procedure expression
- documentation string
-</pre></td></tr></table><P>
-
-The <CODE>parameters</CODE> field is a foreign key (domain
-<CODE>parameter-list</CODE>) of the <CODE>*catalog-data*</CODE> table and should
-have the value of a table described by <CODE>*parameter-columns*</CODE>. This
-<CODE>parameter-list</CODE> table describes the arguments suitable for passing
-to the associated command. The intent of this table is to be of a form
-such that different user-interfaces (for instance, pull-down menus or
-plain-text queries) can operate from the same table. A
-<CODE>parameter-list</CODE> table has the following fields:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>PRI index ordinal
- name symbol
- arity parameter-arity
- domain domain
- defaulter expression
- expander expression
- documentation string
-</pre></td></tr></table><P>
-
-The <CODE>arity</CODE> field can take the values:
-</P>
-<P>
-
-</P>
-<DL COMPACT>
-<DT><CODE>single</CODE>
-<DD>Requires a single parameter of the specified domain.
-<DT><CODE>optional</CODE>
-<DD>A single parameter of the specified domain or zero parameters is
-acceptable.
-<DT><CODE>boolean</CODE>
-<DD>A single boolean parameter or zero parameters (in which case <CODE>#f</CODE>
-is substituted) is acceptable.
-<DT><CODE>nary</CODE>
-<DD>Any number of parameters of the specified domain are acceptable. The
-argument passed to the command function is always a list of the
-parameters.
-<DT><CODE>nary1</CODE>
-<DD>One or more of parameters of the specified domain are acceptable. The
-argument passed to the command function is always a list of the
-parameters.
-</DL>
-<P>
-
-The <CODE>domain</CODE> field specifies the domain which a parameter or
-parameters in the <CODE>index</CODE>th field must satisfy.
-</P>
-<P>
-
-The <CODE>defaulter</CODE> field is an expression whose value is either
-<CODE>#f</CODE> or a procedure of one argument (the parameter-list) which
-returns a <EM>list</EM> of the default value or values as appropriate.
-Note that since the <CODE>defaulter</CODE> procedure is called every time a
-default parameter is needed for this column, <EM>sticky</EM> defaults can
-be implemented using shared state with the domain-integrity-rule.
-</P>
-<P>
-
-<A NAME="Command Service"></A>
-<HR SIZE="6">
-<A NAME="SEC160"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC159"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC161"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC155"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 6.1.4.5 Command Service </H4>
-<!--docid::SEC160::-->
-<P>
-
-<A NAME="IDX976"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>make-command-server</B> <I>rdb table-name</I>
-<DD>Returns a procedure of 2 arguments, a (symbol) command and a call-back
-procedure. When this returned procedure is called, it looks up
-<VAR>command</VAR> in table <VAR>table-name</VAR> and calls the call-back
-procedure with arguments:
-<DL COMPACT>
-<DT><VAR>command</VAR>
-<DD>The <VAR>command</VAR>
-<DT><VAR>command-value</VAR>
-<DD>The result of evaluating the expression in the <VAR>procedure</VAR> field of
-<VAR>table-name</VAR> and calling it with <VAR>rdb</VAR>.
-<DT><VAR>parameter-name</VAR>
-<DD>A list of the <EM>official</EM> name of each parameter. Corresponds to the
-<CODE>name</CODE> field of the <VAR>command</VAR>'s parameter-table.
-<DT><VAR>positions</VAR>
-<DD>A list of the positive integer index of each parameter. Corresponds to
-the <CODE>index</CODE> field of the <VAR>command</VAR>'s parameter-table.
-<DT><VAR>arities</VAR>
-<DD>A list of the arities of each parameter. Corresponds to the
-<CODE>arity</CODE> field of the <VAR>command</VAR>'s parameter-table. For a
-description of <CODE>arity</CODE> see table above.
-<DT><VAR>types</VAR>
-<DD>A list of the type name of each parameter. Correspnds to the
-<CODE>type-id</CODE> field of the contents of the <CODE>domain</CODE> of the
-<VAR>command</VAR>'s parameter-table.
-<DT><VAR>defaulters</VAR>
-<DD>A list of the defaulters for each parameter. Corresponds to
-the <CODE>defaulters</CODE> field of the <VAR>command</VAR>'s parameter-table.
-<DT><VAR>domain-integrity-rules</VAR>
-<DD>A list of procedures (one for each parameter) which tests whether a
-value for a parameter is acceptable for that parameter. The procedure
-should be called with each datum in the list for <CODE>nary</CODE> arity
-parameters.
-<DT><VAR>aliases</VAR>
-<DD>A list of lists of <CODE>(alias parameter-name)</CODE>. There can be
-more than one alias per <VAR>parameter-name</VAR>.
-</DL>
-</DL>
-<P>
-
-For information about parameters, See section <A HREF="slib_4.html#SEC65">4.4.4 Parameter lists</A>.
-</P>
-<P>
-
-<A NAME="Command Example"></A>
-<HR SIZE="6">
-<A NAME="SEC161"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC160"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC162"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC155"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 6.1.4.6 Command Example </H4>
-<!--docid::SEC161::-->
-<P>
-
-Here is an example of setting up a command with arguments and parsing
-those arguments from a <CODE>getopt</CODE> style argument list
-(see section <A HREF="slib_4.html#SEC62">4.4.1 Getopt</A>).
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(require 'database-commands)
-<A NAME="IDX977"></A>(require 'databases)
-<A NAME="IDX978"></A>(require 'getopt-parameters)
-<A NAME="IDX979"></A>(require 'parameters)
-<A NAME="IDX980"></A>(require 'getopt)
-<A NAME="IDX981"></A>(require 'fluid-let)
-(require 'printf)
-
-(define my-rdb (add-command-tables (create-database #f 'alist-table)))
-
-(define-tables my-rdb
- '(foo-params
- *parameter-columns*
- *parameter-columns*
- ((1 single-string single string
- (lambda (pl) '(&quot;str&quot;)) #f &quot;single string&quot;)
- (2 nary-symbols nary symbol
- (lambda (pl) '()) #f &quot;zero or more symbols&quot;)
- (3 nary1-symbols nary1 symbol
- (lambda (pl) '(symb)) #f &quot;one or more symbols&quot;)
- (4 optional-number optional ordinal
- (lambda (pl) '()) #f &quot;zero or one number&quot;)
- (5 flag boolean boolean
- (lambda (pl) '(#f)) #f &quot;a boolean flag&quot;)))
- '(foo-pnames
- ((name string))
- ((parameter-index ordinal))
- ((&quot;s&quot; 1)
- (&quot;single-string&quot; 1)
- (&quot;n&quot; 2)
- (&quot;nary-symbols&quot; 2)
- (&quot;N&quot; 3)
- (&quot;nary1-symbols&quot; 3)
- (&quot;o&quot; 4)
- (&quot;optional-number&quot; 4)
- (&quot;f&quot; 5)
- (&quot;flag&quot; 5)))
- '(my-commands
- ((name symbol))
- ((parameters parameter-list)
- (parameter-names parameter-name-translation)
- (procedure expression)
- (documentation string))
- ((foo
- foo-params
- foo-pnames
- (lambda (rdb) (lambda args (print args)))
- &quot;test command arguments&quot;))))
-
-(define (dbutil:serve-command-line rdb command-table command argv)
- (set! *argv* (if (vector? argv) (vector-&gt;list argv) argv))
- ((make-command-server rdb command-table)
- command
- (lambda (comname comval options positions
- arities types defaulters dirs aliases)
- (apply comval (getopt-&gt;arglist options positions
- arities types defaulters dirs aliases)))))
-
-(define (cmd . opts)
- (fluid-let ((*optind* 1))
- (printf &quot;%-34s => &quot;
- (call-with-output-string
- (lambda (pt) (write (cons 'cmd opts) pt))))
- (set! opts (cons &quot;cmd&quot; opts))
- (force-output)
- (dbutil:serve-command-line
- my-rdb 'my-commands 'foo (length opts) opts)))
-
-(cmd) => (&quot;str&quot; () (symb) () #f)
-(cmd &quot;-f&quot;) => (&quot;str&quot; () (symb) () #t)
-(cmd &quot;--flag&quot;) => (&quot;str&quot; () (symb) () #t)
-(cmd &quot;-o177&quot;) => (&quot;str&quot; () (symb) (177) #f)
-(cmd &quot;-o&quot; &quot;177&quot;) => (&quot;str&quot; () (symb) (177) #f)
-(cmd &quot;--optional&quot; &quot;621&quot;) => (&quot;str&quot; () (symb) (621) #f)
-(cmd &quot;--optional=621&quot;) => (&quot;str&quot; () (symb) (621) #f)
-(cmd &quot;-s&quot; &quot;speciality&quot;) => (&quot;speciality&quot; () (symb) () #f)
-(cmd &quot;-sspeciality&quot;) => (&quot;speciality&quot; () (symb) () #f)
-(cmd &quot;--single&quot; &quot;serendipity&quot;) => (&quot;serendipity&quot; () (symb) () #f)
-(cmd &quot;--single=serendipity&quot;) => (&quot;serendipity&quot; () (symb) () #f)
-(cmd &quot;-n&quot; &quot;gravity&quot; &quot;piety&quot;) => (&quot;str&quot; () (piety gravity) () #f)
-(cmd &quot;-ngravity&quot; &quot;piety&quot;) => (&quot;str&quot; () (piety gravity) () #f)
-(cmd &quot;--nary&quot; &quot;chastity&quot;) => (&quot;str&quot; () (chastity) () #f)
-(cmd &quot;--nary=chastity&quot; &quot;&quot;) => (&quot;str&quot; () ( chastity) () #f)
-(cmd &quot;-N&quot; &quot;calamity&quot;) => (&quot;str&quot; () (calamity) () #f)
-(cmd &quot;-Ncalamity&quot;) => (&quot;str&quot; () (calamity) () #f)
-(cmd &quot;--nary1&quot; &quot;surety&quot;) => (&quot;str&quot; () (surety) () #f)
-(cmd &quot;--nary1=surety&quot;) => (&quot;str&quot; () (surety) () #f)
-(cmd &quot;-N&quot; &quot;levity&quot; &quot;fealty&quot;) => (&quot;str&quot; () (fealty levity) () #f)
-(cmd &quot;-Nlevity&quot; &quot;fealty&quot;) => (&quot;str&quot; () (fealty levity) () #f)
-(cmd &quot;--nary1&quot; &quot;surety&quot; &quot;brevity&quot;) => (&quot;str&quot; () (brevity surety) () #f)
-(cmd &quot;--nary1=surety&quot; &quot;brevity&quot;) => (&quot;str&quot; () (brevity surety) () #f)
-(cmd &quot;-?&quot;)
--|
-Usage: cmd [OPTION ARGUMENT ...] ...
-
- -f, --flag
- -o, --optional[=]&lt;number&gt;
- -n, --nary[=]&lt;symbols&gt; ...
- -N, --nary1[=]&lt;symbols&gt; ...
- -s, --single[=]&lt;string&gt;
-
-ERROR: getopt-&gt;parameter-list &quot;unrecognized option&quot; &quot;-?&quot;
-</pre></td></tr></table><P>
-
-<A NAME="Database Macros"></A>
-<HR SIZE="6">
-<A NAME="SEC162"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC161"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC163"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC141"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 6.1.5 Database Macros </H3>
-<!--docid::SEC162::-->
-<P>
-
-<CODE>(require 'within-database)</CODE>
-</P>
-<P>
-
-The object-oriented programming interface to SLIB relational databases
-has failed to support clear, understandable, and modular code-writing
-for database applications.
-</P>
-<P>
-
-This seems to be a failure of the object-oriented paradigm where the
-type of an object is not manifest (or even traceable) in source code.
-</P>
-<P>
-
-<CODE>within-database</CODE>, along with the `<SAMP>databases</SAMP>' package,
-reorganizes high-level database functions toward a more declarative
-style. Using this package, one can tag database table and command
-declarations for emacs:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>etags -lscheme -r'/ *(define-\(command\|table\) (\([^; \t]+\)/\2/' \
- source1.scm ...
-</pre></td></tr></table><P>
-
-<TABLE BORDER="0" CELLSPACING="0">
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_6.html#SEC163">6.1.5.1 Within-database Example</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-</TABLE>
-<P>
-
-<A NAME="IDX982"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>within-database</B> <I>database statement-1 <small>...</small></I>
-<DD><P>
-
-<CODE>within-database</CODE> creates a lexical scope in which the commands
-<CODE>define-table</CODE> and <CODE>define-command</CODE> create tables and
-<CODE>*commands*</CODE>-table entries respectively in open relational
-database <VAR>database</VAR>.
-</P>
-<P>
-
-<CODE>within-database</CODE> Returns <VAR>database</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX983"></A>
-</P>
-<DL>
-<DT><U>Syntax:</U> <B>define-command</B> <I>(&lt;name&gt; &lt;rdb&gt;) &quot;comment&quot; &lt;expression1&gt; &lt;expression2&gt; <small>...</small></I>
-<DD><A NAME="IDX984"></A>
-<DT><U>Syntax:</U> <B>define-command</B> <I>(&lt;name&gt; &lt;rdb&gt;) &lt;expression1&gt; &lt;expression2&gt; <small>...</small></I>
-<DD><P>
-
-Adds to the <CODE>*commands*</CODE> table a command
-&lt;name&gt;:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(lambda (&lt;name&gt; &lt;rdb&gt;) &lt;expression1&gt; &lt;expression2&gt; <small>...</small>)
-</pre></td></tr></table><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX985"></A>
-</P>
-<DL>
-<DT><U>Syntax:</U> <B>define-table</B> <I>&lt;name&gt; &lt;descriptor-name&gt; &lt;descriptor-name&gt; &lt;rows&gt;</I>
-<DD><A NAME="IDX986"></A>
-<DT><U>Syntax:</U> <B>define-table</B> <I>&lt;name&gt; &lt;primary-key-fields&gt; &lt;other-fields&gt; &lt;rows&gt;</I>
-<DD><P>
-
-where &lt;name&gt; is the table name, &lt;descriptor-name&gt; is the symbol
-name of a descriptor table, &lt;primary-key-fields&gt; and
-&lt;other-fields&gt; describe the primary keys and other fields
-respectively, and &lt;rows&gt; is a list of data rows to be added to the
-table.
-</P>
-<P>
-
-&lt;primary-key-fields&gt; and &lt;other-fields&gt; are lists of field
-descriptors of the form:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(&lt;column-name&gt; &lt;domain&gt;)
-</pre></td></tr></table>or
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(&lt;column-name&gt; &lt;domain&gt; &lt;column-integrity-rule&gt;)
-</pre></td></tr></table><P>
-
-where &lt;column-name&gt; is the column name, &lt;domain&gt; is the domain
-of the column, and &lt;column-integrity-rule&gt; is an expression whose
-value is a procedure of one argument (which returns <CODE>#f</CODE> to signal
-an error).
-</P>
-<P>
-
-If &lt;domain&gt; is not a defined domain name and it matches the name of
-this table or an already defined (in one of <VAR>spec-0</VAR> <small>...</small>) single
-key field table, a foreign-key domain will be created for it.
-</P>
-<P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="Within-database Example"></A>
-<HR SIZE="6">
-<A NAME="SEC163"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC162"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC164"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC162"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 6.1.5.1 Within-database Example </H4>
-<!--docid::SEC163::-->
-<P>
-
-Here is an example of <CODE>within-database</CODE> macros:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(require 'within-database)
-
-(define my-rdb
- (add-command-tables
- (create-database &quot;foo.db&quot; 'alist-table)))
-
-(within-database my-rdb
- (define-command (*initialize* rdb)
- &quot;Print Welcome&quot;
- (display &quot;Welcome&quot;)
- (newline)
- rdb)
- (define-command (without-documentation rdb)
- (display &quot;without-documentation called&quot;)
- (newline))
- (define-table (processor-family
- ((family atom))
- ((also-ran processor-family)))
- (m68000 #f)
- (m68030 m68000)
- (i386 i8086)
- (i8086 #f)
- (powerpc #f))
- (define-table (platform
- ((name symbol))
- ((processor processor-family)
- (os symbol)
- (compiler symbol)))
- (aix powerpc aix -)
- ;; ...
- (amiga-aztec m68000 amiga aztec)
- (amiga-sas/c-5.10 m68000 amiga sas/c)
- (atari-st-gcc m68000 atari gcc)
- ;; ...
- (watcom-9.0 i386 ms-dos watcom))
- (define-command (get-processor rdb)
- &quot;Get processor for given platform.&quot;
- (((rdb 'open-table) 'platform #f) 'get 'processor)))
-
-(close-database my-rdb)
-
-(set! my-rdb (open-command-database! &quot;foo.db&quot;))
--|
-Welcome
-
-(my-rdb 'without-documentation)
--|
-without-documentation called
-
-((my-rdb 'get-processor) 'amiga-sas/c-5.10)
-=> m68000
-
-(close-database my-rdb)
-</pre></td></tr></table><P>
-
-<A NAME="Database Browser"></A>
-<HR SIZE="6">
-<A NAME="SEC164"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC163"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC165"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC141"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 6.1.6 Database Browser </H3>
-<!--docid::SEC164::-->
-<P>
-
-(require 'database-browse)
-</P>
-<P>
-
-<A NAME="IDX987"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>browse</B> <I>database</I>
-<DD><P>
-
-Prints the names of all the tables in <VAR>database</VAR> and sets browse's
-default to <VAR>database</VAR>.
-</P>
-<P>
-
-<A NAME="IDX988"></A>
-<DT><U>Procedure:</U> <B>browse</B>
-<DD></P>
-<P>
-
-Prints the names of all the tables in the default database.
-</P>
-<P>
-
-<A NAME="IDX989"></A>
-<DT><U>Procedure:</U> <B>browse</B> <I>table-name</I>
-<DD></P>
-<P>
-
-For each record of the table named by the symbol <VAR>table-name</VAR>,
-prints a line composed of all the field values.
-</P>
-<P>
-
-<A NAME="IDX990"></A>
-<DT><U>Procedure:</U> <B>browse</B> <I>pathname</I>
-<DD></P>
-<P>
-
-Opens the database named by the string <VAR>pathname</VAR>, prints the names
-of all its tables, and sets browse's default to the database.
-</P>
-<P>
-
-<A NAME="IDX991"></A>
-<DT><U>Procedure:</U> <B>browse</B> <I>database table-name</I>
-<DD></P>
-<P>
-
-Sets browse's default to <VAR>database</VAR> and prints the records of the
-table named by the symbol <VAR>table-name</VAR>.
-</P>
-<P>
-
-<A NAME="IDX992"></A>
-<DT><U>Procedure:</U> <B>browse</B> <I>pathname table-name</I>
-<DD></P>
-<P>
-
-Opens the database named by the string <VAR>pathname</VAR> and sets browse's
-default to it; <CODE>browse</CODE> prints the records of the table named by
-the symbol <VAR>table-name</VAR>.
-</P>
-<P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="Relational Infrastructure"></A>
-<HR SIZE="6">
-<A NAME="SEC165"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC164"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC166"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 6.2 Relational Infrastructure </H2>
-<!--docid::SEC165::-->
-<P>
-
-<TABLE BORDER="0" CELLSPACING="0">
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_6.html#SEC166">6.2.1 Base Table</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_6.html#SEC175">6.2.2 Catalog Representation</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_6.html#SEC176">6.2.3 Relational Database Objects</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_6.html#SEC177">6.2.4 Database Operations</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-</TABLE>
-<P>
-
-<A NAME="Base Table"></A>
-<HR SIZE="6">
-<A NAME="SEC166"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC165"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC167"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC165"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 6.2.1 Base Table </H3>
-<!--docid::SEC166::-->
-<P>
-
-<A NAME="IDX993"></A>
-A <EM>base-table</EM> is the primitive database layer upon which SLIB
-relational databases are built. At the minimum, it must support the
-types integer, symbol, string, and boolean. The base-table may restrict
-the size of integers, symbols, and strings it supports.
-</P>
-<P>
-
-A base table implementation is available as the value of the identifier
-naming it (eg. <VAR>alist-table</VAR>) after requiring the symbol of that
-name.
-</P>
-<P>
-
-<A NAME="IDX994"></A>
-</P>
-<DL>
-<DT><U>Feature:</U> <B>alist-table</B>
-<DD><CODE>(require 'alist-table)</CODE>
-<A NAME="IDX995"></A>
-<P>
-
-Association-list base tables support all Scheme types and are suitable
-for small databases. In order to be retrieved after being written to a
-file, the data stored should include only objects which are readable and
-writeable in the Scheme implementation.
-</P>
-<P>
-
-The <EM>alist-table</EM> base-table implementation is included in the
-SLIB distribution.
-</P>
-</DL>
-<P>
-
-<EM>WB</EM> is a B-tree database package with SCM interfaces. Being
-disk-based, WB databases readily store and access hundreds of
-megabytes of data. WB comes with two base-table embeddings.
-</P>
-<P>
-
-<A NAME="IDX996"></A>
-</P>
-<DL>
-<DT><U>Feature:</U> <B>wb-table</B>
-<DD><CODE>(require 'wb-table)</CODE>
-<A NAME="IDX997"></A>
-<P>
-
-<A NAME="IDX998"></A>
-<CODE>wb-table</CODE> supports scheme expressions for keys and values whose
-text representations are less than 255 characters in length.
-See section `wb-table' in <CITE>WB</CITE>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX999"></A>
-</P>
-<DL>
-<DT><U>Feature:</U> <B>rwb-isam</B>
-<DD><CODE>(require 'rwb-isam)</CODE>
-<A NAME="IDX1000"></A>
-<P>
-
-<EM>rwb-isam</EM> is a sophisticated base-table implementation built on
-WB and SCM which uses binary numerical formats for key and non-key
-fields. It supports IEEE floating-point and fixed-precision integer
-keys with the correct numerical collation order.
-</P>
-</DL>
-<P>
-
-This rest of this section documents the interface for a base table
-implementation from which the <A HREF="slib_6.html#SEC141">6.1 Relational Database</A> package
-constructs a Relational system. It will be of interest primarily to
-those wishing to port or write new base-table implementations.
-</P>
-<P>
-
-<A NAME="IDX1001"></A>
-</P>
-<DL>
-<DT><U>Variable:</U> <B>*base-table-implementations*</B>
-<DD>To support automatic dispatch for <CODE>open-database</CODE>, each base-table
-module adds an association to <VAR>*base-table-implementations*</VAR> when
-loaded. This association is the list of the base-table symbol and the
-value returned by <CODE>(make-relational-system <VAR>base-table</VAR>)</CODE>.
-</DL>
-<P>
-
-<TABLE BORDER="0" CELLSPACING="0">
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_6.html#SEC167">6.2.1.1 The Base</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_6.html#SEC168">6.2.1.2 Base Tables</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_6.html#SEC169">6.2.1.3 Base Field Types</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_6.html#SEC170">6.2.1.4 Composite Keys</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_6.html#SEC171">6.2.1.5 Base Record Operations</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_6.html#SEC172">6.2.1.6 Match Keys</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_6.html#SEC173">6.2.1.7 Aggregate Base Operations</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_6.html#SEC174">6.2.1.8 Base ISAM Operations</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-</TABLE>
-<P>
-
-<A NAME="The Base"></A>
-<HR SIZE="6">
-<A NAME="SEC167"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC166"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC168"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC166"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 6.2.1.1 The Base </H4>
-<!--docid::SEC167::-->
-<P>
-
-All of these functions are accessed through a single procedure by
-calling that procedure with the symbol name of the operation. A
-procedure will be returned if that operation is supported and <CODE>#f</CODE>
-otherwise. For example:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(require 'alist-table)
-<A NAME="IDX1002"></A><A NAME="IDX1003"></A>(define my-base (alist-table 'make-base))
-my-base => *a procedure*
-(define foo (alist-table 'foo))
-foo => #f
-</pre></td></tr></table><P>
-
-<A NAME="IDX1004"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> base-table <B>make-base</B> <I>filename key-dimension column-types</I>
-<DD>Returns a new, open, low-level database (collection of tables)
-associated with <VAR>filename</VAR>. This returned database has an empty
-table associated with <VAR>catalog-id</VAR>. The positive integer
-<VAR>key-dimension</VAR> is the number of keys composed to make a
-<VAR>primary-key</VAR> for the catalog table. The list of symbols
-<VAR>column-types</VAR> describes the types of each column for that table.
-If the database cannot be created as specified, <CODE>#f</CODE> is returned.
-<P>
-
-Calling the <CODE>close-base</CODE> method on this database and possibly other
-operations will cause <VAR>filename</VAR> to be written to. If
-<VAR>filename</VAR> is <CODE>#f</CODE> a temporary, non-disk based database will be
-created if such can be supported by the base table implelentation.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1005"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> base-table <B>open-base</B> <I>filename mutable</I>
-<DD>Returns an open low-level database associated with <VAR>filename</VAR>. If
-<VAR>mutable</VAR> is <CODE>#t</CODE>, this database will have methods capable of
-effecting change to the database. If <VAR>mutable</VAR> is <CODE>#f</CODE>, only
-methods for inquiring the database will be available. If the database
-cannot be opened as specified <CODE>#f</CODE> is returned.
-<P>
-
-Calling the <CODE>close-base</CODE> (and possibly other) method on a
-<VAR>mutable</VAR> database will cause <VAR>filename</VAR> to be written to.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1006"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> base-table <B>write-base</B> <I>lldb filename</I>
-<DD>Causes the low-level database <VAR>lldb</VAR> to be written to
-<VAR>filename</VAR>. If the write is successful, also causes <VAR>lldb</VAR> to
-henceforth be associated with <VAR>filename</VAR>. Calling the
-<CODE>close-database</CODE> (and possibly other) method on <VAR>lldb</VAR> may
-cause <VAR>filename</VAR> to be written to. If <VAR>filename</VAR> is <CODE>#f</CODE>
-this database will be changed to a temporary, non-disk based database if
-such can be supported by the underlying base table implelentation. If
-the operations completed successfully, <CODE>#t</CODE> is returned.
-Otherwise, <CODE>#f</CODE> is returned.
-</DL>
-<P>
-
-<A NAME="IDX1007"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> base-table <B>sync-base</B> <I>lldb</I>
-<DD>Causes the file associated with the low-level database <VAR>lldb</VAR> to be
-updated to reflect its current state. If the associated filename is
-<CODE>#f</CODE>, no action is taken and <CODE>#f</CODE> is returned. If this
-operation completes successfully, <CODE>#t</CODE> is returned. Otherwise,
-<CODE>#f</CODE> is returned.
-</DL>
-<P>
-
-<A NAME="IDX1008"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> base-table <B>close-base</B> <I>lldb</I>
-<DD>Causes the low-level database <VAR>lldb</VAR> to be written to its associated
-file (if any). If the write is successful, subsequent operations to
-<VAR>lldb</VAR> will signal an error. If the operations complete
-successfully, <CODE>#t</CODE> is returned. Otherwise, <CODE>#f</CODE> is returned.
-</DL>
-<P>
-
-<A NAME="Base Tables"></A>
-<HR SIZE="6">
-<A NAME="SEC168"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC167"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC169"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC166"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 6.2.1.2 Base Tables </H4>
-<!--docid::SEC168::-->
-<P>
-
-<A NAME="IDX1009"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> base-table <B>make-table</B> <I>lldb key-dimension column-types</I>
-<DD>Returns the ordinal <VAR>base-id</VAR> for a new base table, otherwise
-returns <CODE>#f</CODE>. The base table can then be opened using
-<CODE>(open-table <VAR>lldb</VAR> <VAR>base-id</VAR>)</CODE>. The positive integer
-<VAR>key-dimension</VAR> is the number of keys composed to make a
-<VAR>primary-key</VAR> for this table. The list of symbols
-<VAR>column-types</VAR> describes the types of each column.
-</DL>
-<P>
-
-<A NAME="IDX1010"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> base-table <B>open-table</B> <I>lldb base-id key-dimension column-types</I>
-<DD>Returns a <VAR>handle</VAR> for an existing base table in the low-level
-database <VAR>lldb</VAR> if that table exists and can be opened in the mode
-indicated by <VAR>mutable</VAR>, otherwise returns <CODE>#f</CODE>.
-<P>
-
-As with <CODE>make-table</CODE>, the positive integer <VAR>key-dimension</VAR> is
-the number of keys composed to make a <VAR>primary-key</VAR> for this table.
-The list of symbols <VAR>column-types</VAR> describes the types of each
-column.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1011"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> base-table <B>kill-table</B> <I>lldb base-id key-dimension column-types</I>
-<DD>Returns <CODE>#t</CODE> if the base table associated with <VAR>base-id</VAR> was
-removed from the low level database <VAR>lldb</VAR>, and <CODE>#f</CODE> otherwise.
-</DL>
-<P>
-
-<A NAME="IDX1012"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> base-table <B>catalog-id</B>
-<DD>A constant <VAR>base-id</VAR> ordinal suitable for passing as a parameter to
-<CODE>open-table</CODE>. <VAR>catalog-id</VAR> will be used as the base table for
-the system catalog.
-</DL>
-<P>
-
-<A NAME="Base Field Types"></A>
-<HR SIZE="6">
-<A NAME="SEC169"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC168"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC170"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC166"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 6.2.1.3 Base Field Types </H4>
-<!--docid::SEC169::-->
-<P>
-
-<A NAME="IDX1013"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> base-table <B>supported-type?</B> <I>symbol</I>
-<DD>Returns <CODE>#t</CODE> if <VAR>symbol</VAR> names a type allowed as a column
-value by the implementation, and <CODE>#f</CODE> otherwise. At a minimum,
-an implementation must support the types <CODE>integer</CODE>,
-<CODE>ordinal</CODE>, <CODE>symbol</CODE>, <CODE>string</CODE>, and <CODE>boolean</CODE>.
-</DL>
-<P>
-
-<A NAME="IDX1014"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> base-table <B>supported-key-type?</B> <I>symbol</I>
-<DD>Returns <CODE>#t</CODE> if <VAR>symbol</VAR> names a type allowed as a key value
-by the implementation, and <CODE>#f</CODE> otherwise. At a minimum, an
-implementation must support the types <CODE>ordinal</CODE>, and
-<CODE>symbol</CODE>.
-</DL>
-<P>
-
-An <EM>ordinal</EM> is an exact positive integer. The other types are
-standard Scheme.
-</P>
-<P>
-
-<A NAME="Composite Keys"></A>
-<HR SIZE="6">
-<A NAME="SEC170"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC169"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC171"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC166"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 6.2.1.4 Composite Keys </H4>
-<!--docid::SEC170::-->
-<P>
-
-<A NAME="IDX1015"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> base-table <B>make-keyifier-1</B> <I>type</I>
-<DD>Returns a procedure which accepts a single argument which must be of
-type <VAR>type</VAR>. This returned procedure returns an object suitable for
-being a <VAR>key</VAR> argument in the functions whose descriptions follow.
-<P>
-
-Any 2 arguments of the supported type passed to the returned function
-which are not <CODE>equal?</CODE> must result in returned values which are not
-<CODE>equal?</CODE>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1016"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> base-table <B>make-list-keyifier</B> <I>key-dimension types</I>
-<DD>The list of symbols <VAR>types</VAR> must have at least <VAR>key-dimension</VAR>
-elements. Returns a procedure which accepts a list of length
-<VAR>key-dimension</VAR> and whose types must corresopond to the types named
-by <VAR>types</VAR>. This returned procedure combines the elements of its
-list argument into an object suitable for being a <VAR>key</VAR> argument in
-the functions whose descriptions follow.
-<P>
-
-Any 2 lists of supported types (which must at least include symbols and
-non-negative integers) passed to the returned function which are not
-<CODE>equal?</CODE> must result in returned values which are not
-<CODE>equal?</CODE>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1017"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> base-table <B>make-key-extractor</B> <I>key-dimension types column-number</I>
-<DD>Returns a procedure which accepts objects produced by application of the
-result of <CODE>(make-list-keyifier <VAR>key-dimension</VAR> <VAR>types</VAR>)</CODE>.
-This procedure returns a <VAR>key</VAR> which is <CODE>equal?</CODE> to the
-<VAR>column-number</VAR>th element of the list which was passed to create
-<VAR>composite-key</VAR>. The list <VAR>types</VAR> must have at least
-<VAR>key-dimension</VAR> elements.
-</DL>
-<P>
-
-<A NAME="IDX1018"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> base-table <B>make-key-&gt;list</B> <I>key-dimension types</I>
-<DD>Returns a procedure which accepts objects produced by application of
-the result of <CODE>(make-list-keyifier <VAR>key-dimension</VAR>
-<VAR>types</VAR>)</CODE>. This procedure returns a list of <VAR>key</VAR>s which are
-elementwise <CODE>equal?</CODE> to the list which was passed to create
-<VAR>composite-key</VAR>.
-</DL>
-<P>
-
-<A NAME="Base Record Operations"></A>
-<HR SIZE="6">
-<A NAME="SEC171"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC170"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC172"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC166"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 6.2.1.5 Base Record Operations </H4>
-<!--docid::SEC171::-->
-<P>
-
-In the following functions, the <VAR>key</VAR> argument can always be assumed
-to be the value returned by a call to a <EM>keyify</EM> routine.
-</P>
-<P>
-
-<A NAME="IDX1019"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> base-table <B>present?</B> <I>handle key</I>
-<DD>Returns a non-<CODE>#f</CODE> value if there is a row associated with
-<VAR>key</VAR> in the table opened in <VAR>handle</VAR> and <CODE>#f</CODE> otherwise.
-</DL>
-<P>
-
-<A NAME="IDX1020"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> base-table <B>make-getter</B> <I>key-dimension types</I>
-<DD>Returns a procedure which takes arguments <VAR>handle</VAR> and <VAR>key</VAR>.
-This procedure returns a list of the non-primary values of the relation
-(in the base table opened in <VAR>handle</VAR>) whose primary key is
-<VAR>key</VAR> if it exists, and <CODE>#f</CODE> otherwise.
-</DL>
-<P>
-
-<CODE>make-getter-1</CODE> is a new operation. The relational-database
-module works with older base-table implementations by using
-<CODE>make-getter</CODE>.
-</P>
-<P>
-
-<A NAME="IDX1021"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> base-table <B>make-getter-1</B> <I>key-dimension types index</I>
-<DD>Returns a procedure which takes arguments <VAR>handle</VAR> and <VAR>key</VAR>.
-This procedure returns the value of the <VAR>index</VAR>th field (in the
-base table opened in <VAR>handle</VAR>) whose primary key is <VAR>key</VAR> if
-it exists, and <CODE>#f</CODE> otherwise.
-<P>
-
-<VAR>index</VAR> must be larger than <VAR>key-dimension</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1022"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> base-table <B>make-putter</B> <I>key-dimension types</I>
-<DD>Returns a procedure which takes arguments <VAR>handle</VAR> and <VAR>key</VAR> and
-<VAR>value-list</VAR>. This procedure associates the primary key <VAR>key</VAR>
-with the values in <VAR>value-list</VAR> (in the base table opened in
-<VAR>handle</VAR>) and returns an unspecified value.
-</DL>
-<P>
-
-<A NAME="IDX1023"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> base-table <B>delete</B> <I>handle key</I>
-<DD>Removes the row associated with <VAR>key</VAR> from the table opened in
-<VAR>handle</VAR>. An unspecified value is returned.
-</DL>
-<P>
-
-<A NAME="Match Keys"></A>
-<HR SIZE="6">
-<A NAME="SEC172"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC171"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC173"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC166"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 6.2.1.6 Match Keys </H4>
-<!--docid::SEC172::-->
-<P>
-
-<A NAME="IDX1024"></A>
-<A NAME="IDX1025"></A>
-<A NAME="IDX1026"></A>
-A <VAR>match-keys</VAR> argument is a list of length equal to
-the number of primary keys. The <VAR>match-keys</VAR> restrict the actions
-of the table command to those records whose primary keys all satisfy the
-corresponding element of the <VAR>match-keys</VAR> list. The elements and
-their actions are:
-</P>
-<P>
-
-<BLOCKQUOTE>
-<DL COMPACT>
-<DT><CODE>#f</CODE>
-<DD>The false value matches any key in the corresponding position.
-<DT>an object of type procedure
-<DD>This procedure must take a single argument, the key in the corresponding
-position. Any key for which the procedure returns a non-false value is
-a match; Any key for which the procedure returns a <CODE>#f</CODE> is not.
-<DT>other values
-<DD>Any other value matches only those keys <CODE>equal?</CODE> to it.
-</DL>
-</BLOCKQUOTE>
-<P>
-
-<A NAME="Aggregate Base Operations"></A>
-<HR SIZE="6">
-<A NAME="SEC173"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC172"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC174"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC166"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 6.2.1.7 Aggregate Base Operations </H4>
-<!--docid::SEC173::-->
-<P>
-
-The <VAR>key-dimension</VAR> and <VAR>column-types</VAR> arguments are needed to
-decode the composite-keys for matching with <VAR>match-keys</VAR>.
-</P>
-<P>
-
-<A NAME="IDX1027"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> base-table <B>delete*</B> <I>handle key-dimension column-types match-keys</I>
-<DD>Removes all rows which satisfy <VAR>match-keys</VAR> from the table opened in
-<VAR>handle</VAR>. An unspecified value is returned.
-</DL>
-<P>
-
-<A NAME="IDX1028"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> base-table <B>for-each-key</B> <I>handle procedure key-dimension column-types match-keys</I>
-<DD>Calls <VAR>procedure</VAR> once with each <VAR>key</VAR> in the table opened in
-<VAR>handle</VAR> which satisfy <VAR>match-keys</VAR> in an unspecified order.
-An unspecified value is returned.
-</DL>
-<P>
-
-<A NAME="IDX1029"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> base-table <B>map-key</B> <I>handle procedure key-dimension column-types match-keys</I>
-<DD>Returns a list of the values returned by calling <VAR>procedure</VAR> once
-with each <VAR>key</VAR> in the table opened in <VAR>handle</VAR> which satisfy
-<VAR>match-keys</VAR> in an unspecified order.
-</DL>
-<P>
-
-<A NAME="Base ISAM Operations"></A>
-<HR SIZE="6">
-<A NAME="SEC174"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC173"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC175"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC166"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 6.2.1.8 Base ISAM Operations </H4>
-<!--docid::SEC174::-->
-<P>
-
-These operations are optional for a Base-Table implementation.
-</P>
-<P>
-
-<A NAME="IDX1030"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> base-table <B>ordered-for-each-key</B> <I>handle procedure key-dimension column-types match-keys</I>
-<DD>Calls <VAR>procedure</VAR> once with each <VAR>key</VAR> in the table opened in
-<VAR>handle</VAR> which satisfy <VAR>match-keys</VAR> in the natural order for
-the types of the primary key fields of that table. An unspecified value
-is returned.
-</DL>
-<P>
-
-<A NAME="IDX1031"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> base-table <B>make-nexter</B> <I>handle key-dimension column-types index</I>
-<DD>Returns a procedure of arguments <VAR>key1</VAR> <VAR>key2</VAR> <small>...</small> which
-returns the key-list identifying the lowest record higher than
-<VAR>key1</VAR> <VAR>key2</VAR> <small>...</small> which is stored in the base-table and
-which differs in column <VAR>index</VAR> or a lower indexed key; or false
-if no higher record is present.
-</DL>
-<P>
-
-<A NAME="IDX1032"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> base-table <B>make-prever</B> <I>handle key-dimension column-types index</I>
-<DD>Returns a procedure of arguments <VAR>key1</VAR> <VAR>key2</VAR> <small>...</small> which
-returns the key-list identifying the highest record less than
-<VAR>key1</VAR> <VAR>key2</VAR> <small>...</small> which is stored in the base-table and
-which differs in column <VAR>index</VAR> or a lower indexed key; or false
-if no higher record is present.
-</DL>
-<P>
-
-<A NAME="Catalog Representation"></A>
-<HR SIZE="6">
-<A NAME="SEC175"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC174"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC176"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC165"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 6.2.2 Catalog Representation </H3>
-<!--docid::SEC175::-->
-<P>
-
-Each database (in an implementation) has a <EM>system catalog</EM> which
-describes all the user accessible tables in that database (including
-itself).
-</P>
-<P>
-
-The system catalog base table has the following fields. <CODE>PRI</CODE>
-indicates a primary key for that table.
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>PRI table-name
- column-limit the highest column number
- coltab-name descriptor table name
- bastab-id data base table identifier
- user-integrity-rule
- view-procedure A scheme thunk which, when called,
- produces a handle for the view. coltab
- and bastab are specified if and only if
- view-procedure is not.
-</pre></td></tr></table><P>
-
-Descriptors for base tables (not views) are tables (pointed to by
-system catalog). Descriptor (base) tables have the fields:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>PRI column-number sequential integers from 1
- primary-key? boolean TRUE for primary key components
- column-name
- column-integrity-rule
- domain-name
-</pre></td></tr></table><P>
-
-A <EM>primary key</EM> is any column marked as <CODE>primary-key?</CODE> in the
-corresponding descriptor table. All the <CODE>primary-key?</CODE> columns
-must have lower column numbers than any non-<CODE>primary-key?</CODE> columns.
-Every table must have at least one primary key. Primary keys must be
-sufficient to distinguish all rows from each other in the table. All of
-the system defined tables have a single primary key.
-</P>
-<P>
-
-A <EM>domain</EM> is a category describing the allowable values to occur in
-a column. It is described by a (base) table with the fields:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>PRI domain-name
- foreign-table
- domain-integrity-rule
- type-id
- type-param
-</pre></td></tr></table><P>
-
-The <EM>type-id</EM> field value is a symbol. This symbol may be used by
-the underlying base table implementation in storing that field.
-</P>
-<P>
-
-If the <CODE>foreign-table</CODE> field is non-<CODE>#f</CODE> then that field names
-a table from the catalog. The values for that domain must match a
-primary key of the table referenced by the <VAR>type-param</VAR> (or
-<CODE>#f</CODE>, if allowed). This package currently does not support
-composite foreign-keys.
-</P>
-<P>
-
-The types for which support is planned are:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre> atom
- symbol
- string [&lt;length&gt;]
- number [&lt;base&gt;]
- money &lt;currency&gt;
- date-time
- boolean
-
- foreign-key &lt;table-name&gt;
- expression
- virtual &lt;expression&gt;
-</pre></td></tr></table><P>
-
-<A NAME="Relational Database Objects"></A>
-<HR SIZE="6">
-<A NAME="SEC176"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC175"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC177"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC165"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 6.2.3 Relational Database Objects </H3>
-<!--docid::SEC176::-->
-<P>
-
-This object-oriented interface is deprecated for typical database
-applications; <A HREF="slib_6.html#SEC142">6.1.1 Using Databases</A> provides an application programmer
-interface which is easier to understand and use.
-</P>
-<P>
-
-<A NAME="IDX1033"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>make-relational-system</B> <I>base-table-implementation</I>
-<DD><P>
-
-Returns a procedure implementing a relational database using the
-<VAR>base-table-implementation</VAR>.
-</P>
-<P>
-
-All of the operations of a base table implementation are accessed
-through a procedure defined by <CODE>require</CODE>ing that implementation.
-Similarly, all of the operations of the relational database
-implementation are accessed through the procedure returned by
-<CODE>make-relational-system</CODE>. For instance, a new relational database
-could be created from the procedure returned by
-<CODE>make-relational-system</CODE> by:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(require 'alist-table)
-<A NAME="IDX1034"></A>(define relational-alist-system
- (make-relational-system alist-table))
-(define create-alist-database
- (relational-alist-system 'create-database))
-(define my-database
- (create-alist-database &quot;mydata.db&quot;))
-</pre></td></tr></table></DL>
-<P>
-
-What follows are the descriptions of the methods available from
-relational system returned by a call to <CODE>make-relational-system</CODE>.
-</P>
-<P>
-
-<A NAME="IDX1035"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> relational-system <B>create-database</B> <I>filename</I>
-<DD><P>
-
-Returns an open, nearly empty relational database associated with
-<VAR>filename</VAR>. The only tables defined are the system catalog and
-domain table. Calling the <CODE>close-database</CODE> method on this database
-and possibly other operations will cause <VAR>filename</VAR> to be written
-to. If <VAR>filename</VAR> is <CODE>#f</CODE> a temporary, non-disk based database
-will be created if such can be supported by the underlying base table
-implelentation. If the database cannot be created as specified
-<CODE>#f</CODE> is returned. For the fields and layout of descriptor tables,
-<A HREF="slib_6.html#SEC175">6.2.2 Catalog Representation</A>
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1036"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> relational-system <B>open-database</B> <I>filename mutable?</I>
-<DD><P>
-
-Returns an open relational database associated with <VAR>filename</VAR>. If
-<VAR>mutable?</VAR> is <CODE>#t</CODE>, this database will have methods capable of
-effecting change to the database. If <VAR>mutable?</VAR> is <CODE>#f</CODE>, only
-methods for inquiring the database will be available. Calling the
-<CODE>close-database</CODE> (and possibly other) method on a <VAR>mutable?</VAR>
-database will cause <VAR>filename</VAR> to be written to. If the database
-cannot be opened as specified <CODE>#f</CODE> is returned.
-</P>
-</DL>
-<P>
-
-<A NAME="Database Operations"></A>
-<HR SIZE="6">
-<A NAME="SEC177"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC176"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC178"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC165"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 6.2.4 Database Operations </H3>
-<!--docid::SEC177::-->
-<P>
-
-This object-oriented interface is deprecated for typical database
-applications; <A HREF="slib_6.html#SEC142">6.1.1 Using Databases</A> provides an application programmer
-interface which is easier to understand and use.
-</P>
-<P>
-
-These are the descriptions of the methods available from an open
-relational database. A method is retrieved from a database by calling
-the database with the symbol name of the operation. For example:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define my-database
- (create-alist-database &quot;mydata.db&quot;))
-(define telephone-table-desc
- ((my-database 'create-table) 'telephone-table-desc))
-</pre></td></tr></table><P>
-
-<A NAME="IDX1037"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> relational-database <B>close-database</B>
-<DD>Causes the relational database to be written to its associated file (if
-any). If the write is successful, subsequent operations to this
-database will signal an error. If the operations completed
-successfully, <CODE>#t</CODE> is returned. Otherwise, <CODE>#f</CODE> is returned.
-</DL>
-<P>
-
-<A NAME="IDX1038"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> relational-database <B>write-database</B> <I>filename</I>
-<DD>Causes the relational database to be written to <VAR>filename</VAR>. If the
-write is successful, also causes the database to henceforth be
-associated with <VAR>filename</VAR>. Calling the <CODE>close-database</CODE> (and
-possibly other) method on this database will cause <VAR>filename</VAR> to be
-written to. If <VAR>filename</VAR> is <CODE>#f</CODE> this database will be
-changed to a temporary, non-disk based database if such can be supported
-by the underlying base table implelentation. If the operations
-completed successfully, <CODE>#t</CODE> is returned. Otherwise, <CODE>#f</CODE> is
-returned.
-</DL>
-<P>
-
-<A NAME="IDX1039"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> relational-database <B>sync-database</B>
-<DD>Causes any pending updates to the database file to be written out. If
-the operations completed successfully, <CODE>#t</CODE> is returned.
-Otherwise, <CODE>#f</CODE> is returned.
-</DL>
-<P>
-
-<A NAME="IDX1040"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> relational-database <B>solidify-database</B>
-<DD>Causes any pending updates to the database file to be written out. If
-the writes completed successfully, then the database is changed to be
-immutable and <CODE>#t</CODE> is returned. Otherwise, <CODE>#f</CODE> is returned.
-</DL>
-<P>
-
-<A NAME="IDX1041"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> relational-database <B>table-exists?</B> <I>table-name</I>
-<DD>Returns <CODE>#t</CODE> if <VAR>table-name</VAR> exists in the system catalog,
-otherwise returns <CODE>#f</CODE>.
-</DL>
-<P>
-
-<A NAME="IDX1042"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> relational-database <B>open-table</B> <I>table-name mutable?</I>
-<DD>Returns a <EM>methods</EM> procedure for an existing relational table in
-this database if it exists and can be opened in the mode indicated by
-<VAR>mutable?</VAR>, otherwise returns <CODE>#f</CODE>.
-</DL>
-<P>
-
-These methods will be present only in mutable databases.
-</P>
-<P>
-
-<A NAME="IDX1043"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> relational-database <B>delete-table</B> <I>table-name</I>
-<DD>Removes and returns the <VAR>table-name</VAR> row from the system catalog if
-the table or view associated with <VAR>table-name</VAR> gets removed from the
-database, and <CODE>#f</CODE> otherwise.
-</DL>
-<P>
-
-<A NAME="IDX1044"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> relational-database <B>create-table</B> <I>table-desc-name</I>
-<DD>Returns a methods procedure for a new (open) relational table for
-describing the columns of a new base table in this database, otherwise
-returns <CODE>#f</CODE>. For the fields and layout of descriptor tables,
-See section <A HREF="slib_6.html#SEC175">6.2.2 Catalog Representation</A>.
-<P>
-
-<A NAME="IDX1045"></A>
-<DT><U>Operation:</U> relational-database <B>create-table</B> <I>table-name table-desc-name</I>
-<DD>Returns a methods procedure for a new (open) relational table with
-columns as described by <VAR>table-desc-name</VAR>, otherwise returns
-<CODE>#f</CODE>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1046"></A>
-</P>
-<DL>
-<DT><U>Operation:</U> relational-database <B>create-view</B> <I>??</I>
-<DD><A NAME="IDX1047"></A>
-<DT><U>Operation:</U> relational-database <B>project-table</B> <I>??</I>
-<DD><A NAME="IDX1048"></A>
-<DT><U>Operation:</U> relational-database <B>restrict-table</B> <I>??</I>
-<DD><A NAME="IDX1049"></A>
-<DT><U>Operation:</U> relational-database <B>cart-prod-tables</B> <I>??</I>
-<DD>Not yet implemented.
-</DL>
-<P>
-
-<A NAME="Weight-Balanced Trees"></A>
-<HR SIZE="6">
-<A NAME="SEC178"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC177"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC179"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 6.3 Weight-Balanced Trees </H2>
-<!--docid::SEC178::-->
-<P>
-
-<CODE>(require 'wt-tree)</CODE>
-<A NAME="IDX1050"></A>
-</P>
-<P>
-
-<A NAME="IDX1051"></A>
-<A NAME="IDX1052"></A>
-<A NAME="IDX1053"></A>
-<A NAME="IDX1054"></A>
-Balanced binary trees are a useful data structure for maintaining large
-sets of ordered objects or sets of associations whose keys are ordered.
-MIT Scheme has an comprehensive implementation of weight-balanced binary
-trees which has several advantages over the other data structures for
-large aggregates:
-</P>
-<P>
-
-<UL>
-<LI>
-In addition to the usual element-level operations like insertion,
-deletion and lookup, there is a full complement of collection-level
-operations, like set intersection, set union and subset test, all of
-which are implemented with good orders of growth in time and space.
-This makes weight balanced trees ideal for rapid prototyping of
-functionally derived specifications.
-<P>
-
-</P>
-<LI>
-An element in a tree may be indexed by its position under the ordering
-of the keys, and the ordinal position of an element may be determined,
-both with reasonable efficiency.
-<P>
-
-</P>
-<LI>
-Operations to find and remove minimum element make weight balanced trees
-simple to use for priority queues.
-<P>
-
-</P>
-<LI>
-The implementation is <EM>functional</EM> rather than <EM>imperative</EM>.
-This means that operations like `inserting' an association in a tree do
-not destroy the old tree, in much the same way that <CODE>(+ 1 x)</CODE>
-modifies neither the constant 1 nor the value bound to <CODE>x</CODE>. The
-trees are referentially transparent thus the programmer need not worry
-about copying the trees. Referential transparency allows space
-efficiency to be achieved by sharing subtrees.
-<P>
-
-</UL>
-<P>
-
-These features make weight-balanced trees suitable for a wide range of
-applications, especially those that
-require large numbers of sets or discrete maps. Applications that have
-a few global databases and/or concentrate on element-level operations like
-insertion and lookup are probably better off using hash-tables or
-red-black trees.
-</P>
-<P>
-
-The <EM>size</EM> of a tree is the number of associations that it
-contains. Weight balanced binary trees are balanced to keep the sizes
-of the subtrees of each node within a constant factor of each other.
-This ensures logarithmic times for single-path operations (like lookup
-and insertion). A weight balanced tree takes space that is proportional
-to the number of associations in the tree. For the current
-implementation, the constant of proportionality is six words per
-association.
-</P>
-<P>
-
-<A NAME="IDX1055"></A>
-<A NAME="IDX1056"></A>
-<A NAME="IDX1057"></A>
-<A NAME="IDX1058"></A>
-Weight balanced trees can be used as an implementation for either
-discrete sets or discrete maps (associations). Sets are implemented by
-ignoring the datum that is associated with the key. Under this scheme
-if an associations exists in the tree this indicates that the key of the
-association is a member of the set. Typically a value such as
-<CODE>()</CODE>, <CODE>#t</CODE> or <CODE>#f</CODE> is associated with the key.
-</P>
-<P>
-
-Many operations can be viewed as computing a result that, depending on
-whether the tree arguments are thought of as sets or maps, is known by
-two different names. An example is <CODE>wt-tree/member?</CODE>, which, when
-regarding the tree argument as a set, computes the set membership
-operation, but, when regarding the tree as a discrete map,
-<CODE>wt-tree/member?</CODE> is the predicate testing if the map is defined at
-an element in its domain. Most names in this package have been chosen
-based on interpreting the trees as sets, hence the name
-<CODE>wt-tree/member?</CODE> rather than <CODE>wt-tree/defined-at?</CODE>.
-</P>
-<P>
-
-<A NAME="IDX1059"></A>
-<A NAME="IDX1060"></A>
-The weight balanced tree implementation is a run-time-loadable option.
-To use weight balanced trees, execute
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(load-option 'wt-tree)
-</pre></td></tr></table><A NAME="IDX1061"></A>
-<P>
-
-once before calling any of the procedures defined here.
-</P>
-<P>
-
-<TABLE BORDER="0" CELLSPACING="0">
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_6.html#SEC179">6.3.1 Construction of Weight-Balanced Trees</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_6.html#SEC180">6.3.2 Basic Operations on Weight-Balanced Trees</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_6.html#SEC181">6.3.3 Advanced Operations on Weight-Balanced Trees</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_6.html#SEC182">6.3.4 Indexing Operations on Weight-Balanced Trees</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-</TABLE>
-<P>
-
-<A NAME="Construction of Weight-Balanced Trees"></A>
-<HR SIZE="6">
-<A NAME="SEC179"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC178"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC180"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC178"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 6.3.1 Construction of Weight-Balanced Trees </H3>
-<!--docid::SEC179::-->
-<P>
-
-Binary trees require there to be a total order on the keys used to
-arrange the elements in the tree. Weight balanced trees are organized
-by <EM>types</EM>, where the type is an object encapsulating the ordering
-relation. Creating a tree is a two-stage process. First a tree type
-must be created from the predicate which gives the ordering. The tree
-type is then used for making trees, either empty or singleton trees or
-trees from other aggregate structures like association lists. Once
-created, a tree `knows' its type and the type is used to test
-compatibility between trees in operations taking two trees. Usually a
-small number of tree types are created at the beginning of a program and
-used many times throughout the program's execution.
-</P>
-<P>
-
-<A NAME="IDX1062"></A>
-</P>
-<DL>
-<DT><U>procedure+:</U> <B>make-wt-tree-type</B> <I>key&lt;?</I>
-<DD>This procedure creates and returns a new tree type based on the ordering
-predicate <VAR>key&lt;?</VAR>.
-<VAR>Key&lt;?</VAR> must be a total ordering, having the property that for all
-key values <CODE>a</CODE>, <CODE>b</CODE> and <CODE>c</CODE>:
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(key&lt;? a a) => #f
-(and (key&lt;? a b) (key&lt;? b a)) => #f
-(if (and (key&lt;? a b) (key&lt;? b c))
- (key&lt;? a c)
- #t) => #t
-</pre></td></tr></table><P>
-
-Two key values are assumed to be equal if neither is less than the other
-by <VAR>key&lt;?</VAR>.
-</P>
-<P>
-
-Each call to <CODE>make-wt-tree-type</CODE> returns a distinct value, and
-trees are only compatible if their tree types are <CODE>eq?</CODE>. A
-consequence is that trees that are intended to be used in binary tree
-operations must all be created with a tree type originating from the
-same call to <CODE>make-wt-tree-type</CODE>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1063"></A>
-</P>
-<DL>
-<DT><U>variable+:</U> <B>number-wt-type</B>
-<DD>A standard tree type for trees with numeric keys. <CODE>Number-wt-type</CODE>
-could have been defined by
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define number-wt-type (make-wt-tree-type &lt;))
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1064"></A>
-</P>
-<DL>
-<DT><U>variable+:</U> <B>string-wt-type</B>
-<DD>A standard tree type for trees with string keys. <CODE>String-wt-type</CODE>
-could have been defined by
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define string-wt-type (make-wt-tree-type string&lt;?))
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1065"></A>
-</P>
-<DL>
-<DT><U>procedure+:</U> <B>make-wt-tree</B> <I>wt-tree-type</I>
-<DD>This procedure creates and returns a newly allocated weight balanced
-tree. The tree is empty, i.e. it contains no associations.
-<VAR>Wt-tree-type</VAR> is a weight balanced tree type obtained by calling
-<CODE>make-wt-tree-type</CODE>; the returned tree has this type.
-</DL>
-<P>
-
-<A NAME="IDX1066"></A>
-</P>
-<DL>
-<DT><U>procedure+:</U> <B>singleton-wt-tree</B> <I>wt-tree-type key datum</I>
-<DD>This procedure creates and returns a newly allocated weight balanced
-tree. The tree contains a single association, that of <VAR>datum</VAR> with
-<VAR>key</VAR>. <VAR>Wt-tree-type</VAR> is a weight balanced tree type obtained
-by calling <CODE>make-wt-tree-type</CODE>; the returned tree has this type.
-</DL>
-<P>
-
-<A NAME="IDX1067"></A>
-</P>
-<DL>
-<DT><U>procedure+:</U> <B>alist-&gt;wt-tree</B> <I>tree-type alist</I>
-<DD>Returns a newly allocated weight-balanced tree that contains the same
-associations as <VAR>alist</VAR>. This procedure is equivalent to:
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(lambda (type alist)
- (let ((tree (make-wt-tree type)))
- (for-each (lambda (association)
- (wt-tree/add! tree
- (car association)
- (cdr association)))
- alist)
- tree))
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="Basic Operations on Weight-Balanced Trees"></A>
-<HR SIZE="6">
-<A NAME="SEC180"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC179"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC181"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC178"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 6.3.2 Basic Operations on Weight-Balanced Trees </H3>
-<!--docid::SEC180::-->
-<P>
-
-This section describes the basic tree operations on weight balanced
-trees. These operations are the usual tree operations for insertion,
-deletion and lookup, some predicates and a procedure for determining the
-number of associations in a tree.
-</P>
-<P>
-
-<A NAME="IDX1068"></A>
-</P>
-<DL>
-<DT><U>procedure+:</U> <B>wt-tree/empty?</B> <I>wt-tree</I>
-<DD>Returns <CODE>#t</CODE> if <VAR>wt-tree</VAR> contains no associations, otherwise
-returns <CODE>#f</CODE>.
-</DL>
-<P>
-
-<A NAME="IDX1069"></A>
-</P>
-<DL>
-<DT><U>procedure+:</U> <B>wt-tree/size</B> <I>wt-tree</I>
-<DD>Returns the number of associations in <VAR>wt-tree</VAR>, an exact
-non-negative integer. This operation takes constant time.
-</DL>
-<P>
-
-<A NAME="IDX1070"></A>
-</P>
-<DL>
-<DT><U>procedure+:</U> <B>wt-tree/add</B> <I>wt-tree key datum</I>
-<DD>Returns a new tree containing all the associations in <VAR>wt-tree</VAR> and
-the association of <VAR>datum</VAR> with <VAR>key</VAR>. If <VAR>wt-tree</VAR> already
-had an association for <VAR>key</VAR>, the new association overrides the old.
-The average and worst-case times required by this operation are
-proportional to the logarithm of the number of associations in
-<VAR>wt-tree</VAR>.
-</DL>
-<P>
-
-<A NAME="IDX1071"></A>
-</P>
-<DL>
-<DT><U>procedure+:</U> <B>wt-tree/add!</B> <I>wt-tree key datum</I>
-<DD>Associates <VAR>datum</VAR> with <VAR>key</VAR> in <VAR>wt-tree</VAR> and returns an
-unspecified value. If <VAR>wt-tree</VAR> already has an association for
-<VAR>key</VAR>, that association is replaced. The average and worst-case
-times required by this operation are proportional to the logarithm of
-the number of associations in <VAR>wt-tree</VAR>.
-</DL>
-<P>
-
-<A NAME="IDX1072"></A>
-</P>
-<DL>
-<DT><U>procedure+:</U> <B>wt-tree/member?</B> <I>key wt-tree</I>
-<DD>Returns <CODE>#t</CODE> if <VAR>wt-tree</VAR> contains an association for
-<VAR>key</VAR>, otherwise returns <CODE>#f</CODE>. The average and worst-case
-times required by this operation are proportional to the logarithm of
-the number of associations in <VAR>wt-tree</VAR>.
-</DL>
-<P>
-
-<A NAME="IDX1073"></A>
-</P>
-<DL>
-<DT><U>procedure+:</U> <B>wt-tree/lookup</B> <I>wt-tree key default</I>
-<DD>Returns the datum associated with <VAR>key</VAR> in <VAR>wt-tree</VAR>. If
-<VAR>wt-tree</VAR> doesn't contain an association for <VAR>key</VAR>,
-<VAR>default</VAR> is returned. The average and worst-case times required by
-this operation are proportional to the logarithm of the number of
-associations in <VAR>wt-tree</VAR>.
-</DL>
-<P>
-
-<A NAME="IDX1074"></A>
-</P>
-<DL>
-<DT><U>procedure+:</U> <B>wt-tree/delete</B> <I>wt-tree key</I>
-<DD>Returns a new tree containing all the associations in <VAR>wt-tree</VAR>,
-except that if <VAR>wt-tree</VAR> contains an association for <VAR>key</VAR>, it
-is removed from the result. The average and worst-case times required
-by this operation are proportional to the logarithm of the number of
-associations in <VAR>wt-tree</VAR>.
-</DL>
-<P>
-
-<A NAME="IDX1075"></A>
-</P>
-<DL>
-<DT><U>procedure+:</U> <B>wt-tree/delete!</B> <I>wt-tree key</I>
-<DD>If <VAR>wt-tree</VAR> contains an association for <VAR>key</VAR> the association
-is removed. Returns an unspecified value. The average and worst-case
-times required by this operation are proportional to the logarithm of
-the number of associations in <VAR>wt-tree</VAR>.
-</DL>
-<P>
-
-<A NAME="Advanced Operations on Weight-Balanced Trees"></A>
-<HR SIZE="6">
-<A NAME="SEC181"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC180"> &lt; </A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 6.3.3 Advanced Operations on Weight-Balanced Trees </H3>
-<!--docid::SEC181::-->
-<P>
-
-In the following the <EM>size</EM> of a tree is the number of associations
-that the tree contains, and a <EM>smaller</EM> tree contains fewer
-associations.
-</P>
-<P>
-
-<A NAME="IDX1076"></A>
-</P>
-<DL>
-<DT><U>procedure+:</U> <B>wt-tree/split&lt;</B> <I>wt-tree bound</I>
-<DD>Returns a new tree containing all and only the associations in
-<VAR>wt-tree</VAR> which have a key that is less than <VAR>bound</VAR> in the
-ordering relation of the tree type of <VAR>wt-tree</VAR>. The average and
-worst-case times required by this operation are proportional to the
-logarithm of the size of <VAR>wt-tree</VAR>.
-</DL>
-<P>
-
-<A NAME="IDX1077"></A>
-</P>
-<DL>
-<DT><U>procedure+:</U> <B>wt-tree/split&gt;</B> <I>wt-tree bound</I>
-<DD>Returns a new tree containing all and only the associations in
-<VAR>wt-tree</VAR> which have a key that is greater than <VAR>bound</VAR> in the
-ordering relation of the tree type of <VAR>wt-tree</VAR>. The average and
-worst-case times required by this operation are proportional to the
-logarithm of size of <VAR>wt-tree</VAR>.
-</DL>
-<P>
-
-<A NAME="IDX1078"></A>
-</P>
-<DL>
-<DT><U>procedure+:</U> <B>wt-tree/union</B> <I>wt-tree-1 wt-tree-2</I>
-<DD>Returns a new tree containing all the associations from both trees.
-This operation is asymmetric: when both trees have an association for
-the same key, the returned tree associates the datum from <VAR>wt-tree-2</VAR>
-with the key. Thus if the trees are viewed as discrete maps then
-<CODE>wt-tree/union</CODE> computes the map override of <VAR>wt-tree-1</VAR> by
-<VAR>wt-tree-2</VAR>. If the trees are viewed as sets the result is the set
-union of the arguments.
-The worst-case time required by this operation
-is proportional to the sum of the sizes of both trees.
-If the minimum key of one tree is greater than the maximum key of
-the other tree then the time required is at worst proportional to
-the logarithm of the size of the larger tree.
-</DL>
-<P>
-
-<A NAME="IDX1079"></A>
-</P>
-<DL>
-<DT><U>procedure+:</U> <B>wt-tree/intersection</B> <I>wt-tree-1 wt-tree-2</I>
-<DD>Returns a new tree containing all and only those associations from
-<VAR>wt-tree-1</VAR> which have keys appearing as the key of an association
-in <VAR>wt-tree-2</VAR>. Thus the associated data in the result are those
-from <VAR>wt-tree-1</VAR>. If the trees are being used as sets the result is
-the set intersection of the arguments. As a discrete map operation,
-<CODE>wt-tree/intersection</CODE> computes the domain restriction of
-<VAR>wt-tree-1</VAR> to (the domain of) <VAR>wt-tree-2</VAR>.
-The time required by this operation is never worse that proportional to
-the sum of the sizes of the trees.
-</DL>
-<P>
-
-<A NAME="IDX1080"></A>
-</P>
-<DL>
-<DT><U>procedure+:</U> <B>wt-tree/difference</B> <I>wt-tree-1 wt-tree-2</I>
-<DD>Returns a new tree containing all and only those associations from
-<VAR>wt-tree-1</VAR> which have keys that <EM>do not</EM> appear as the key of
-an association in <VAR>wt-tree-2</VAR>. If the trees are viewed as sets the
-result is the asymmetric set difference of the arguments. As a discrete
-map operation, it computes the domain restriction of <VAR>wt-tree-1</VAR> to
-the complement of (the domain of) <VAR>wt-tree-2</VAR>.
-The time required by this operation is never worse that proportional to
-the sum of the sizes of the trees.
-</DL>
-<P>
-
-<A NAME="IDX1081"></A>
-</P>
-<DL>
-<DT><U>procedure+:</U> <B>wt-tree/subset?</B> <I>wt-tree-1 wt-tree-2</I>
-<DD>Returns <CODE>#t</CODE> iff the key of each association in <VAR>wt-tree-1</VAR> is
-the key of some association in <VAR>wt-tree-2</VAR>, otherwise returns <CODE>#f</CODE>.
-Viewed as a set operation, <CODE>wt-tree/subset?</CODE> is the improper subset
-predicate.
-A proper subset predicate can be constructed:
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define (proper-subset? s1 s2)
- (and (wt-tree/subset? s1 s2)
- (&lt; (wt-tree/size s1) (wt-tree/size s2))))
-</pre></td></tr></table><P>
-
-As a discrete map operation, <CODE>wt-tree/subset?</CODE> is the subset
-test on the domain(s) of the map(s). In the worst-case the time
-required by this operation is proportional to the size of
-<VAR>wt-tree-1</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1082"></A>
-</P>
-<DL>
-<DT><U>procedure+:</U> <B>wt-tree/set-equal?</B> <I>wt-tree-1 wt-tree-2</I>
-<DD>Returns <CODE>#t</CODE> iff for every association in <VAR>wt-tree-1</VAR> there is
-an association in <VAR>wt-tree-2</VAR> that has the same key, and <EM>vice
-versa</EM>.
-<P>
-
-Viewing the arguments as sets <CODE>wt-tree/set-equal?</CODE> is the set
-equality predicate. As a map operation it determines if two maps are
-defined on the same domain.
-</P>
-<P>
-
-This procedure is equivalent to
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(lambda (wt-tree-1 wt-tree-2)
- (and (wt-tree/subset? wt-tree-1 wt-tree-2
- (wt-tree/subset? wt-tree-2 wt-tree-1)))
-</pre></td></tr></table><P>
-
-In the worst-case the time required by this operation is proportional to
-the size of the smaller tree.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1083"></A>
-</P>
-<DL>
-<DT><U>procedure+:</U> <B>wt-tree/fold</B> <I>combiner initial wt-tree</I>
-<DD>This procedure reduces <VAR>wt-tree</VAR> by combining all the associations,
-using an reverse in-order traversal, so the associations are visited in
-reverse order. <VAR>Combiner</VAR> is a procedure of three arguments: a key,
-a datum and the accumulated result so far. Provided <VAR>combiner</VAR>
-takes time bounded by a constant, <CODE>wt-tree/fold</CODE> takes time
-proportional to the size of <VAR>wt-tree</VAR>.
-<P>
-
-A sorted association list can be derived simply:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(wt-tree/fold (lambda (key datum list)
- (cons (cons key datum) list))
- '()
- <VAR>wt-tree</VAR>))
-</pre></td></tr></table><P>
-
-The data in the associations can be summed like this:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(wt-tree/fold (lambda (key datum sum) (+ sum datum))
- 0
- <VAR>wt-tree</VAR>)
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1084"></A>
-</P>
-<DL>
-<DT><U>procedure+:</U> <B>wt-tree/for-each</B> <I>action wt-tree</I>
-<DD>This procedure traverses the tree in-order, applying <VAR>action</VAR> to
-each association.
-The associations are processed in increasing order of their keys.
-<VAR>Action</VAR> is a procedure of two arguments which take the key and
-datum respectively of the association.
-Provided <VAR>action</VAR> takes time bounded by a constant,
-<CODE>wt-tree/for-each</CODE> takes time proportional to in the size of
-<VAR>wt-tree</VAR>.
-The example prints the tree:
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(wt-tree/for-each (lambda (key value)
- (display (list key value)))
- <VAR>wt-tree</VAR>))
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="Indexing Operations on Weight-Balanced Trees"></A>
-<HR SIZE="6">
-<A NAME="SEC182"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC181"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC140"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_6.html#SEC178"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 6.3.4 Indexing Operations on Weight-Balanced Trees </H3>
-<!--docid::SEC182::-->
-<P>
-
-Weight balanced trees support operations that view the tree as sorted
-sequence of associations. Elements of the sequence can be accessed by
-position, and the position of an element in the sequence can be
-determined, both in logarthmic time.
-</P>
-<P>
-
-<A NAME="IDX1085"></A>
-</P>
-<DL>
-<DT><U>procedure+:</U> <B>wt-tree/index</B> <I>wt-tree index</I>
-<DD><A NAME="IDX1086"></A>
-<DT><U>procedure+:</U> <B>wt-tree/index-datum</B> <I>wt-tree index</I>
-<DD><A NAME="IDX1087"></A>
-<DT><U>procedure+:</U> <B>wt-tree/index-pair</B> <I>wt-tree index</I>
-<DD>Returns the 0-based <VAR>index</VAR>th association of <VAR>wt-tree</VAR> in the
-sorted sequence under the tree's ordering relation on the keys.
-<CODE>wt-tree/index</CODE> returns the <VAR>index</VAR>th key,
-<CODE>wt-tree/index-datum</CODE> returns the datum associated with the
-<VAR>index</VAR>th key and <CODE>wt-tree/index-pair</CODE> returns a new pair
-<CODE>(<VAR>key</VAR> . <VAR>datum</VAR>)</CODE> which is the <CODE>cons</CODE> of the
-<VAR>index</VAR>th key and its datum. The average and worst-case times
-required by this operation are proportional to the logarithm of the
-number of associations in the tree.
-<P>
-
-These operations signal an error if the tree is empty, if
-<VAR>index</VAR><CODE>&lt;0</CODE>, or if <VAR>index</VAR> is greater than or equal to the
-number of associations in the tree.
-</P>
-<P>
-
-Indexing can be used to find the median and maximum keys in the tree as
-follows:
-</P>
-</DL>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>median: (wt-tree/index <VAR>wt-tree</VAR> (quotient (wt-tree/size <VAR>wt-tree</VAR>) 2))
-
-maximum: (wt-tree/index <VAR>wt-tree</VAR> (-1+ (wt-tree/size <VAR>wt-tree</VAR>)))
-</pre></td></tr></table><P>
-
-<A NAME="IDX1088"></A>
-</P>
-<DL>
-<DT><U>procedure+:</U> <B>wt-tree/rank</B> <I>wt-tree key</I>
-<DD>Determines the 0-based position of <VAR>key</VAR> in the sorted sequence of
-the keys under the tree's ordering relation, or <CODE>#f</CODE> if the tree
-has no association with for <VAR>key</VAR>. This procedure returns either an
-exact non-negative integer or <CODE>#f</CODE>. The average and worst-case
-times required by this operation are proportional to the logarithm of
-the number of associations in the tree.
-</DL>
-<P>
-
-<A NAME="IDX1089"></A>
-</P>
-<DL>
-<DT><U>procedure+:</U> <B>wt-tree/min</B> <I>wt-tree</I>
-<DD><A NAME="IDX1090"></A>
-<DT><U>procedure+:</U> <B>wt-tree/min-datum</B> <I>wt-tree</I>
-<DD><A NAME="IDX1091"></A>
-<DT><U>procedure+:</U> <B>wt-tree/min-pair</B> <I>wt-tree</I>
-<DD>Returns the association of <VAR>wt-tree</VAR> that has the least key under
-the tree's ordering relation. <CODE>wt-tree/min</CODE> returns the least key,
-<CODE>wt-tree/min-datum</CODE> returns the datum associated with the least key
-and <CODE>wt-tree/min-pair</CODE> returns a new pair <CODE>(key . datum)</CODE>
-which is the <CODE>cons</CODE> of the minimum key and its datum. The average
-and worst-case times required by this operation are proportional to the
-logarithm of the number of associations in the tree.
-<P>
-
-These operations signal an error if the tree is empty.
-They could be written
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define (wt-tree/min tree) (wt-tree/index tree 0))
-(define (wt-tree/min-datum tree) (wt-tree/index-datum tree 0))
-(define (wt-tree/min-pair tree) (wt-tree/index-pair tree 0))
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1092"></A>
-</P>
-<DL>
-<DT><U>procedure+:</U> <B>wt-tree/delete-min</B> <I>wt-tree</I>
-<DD>Returns a new tree containing all of the associations in <VAR>wt-tree</VAR>
-except the association with the least key under the <VAR>wt-tree</VAR>'s
-ordering relation. An error is signalled if the tree is empty. The
-average and worst-case times required by this operation are proportional
-to the logarithm of the number of associations in the tree. This
-operation is equivalent to
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(wt-tree/delete <VAR>wt-tree</VAR> (wt-tree/min <VAR>wt-tree</VAR>))
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1093"></A>
-</P>
-<DL>
-<DT><U>procedure+:</U> <B>wt-tree/delete-min!</B> <I>wt-tree</I>
-<DD>Removes the association with the least key under the <VAR>wt-tree</VAR>'s
-ordering relation. An error is signalled if the tree is empty. The
-average and worst-case times required by this operation are proportional
-to the logarithm of the number of associations in the tree. This
-operation is equivalent to
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(wt-tree/delete! <VAR>wt-tree</VAR> (wt-tree/min <VAR>wt-tree</VAR>))
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="Other Packages"></A>
-<HR SIZE="6">
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-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H1> 7. Other Packages </H1>
-<!--docid::SEC183::-->
-<P>
-
-<TABLE BORDER="0" CELLSPACING="0">
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC184">7.1 Data Structures</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">Various data structures.</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC207">7.2 Sorting and Searching</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC225">7.3 Procedures</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">Miscellaneous utility procedures.</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC235">7.4 Standards Support</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">Support for Scheme Standards.</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC263">7.5 Session Support</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">REPL and Debugging.</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC269">7.6 System Interface</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'system, 'getenv, and other programs.</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC276">7.7 Extra-SLIB Packages</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">Outside the envelope.</TD></TR>
-</TABLE>
-<P>
-
-<A NAME="Data Structures"></A>
-<HR SIZE="6">
-<A NAME="SEC184"></A>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 7.1 Data Structures </H2>
-<!--docid::SEC184::-->
-<P>
-
-<TABLE BORDER="0" CELLSPACING="0">
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC185">7.1.1 Arrays</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'array</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC186">7.1.2 Subarrays</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'subarray</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC187">7.1.3 Array Mapping</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'array-for-each</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC188">7.1.4 Association Lists</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'alist</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC189">7.1.5 Byte</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'byte</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC190">7.1.6 Byte/Number Conversions</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'byte-number</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC192">7.1.7 MAT-File Format</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'matfile</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC193">7.1.8 Portable Image Files</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'pnm</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC194">7.1.9 Collections</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'collect</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC195">7.1.10 Dynamic Data Type</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'dynamic</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC196">7.1.11 Hash Tables</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'hash-table</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC197">7.1.12 Macroless Object System</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'object</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC204">7.1.16 Priority Queues</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'priority-queue</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC205">7.1.17 Queues</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'queue</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC206">7.1.18 Records</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'record</TD></TR>
-</TABLE>
-<P>
-
-<A NAME="Arrays"></A>
-<HR SIZE="6">
-<A NAME="SEC185"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC184"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC186"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC184"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.1.1 Arrays </H3>
-<!--docid::SEC185::-->
-<P>
-
-<CODE>(require 'array)</CODE>
-<A NAME="IDX1094"></A>
-</P>
-<P>
-
-<A NAME="IDX1095"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>array?</B> <I>obj</I>
-<DD><P>
-
-Returns <CODE>#t</CODE> if the <VAR>obj</VAR> is an array, and <CODE>#f</CODE> if not.
-</P>
-</DL>
-<EM>Note:</EM> Arrays are not disjoint from other Scheme types. Strings
-and vectors also satisfy <CODE>array?</CODE>. A disjoint array predicate can
-be written:
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define (strict-array? obj)
- (and (array? obj) (not (string? obj)) (not (vector? obj))))
-</pre></td></tr></table><P>
-
-<A NAME="IDX1096"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>array=?</B> <I>array1 array2</I>
-<DD><P>
-
-Returns <CODE>#t</CODE> if <VAR>array1</VAR> and <VAR>array2</VAR> have the same rank and shape and the
-corresponding elements of <VAR>array1</VAR> and <VAR>array2</VAR> are <CODE>equal?</CODE>.
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(array=? (create-array '#(foo) 3 3)
- (create-array '#(foo) '(0 2) '(0 2)))
- => #t
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1097"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>create-array</B> <I>prototype bound1 bound2 <small>...</small></I>
-<DD><P>
-
-Creates and returns an array of type <VAR>prototype</VAR> with dimensions <VAR>bound1</VAR>, <VAR>bound2</VAR>,
-<small>...</small> and filled with elements from <VAR>prototype</VAR>. <VAR>prototype</VAR> must be an array,
-vector, or string. The implementation-dependent type of the returned
-array will be the same as the type of <VAR>prototype</VAR>; except if that would be a
-vector or string with non-zero origin, in which case some variety of
-array will be returned.
-</P>
-<P>
-
-If the <VAR>prototype</VAR> has no elements, then the initial contents of the returned
-array are unspecified. Otherwise, the returned array will be filled
-with the element at the origin of <VAR>prototype</VAR>.
-</P>
-</DL>
-These functions return a prototypical uniform-array enclosing the
-optional argument (which must be of the correct type). If the
-uniform-array type is supported by the implementation, then it is
-returned; defaulting to the next larger precision type; resorting
-finally to vector.
-<P>
-
-<A NAME="IDX1098"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>ac64</B> <I>z</I>
-<DD><P>
-
-<A NAME="IDX1099"></A>
-<DT><U>Function:</U> <B>ac64</B>
-<DD>Returns a high-precision complex uniform-array prototype.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1100"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>ac32</B> <I>z</I>
-<DD><P>
-
-<A NAME="IDX1101"></A>
-<DT><U>Function:</U> <B>ac32</B>
-<DD>Returns a complex uniform-array prototype.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1102"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>ar64</B> <I>x</I>
-<DD><P>
-
-<A NAME="IDX1103"></A>
-<DT><U>Function:</U> <B>ar64</B>
-<DD>Returns a high-precision real uniform-array prototype.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1104"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>ar32</B> <I>x</I>
-<DD><P>
-
-<A NAME="IDX1105"></A>
-<DT><U>Function:</U> <B>ar32</B>
-<DD>Returns a real uniform-array prototype.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1106"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>as64</B> <I>n</I>
-<DD><P>
-
-<A NAME="IDX1107"></A>
-<DT><U>Function:</U> <B>as64</B>
-<DD>Returns an exact signed integer uniform-array prototype with at least
-64 bits of precision.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1108"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>as32</B> <I>n</I>
-<DD><P>
-
-<A NAME="IDX1109"></A>
-<DT><U>Function:</U> <B>as32</B>
-<DD>Returns an exact signed integer uniform-array prototype with at least
-32 bits of precision.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1110"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>as16</B> <I>n</I>
-<DD><P>
-
-<A NAME="IDX1111"></A>
-<DT><U>Function:</U> <B>as16</B>
-<DD>Returns an exact signed integer uniform-array prototype with at least
-16 bits of precision.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1112"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>as8</B> <I>n</I>
-<DD><P>
-
-<A NAME="IDX1113"></A>
-<DT><U>Function:</U> <B>as8</B>
-<DD>Returns an exact signed integer uniform-array prototype with at least
-8 bits of precision.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1114"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>au64</B> <I>k</I>
-<DD><P>
-
-<A NAME="IDX1115"></A>
-<DT><U>Function:</U> <B>au64</B>
-<DD>Returns an exact non-negative integer uniform-array prototype with at
-least 64 bits of precision.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1116"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>au32</B> <I>k</I>
-<DD><P>
-
-<A NAME="IDX1117"></A>
-<DT><U>Function:</U> <B>au32</B>
-<DD>Returns an exact non-negative integer uniform-array prototype with at
-least 32 bits of precision.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1118"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>au16</B> <I>k</I>
-<DD><P>
-
-<A NAME="IDX1119"></A>
-<DT><U>Function:</U> <B>au16</B>
-<DD>Returns an exact non-negative integer uniform-array prototype with at
-least 16 bits of precision.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1120"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>au8</B> <I>k</I>
-<DD><P>
-
-<A NAME="IDX1121"></A>
-<DT><U>Function:</U> <B>au8</B>
-<DD>Returns an exact non-negative integer uniform-array prototype with at
-least 8 bits of precision.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1122"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>at1</B> <I>bool</I>
-<DD><P>
-
-<A NAME="IDX1123"></A>
-<DT><U>Function:</U> <B>at1</B>
-<DD>Returns a boolean uniform-array prototype.
-</P>
-</DL>
-When constructing an array, <VAR>bound</VAR> is either an inclusive range of
-indices expressed as a two element list, or an upper bound expressed as
-a single integer. So
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(create-array '#(foo) 3 3) == (create-array '#(foo) '(0 2) '(0 2))
-</pre></td></tr></table><P>
-
-<A NAME="IDX1124"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>make-shared-array</B> <I>array mapper bound1 bound2 <small>...</small></I>
-<DD><P>
-
-<CODE>make-shared-array</CODE> can be used to create shared subarrays of other
-arrays. The <VAR>mapper</VAR> is a function that translates coordinates in
-the new array into coordinates in the old array. A <VAR>mapper</VAR> must be
-linear, and its range must stay within the bounds of the old array, but
-it can be otherwise arbitrary. A simple example:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define fred (create-array '#(#f) 8 8))
-(define freds-diagonal
- (make-shared-array fred (lambda (i) (list i i)) 8))
-(array-set! freds-diagonal 'foo 3)
-(array-ref fred 3 3)
- => FOO
-(define freds-center
- (make-shared-array fred (lambda (i j) (list (+ 3 i) (+ 3 j)))
- 2 2))
-(array-ref freds-center 0 0)
- => FOO
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1125"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>array-rank</B> <I>obj</I>
-<DD><P>
-
-Returns the number of dimensions of <VAR>obj</VAR>. If <VAR>obj</VAR> is not an array, 0 is
-returned.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1126"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>array-shape</B> <I>array</I>
-<DD><P>
-
-Returns a list of inclusive bounds.
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(array-shape (create-array '#() 3 5))
- => ((0 2) (0 4))
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1127"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>array-dimensions</B> <I>array</I>
-<DD><P>
-
-<CODE>array-dimensions</CODE> is similar to <CODE>array-shape</CODE> but replaces
-elements with a 0 minimum with one greater than the maximum.
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(array-dimensions (create-array '#() 3 5))
- => (3 5)
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1128"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>array-in-bounds?</B> <I>array index1 index2 <small>...</small></I>
-<DD><P>
-
-Returns <CODE>#t</CODE> if its arguments would be acceptable to
-<CODE>array-ref</CODE>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1129"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>array-ref</B> <I>array index1 index2 <small>...</small></I>
-<DD><P>
-
-Returns the (<VAR>index1</VAR>, <VAR>index2</VAR>, <small>...</small>) element of <VAR>array</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1130"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>array-set!</B> <I>array obj index1 index2 <small>...</small></I>
-<DD><P>
-
-Stores <VAR>obj</VAR> in the (<VAR>index1</VAR>, <VAR>index2</VAR>, <small>...</small>) element of <VAR>array</VAR>. The value returned
-by <CODE>array-set!</CODE> is unspecified.
-</P>
-</DL>
-<P>
-
-<A NAME="Subarrays"></A>
-<HR SIZE="6">
-<A NAME="SEC186"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC185"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC187"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC184"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.1.2 Subarrays </H3>
-<!--docid::SEC186::-->
-<P>
-
-<CODE>(require 'subarray)</CODE>
-<A NAME="IDX1131"></A>
-</P>
-<P>
-
-<A NAME="IDX1132"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>subarray</B> <I>array select <small>...</small></I>
-<DD><P>
-
-selects a subset of an array. For <VAR>array</VAR> of rank n, there must be at least
-n <VAR>selects</VAR> arguments. For 0 &lt;= <I>j</I> &lt; n, <VAR>selects</VAR><I>j</I> is either an integer, a
-list of two integers within the range for the <I>j</I>th index, or #f.
-</P>
-<P>
-
-When <VAR>selects</VAR><I>j</I> is a list of two integers, then the <I>j</I>th index is
-restricted to that subrange in the returned array.
-</P>
-<P>
-
-When <VAR>selects</VAR><I>j</I> is #f, then the full range of the <I>j</I>th index is
-accessible in the returned array. An elided argument is equivalent to #f.
-</P>
-<P>
-
-When <VAR>selects</VAR><I>j</I> is an integer, then the rank of the returned array is
-less than <VAR>array</VAR>, and only elements whose <I>j</I>th index equals <VAR>selects</VAR><I>j</I> are
-shared.
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>&gt; (define ra '#2A((a b c) (d e f)))
-#&lt;unspecified&gt;
-&gt; (subarray ra 0 #f)
-#1A(a b c)
-&gt; (subarray ra 1 #f)
-#1A(d e f)
-&gt; (subarray ra #f 1)
-#1A(b e)
-&gt; (subarray ra '(0 1) #f)
-#2A((a b c) (d e f))
-&gt; (subarray ra #f '(0 1))
-#2A((a b) (d e))
-&gt; (subarray ra #f '(1 2))
-#2A((b c) (e f))
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1133"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>subarray0</B> <I>array select <small>...</small></I>
-<DD><P>
-
-Behaves like subarray, but aligns the returned array origin to
-0 <small>...</small>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1134"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>array-align</B> <I>array coord <small>...</small></I>
-<DD><P>
-
-Returns an array shared with <VAR>array</VAR> but with a different origin. The <VAR>coords</VAR>
-are the exact integer coordinates of the new origin. Indexes
-corresponding to missing or #f coordinates are not realigned.
-</P>
-<P>
-
-For example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define ra2 (create-array '#(5) '(5 9) '(-4 0)))
-(array-shape ra2) => ((5 9) (-4 0))
-(array-shape (array-align ra2 0 0)) => ((0 4) (0 4))
-(array-shape (array-align ra2 0)) => ((0 4) (-4 0))
-(array-shape (array-align ra2)) => ((5 9) (-4 0))
-(array-shape (array-align ra2 0 #f)) => ((0 4) (-4 0))
-(array-shape (array-align ra2 #f 0)) => ((5 9) (0 4))
-</pre></td></tr></table></DL>
-
-<A NAME="IDX1135"></A>
-<DL>
-<DT><U>Function:</U> <B>array-trim</B> <I>array trim <small>...</small></I>
-<DD><P>
-
-Returns a subarray sharing contents with <VAR>array</VAR> except for slices removed
-from either side of each dimension. Each of the <VAR>trims</VAR> is an exact
-integer indicating how much to trim. A positive <VAR>s</VAR> trims the
-data from the lower end and reduces the upper bound of the result; a
-negative <VAR>s</VAR> trims from the upper end and increases the lower
-bound.
-</P>
-<P>
-
-For example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(array-trim '#(0 1 2 3 4) 1) => #1A(1 2 3 4) ;; shape is ((0 3))
-(array-trim '#(0 1 2 3 4) -1) => #1A(0 1 2 3) ;; shape is ((1 4))
-
-(require 'array-for-each)
-(define (centered-difference ra)
- (array-map - (array-trim ra 1) (array-trim ra -1)))
-(define (forward-difference ra)
- (array-map - (array-trim ra 1) ra))
-(define (backward-difference ra)
- (array-map - ra (array-trim ra -1)))
-
-(centered-difference '#(0 1 3 5 9 22))
- => #1A(3 4 6 17) ;;shape is ((1 4))
-(backward-difference '#(0 1 3 5 9 22))
- => #1A(1 2 2 4 13) ;; shape is ((1 5))
-(forward-difference '#(0 1 3 5 9 22))
- => #(1 2 2 4 13) ;; shape is ((0 4))
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="Array Mapping"></A>
-<HR SIZE="6">
-<A NAME="SEC187"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC186"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC188"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC184"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.1.3 Array Mapping </H3>
-<!--docid::SEC187::-->
-<P>
-
-<CODE>(require 'array-for-each)</CODE>
-<A NAME="IDX1136"></A>
-</P>
-<P>
-
-<A NAME="IDX1137"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>array-map!</B> <I>array0 proc array1 <small>...</small></I>
-<DD><P>
-
-<VAR>array1</VAR>, <small>...</small> must have the same number of dimensions as
-<VAR>array0</VAR> and have a range for each index which includes the range
-for the corresponding index in <VAR>array0</VAR>. <VAR>proc</VAR> is applied to
-each tuple of elements of <VAR>array1</VAR> <small>...</small> and the result is stored
-as the corresponding element in <VAR>array0</VAR>. The value returned is
-unspecified. The order of application is unspecified.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1138"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>array-map</B> <I>prototype proc array1 array2 <small>...</small></I>
-<DD><P>
-
-<VAR>array2</VAR>, <small>...</small> must have the same number of dimensions as
-<VAR>array1</VAR> and have a range for each index which includes the
-range for the corresponding index in <VAR>array1</VAR>. <VAR>proc</VAR> is
-applied to each tuple of elements of <VAR>array1</VAR>, <VAR>array2</VAR>,
-<small>...</small> and the result is stored as the corresponding element in a
-new array of type <VAR>prototype</VAR>. The new array is returned. The
-order of application is unspecified.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1139"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>array-for-each</B> <I>proc array0 <small>...</small></I>
-<DD><P>
-
-<VAR>proc</VAR> is applied to each tuple of elements of <VAR>array0</VAR> <small>...</small>
-in row-major order. The value returned is unspecified.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1140"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>array-indexes</B> <I>array</I>
-<DD><P>
-
-Returns an array of lists of indexes for <VAR>array</VAR> such that, if
-<VAR>li</VAR> is a list of indexes for which <VAR>array</VAR> is defined,
-(equal? <VAR>li</VAR> (apply array-ref (array-indexes <VAR>array</VAR>)
-<VAR>li</VAR>)).
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1141"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>array-index-map!</B> <I>array proc</I>
-<DD><P>
-
-applies <VAR>proc</VAR> to the indices of each element of <VAR>array</VAR> in
-turn, storing the result in the corresponding element. The value
-returned and the order of application are unspecified.
-</P>
-<P>
-
-One can implement <VAR>array-indexes</VAR> as
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define (array-indexes array)
- (let ((ra (apply create-array '#() (array-shape array))))
- (array-index-map! ra (lambda x x))
- ra))
-</pre></td></tr></table>Another example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define (apl:index-generator n)
- (let ((v (make-vector n 1)))
- (array-index-map! v (lambda (i) i))
- v))
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1142"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>array-copy!</B> <I>source destination</I>
-<DD><P>
-
-Copies every element from vector or array <VAR>source</VAR> to the
-corresponding element of <VAR>destination</VAR>. <VAR>destination</VAR> must
-have the same rank as <VAR>source</VAR>, and be at least as large in each
-dimension. The order of copying is unspecified.
-</P>
-</DL>
-<P>
-
-<A NAME="Association Lists"></A>
-<HR SIZE="6">
-<A NAME="SEC188"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC187"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC189"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC184"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.1.4 Association Lists </H3>
-<!--docid::SEC188::-->
-<P>
-
-<CODE>(require 'alist)</CODE>
-<A NAME="IDX1143"></A>
-</P>
-<P>
-
-Alist functions provide utilities for treating a list of key-value pairs
-as an associative database. These functions take an equality predicate,
-<VAR>pred</VAR>, as an argument. This predicate should be repeatable,
-symmetric, and transitive.
-</P>
-<P>
-
-Alist functions can be used with a secondary index method such as hash
-tables for improved performance.
-</P>
-<P>
-
-<A NAME="IDX1144"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>predicate-&gt;asso</B> <I>pred</I>
-<DD><P>
-
-Returns an <EM>association function</EM> (like <CODE>assq</CODE>, <CODE>assv</CODE>, or
-<A NAME="IDX1145"></A>
-<CODE>assoc</CODE>) corresponding to <VAR>pred</VAR>. The returned function
-returns a key-value pair whose key is <CODE>pred</CODE>-equal to its first
-argument or <CODE>#f</CODE> if no key in the alist is <VAR>pred</VAR>-equal to the
-first argument.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1146"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>alist-inquirer</B> <I>pred</I>
-<DD><P>
-
-Returns a procedure of 2 arguments, <VAR>alist</VAR> and <VAR>key</VAR>, which
-returns the value associated with <VAR>key</VAR> in <VAR>alist</VAR> or <CODE>#f</CODE> if
-<VAR>key</VAR> does not appear in <VAR>alist</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1147"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>alist-associator</B> <I>pred</I>
-<DD><P>
-
-Returns a procedure of 3 arguments, <VAR>alist</VAR>, <VAR>key</VAR>, and
-<VAR>value</VAR>, which returns an alist with <VAR>key</VAR> and <VAR>value</VAR>
-associated. Any previous value associated with <VAR>key</VAR> will be
-lost. This returned procedure may or may not have side effects on its
-<VAR>alist</VAR> argument. An example of correct usage is:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define put (alist-associator string-ci=?))
-(define alist '())
-(set! alist (put alist &quot;Foo&quot; 9))
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1148"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>alist-remover</B> <I>pred</I>
-<DD><P>
-
-Returns a procedure of 2 arguments, <VAR>alist</VAR> and <VAR>key</VAR>, which
-returns an alist with an association whose <VAR>key</VAR> is key removed.
-This returned procedure may or may not have side effects on its
-<VAR>alist</VAR> argument. An example of correct usage is:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define rem (alist-remover string-ci=?))
-(set! alist (rem alist &quot;foo&quot;))
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1149"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>alist-map</B> <I>proc alist</I>
-<DD><P>
-
-Returns a new association list formed by mapping <VAR>proc</VAR> over the
-keys and values of <VAR>alist</VAR>. <VAR>proc</VAR> must be a function of 2
-arguments which returns the new value part.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1150"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>alist-for-each</B> <I>proc alist</I>
-<DD><P>
-
-Applies <VAR>proc</VAR> to each pair of keys and values of <VAR>alist</VAR>.
-<VAR>proc</VAR> must be a function of 2 arguments. The returned value is
-unspecified.
-</P>
-</DL>
-<P>
-
-<A NAME="Byte"></A>
-<HR SIZE="6">
-<A NAME="SEC189"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC188"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC190"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC184"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.1.5 Byte </H3>
-<!--docid::SEC189::-->
-<P>
-
-<CODE>(require 'byte)</CODE>
-<A NAME="IDX1151"></A>
-</P>
-<P>
-
-Some algorithms are expressed in terms of arrays of small integers.
-Using Scheme strings to implement these arrays is not portable vis-a-vis
-the correspondence between integers and characters and non-ascii
-character sets. These functions abstract the notion of a <EM>byte</EM>.
-<A NAME="IDX1152"></A>
-<A NAME="IDX1153"></A>
-</P>
-<P>
-
-<A NAME="IDX1154"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>byte-ref</B> <I>bytes k</I>
-<DD><P>
-
-<VAR>k</VAR> must be a valid index of <VAR>bytes</VAR>. <CODE>byte-ref</CODE> returns byte <VAR>k</VAR> of <VAR>bytes</VAR> using
-zero-origin indexing.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1155"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>byte-set!</B> <I>bytes k byte</I>
-<DD><P>
-
-<VAR>k</VAR> must be a valid index of <VAR>bytes</VAR>, and <VAR>byte</VAR> must be a small
-nonnegative integer. <CODE>byte-set!</CODE> stores <VAR>byte</VAR> in element <VAR>k</VAR> of <VAR>bytes</VAR> and
-returns an unspecified value.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1156"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>make-bytes</B> <I>k byte</I>
-<DD><P>
-
-<A NAME="IDX1157"></A>
-<DT><U>Function:</U> <B>make-bytes</B> <I>k</I>
-<DD><CODE>make-bytes</CODE> returns a newly allocated byte-array of length <VAR>k</VAR>. If <VAR>byte</VAR> is
-given, then all elements of the byte-array are initialized to <VAR>byte</VAR>,
-otherwise the contents of the byte-array are unspecified.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1158"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>bytes-length</B> <I>bytes</I>
-<DD><P>
-
-<CODE>bytes-length</CODE> returns length of byte-array <VAR>bytes</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1159"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>bytes</B> <I>byte <small>...</small></I>
-<DD><P>
-
-Returns a newly allocated byte-array composed of the small
-nonnegative arguments.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1160"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>bytes-&gt;list</B> <I>bytes</I>
-<DD><P>
-
-<CODE>bytes-&gt;list</CODE> returns a newly allocated list of the bytes that make up the
-given byte-array.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1161"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>list-&gt;bytes</B> <I>bytes</I>
-<DD><P>
-
-<CODE>list-&gt;bytes</CODE> returns a newly allocated byte-array formed from the small
-nonnegative integers in the list <VAR>bytes</VAR>.
-</P>
-</DL>
-<CODE>Bytes-&gt;list</CODE> and <CODE>list-&gt;bytes</CODE> are inverses so far as
-<CODE>equal?</CODE> is concerned.
-<A NAME="IDX1162"></A>
-<P>
-
-<A NAME="IDX1163"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>bytes-copy</B> <I>bytes</I>
-<DD><P>
-
-Returns a newly allocated copy of the given <VAR>bytes</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1164"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>bytes-reverse!</B> <I>bytes</I>
-<DD><P>
-
-Reverses the order of byte-array <VAR>bytes</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1165"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>bytes-reverse</B> <I>bytes</I>
-<DD><P>
-
-Returns a newly allocated bytes-array consisting of the elements of
-<VAR>bytes</VAR> in reverse order.
-</P>
-</DL>
-<A NAME="IDX1166"></A>
-Input and output of bytes should be with ports opened in <EM>binary</EM>
-<A NAME="IDX1167"></A>
-mode (see section <A HREF="slib_2.html#SEC16">2.3 Input/Output</A>). Calling <CODE>open-file</CODE> with 'rb or
-<A NAME="IDX1168"></A>
-'wb modes argument will return a binary port if the Scheme
-implementation supports it.
-<P>
-
-<A NAME="IDX1169"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>write-byte</B> <I>byte port</I>
-<DD><P>
-
-<A NAME="IDX1170"></A>
-<DT><U>Function:</U> <B>write-byte</B> <I>byte</I>
-<DD>Writes the byte <VAR>byte</VAR> (not an external representation of the byte) to
-the given <VAR>port</VAR> and returns an unspecified value. The <VAR>port</VAR> argument may
-be omitted, in which case it defaults to the value returned by
-<CODE>current-output-port</CODE>.
-<A NAME="IDX1171"></A>
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1172"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>read-byte</B> <I>port</I>
-<DD><P>
-
-<A NAME="IDX1173"></A>
-<DT><U>Function:</U> <B>read-byte</B>
-<DD>Returns the next byte available from the input <VAR>port</VAR>, updating the <VAR>port</VAR>
-to point to the following byte. If no more bytes are available, an
-end-of-file object is returned. <VAR>port</VAR> may be omitted, in which case it
-defaults to the value returned by <CODE>current-input-port</CODE>.
-<A NAME="IDX1174"></A>
-</P>
-</DL>
-When reading and writing binary numbers with <CODE>read-bytes</CODE> and
-<CODE>write-bytes</CODE>, the sign of the length argument determines the
-endianness (order) of bytes. Positive treats them as big-endian,
-the first byte input or output is highest order. Negative treats
-them as little-endian, the first byte input or output is the lowest
-order.
-<P>
-
-Once read in, SLIB treats byte sequences as big-endian. The
-multi-byte sequences produced and used by number conversion routines
-see section <A HREF="slib_7.html#SEC190">7.1.6 Byte/Number Conversions</A> are always big-endian.
-</P>
-<P>
-
-<A NAME="IDX1175"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>read-bytes</B> <I>n port</I>
-<DD><P>
-
-<A NAME="IDX1176"></A>
-<DT><U>Function:</U> <B>read-bytes</B> <I>n</I>
-<DD><CODE>read-bytes</CODE> returns a newly allocated bytes-array filled with
-<CODE>(abs <VAR>n</VAR>)</CODE> bytes read from <VAR>port</VAR>. If <VAR>n</VAR> is positive, then
-the first byte read is stored at index 0; otherwise the last byte
-read is stored at index 0. Note that the length of the returned
-string will be less than <CODE>(abs <VAR>n</VAR>)</CODE> if <VAR>port</VAR> reaches
-end-of-file.
-</P>
-<P>
-
-<VAR>port</VAR> may be omitted, in which case it defaults to the value returned
-by <CODE>current-input-port</CODE>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1177"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>write-bytes</B> <I>bytes n port</I>
-<DD><P>
-
-<A NAME="IDX1178"></A>
-<DT><U>Function:</U> <B>write-bytes</B> <I>bytes n</I>
-<DD><CODE>write-bytes</CODE> writes <CODE>(abs <VAR>n</VAR>)</CODE> bytes to output-port <VAR>port</VAR>. If <VAR>n</VAR> is
-positive, then the first byte written is index 0 of <VAR>bytes</VAR>; otherwise
-the last byte written is index 0 of <VAR>bytes</VAR>. <CODE>write-bytes</CODE> returns an unspecified
-value.
-</P>
-<P>
-
-<VAR>port</VAR> may be omitted, in which case it defaults to the value returned
-by <CODE>current-output-port</CODE>.
-</P>
-</DL>
-<CODE>substring-read!</CODE> and <CODE>substring-write</CODE> provide
-lower-level procedures for reading and writing blocks of bytes. The
-relative size of <VAR>start</VAR> and <VAR>end</VAR> determines the order of
-writing.
-<P>
-
-<A NAME="IDX1179"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>substring-read!</B> <I>string start end port</I>
-<DD><P>
-
-<A NAME="IDX1180"></A>
-<DT><U>Procedure:</U> <B>substring-read!</B> <I>string start end</I>
-<DD>Fills <VAR>string</VAR> with up to <CODE>(abs (- <VAR>start</VAR> <VAR>end</VAR>))</CODE> bytes
-read from <VAR>port</VAR>. The first byte read is stored at index <VAR>string</VAR>.
-<CODE>substring-read!</CODE> returns the number of bytes read.
-</P>
-<P>
-
-<VAR>port</VAR> may be omitted, in which case it defaults to the value returned
-by <CODE>current-input-port</CODE>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1181"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>substring-write</B> <I>string start end port</I>
-<DD><P>
-
-<A NAME="IDX1182"></A>
-<DT><U>Function:</U> <B>substring-write</B> <I>string start end</I>
-<DD><CODE>substring-write</CODE> writes <CODE>(abs (- <VAR>start</VAR> <VAR>end</VAR>))</CODE> bytes to
-output-port <VAR>port</VAR>. The first byte written is index <VAR>start</VAR> of <VAR>string</VAR>. <CODE>substring-write</CODE>
-returns the number of bytes written.
-</P>
-<P>
-
-<VAR>port</VAR> may be omitted, in which case it defaults to the value returned
-by <CODE>current-output-port</CODE>.
-</P>
-</DL>
-<P>
-
-<A NAME="Byte/Number Conversions"></A>
-<HR SIZE="6">
-<A NAME="SEC190"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC189"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC192"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC184"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.1.6 Byte/Number Conversions </H3>
-<!--docid::SEC190::-->
-<P>
-
-<CODE>(require 'byte-number)</CODE>
-<A NAME="IDX1183"></A>
-</P>
-<P>
-
-The multi-byte sequences produced and used by numeric conversion
-routines are always big-endian. Endianness can be changed during
-reading and writing bytes using <CODE>read-bytes</CODE> and
-<CODE>write-bytes</CODE> See section <A HREF="slib_7.html#SEC189">read-bytes</A>.
-</P>
-<P>
-
-The sign of the length argument to bytes/integer conversion
-procedures determines the signedness of the number.
-</P>
-<P>
-
-<A NAME="IDX1184"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>bytes-&gt;integer</B> <I>bytes n</I>
-<DD><P>
-
-Converts the first <CODE>(abs <VAR>n</VAR>)</CODE> bytes of big-endian <VAR>bytes</VAR> array
-to an integer. If <VAR>n</VAR> is negative then the integer coded by the
-bytes are treated as two's-complement (can be negative).
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(bytes-&gt;integer (bytes 0 0 0 15) -4) => 15
-(bytes-&gt;integer (bytes 0 0 0 15) 4) => 15
-(bytes-&gt;integer (bytes 255 255 255 255) -4) => -1
-(bytes-&gt;integer (bytes 255 255 255 255) 4) => 4294967295
-(bytes-&gt;integer (bytes 128 0 0 0) -4) => -2147483648
-(bytes-&gt;integer (bytes 128 0 0 0) 4) => 2147483648
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1185"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>integer-&gt;bytes</B> <I>n len</I>
-<DD><P>
-
-Converts the integer <VAR>n</VAR> to a byte-array of <CODE>(abs <VAR>n</VAR>)</CODE>
-bytes. If <VAR>n</VAR> and <VAR>len</VAR> are both negative, then the bytes in the
-returned array are coded two's-complement.
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(bytes-&gt;list (integer-&gt;bytes 15 -4)) => (0 0 0 15)
-(bytes-&gt;list (integer-&gt;bytes 15 4)) => (0 0 0 15)
-(bytes-&gt;list (integer-&gt;bytes -1 -4)) => (255 255 255 255)
-(bytes-&gt;list (integer-&gt;bytes 4294967295 4)) => (255 255 255 255)
-(bytes-&gt;list (integer-&gt;bytes -2147483648 -4)) => (128 0 0 0)
-(bytes-&gt;list (integer-&gt;bytes 2147483648 4)) => (128 0 0 0)
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1186"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>bytes-&gt;ieee-float</B> <I>bytes</I>
-<DD><P>
-
-<VAR>bytes</VAR> must be a 4-element byte-array. <CODE>bytes-&gt;ieee-float</CODE> calculates and returns the
-value of <VAR>bytes</VAR> interpreted as a big-endian IEEE 4-byte (32-bit) number.
-</P>
-</DL>
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(bytes-&gt;ieee-float (bytes #x40 0 0 0)) => 2.0
-(bytes-&gt;ieee-float (bytes #x40 #xd0 0 0)) => 6.5
-(bytes-&gt;ieee-float (bytes #xc0 #xd0 0 0)) => -6.5
-
-(bytes-&gt;ieee-float (bytes 0 #x80 0 0)) => 11.754943508222875e-39
-(bytes-&gt;ieee-float (bytes 0 #x40 0 0)) => 5.877471754111437e-39
-(bytes-&gt;ieee-float (bytes 0 0 0 1)) => 1.401298464324817e-45
-
-(bytes-&gt;ieee-float (bytes #xff #x80 0 0)) => -1/0
-(bytes-&gt;ieee-float (bytes #x7f #x80 0 0)) => 1/0
-(bytes-&gt;ieee-float (bytes #x7f #x80 0 1)) => 0/0
-</pre></td></tr></table><P>
-
-<A NAME="IDX1187"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>bytes-&gt;ieee-double</B> <I>bytes</I>
-<DD><P>
-
-<VAR>bytes</VAR> must be a 8-element byte-array. <CODE>bytes-&gt;ieee-double</CODE> calculates and returns the
-value of <VAR>bytes</VAR> interpreted as a big-endian IEEE 8-byte (64-bit) number.
-</P>
-</DL>
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(bytes-&gt;ieee-double (bytes 0 0 0 0 0 0 0 0)) => 0.0
-(bytes-&gt;ieee-double (bytes #x40 0 0 0 0 0 0 0)) => 2
-(bytes-&gt;ieee-double (bytes #x40 #x1A 0 0 0 0 0 0)) => 6.5
-(bytes-&gt;ieee-double (bytes #xC0 #x1A 0 0 0 0 0 0)) => -6.5
-
-(bytes-&gt;ieee-double (bytes 0 8 0 0 0 0 0 0)) => 11.125369292536006e-309
-(bytes-&gt;ieee-double (bytes 0 4 0 0 0 0 0 0)) => 5.562684646268003e-309
-(bytes-&gt;ieee-double (bytes 0 0 0 0 0 0 0 1)) => 4.0e-324
-
-(bytes-&gt;ieee-double (bytes #xFF #xF0 0 0 0 0 0 0)) => -1/0
-(bytes-&gt;ieee-double (bytes #x7F #xF0 0 0 0 0 0 0)) => 1/0
-(bytes-&gt;ieee-double (bytes #x7F #xF8 0 0 0 0 0 0)) => 0/0
-</pre></td></tr></table><P>
-
-<A NAME="IDX1188"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>ieee-float-&gt;bytes</B> <I>x</I>
-<DD><P>
-
-Returns a 4-element byte-array encoding the IEEE single-precision
-floating-point of <VAR>x</VAR>.
-</P>
-</DL>
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(bytes-&gt;list (ieee-float-&gt;bytes 2.0)) => (64 0 0 0)
-(bytes-&gt;list (ieee-float-&gt;bytes 6.5)) => (64 208 0 0)
-(bytes-&gt;list (ieee-float-&gt;bytes -6.5)) => (192 208 0 0)
-
-(bytes-&gt;list (ieee-float-&gt;bytes 11.754943508222875e-39)) => ( 0 128 0 0)
-(bytes-&gt;list (ieee-float-&gt;bytes 5.877471754111438e-39)) => ( 0 64 0 0)
-(bytes-&gt;list (ieee-float-&gt;bytes 1.401298464324817e-45)) => ( 0 0 0 1)
-
-(bytes-&gt;list (ieee-float-&gt;bytes -1/0)) => (255 128 0 0)
-(bytes-&gt;list (ieee-float-&gt;bytes 1/0)) => (127 128 0 0)
-(bytes-&gt;list (ieee-float-&gt;bytes 0/0)) => (127 128 0 1)
-</pre></td></tr></table><P>
-
-<A NAME="IDX1189"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>ieee-double-&gt;bytes</B> <I>x</I>
-<DD><P>
-
-Returns a 8-element byte-array encoding the IEEE double-precision
-floating-point of <VAR>x</VAR>.
-</P>
-</DL>
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(bytes-&gt;list (ieee-double-&gt;bytes 2.0)) => (64 0 0 0 0 0 0 0)
-(bytes-&gt;list (ieee-double-&gt;bytes 6.5)) => (64 26 0 0 0 0 0 0)
-(bytes-&gt;list (ieee-double-&gt;bytes -6.5)) => (192 26 0 0 0 0 0 0)
-
-(bytes-&gt;list (ieee-double-&gt;bytes 11.125369292536006e-309))
- => ( 0 8 0 0 0 0 0 0)
-(bytes-&gt;list (ieee-double-&gt;bytes 5.562684646268003e-309))
- => ( 0 4 0 0 0 0 0 0)
-(bytes-&gt;list (ieee-double-&gt;bytes 4.0e-324))
- => ( 0 0 0 0 0 0 0 1)
-
-(bytes-&gt;list (ieee-double-&gt;bytes -1/0)) => (255 240 0 0 0 0 0 0)
-(bytes-&gt;list (ieee-double-&gt;bytes 1/0)) => (127 240 0 0 0 0 0 0)
-(bytes-&gt;list (ieee-double-&gt;bytes 0/0)) => (127 248 0 0 0 0 0 0)
-</pre></td></tr></table><P>
-
-<A NAME="SEC191"></A>
-<H4> Byte Collation Order </H4>
-<!--docid::SEC191::-->
-<P>
-
-The <CODE>string&lt;?</CODE> ordering of big-endian byte-array
-representations of fixed and IEEE floating-point numbers agrees with
-the numerical ordering only when those numbers are non-negative.
-</P>
-<P>
-
-Straighforward modification of these formats can extend the
-byte-collating order to work for their entire ranges. This
-agreement enables the full range of numbers as keys in
-<EM>indexed-sequential-access-method</EM> databases.
-<A NAME="IDX1190"></A>
-</P>
-<P>
-
-<A NAME="IDX1191"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>integer-byte-collate!</B> <I>byte-vector</I>
-<DD><P>
-
-Modifies sign bit of <VAR>byte-vector</VAR> so that <CODE>string&lt;?</CODE> ordering of
-two's-complement byte-vectors matches numerical order. <CODE>integer-byte-collate!</CODE> returns
-<VAR>byte-vector</VAR> and is its own functional inverse.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1192"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>integer-byte-collate</B> <I>byte-vector</I>
-<DD><P>
-
-Returns copy of <VAR>byte-vector</VAR> with sign bit modified so that <CODE>string&lt;?</CODE>
-ordering of two's-complement byte-vectors matches numerical order.
-<CODE>integer-byte-collate</CODE> is its own functional inverse.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1193"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>ieee-byte-collate!</B> <I>byte-vector</I>
-<DD><P>
-
-Modifies <VAR>byte-vector</VAR> so that <CODE>string&lt;?</CODE> ordering of IEEE floating-point
-byte-vectors matches numerical order. <CODE>ieee-byte-collate!</CODE> returns <VAR>byte-vector</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1194"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>ieee-byte-decollate!</B> <I>byte-vector</I>
-<DD><P>
-
-Given <VAR>byte-vector</VAR> modified by <CODE>IEEE-byte-collate!</CODE>, reverses the <VAR>byte-vector</VAR>
-modifications.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1195"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>ieee-byte-collate</B> <I>byte-vector</I>
-<DD><P>
-
-Returns copy of <VAR>byte-vector</VAR> encoded so that <CODE>string&lt;?</CODE> ordering of IEEE
-floating-point byte-vectors matches numerical order.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1196"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>ieee-byte-decollate</B> <I>byte-vector</I>
-<DD><P>
-
-Given <VAR>byte-vector</VAR> returned by <CODE>IEEE-byte-collate</CODE>, reverses the <VAR>byte-vector</VAR>
-modifications.
-</P>
-</DL>
-<P>
-
-<A NAME="MAT-File Format"></A>
-<HR SIZE="6">
-<A NAME="SEC192"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC190"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC193"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC184"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.1.7 MAT-File Format </H3>
-<!--docid::SEC192::-->
-<P>
-
-<CODE>(require 'matfile)</CODE>
-<A NAME="IDX1197"></A>
-<A NAME="IDX1198"></A>
-</P>
-<P>
-
-<A HREF="http://www.mathworks.com/access/helpdesk/help/pdf_doc/matlab/matfile_format.pdf">http://www.mathworks.com/access/helpdesk/help/pdf_doc/matlab/matfile_format.pdf</A>
-</P>
-<P>
-
-This package reads MAT-File Format version 4 (MATLAB) binary data
-files. MAT-files written from big-endian or little-endian computers
-having IEEE format numbers are currently supported. Support for files
-written from VAX or Cray machines could also be added.
-</P>
-<P>
-
-The numeric and text matrix types handled; support for <EM>sparse</EM>
-<A NAME="IDX1199"></A>
-matrices awaits a sample file.
-</P>
-<P>
-
-<A NAME="IDX1200"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>matfile:read</B> <I>filename</I>
-<DD><VAR>filename</VAR> should be a string naming an existing file containing a
-MATLAB Version 4 MAT-File. The <CODE>matfile:read</CODE> procedure reads matrices from the
-file and returns a list of the results; a list of the name string and
-array for each matrix.
-</DL>
-<P>
-
-<A NAME="IDX1201"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>matfile:load</B> <I>filename</I>
-<DD><VAR>filename</VAR> should be a string naming an existing file containing a
-MATLAB Version 4 MAT-File. The <CODE>matfile:load</CODE> procedure reads matrices from the
-file and defines the <CODE>string-ci-&gt;symbol</CODE> for each matrix to its
-corresponding array. <CODE>matfile:load</CODE> returns a list of the symbols defined.
-</DL>
-<P>
-
-<A NAME="Portable Image Files"></A>
-<HR SIZE="6">
-<A NAME="SEC193"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC192"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC194"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC184"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.1.8 Portable Image Files </H3>
-<!--docid::SEC193::-->
-<P>
-
-<CODE>(require 'pnm)</CODE>
-<A NAME="IDX1202"></A>
-</P>
-<P>
-
-<A NAME="IDX1203"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>pnm:type-dimensions</B> <I>path</I>
-<DD><P>
-
-The string <VAR>path</VAR> must name a <EM>portable bitmap graphics</EM> file.
-<A NAME="IDX1204"></A>
-<CODE>pnm:type-dimensions</CODE> returns a list of 4 items:
-<OL>
-<LI>
-A symbol describing the type of the file named by <VAR>path</VAR>.
-<LI>
-The image width in pixels.
-<LI>
-The image height in pixels.
-<LI>
-The maximum value of pixels assume in the file.
-</OL>
-<P>
-
-The current set of file-type symbols is:
-</P>
-<DL COMPACT>
-<DT>pbm
-<DD><DT>pbm-raw
-<DD><A NAME="IDX1205"></A>
-<A NAME="IDX1206"></A>
-Black-and-White image; pixel values are 0 or 1.
-<DT>pgm
-<DD><DT>pgm-raw
-<DD><A NAME="IDX1207"></A>
-<A NAME="IDX1208"></A>
-Gray (monochrome) image; pixel values are from 0 to <VAR>maxval</VAR>
-specified in file header.
-<DT>ppm
-<DD><DT>ppm-raw
-<DD><A NAME="IDX1209"></A>
-<A NAME="IDX1210"></A>
-RGB (full color) image; red, green, and blue interleaved pixel values
-are from 0 to <VAR>maxval</VAR>
-</DL>
-</DL>
-<P>
-
-<A NAME="IDX1211"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>pnm:image-file-&gt;array</B> <I>path array</I>
-<DD><P>
-
-Reads the <EM>portable bitmap graphics</EM> file named by <VAR>path</VAR> into
-<A NAME="IDX1212"></A>
-<VAR>array</VAR>. <VAR>array</VAR> must be the correct size and type for
-<VAR>path</VAR>. <VAR>array</VAR> is returned.
-</P>
-<P>
-
-<A NAME="IDX1213"></A>
-<DT><U>Function:</U> <B>pnm:image-file-&gt;array</B> <I>path</I>
-<DD></P>
-<P>
-
-<CODE>pnm:image-file-&gt;array</CODE> creates and returns an array with the
-<EM>portable bitmap graphics</EM> file named by <VAR>path</VAR> read into it.
-<A NAME="IDX1214"></A>
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1215"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>pnm:array-write</B> <I>type array maxval path comment <small>...</small></I>
-<DD><P>
-
-Writes the contents of <VAR>array</VAR> to a <VAR>type</VAR> image file named <VAR>path</VAR>. The file
-will have pixel values between 0 and <VAR>maxval</VAR>, which must be compatible
-with <VAR>type</VAR>. For `<SAMP>pbm</SAMP>' files, <VAR>maxval</VAR> must be `<SAMP>1</SAMP>'.
-<VAR>comment</VAR>s are included in the file header.
-</P>
-</DL>
-<P>
-
-<A NAME="Collections"></A>
-<HR SIZE="6">
-<A NAME="SEC194"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC193"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC195"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC184"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.1.9 Collections </H3>
-<!--docid::SEC194::-->
-<P>
-
-<CODE>(require 'collect)</CODE>
-<A NAME="IDX1216"></A>
-</P>
-<P>
-
-Routines for managing collections. Collections are aggregate data
-structures supporting iteration over their elements, similar to the
-Dylan(TM) language, but with a different interface. They have
-<EM>elements</EM> indexed by corresponding <EM>keys</EM>, although the keys
-may be implicit (as with lists).
-</P>
-<P>
-
-New types of collections may be defined as YASOS objects (see section <A HREF="slib_3.html#SEC40">3.8 Yasos</A>).
-They must support the following operations:
-</P>
-<P>
-
-<UL>
-<LI>
-<CODE>(collection? <VAR>self</VAR>)</CODE> (always returns <CODE>#t</CODE>);
-<P>
-
-</P>
-<LI>
-<CODE>(size <VAR>self</VAR>)</CODE> returns the number of elements in the collection;
-<P>
-
-</P>
-<LI>
-<CODE>(print <VAR>self</VAR> <VAR>port</VAR>)</CODE> is a specialized print operation
-for the collection which prints a suitable representation on the given
-<VAR>port</VAR> or returns it as a string if <VAR>port</VAR> is <CODE>#t</CODE>;
-<P>
-
-</P>
-<LI>
-<A NAME="IDX1217"></A>
-<CODE>(gen-elts <VAR>self</VAR>)</CODE> returns a thunk which on successive
-invocations yields elements of <VAR>self</VAR> in order or gives an error if
-it is invoked more than <CODE>(size <VAR>self</VAR>)</CODE> times;
-<P>
-
-</P>
-<LI>
-<A NAME="IDX1218"></A>
-<CODE>(gen-keys <VAR>self</VAR>)</CODE> is like <CODE>gen-elts</CODE>, but yields the
-collection's keys in order.
-</UL>
-<P>
-
-They might support specialized <CODE>for-each-key</CODE> and
-<CODE>for-each-elt</CODE> operations.
-</P>
-<P>
-
-<A NAME="IDX1219"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>collection?</B> <I>obj</I>
-<DD>A predicate, true initially of lists, vectors and strings. New sorts of
-collections must answer <CODE>#t</CODE> to <CODE>collection?</CODE>.
-</DL>
-<P>
-
-<A NAME="IDX1220"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>map-elts</B> <I>proc collection1 <small>...</small></I>
-<DD><A NAME="IDX1221"></A>
-<DT><U>Procedure:</U> <B>do-elts</B> <I>proc collection1 <small>...</small></I>
-<DD><VAR>proc</VAR> is a procedure taking as many arguments as there are
-<VAR>collections</VAR> (at least one). The <VAR>collections</VAR> are iterated
-over in their natural order and <VAR>proc</VAR> is applied to the elements
-yielded by each iteration in turn. The order in which the arguments are
-supplied corresponds to te order in which the <VAR>collections</VAR> appear.
-<CODE>do-elts</CODE> is used when only side-effects of <VAR>proc</VAR> are of
-interest and its return value is unspecified. <CODE>map-elts</CODE> returns a
-collection (actually a vector) of the results of the applications of
-<VAR>proc</VAR>.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(map-elts + (list 1 2 3) (vector 1 2 3))
- => #(2 4 6)
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1222"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>map-keys</B> <I>proc collection1 <small>...</small></I>
-<DD><A NAME="IDX1223"></A>
-<DT><U>Procedure:</U> <B>do-keys</B> <I>proc collection1 <small>...</small></I>
-<DD>These are analogous to <CODE>map-elts</CODE> and <CODE>do-elts</CODE>, but each
-iteration is over the <VAR>collections</VAR>' <EM>keys</EM> rather than their
-elements.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(map-keys + (list 1 2 3) (vector 1 2 3))
- => #(0 2 4)
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1224"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>for-each-key</B> <I>collection proc</I>
-<DD><A NAME="IDX1225"></A>
-<DT><U>Procedure:</U> <B>for-each-elt</B> <I>collection proc</I>
-<DD>These are like <CODE>do-keys</CODE> and <CODE>do-elts</CODE> but only for a single
-collection; they are potentially more efficient.
-</DL>
-<P>
-
-<A NAME="IDX1226"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>reduce</B> <I>proc seed collection1 <small>...</small></I>
-<DD>A generalization of the list-based <CODE>reduce-init</CODE>
-(see section <A HREF="slib_7.html#SEC211">7.2.1.3 Lists as sequences</A>) to collections which will shadow the
-list-based version if <CODE>(require 'collect)</CODE> follows
-<A NAME="IDX1227"></A>
-<CODE>(require 'common-list-functions)</CODE> (see section <A HREF="slib_7.html#SEC208">7.2.1 Common List Functions</A>).
-<A NAME="IDX1228"></A>
-<P>
-
-Examples:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(reduce + 0 (vector 1 2 3))
- => 6
-(reduce union '() '((a b c) (b c d) (d a)))
- => (c b d a).
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1229"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>any?</B> <I>pred collection1 <small>...</small></I>
-<DD>A generalization of the list-based <CODE>some</CODE> (see section <A HREF="slib_7.html#SEC211">7.2.1.3 Lists as sequences</A>) to collections.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(any? odd? (list 2 3 4 5))
- => #t
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1230"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>every?</B> <I>pred collection1 <small>...</small></I>
-<DD>A generalization of the list-based <CODE>every</CODE>
-(see section <A HREF="slib_7.html#SEC211">7.2.1.3 Lists as sequences</A>) to collections.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(every? collection? '((1 2) #(1 2)))
- => #t
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1231"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>empty?</B> <I>collection</I>
-<DD>Returns <CODE>#t</CODE> iff there are no elements in <VAR>collection</VAR>.
-<P>
-
-<CODE>(empty? <VAR>collection</VAR>) == (zero? (size <VAR>collection</VAR>))</CODE>
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1232"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>size</B> <I>collection</I>
-<DD>Returns the number of elements in <VAR>collection</VAR>.
-</DL>
-<P>
-
-<A NAME="IDX1233"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>Setter</B> <I>list-ref</I>
-<DD>See <A HREF="slib_3.html#SEC43">3.8.3 Setters</A> for a definition of <EM>setter</EM>. N.B.
-<CODE>(setter list-ref)</CODE> doesn't work properly for element 0 of a
-list.
-</DL>
-<P>
-
-Here is a sample collection: <CODE>simple-table</CODE> which is also a
-<CODE>table</CODE>.
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define-predicate TABLE?)
-(define-operation (LOOKUP table key failure-object))
-(define-operation (ASSOCIATE! table key value)) ;; returns key
-(define-operation (REMOVE! table key)) ;; returns value
-
-(define (MAKE-SIMPLE-TABLE)
- (let ( (table (list)) )
- (object
- ;; table behaviors
- ((TABLE? self) #t)
- ((SIZE self) (size table))
- ((PRINT self port) (format port &quot;#&lt;SIMPLE-TABLE&gt;&quot;))
- ((LOOKUP self key failure-object)
- (cond
- ((assq key table) =&gt; cdr)
- (else failure-object)
- ))
- ((ASSOCIATE! self key value)
- (cond
- ((assq key table)
- =&gt; (lambda (bucket) (set-cdr! bucket value) key))
- (else
- (set! table (cons (cons key value) table))
- key)
- ))
- ((REMOVE! self key);; returns old value
- (cond
- ((null? table) (slib:error &quot;TABLE:REMOVE! Key not found: &quot; key))
- ((eq? key (caar table))
- (let ( (value (cdar table)) )
- (set! table (cdr table))
- value)
- )
- (else
- (let loop ( (last table) (this (cdr table)) )
- (cond
- ((null? this)
- (slib:error &quot;TABLE:REMOVE! Key not found: &quot; key))
- ((eq? key (caar this))
- (let ( (value (cdar this)) )
- (set-cdr! last (cdr this))
- value)
- )
- (else
- (loop (cdr last) (cdr this)))
- ) ) )
- ))
- ;; collection behaviors
- ((COLLECTION? self) #t)
- ((GEN-KEYS self) (collect:list-gen-elts (map car table)))
- ((GEN-ELTS self) (collect:list-gen-elts (map cdr table)))
- ((FOR-EACH-KEY self proc)
- (for-each (lambda (bucket) (proc (car bucket))) table)
- )
- ((FOR-EACH-ELT self proc)
- (for-each (lambda (bucket) (proc (cdr bucket))) table)
- ) ) ) )
-</pre></td></tr></table><P>
-
-<A NAME="Dynamic Data Type"></A>
-<HR SIZE="6">
-<A NAME="SEC195"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC194"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC196"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC184"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.1.10 Dynamic Data Type </H3>
-<!--docid::SEC195::-->
-<P>
-
-<CODE>(require 'dynamic)</CODE>
-<A NAME="IDX1234"></A>
-</P>
-<P>
-
-<A NAME="IDX1235"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>make-dynamic</B> <I>obj</I>
-<DD>Create and returns a new <EM>dynamic</EM> whose global value is <VAR>obj</VAR>.
-</DL>
-<P>
-
-<A NAME="IDX1236"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>dynamic?</B> <I>obj</I>
-<DD>Returns true if and only if <VAR>obj</VAR> is a dynamic. No object
-satisfying <CODE>dynamic?</CODE> satisfies any of the other standard type
-predicates.
-</DL>
-<P>
-
-<A NAME="IDX1237"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>dynamic-ref</B> <I>dyn</I>
-<DD>Return the value of the given dynamic in the current dynamic
-environment.
-</DL>
-<P>
-
-<A NAME="IDX1238"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>dynamic-set!</B> <I>dyn obj</I>
-<DD>Change the value of the given dynamic to <VAR>obj</VAR> in the current
-dynamic environment. The returned value is unspecified.
-</DL>
-<P>
-
-<A NAME="IDX1239"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>call-with-dynamic-binding</B> <I>dyn obj thunk</I>
-<DD>Invoke and return the value of the given thunk in a new, nested dynamic
-environment in which the given dynamic has been bound to a new location
-whose initial contents are the value <VAR>obj</VAR>. This dynamic
-environment has precisely the same extent as the invocation of the thunk
-and is thus captured by continuations created within that invocation and
-re-established by those continuations when they are invoked.
-</DL>
-<P>
-
-The <CODE>dynamic-bind</CODE> macro is not implemented.
-</P>
-<P>
-
-<A NAME="Hash Tables"></A>
-<HR SIZE="6">
-<A NAME="SEC196"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC195"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC197"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC184"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.1.11 Hash Tables </H3>
-<!--docid::SEC196::-->
-<P>
-
-<CODE>(require 'hash-table)</CODE>
-<A NAME="IDX1240"></A>
-</P>
-<P>
-
-<A NAME="IDX1241"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>predicate-&gt;hash</B> <I>pred</I>
-<DD><P>
-
-Returns a hash function (like <CODE>hashq</CODE>, <CODE>hashv</CODE>, or
-<CODE>hash</CODE>) corresponding to the equality predicate <VAR>pred</VAR>.
-<VAR>pred</VAR> should be <CODE>eq?</CODE>, <CODE>eqv?</CODE>, <CODE>equal?</CODE>, <CODE>=</CODE>,
-<CODE>char=?</CODE>, <CODE>char-ci=?</CODE>, <CODE>string=?</CODE>, or
-<CODE>string-ci=?</CODE>.
-</P>
-</DL>
-A hash table is a vector of association lists.
-<P>
-
-<A NAME="IDX1242"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>make-hash-table</B> <I>k</I>
-<DD><P>
-
-Returns a vector of <VAR>k</VAR> empty (association) lists.
-</P>
-</DL>
-Hash table functions provide utilities for an associative database.
-These functions take an equality predicate, <VAR>pred</VAR>, as an argument.
-<VAR>pred</VAR> should be <CODE>eq?</CODE>, <CODE>eqv?</CODE>, <CODE>equal?</CODE>, <CODE>=</CODE>,
-<CODE>char=?</CODE>, <CODE>char-ci=?</CODE>, <CODE>string=?</CODE>, or
-<CODE>string-ci=?</CODE>.
-<P>
-
-<A NAME="IDX1243"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>predicate-&gt;hash-asso</B> <I>pred</I>
-<DD><P>
-
-Returns a hash association function of 2 arguments, <VAR>key</VAR> and
-<VAR>hashtab</VAR>, corresponding to <VAR>pred</VAR>. The returned function
-returns a key-value pair whose key is <VAR>pred</VAR>-equal to its first
-argument or <CODE>#f</CODE> if no key in <VAR>hashtab</VAR> is <VAR>pred</VAR>-equal to
-the first argument.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1244"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>hash-inquirer</B> <I>pred</I>
-<DD><P>
-
-Returns a procedure of 2 arguments, <VAR>hashtab</VAR> and <VAR>key</VAR>, which
-returns the value associated with <VAR>key</VAR> in <VAR>hashtab</VAR> or
-<CODE>#f</CODE> if <VAR>key</VAR> does not appear in <VAR>hashtab</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1245"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>hash-associator</B> <I>pred</I>
-<DD><P>
-
-Returns a procedure of 3 arguments, <VAR>hashtab</VAR>, <VAR>key</VAR>, and
-<VAR>value</VAR>, which modifies <VAR>hashtab</VAR> so that <VAR>key</VAR> and
-<VAR>value</VAR> associated. Any previous value associated with <VAR>key</VAR>
-will be lost.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1246"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>hash-remover</B> <I>pred</I>
-<DD><P>
-
-Returns a procedure of 2 arguments, <VAR>hashtab</VAR> and <VAR>key</VAR>, which
-modifies <VAR>hashtab</VAR> so that the association whose key is <VAR>key</VAR> is
-removed.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1247"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>hash-map</B> <I>proc hash-table</I>
-<DD><P>
-
-Returns a new hash table formed by mapping <VAR>proc</VAR> over the
-keys and values of <VAR>hash-table</VAR>. <VAR>proc</VAR> must be a function of 2
-arguments which returns the new value part.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1248"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>hash-for-each</B> <I>proc hash-table</I>
-<DD><P>
-
-Applies <VAR>proc</VAR> to each pair of keys and values of <VAR>hash-table</VAR>.
-<VAR>proc</VAR> must be a function of 2 arguments. The returned value is
-unspecified.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1249"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>hash-rehasher</B> <I>pred</I>
-<DD><P>
-
-<CODE>hash-rehasher</CODE> accepts a hash table predicate and returns a function of two
-arguments <VAR>hashtab</VAR> and <VAR>new-k</VAR> which is specialized for
-that predicate.
-</P>
-<P>
-
-This function is used for nondestrutively resizing a hash table.
-<VAR>hashtab</VAR> should be an existing hash-table using <VAR>pred</VAR>, <VAR>new-k</VAR>
-is the size of a new hash table to be returned. The new hash table
-will have all of the associations of the old hash table.
-</P>
-</DL>
-<P>
-
-<A NAME="Object"></A>
-<HR SIZE="6">
-<A NAME="SEC197"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC196"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC198"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC184"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.1.12 Macroless Object System </H3>
-<!--docid::SEC197::-->
-<P>
-
-<CODE>(require 'object)</CODE>
-<A NAME="IDX1250"></A>
-</P>
-<P>
-
-This is the Macroless Object System written by Wade Humeniuk
-(whumeniu@datap.ca). Conceptual Tributes: <A HREF="slib_3.html#SEC40">3.8 Yasos</A>, MacScheme's
-%object, CLOS, Lack of R4RS macros.
-</P>
-<P>
-
-<HR SIZE="6">
-<A NAME="SEC198"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC197"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC199"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC184"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.1.13 Concepts </H3>
-<!--docid::SEC198::-->
-<DL COMPACT>
-
-<DT>OBJECT
-<DD>An object is an ordered association-list (by <CODE>eq?</CODE>) of methods
-(procedures). Methods can be added (<CODE>make-method!</CODE>), deleted
-(<CODE>unmake-method!</CODE>) and retrieved (<CODE>get-method</CODE>). Objects may
-inherit methods from other objects. The object binds to the environment
-it was created in, allowing closures to be used to hide private
-procedures and data.
-<P>
-
-</P>
-<DT>GENERIC-METHOD
-<DD>A generic-method associates (in terms of <CODE>eq?</CODE>) object's method.
-This allows scheme function style to be used for objects. The calling
-scheme for using a generic method is <CODE>(generic-method object param1
-param2 ...)</CODE>.
-<P>
-
-</P>
-<DT>METHOD
-<DD>A method is a procedure that exists in the object. To use a method
-get-method must be called to look-up the method. Generic methods
-implement the get-method functionality. Methods may be added to an
-object associated with any scheme obj in terms of eq?
-<P>
-
-</P>
-<DT>GENERIC-PREDICATE
-<DD>A generic method that returns a boolean value for any scheme obj.
-<P>
-
-</P>
-<DT>PREDICATE
-<DD>A object's method asscociated with a generic-predicate. Returns
-<CODE>#t</CODE>.
-</DL>
-<P>
-
-<HR SIZE="6">
-<A NAME="SEC199"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC198"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC200"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC184"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.1.14 Procedures </H3>
-<!--docid::SEC199::-->
-<P>
-
-<A NAME="IDX1251"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>make-object</B> <I>ancestor <small>...</small></I>
-<DD>Returns an object. Current object implementation is a tagged vector.
-<VAR>ancestor</VAR>s are optional and must be objects in terms of object?.
-<VAR>ancestor</VAR>s methods are included in the object. Multiple
-<VAR>ancestor</VAR>s might associate the same generic-method with a method.
-In this case the method of the <VAR>ancestor</VAR> first appearing in the
-list is the one returned by <CODE>get-method</CODE>.
-</DL>
-<P>
-
-<A NAME="IDX1252"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>object?</B> <I>obj</I>
-<DD>Returns boolean value whether <VAR>obj</VAR> was created by make-object.
-</DL>
-<P>
-
-<A NAME="IDX1253"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>make-generic-method</B> <I>exception-procedure</I>
-<DD>Returns a procedure which be associated with an object's methods. If
-<VAR>exception-procedure</VAR> is specified then it is used to process
-non-objects.
-</DL>
-<P>
-
-<A NAME="IDX1254"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>make-generic-predicate</B>
-<DD>Returns a boolean procedure for any scheme object.
-</DL>
-<P>
-
-<A NAME="IDX1255"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>make-method!</B> <I>object generic-method method</I>
-<DD>Associates <VAR>method</VAR> to the <VAR>generic-method</VAR> in the object. The
-<VAR>method</VAR> overrides any previous association with the
-<VAR>generic-method</VAR> within the object. Using <CODE>unmake-method!</CODE>
-will restore the object's previous association with the
-<VAR>generic-method</VAR>. <VAR>method</VAR> must be a procedure.
-</DL>
-<P>
-
-<A NAME="IDX1256"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>make-predicate!</B> <I>object generic-preciate</I>
-<DD>Makes a predicate method associated with the <VAR>generic-predicate</VAR>.
-</DL>
-<P>
-
-<A NAME="IDX1257"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>unmake-method!</B> <I>object generic-method</I>
-<DD>Removes an object's association with a <VAR>generic-method</VAR> .
-</DL>
-<P>
-
-<A NAME="IDX1258"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>get-method</B> <I>object generic-method</I>
-<DD>Returns the object's method associated (if any) with the
-<VAR>generic-method</VAR>. If no associated method exists an error is
-flagged.
-</DL>
-<P>
-
-<HR SIZE="6">
-<A NAME="SEC200"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC199"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC201"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC184"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.1.15 Examples </H3>
-<!--docid::SEC200::-->
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(require 'object)
-<A NAME="IDX1259"></A>
-(define instantiate (make-generic-method))
-
-(define (make-instance-object . ancestors)
- (define self (apply make-object
- (map (lambda (obj) (instantiate obj)) ancestors)))
- (make-method! self instantiate (lambda (self) self))
- self)
-
-(define who (make-generic-method))
-(define imigrate! (make-generic-method))
-(define emigrate! (make-generic-method))
-(define describe (make-generic-method))
-(define name (make-generic-method))
-(define address (make-generic-method))
-(define members (make-generic-method))
-
-(define society
- (let ()
- (define self (make-instance-object))
- (define population '())
- (make-method! self imigrate!
- (lambda (new-person)
- (if (not (eq? new-person self))
- (set! population (cons new-person population)))))
- (make-method! self emigrate!
- (lambda (person)
- (if (not (eq? person self))
- (set! population
- (comlist:remove-if (lambda (member)
- (eq? member person))
- population)))))
- (make-method! self describe
- (lambda (self)
- (map (lambda (person) (describe person)) population)))
- (make-method! self who
- (lambda (self) (map (lambda (person) (name person))
- population)))
- (make-method! self members (lambda (self) population))
- self))
-
-(define (make-person %name %address)
- (define self (make-instance-object society))
- (make-method! self name (lambda (self) %name))
- (make-method! self address (lambda (self) %address))
- (make-method! self who (lambda (self) (name self)))
- (make-method! self instantiate
- (lambda (self)
- (make-person (string-append (name self) &quot;-son-of&quot;)
- %address)))
- (make-method! self describe
- (lambda (self) (list (name self) (address self))))
- (imigrate! self)
- self)
-</pre></td></tr></table><P>
-
-<HR SIZE="6">
-<A NAME="SEC201"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC200"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC202"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC184"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 7.1.15.1 Inverter Documentation </H4>
-<!--docid::SEC201::-->
-Inheritance:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre> &lt;inverter&gt;::(&lt;number&gt; &lt;description&gt;)
-</pre></td></tr></table>Generic-methods
-<TABLE><tr><td>&nbsp;</td><td class=example><pre> &lt;inverter&gt;::value => &lt;number&gt;::value
- &lt;inverter&gt;::set-value! => &lt;number&gt;::set-value!
- &lt;inverter&gt;::describe => &lt;description&gt;::describe
- &lt;inverter&gt;::help
- &lt;inverter&gt;::invert
- &lt;inverter&gt;::inverter?
-</pre></td></tr></table><P>
-
-<HR SIZE="6">
-<A NAME="SEC202"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC201"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC203"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC184"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 7.1.15.2 Number Documention </H4>
-<!--docid::SEC202::-->
-Inheritance
-<TABLE><tr><td>&nbsp;</td><td class=example><pre> &lt;number&gt;::()
-</pre></td></tr></table>Slots
-<TABLE><tr><td>&nbsp;</td><td class=example><pre> &lt;number&gt;::&lt;x&gt;
-</pre></td></tr></table>Generic Methods
-<TABLE><tr><td>&nbsp;</td><td class=example><pre> &lt;number&gt;::value
- &lt;number&gt;::set-value!
-</pre></td></tr></table><P>
-
-<HR SIZE="6">
-<A NAME="SEC203"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC202"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC204"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC184"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 7.1.15.3 Inverter code </H4>
-<!--docid::SEC203::-->
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(require 'object)
-<A NAME="IDX1260"></A>
-(define value (make-generic-method (lambda (val) val)))
-(define set-value! (make-generic-method))
-(define invert (make-generic-method
- (lambda (val)
- (if (number? val)
- (/ 1 val)
- (error &quot;Method not supported:&quot; val)))))
-(define noop (make-generic-method))
-(define inverter? (make-generic-predicate))
-(define describe (make-generic-method))
-(define help (make-generic-method))
-
-(define (make-number x)
- (define self (make-object))
- (make-method! self value (lambda (this) x))
- (make-method! self set-value!
- (lambda (this new-value) (set! x new-value)))
- self)
-
-(define (make-description str)
- (define self (make-object))
- (make-method! self describe (lambda (this) str))
- (make-method! self help (lambda (this) &quot;Help not available&quot;))
- self)
-
-(define (make-inverter)
- (let* ((self (make-object
- (make-number 1)
- (make-description &quot;A number which can be inverted&quot;)))
- (&lt;value&gt; (get-method self value)))
- (make-method! self invert (lambda (self) (/ 1 (&lt;value&gt; self))))
- (make-predicate! self inverter?)
- (unmake-method! self help)
- (make-method! self help
- (lambda (self)
- (display &quot;Inverter Methods:&quot;) (newline)
- (display &quot; (value inverter) ==&gt; n&quot;) (newline)))
- self))
-
-;;;; Try it out
-
-(define invert! (make-generic-method))
-
-(define x (make-inverter))
-
-(make-method! x invert! (lambda (x) (set-value! x (/ 1 (value x)))))
-
-(value x) => 1
-(set-value! x 33) => undefined
-(invert! x) => undefined
-(value x) => 1/33
-
-(unmake-method! x invert!) => undefined
-
-(invert! x) error--> ERROR: Method not supported: x
-</pre></td></tr></table><P>
-
-<A NAME="Priority Queues"></A>
-<HR SIZE="6">
-<A NAME="SEC204"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC203"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC205"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC184"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.1.16 Priority Queues </H3>
-<!--docid::SEC204::-->
-<P>
-
-<CODE>(require 'priority-queue)</CODE>
-<A NAME="IDX1261"></A>
-</P>
-<P>
-
-This algorithm for priority queues is due to
-<CITE>Introduction to Algorithms</CITE>
-by T. Cormen, C. Leiserson, R. Rivest.
-1989 MIT Press.
-</P>
-<P>
-
-<A NAME="IDX1262"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>make-heap</B> <I>pred&lt;?</I>
-<DD><P>
-
-Returns a binary heap suitable which can be used for priority queue
-operations.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1263"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>heap-length</B> <I>heap</I>
-<DD><P>
-
-Returns the number of elements in <VAR>heap</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1264"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>heap-insert!</B> <I>heap item</I>
-<DD><P>
-
-Inserts <VAR>item</VAR> into <VAR>heap</VAR>. <VAR>item</VAR> can be inserted multiple
-times. The value returned is unspecified.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1265"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>heap-extract-max!</B> <I>heap</I>
-<DD><P>
-
-Returns the item which is larger than all others according to the
-<VAR>pred&lt;?</VAR> argument to <CODE>make-heap</CODE>. If there are no items in
-<VAR>heap</VAR>, an error is signaled.
-</P>
-</DL>
-<P>
-
-<A NAME="Queues"></A>
-<HR SIZE="6">
-<A NAME="SEC205"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC204"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC206"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC184"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.1.17 Queues </H3>
-<!--docid::SEC205::-->
-<P>
-
-<CODE>(require 'queue)</CODE>
-<A NAME="IDX1266"></A>
-</P>
-<P>
-
-A <EM>queue</EM> is a list where elements can be added to both the front
-<A NAME="IDX1267"></A>
-and rear, and removed from the front (i.e., they are what are often
-called <EM>dequeues</EM>). A queue may also be used like a stack.
-<A NAME="IDX1268"></A>
-</P>
-<P>
-
-<A NAME="IDX1269"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>make-queue</B>
-<DD><P>
-
-Returns a new, empty queue.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1270"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>queue?</B> <I>obj</I>
-<DD><P>
-
-Returns <CODE>#t</CODE> if <VAR>obj</VAR> is a queue.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1271"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>queue-empty?</B> <I>q</I>
-<DD><P>
-
-Returns <CODE>#t</CODE> if the queue <VAR>q</VAR> is empty.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1272"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>queue-push!</B> <I>q datum</I>
-<DD><P>
-
-Adds <VAR>datum</VAR> to the front of queue <VAR>q</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1273"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>enqueue!</B> <I>q datum</I>
-<DD><P>
-
-Adds <VAR>datum</VAR> to the rear of queue <VAR>q</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1274"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>dequeue!</B> <I>q</I>
-<DD><P>
-
-<A NAME="IDX1275"></A>
-<DT><U>Procedure:</U> <B>queue-pop!</B> <I>q</I>
-<DD>Both of these procedures remove and return the datum at the front of
-the queue. <CODE>queue-pop!</CODE> is used to suggest that the queue is
-being used like a stack.
-</P>
-</DL>
-All of the following functions raise an error if the queue <VAR>q</VAR>
-is empty.
-<P>
-
-<A NAME="IDX1276"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>dequeue-all!</B> <I>q</I>
-<DD><P>
-
-Removes and returns (the list) of all contents of queue <VAR>q</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1277"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>queue-front</B> <I>q</I>
-<DD><P>
-
-Returns the datum at the front of the queue <VAR>q</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1278"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>queue-rear</B> <I>q</I>
-<DD><P>
-
-Returns the datum at the rear of the queue <VAR>q</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="Records"></A>
-<HR SIZE="6">
-<A NAME="SEC206"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC205"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC207"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC184"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.1.18 Records </H3>
-<!--docid::SEC206::-->
-<P>
-
-<CODE>(require 'record)</CODE>
-<A NAME="IDX1279"></A>
-</P>
-<P>
-
-The Record package provides a facility for user to define their own
-record data types.
-</P>
-<P>
-
-<A NAME="IDX1280"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>make-record-type</B> <I>type-name field-names</I>
-<DD>Returns a <EM>record-type descriptor</EM>, a value representing a new data
-type disjoint from all others. The <VAR>type-name</VAR> argument must be a
-string, but is only used for debugging purposes (such as the printed
-representation of a record of the new type). The <VAR>field-names</VAR>
-argument is a list of symbols naming the <EM>fields</EM> of a record of the
-new type. It is an error if the list contains any duplicates. It is
-unspecified how record-type descriptors are represented.
-</DL>
-<P>
-
-<A NAME="IDX1281"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>record-constructor</B> <I>rtd [field-names]</I>
-<DD>Returns a procedure for constructing new members of the type represented
-by <VAR>rtd</VAR>. The returned procedure accepts exactly as many arguments
-as there are symbols in the given list, <VAR>field-names</VAR>; these are
-used, in order, as the initial values of those fields in a new record,
-which is returned by the constructor procedure. The values of any
-fields not named in that list are unspecified. The <VAR>field-names</VAR>
-argument defaults to the list of field names in the call to
-<CODE>make-record-type</CODE> that created the type represented by <VAR>rtd</VAR>;
-if the <VAR>field-names</VAR> argument is provided, it is an error if it
-contains any duplicates or any symbols not in the default list.
-</DL>
-<P>
-
-<A NAME="IDX1282"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>record-predicate</B> <I>rtd</I>
-<DD>Returns a procedure for testing membership in the type represented by
-<VAR>rtd</VAR>. The returned procedure accepts exactly one argument and
-returns a true value if the argument is a member of the indicated record
-type; it returns a false value otherwise.
-</DL>
-<P>
-
-<A NAME="IDX1283"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>record-accessor</B> <I>rtd field-name</I>
-<DD>Returns a procedure for reading the value of a particular field of a
-member of the type represented by <VAR>rtd</VAR>. The returned procedure
-accepts exactly one argument which must be a record of the appropriate
-type; it returns the current value of the field named by the symbol
-<VAR>field-name</VAR> in that record. The symbol <VAR>field-name</VAR> must be a
-member of the list of field-names in the call to <CODE>make-record-type</CODE>
-that created the type represented by <VAR>rtd</VAR>.
-</DL>
-<P>
-
-<A NAME="IDX1284"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>record-modifier</B> <I>rtd field-name</I>
-<DD>Returns a procedure for writing the value of a particular field of a
-member of the type represented by <VAR>rtd</VAR>. The returned procedure
-accepts exactly two arguments: first, a record of the appropriate type,
-and second, an arbitrary Scheme value; it modifies the field named by
-the symbol <VAR>field-name</VAR> in that record to contain the given value.
-The returned value of the modifier procedure is unspecified. The symbol
-<VAR>field-name</VAR> must be a member of the list of field-names in the call
-to <CODE>make-record-type</CODE> that created the type represented by
-<VAR>rtd</VAR>.
-</DL>
-<P>
-
-In May of 1996, as a product of discussion on the <CODE>rrrs-authors</CODE>
-mailing list, I rewrote `<TT>record.scm</TT>' to portably implement type
-disjointness for record data types.
-</P>
-<P>
-
-As long as an implementation's procedures are opaque and the
-<CODE>record</CODE> code is loaded before other programs, this will give
-disjoint record types which are unforgeable and incorruptible by R4RS
-procedures.
-</P>
-<P>
-
-As a consequence, the procedures <CODE>record?</CODE>,
-<CODE>record-type-descriptor</CODE>, <CODE>record-type-name</CODE>.and
-<CODE>record-type-field-names</CODE> are no longer supported.
-</P>
-<P>
-
-<A NAME="Sorting and Searching"></A>
-<HR SIZE="6">
-<A NAME="SEC207"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC206"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC208"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 7.2 Sorting and Searching </H2>
-<!--docid::SEC207::-->
-<P>
-
-<TABLE BORDER="0" CELLSPACING="0">
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC208">7.2.1 Common List Functions</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'common-list-functions</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC214">7.2.2 Tree operations</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'tree</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC215">7.2.3 Chapter Ordering</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'chapter-order</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC216">7.2.4 Sorting</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'sort</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC217">7.2.5 Topological Sort</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">Keep your socks on.</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC218">7.2.6 Hashing</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'hash</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC219">7.2.7 Space-Filling Curves</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'hilbert and 'sierpinski</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC222">7.2.8 Soundex</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">Dimension Reduction of Last Names</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC223">7.2.9 String Search</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">Also Search from a Port.</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC224">7.2.10 Sequence Comparison</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'diff and longest-common-subsequence</TD></TR>
-</TABLE>
-<P>
-
-<A NAME="Common List Functions"></A>
-<HR SIZE="6">
-<A NAME="SEC208"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC207"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC209"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC207"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.2.1 Common List Functions </H3>
-<!--docid::SEC208::-->
-<P>
-
-<CODE>(require 'common-list-functions)</CODE>
-<A NAME="IDX1285"></A>
-</P>
-<P>
-
-The procedures below follow the Common LISP equivalents apart from
-optional arguments in some cases.
-</P>
-<P>
-
-<TABLE BORDER="0" CELLSPACING="0">
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC209">7.2.1.1 List construction</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC210">7.2.1.2 Lists as sets</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC211">7.2.1.3 Lists as sequences</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC212">7.2.1.4 Destructive list operations</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC213">7.2.1.5 Non-List functions</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-</TABLE>
-<P>
-
-<A NAME="List construction"></A>
-<HR SIZE="6">
-<A NAME="SEC209"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC208"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC210"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC208"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 7.2.1.1 List construction </H4>
-<!--docid::SEC209::-->
-<P>
-
-<A NAME="IDX1286"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>make-list</B> <I>k</I>
-<DD><A NAME="IDX1287"></A>
-<DT><U>Function:</U> <B>make-list</B> <I>k init</I>
-<DD><CODE>make-list</CODE> creates and returns a list of <VAR>k</VAR> elements. If
-<VAR>init</VAR> is included, all elements in the list are initialized to
-<VAR>init</VAR>.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(make-list 3)
- => (#&lt;unspecified&gt; #&lt;unspecified&gt; #&lt;unspecified&gt;)
-(make-list 5 'foo)
- => (foo foo foo foo foo)
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1288"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>list*</B> <I>obj1 obj2 <small>...</small></I>
-<DD>Works like <CODE>list</CODE> except that the cdr of the last pair is the last
-argument unless there is only one argument, when the result is just that
-argument. Sometimes called <CODE>cons*</CODE>. E.g.:
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(list* 1)
- => 1
-(list* 1 2 3)
- => (1 2 . 3)
-(list* 1 2 '(3 4))
- => (1 2 3 4)
-(list* <VAR>args</VAR> '())
- == (list <VAR>args</VAR>)
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1289"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>copy-list</B> <I>lst</I>
-<DD><CODE>copy-list</CODE> makes a copy of <VAR>lst</VAR> using new pairs and returns
-it. Only the top level of the list is copied, i.e., pairs forming
-elements of the copied list remain <CODE>eq?</CODE> to the corresponding
-elements of the original; the copy is, however, not <CODE>eq?</CODE> to the
-original, but is <CODE>equal?</CODE> to it.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(copy-list '(foo foo foo))
- => (foo foo foo)
-(define q '(foo bar baz bang))
-(define p q)
-(eq? p q)
- => #t
-(define r (copy-list q))
-(eq? q r)
- => #f
-(equal? q r)
- => #t
-(define bar '(bar))
-(eq? bar (car (copy-list (list bar 'foo))))
-=> #t
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="Lists as sets"></A>
-<HR SIZE="6">
-<A NAME="SEC210"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC209"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC211"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC208"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 7.2.1.2 Lists as sets </H4>
-<!--docid::SEC210::-->
-<P>
-
-<CODE>eqv?</CODE> is used to test for membership by procedures which treat
-lists as sets.
-</P>
-<P>
-
-<A NAME="IDX1290"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>adjoin</B> <I>e l</I>
-<DD><CODE>adjoin</CODE> returns the adjoint of the element <VAR>e</VAR> and the list
-<VAR>l</VAR>. That is, if <VAR>e</VAR> is in <VAR>l</VAR>, <CODE>adjoin</CODE> returns
-<VAR>l</VAR>, otherwise, it returns <CODE>(cons <VAR>e</VAR> <VAR>l</VAR>)</CODE>.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(adjoin 'baz '(bar baz bang))
- => (bar baz bang)
-(adjoin 'foo '(bar baz bang))
- => (foo bar baz bang)
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1291"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>union</B> <I>l1 l2</I>
-<DD><CODE>union</CODE> returns a list of all elements that are in <VAR>l1</VAR> or
-<VAR>l2</VAR>. Duplicates between <VAR>l1</VAR> and <VAR>l2</VAR> are culled.
-Duplicates within <VAR>l1</VAR> or within <VAR>l2</VAR> may or may not be
-removed.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(union '(1 2 3 4) '(5 6 7 8))
- => (1 2 3 4 5 6 7 8)
-(union '(0 1 2 3 4) '(3 4 5 6))
- => (5 6 0 1 2 3 4)
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1292"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>intersection</B> <I>l1 l2</I>
-<DD><CODE>intersection</CODE> returns a list of all elements that are in both
-<VAR>l1</VAR> and <VAR>l2</VAR>.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(intersection '(1 2 3 4) '(3 4 5 6))
- => (3 4)
-(intersection '(1 2 3 4) '(5 6 7 8))
- => ()
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1293"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>set-difference</B> <I>l1 l2</I>
-<DD><CODE>set-difference</CODE> returns a list of all elements that are in
-<VAR>l1</VAR> but not in <VAR>l2</VAR>.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(set-difference '(1 2 3 4) '(3 4 5 6))
- => (1 2)
-(set-difference '(1 2 3 4) '(1 2 3 4 5 6))
- => ()
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1294"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>subset?</B> <I>list1 list2</I>
-<DD>Returns <CODE>#t</CODE> if every element of <VAR>list1</VAR> is <CODE>eqv?</CODE> an
-element of <VAR>list2</VAR>; otherwise returns <CODE>#f</CODE>.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(subset? '(1 2 3 4) '(3 4 5 6))
- => #f
-(subset? '(1 2 3 4) '(6 5 4 3 2 1 0))
- => #t
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1295"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>member-if</B> <I>pred lst</I>
-<DD><CODE>member-if</CODE> returns the list headed by the first element of
-<VAR>lst</VAR> to satisfy <CODE>(<VAR>pred</VAR> <VAR>element</VAR>)</CODE>.
-<CODE>Member-if</CODE> returns <CODE>#f</CODE> if <VAR>pred</VAR> returns <CODE>#f</CODE> for
-every <VAR>element</VAR> in <VAR>lst</VAR>.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(member-if vector? '(a 2 b 4))
- => #f
-(member-if number? '(a 2 b 4))
- => (2 b 4)
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1296"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>some</B> <I>pred lst1 lst2 <small>...</small></I>
-<DD><VAR>pred</VAR> is a boolean function of as many arguments as there are list
-arguments to <CODE>some</CODE> i.e., <VAR>lst</VAR> plus any optional arguments.
-<VAR>pred</VAR> is applied to successive elements of the list arguments in
-order. <CODE>some</CODE> returns <CODE>#t</CODE> as soon as one of these
-applications returns <CODE>#t</CODE>, and is <CODE>#f</CODE> if none returns
-<CODE>#t</CODE>. All the lists should have the same length.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(some odd? '(1 2 3 4))
- => #t
-
-(some odd? '(2 4 6 8))
- => #f
-
-(some &gt; '(1 3) '(2 4))
- => #f
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1297"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>every</B> <I>pred lst1 lst2 <small>...</small></I>
-<DD><CODE>every</CODE> is analogous to <CODE>some</CODE> except it returns <CODE>#t</CODE> if
-every application of <VAR>pred</VAR> is <CODE>#t</CODE> and <CODE>#f</CODE>
-otherwise.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(every even? '(1 2 3 4))
- => #f
-
-(every even? '(2 4 6 8))
- => #t
-
-(every &gt; '(2 3) '(1 4))
- => #f
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1298"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>notany</B> <I>pred lst1 <small>...</small></I>
-<DD><CODE>notany</CODE> is analogous to <CODE>some</CODE> but returns <CODE>#t</CODE> if no
-application of <VAR>pred</VAR> returns <CODE>#t</CODE> or <CODE>#f</CODE> as soon as any
-one does.
-</DL>
-<P>
-
-<A NAME="IDX1299"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>notevery</B> <I>pred lst1 <small>...</small></I>
-<DD><CODE>notevery</CODE> is analogous to <CODE>some</CODE> but returns <CODE>#t</CODE> as soon
-as an application of <VAR>pred</VAR> returns <CODE>#f</CODE>, and <CODE>#f</CODE>
-otherwise.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(notevery even? '(1 2 3 4))
- => #t
-
-(notevery even? '(2 4 6 8))
- => #f
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1300"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>list-of??</B> <I>predicate</I>
-<DD>Returns a predicate which returns true if its argument is a list every
-element of which satisfies <VAR>predicate</VAR>.
-<P>
-
-<A NAME="IDX1301"></A>
-<DT><U>Function:</U> <B>list-of??</B> <I>predicate low-bound high-bound</I>
-<DD><VAR>low-bound</VAR> and <VAR>high-bound</VAR> are non-negative integers.
-<CODE>list-of??</CODE> returns a predicate which returns true if its argument
-is a list of length between <VAR>low-bound</VAR> and <VAR>high-bound</VAR>
-(inclusive); every element of which satisfies <VAR>predicate</VAR>.
-</P>
-<P>
-
-<A NAME="IDX1302"></A>
-<DT><U>Function:</U> <B>list-of??</B> <I>predicate bound</I>
-<DD><VAR>bound</VAR> is an integer. If <VAR>bound</VAR> is negative, <CODE>list-of??</CODE>
-returns a predicate which returns true if its argument is a list of
-length greater than <CODE>(- <VAR>bound</VAR>)</CODE>; every element of which
-satisfies <VAR>predicate</VAR>. Otherwise, <CODE>list-of??</CODE> returns a
-predicate which returns true if its argument is a list of length less
-than or equal to <VAR>bound</VAR>; every element of which satisfies
-<VAR>predicate</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1303"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>find-if</B> <I>pred lst</I>
-<DD><CODE>find-if</CODE> searches for the first <VAR>element</VAR> in <VAR>lst</VAR> such
-that <CODE>(<VAR>pred</VAR> <VAR>element</VAR>)</CODE> returns <CODE>#t</CODE>. If it finds
-any such <VAR>element</VAR> in <VAR>lst</VAR>, <VAR>element</VAR> is returned.
-Otherwise, <CODE>#f</CODE> is returned.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(find-if number? '(foo 1 bar 2))
- => 1
-
-(find-if number? '(foo bar baz bang))
- => #f
-
-(find-if symbol? '(1 2 foo bar))
- => foo
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1304"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>remove</B> <I>elt lst</I>
-<DD><CODE>remove</CODE> removes all occurrences of <VAR>elt</VAR> from <VAR>lst</VAR> using
-<CODE>eqv?</CODE> to test for equality and returns everything that's left.
-N.B.: other implementations (Chez, Scheme-&gt;C and T, at least) use
-<CODE>equal?</CODE> as the equality test.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(remove 1 '(1 2 1 3 1 4 1 5))
- => (2 3 4 5)
-
-(remove 'foo '(bar baz bang))
- => (bar baz bang)
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1305"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>remove-if</B> <I>pred lst</I>
-<DD><CODE>remove-if</CODE> removes all <VAR>element</VAR>s from <VAR>lst</VAR> where
-<CODE>(<VAR>pred</VAR> <VAR>element</VAR>)</CODE> is <CODE>#t</CODE> and returns everything
-that's left.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(remove-if number? '(1 2 3 4))
- => ()
-
-(remove-if even? '(1 2 3 4 5 6 7 8))
- => (1 3 5 7)
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1306"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>remove-if-not</B> <I>pred lst</I>
-<DD><CODE>remove-if-not</CODE> removes all <VAR>element</VAR>s from <VAR>lst</VAR> for which
-<CODE>(<VAR>pred</VAR> <VAR>element</VAR>)</CODE> is <CODE>#f</CODE> and returns everything that's
-left.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(remove-if-not number? '(foo bar baz))
- => ()
-(remove-if-not odd? '(1 2 3 4 5 6 7 8))
- => (1 3 5 7)
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1307"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>has-duplicates?</B> <I>lst</I>
-<DD>returns <CODE>#t</CODE> if 2 members of <VAR>lst</VAR> are <CODE>equal?</CODE>, <CODE>#f</CODE>
-otherwise.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(has-duplicates? '(1 2 3 4))
- => #f
-
-(has-duplicates? '(2 4 3 4))
- => #t
-</pre></td></tr></table></DL>
-<P>
-
-The procedure <CODE>remove-duplicates</CODE> uses <CODE>member</CODE> (rather than
-<CODE>memv</CODE>).
-</P>
-<P>
-
-<A NAME="IDX1308"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>remove-duplicates</B> <I>lst</I>
-<DD>returns a copy of <VAR>lst</VAR> with its duplicate members removed.
-Elements are considered duplicate if they are <CODE>equal?</CODE>.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(remove-duplicates '(1 2 3 4))
- => (1 2 3 4)
-
-(remove-duplicates '(2 4 3 4))
- => (2 4 3)
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="Lists as sequences"></A>
-<HR SIZE="6">
-<A NAME="SEC211"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC210"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC212"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC208"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 7.2.1.3 Lists as sequences </H4>
-<!--docid::SEC211::-->
-<P>
-
-<A NAME="IDX1309"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>position</B> <I>obj lst</I>
-<DD><CODE>position</CODE> returns the 0-based position of <VAR>obj</VAR> in <VAR>lst</VAR>,
-or <CODE>#f</CODE> if <VAR>obj</VAR> does not occur in <VAR>lst</VAR>.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(position 'foo '(foo bar baz bang))
- => 0
-(position 'baz '(foo bar baz bang))
- => 2
-(position 'oops '(foo bar baz bang))
- => #f
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1310"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>reduce</B> <I>p lst</I>
-<DD><CODE>reduce</CODE> combines all the elements of a sequence using a binary
-operation (the combination is left-associative). For example, using
-<CODE>+</CODE>, one can add up all the elements. <CODE>reduce</CODE> allows you to
-apply a function which accepts only two arguments to more than 2
-objects. Functional programmers usually refer to this as <EM>foldl</EM>.
-<CODE>collect:reduce</CODE> (see section <A HREF="slib_7.html#SEC194">7.1.9 Collections</A>) provides a version of
-<CODE>collect</CODE> generalized to collections.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(reduce + '(1 2 3 4))
- => 10
-(define (bad-sum . l) (reduce + l))
-(bad-sum 1 2 3 4)
- == (reduce + (1 2 3 4))
- == (+ (+ (+ 1 2) 3) 4)
-=> 10
-(bad-sum)
- == (reduce + ())
- => ()
-(reduce string-append '(&quot;hello&quot; &quot;cruel&quot; &quot;world&quot;))
- == (string-append (string-append &quot;hello&quot; &quot;cruel&quot;) &quot;world&quot;)
- => &quot;hellocruelworld&quot;
-(reduce anything '())
- => ()
-(reduce anything '(x))
- => x
-</pre></td></tr></table><P>
-
-What follows is a rather non-standard implementation of <CODE>reverse</CODE>
-in terms of <CODE>reduce</CODE> and a combinator elsewhere called
-<EM>C</EM>.
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>;;; Contributed by Jussi Piitulainen (jpiitula @ ling.helsinki.fi)
-
-(define commute
- (lambda (f)
- (lambda (x y)
- (f y x))))
-
-(define reverse
- (lambda (args)
- (reduce-init (commute cons) '() args)))
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1311"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>reduce-init</B> <I>p init lst</I>
-<DD><CODE>reduce-init</CODE> is the same as reduce, except that it implicitly
-inserts <VAR>init</VAR> at the start of the list. <CODE>reduce-init</CODE> is
-preferred if you want to handle the null list, the one-element, and
-lists with two or more elements consistently. It is common to use the
-operator's idempotent as the initializer. Functional programmers
-usually call this <EM>foldl</EM>.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define (sum . l) (reduce-init + 0 l))
-(sum 1 2 3 4)
- == (reduce-init + 0 (1 2 3 4))
- == (+ (+ (+ (+ 0 1) 2) 3) 4)
- => 10
-(sum)
- == (reduce-init + 0 '())
- => 0
-
-(reduce-init string-append &quot;@&quot; '(&quot;hello&quot; &quot;cruel&quot; &quot;world&quot;))
-==
-(string-append (string-append (string-append &quot;@&quot; &quot;hello&quot;)
- &quot;cruel&quot;)
- &quot;world&quot;)
-=> &quot;@hellocruelworld&quot;
-</pre></td></tr></table><P>
-
-Given a differentiation of 2 arguments, <CODE>diff</CODE>, the following will
-differentiate by any number of variables.
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define (diff* exp . vars)
- (reduce-init diff exp vars))
-</pre></td></tr></table><P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>;;; Real-world example: Insertion sort using reduce-init.
-
-(define (insert l item)
- (if (null? l)
- (list item)
- (if (&lt; (car l) item)
- (cons (car l) (insert (cdr l) item))
- (cons item l))))
-(define (insertion-sort l) (reduce-init insert '() l))
-
-(insertion-sort '(3 1 4 1 5)
- == (reduce-init insert () (3 1 4 1 5))
- == (insert (insert (insert (insert (insert () 3) 1) 4) 1) 5)
- == (insert (insert (insert (insert (3)) 1) 4) 1) 5)
- == (insert (insert (insert (1 3) 4) 1) 5)
- == (insert (insert (1 3 4) 1) 5)
- == (insert (1 1 3 4) 5)
- => (1 1 3 4 5)
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1312"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>last</B> <I>lst n</I>
-<DD><CODE>last</CODE> returns the last <VAR>n</VAR> elements of <VAR>lst</VAR>. <VAR>n</VAR>
-must be a non-negative integer.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(last '(foo bar baz bang) 2)
- => (baz bang)
-(last '(1 2 3) 0)
- => 0
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1313"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>butlast</B> <I>lst n</I>
-<DD><CODE>butlast</CODE> returns all but the last <VAR>n</VAR> elements of
-<VAR>lst</VAR>.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(butlast '(a b c d) 3)
- => (a)
-(butlast '(a b c d) 4)
- => ()
-</pre></td></tr></table></DL>
-<P>
-
-<CODE>last</CODE> and <CODE>butlast</CODE> split a list into two parts when given
-identical arugments.
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(last '(a b c d e) 2)
- => (d e)
-(butlast '(a b c d e) 2)
- => (a b c)
-</pre></td></tr></table><P>
-
-<A NAME="IDX1314"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>nthcdr</B> <I>n lst</I>
-<DD><CODE>nthcdr</CODE> takes <VAR>n</VAR> <CODE>cdr</CODE>s of <VAR>lst</VAR> and returns the
-result. Thus <CODE>(nthcdr 3 <VAR>lst</VAR>)</CODE> == <CODE>(cdddr
-<VAR>lst</VAR>)</CODE>
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(nthcdr 2 '(a b c d))
- => (c d)
-(nthcdr 0 '(a b c d))
- => (a b c d)
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1315"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>butnthcdr</B> <I>n lst</I>
-<DD><CODE>butnthcdr</CODE> returns all but the nthcdr <VAR>n</VAR> elements of
-<VAR>lst</VAR>.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(butnthcdr 3 '(a b c d))
- => (a b c)
-(butnthcdr 4 '(a b c d))
- => (a b c d)
-</pre></td></tr></table></DL>
-<P>
-
-<CODE>nthcdr</CODE> and <CODE>butnthcdr</CODE> split a list into two parts when
-given identical arugments.
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(nthcdr 2 '(a b c d e))
- => (c d e)
-(butnthcdr 2 '(a b c d e))
- => (a b)
-</pre></td></tr></table><P>
-
-<A NAME="Destructive list operations"></A>
-<HR SIZE="6">
-<A NAME="SEC212"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC211"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC213"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC208"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 7.2.1.4 Destructive list operations </H4>
-<!--docid::SEC212::-->
-<P>
-
-These procedures may mutate the list they operate on, but any such
-mutation is undefined.
-</P>
-<P>
-
-<A NAME="IDX1316"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>nconc</B> <I>args</I>
-<DD><CODE>nconc</CODE> destructively concatenates its arguments. (Compare this
-with <CODE>append</CODE>, which copies arguments rather than destroying them.)
-Sometimes called <CODE>append!</CODE> (see section <A HREF="slib_7.html#SEC239">7.4.4 Rev2 Procedures</A>).
-<P>
-
-Example: You want to find the subsets of a set. Here's the obvious way:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define (subsets set)
- (if (null? set)
- '(())
- (append (map (lambda (sub) (cons (car set) sub))
- (subsets (cdr set)))
- (subsets (cdr set)))))
-</pre></td></tr></table>But that does way more consing than you need. Instead, you could
-replace the <CODE>append</CODE> with <CODE>nconc</CODE>, since you don't have any
-need for all the intermediate results.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define x '(a b c))
-(define y '(d e f))
-(nconc x y)
- => (a b c d e f)
-x
- => (a b c d e f)
-</pre></td></tr></table><P>
-
-<CODE>nconc</CODE> is the same as <CODE>append!</CODE> in `<TT>sc2.scm</TT>'.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1317"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>nreverse</B> <I>lst</I>
-<DD><CODE>nreverse</CODE> reverses the order of elements in <VAR>lst</VAR> by mutating
-<CODE>cdr</CODE>s of the list. Sometimes called <CODE>reverse!</CODE>.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define foo '(a b c))
-(nreverse foo)
- => (c b a)
-foo
- => (a)
-</pre></td></tr></table><P>
-
-Some people have been confused about how to use <CODE>nreverse</CODE>,
-thinking that it doesn't return a value. It needs to be pointed out
-that
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(set! lst (nreverse lst))
-</pre></td></tr></table>is the proper usage, not
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(nreverse lst)
-</pre></td></tr></table>The example should suffice to show why this is the case.
-</DL>
-<P>
-
-<A NAME="IDX1318"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>delete</B> <I>elt lst</I>
-<DD><A NAME="IDX1319"></A>
-<DT><U>Procedure:</U> <B>delete-if</B> <I>pred lst</I>
-<DD><A NAME="IDX1320"></A>
-<DT><U>Procedure:</U> <B>delete-if-not</B> <I>pred lst</I>
-<DD>Destructive versions of <CODE>remove</CODE> <CODE>remove-if</CODE>, and
-<CODE>remove-if-not</CODE>.
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define lst (list 'foo 'bar 'baz 'bang))
-(delete 'foo lst)
- => (bar baz bang)
-lst
- => (foo bar baz bang)
-
-(define lst (list 1 2 3 4 5 6 7 8 9))
-(delete-if odd? lst)
- => (2 4 6 8)
-lst
- => (1 2 4 6 8)
-</pre></td></tr></table><P>
-
-Some people have been confused about how to use <CODE>delete</CODE>,
-<CODE>delete-if</CODE>, and <CODE>delete-if</CODE>, thinking that they don't return
-a value. It needs to be pointed out that
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(set! lst (delete el lst))
-</pre></td></tr></table>is the proper usage, not
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(delete el lst)
-</pre></td></tr></table>The examples should suffice to show why this is the case.
-</DL>
-<P>
-
-<A NAME="Non-List functions"></A>
-<HR SIZE="6">
-<A NAME="SEC213"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC212"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC214"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC208"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 7.2.1.5 Non-List functions </H4>
-<!--docid::SEC213::-->
-<P>
-
-<A NAME="IDX1321"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>and?</B> <I>arg1 <small>...</small></I>
-<DD><CODE>and?</CODE> checks to see if all its arguments are true. If they are,
-<CODE>and?</CODE> returns <CODE>#t</CODE>, otherwise, <CODE>#f</CODE>. (In contrast to
-<CODE>and</CODE>, this is a function, so all arguments are always evaluated
-and in an unspecified order.)
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(and? 1 2 3)
- => #t
-(and #f 1 2)
- => #f
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1322"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>or?</B> <I>arg1 <small>...</small></I>
-<DD><CODE>or?</CODE> checks to see if any of its arguments are true. If any is
-true, <CODE>or?</CODE> returns <CODE>#t</CODE>, and <CODE>#f</CODE> otherwise. (To
-<CODE>or</CODE> as <CODE>and?</CODE> is to <CODE>and</CODE>.)
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(or? 1 2 #f)
- => #t
-(or? #f #f #f)
- => #f
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1323"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>atom?</B> <I>object</I>
-<DD>Returns <CODE>#t</CODE> if <VAR>object</VAR> is not a pair and <CODE>#f</CODE> if it is
-pair. (Called <CODE>atom</CODE> in Common LISP.)
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(atom? 1)
- => #t
-(atom? '(1 2))
- => #f
-(atom? #(1 2)) ; dubious!
- => #t
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="Tree Operations"></A>
-<HR SIZE="6">
-<A NAME="SEC214"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC213"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC215"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC207"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.2.2 Tree operations </H3>
-<!--docid::SEC214::-->
-<P>
-
-<CODE>(require 'tree)</CODE>
-<A NAME="IDX1324"></A>
-</P>
-<P>
-
-These are operations that treat lists a representations of trees.
-</P>
-<P>
-
-<A NAME="IDX1325"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>subst</B> <I>new old tree</I>
-<DD><A NAME="IDX1326"></A>
-<DT><U>Function:</U> <B>substq</B> <I>new old tree</I>
-<DD><A NAME="IDX1327"></A>
-<DT><U>Function:</U> <B>substv</B> <I>new old tree</I>
-<DD><P>
-
-<A NAME="IDX1328"></A>
-<DT><U>Function:</U> <B>subst</B> <I>new old tree equ?</I>
-<DD><CODE>subst</CODE> makes a copy of <VAR>tree</VAR>, substituting <VAR>new</VAR> for
-every subtree or leaf of <VAR>tree</VAR> which is <CODE>equal?</CODE> to <VAR>old</VAR>
-and returns a modified tree. The original <VAR>tree</VAR> is unchanged, but
-may share parts with the result.
-</P>
-<P>
-
-<CODE>substq</CODE> and <CODE>substv</CODE> are similar, but test against <VAR>old</VAR>
-using <CODE>eq?</CODE> and <CODE>eqv?</CODE> respectively. If <CODE>subst</CODE> is
-called with a fourth argument, <VAR>equ?</VAR> is the equality predicate.
-</P>
-<P>
-
-Examples:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(substq 'tempest 'hurricane '(shakespeare wrote (the hurricane)))
- => (shakespeare wrote (the tempest))
-(substq 'foo '() '(shakespeare wrote (twelfth night)))
- => (shakespeare wrote (twelfth night . foo) . foo)
-(subst '(a . cons) '(old . pair)
- '((old . spice) ((old . shoes) old . pair) (old . pair)))
- => ((old . spice) ((old . shoes) a . cons) (a . cons))
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1329"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>copy-tree</B> <I>tree</I>
-<DD><P>
-
-Makes a copy of the nested list structure <VAR>tree</VAR> using new pairs and
-returns it. All levels are copied, so that none of the pairs in the
-tree are <CODE>eq?</CODE> to the original ones -- only the leaves are.
-</P>
-<P>
-
-Example:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define bar '(bar))
-(copy-tree (list bar 'foo))
- => ((bar) foo)
-(eq? bar (car (copy-tree (list bar 'foo))))
- => #f
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="Chapter Ordering"></A>
-<HR SIZE="6">
-<A NAME="SEC215"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC214"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC216"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC207"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.2.3 Chapter Ordering </H3>
-<!--docid::SEC215::-->
-<P>
-
-<CODE>(require 'chapter-order)</CODE>
-<A NAME="IDX1330"></A>
-</P>
-<P>
-
-The `<SAMP>chap:</SAMP>' functions deal with strings which are ordered like
-chapter numbers (or letters) in a book. Each section of the string
-consists of consecutive numeric or consecutive aphabetic characters of
-like case.
-</P>
-<P>
-
-<A NAME="IDX1331"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>chap:string&lt;?</B> <I>string1 string2</I>
-<DD><P>
-
-Returns #t if the first non-matching run of alphabetic upper-case or
-the first non-matching run of alphabetic lower-case or the first
-non-matching run of numeric characters of <VAR>string1</VAR> is
-<CODE>string&lt;?</CODE> than the corresponding non-matching run of
-characters of <VAR>string2</VAR>.
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(chap:string&lt;? &quot;a.9&quot; &quot;a.10&quot;) => #t
-(chap:string&lt;? &quot;4c&quot; &quot;4aa&quot;) => #t
-(chap:string&lt;? &quot;Revised^{3.99}&quot; &quot;Revised^{4}&quot;) => #t
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1332"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>chap:string&gt;?</B> <I>string1 string2</I>
-<DD><A NAME="IDX1333"></A>
-<DT><U>Function:</U> <B>chap:string&lt;=?</B> <I>string1 string2</I>
-<DD><A NAME="IDX1334"></A>
-<DT><U>Function:</U> <B>chap:string&gt;=?</B> <I>string1 string2</I>
-<DD><P>
-
-Implement the corresponding chapter-order predicates.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1335"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>chap:next-string</B> <I>string</I>
-<DD><P>
-
-Returns the next string in the <EM>chapter order</EM>. If <VAR>string</VAR>
-has no alphabetic or numeric characters,
-<CODE>(string-append <VAR>string</VAR> &quot;0&quot;)</CODE> is returnd. The argument to
-chap:next-string will always be <CODE>chap:string&lt;?</CODE> than the result.
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(chap:next-string &quot;a.9&quot;) => &quot;a.10&quot;
-(chap:next-string &quot;4c&quot;) => &quot;4d&quot;
-(chap:next-string &quot;4z&quot;) => &quot;4aa&quot;
-(chap:next-string &quot;Revised^{4}&quot;) => &quot;Revised^{5}&quot;
-
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="Sorting"></A>
-<HR SIZE="6">
-<A NAME="SEC216"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC215"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC217"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC207"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.2.4 Sorting </H3>
-<!--docid::SEC216::-->
-<P>
-
-<CODE>(require 'sort)</CODE>
-<A NAME="IDX1336"></A>
-</P>
-<P>
-
-Many Scheme systems provide some kind of sorting functions. They do
-not, however, always provide the <EM>same</EM> sorting functions, and
-those that I have had the opportunity to test provided inefficient ones
-(a common blunder is to use quicksort which does not perform well).
-</P>
-<P>
-
-Because <CODE>sort</CODE> and <CODE>sort!</CODE> are not in the standard, there is
-very little agreement about what these functions look like. For
-example, Dybvig says that Chez Scheme provides
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(merge predicate list1 list2)
-(merge! predicate list1 list2)
-(sort predicate list)
-(sort! predicate list)
-</pre></td></tr></table>while MIT Scheme 7.1, following Common LISP, offers unstable
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(sort list predicate)
-</pre></td></tr></table>TI PC Scheme offers
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(sort! list/vector predicate?)
-</pre></td></tr></table>and Elk offers
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(sort list/vector predicate?)
-(sort! list/vector predicate?)
-</pre></td></tr></table><P>
-
-Here is a comprehensive catalogue of the variations I have found.
-</P>
-<P>
-
-<OL>
-<LI>
-Both <CODE>sort</CODE> and <CODE>sort!</CODE> may be provided.
-<LI>
-<CODE>sort</CODE> may be provided without <CODE>sort!</CODE>.
-<LI>
-<CODE>sort!</CODE> may be provided without <CODE>sort</CODE>.
-<LI>
-Neither may be provided.
-<LI>
-The sequence argument may be either a list or a vector.
-<LI>
-The sequence argument may only be a list.
-<LI>
-The sequence argument may only be a vector.
-<LI>
-The comparison function may be expected to behave like <CODE>&lt;</CODE>.
-<LI>
-The comparison function may be expected to behave like <CODE>&lt;=</CODE>.
-<LI>
-The interface may be <CODE>(sort predicate? sequence)</CODE>.
-<LI>
-The interface may be <CODE>(sort sequence predicate?)</CODE>.
-<LI>
-The interface may be <CODE>(sort sequence &amp;optional (predicate? &lt;))</CODE>.
-<LI>
-The sort may be stable.
-<LI>
-The sort may be unstable.
-</OL>
-<P>
-
-All of this variation really does not help anybody. A nice simple merge
-sort is both stable and fast (quite a lot faster than <EM>quick</EM> sort).
-</P>
-<P>
-
-I am providing this source code with no restrictions at all on its use
-(but please retain D.H.D.Warren's credit for the original idea). You
-may have to rename some of these functions in order to use them in a
-system which already provides incompatible or inferior sorts. For each
-of the functions, only the top-level define needs to be edited to do
-that.
-</P>
-<P>
-
-I could have given these functions names which would not clash with any
-Scheme that I know of, but I would like to encourage implementors to
-converge on a single interface, and this may serve as a hint. The
-argument order for all functions has been chosen to be as close to
-Common LISP as made sense, in order to avoid NIH-itis.
-</P>
-<P>
-
-Each of the five functions has a required <EM>last</EM> parameter which is
-a comparison function. A comparison function <CODE>f</CODE> is a function of
-2 arguments which acts like <CODE>&lt;</CODE>. For example,
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(not (f x x))
-(and (f x y) (f y z)) == (f x z)
-</pre></td></tr></table><P>
-
-The standard functions <CODE>&lt;</CODE>, <CODE>&gt;</CODE>, <CODE>char&lt;?</CODE>, <CODE>char&gt;?</CODE>,
-<CODE>char-ci&lt;?</CODE>, <CODE>char-ci&gt;?</CODE>, <CODE>string&lt;?</CODE>, <CODE>string&gt;?</CODE>,
-<CODE>string-ci&lt;?</CODE>, and <CODE>string-ci&gt;?</CODE> are suitable for use as
-comparison functions. Think of <CODE>(less? x y)</CODE> as saying when
-<CODE>x</CODE> must <EM>not</EM> precede <CODE>y</CODE>.
-</P>
-<P>
-
-<A NAME="IDX1337"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>sorted?</B> <I>sequence less?</I>
-<DD>Returns <CODE>#t</CODE> when the sequence argument is in non-decreasing order
-according to <VAR>less?</VAR> (that is, there is no adjacent pair <CODE><small>...</small> x
-y <small>...</small></CODE> for which <CODE>(less? y x)</CODE>).
-<P>
-
-Returns <CODE>#f</CODE> when the sequence contains at least one out-of-order
-pair. It is an error if the sequence is not a list, vector, or
-string.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1338"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>merge</B> <I>list1 list2 less?</I>
-<DD>This merges two lists, producing a completely new list as result. I
-gave serious consideration to producing a Common-LISP-compatible
-version. However, Common LISP's <CODE>sort</CODE> is our <CODE>sort!</CODE> (well,
-in fact Common LISP's <CODE>stable-sort</CODE> is our <CODE>sort!</CODE>, merge sort
-is <EM>fast</EM> as well as stable!) so adapting CL code to Scheme takes a
-bit of work anyway. I did, however, appeal to CL to determine the
-<EM>order</EM> of the arguments.
-</DL>
-<P>
-
-<A NAME="IDX1339"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>merge!</B> <I>list1 list2 less?</I>
-<DD>Merges two lists, re-using the pairs of <VAR>list1</VAR> and <VAR>list2</VAR> to
-build the result. If the code is compiled, and <VAR>less?</VAR> constructs
-no new pairs, no pairs at all will be allocated. The first pair of the
-result will be either the first pair of <VAR>list1</VAR> or the first pair of
-<VAR>list2</VAR>, but you can't predict which.
-<P>
-
-The code of <CODE>merge</CODE> and <CODE>merge!</CODE> could have been quite a bit
-simpler, but they have been coded to reduce the amount of work done per
-iteration. (For example, we only have one <CODE>null?</CODE> test per
-iteration.)
-</P>
-<P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1340"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>sort</B> <I>sequence less?</I>
-<DD>Accepts either a list, vector, or string; and returns a new sequence
-which is sorted. The new sequence is the same type as the input.
-Always <CODE>(sorted? (sort sequence less?) less?)</CODE>. The original
-sequence is not altered in any way. The new sequence shares its
-<EM>elements</EM> with the old one; no elements are copied.
-</DL>
-<P>
-
-<A NAME="IDX1341"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>sort!</B> <I>sequence less?</I>
-<DD>Returns its sorted result in the original boxes. If the original
-sequence is a list, no new storage is allocated at all. If the
-original sequence is a vector or string, the sorted elements are put
-back in the same vector or string.
-<P>
-
-Some people have been confused about how to use <CODE>sort!</CODE>, thinking
-that it doesn't return a value. It needs to be pointed out that
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(set! slist (sort! slist &lt;))
-</pre></td></tr></table>is the proper usage, not
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(sort! slist &lt;)
-</pre></td></tr></table></DL>
-<P>
-
-Note that these functions do <EM>not</EM> accept a CL-style `<SAMP>:key</SAMP>'
-argument. A simple device for obtaining the same expressiveness is to
-define
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define (keyed less? key)
- (lambda (x y) (less? (key x) (key y))))
-</pre></td></tr></table>and then, when you would have written
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(sort a-sequence #'my-less :key #'my-key)
-</pre></td></tr></table>in Common LISP, just write
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(sort! a-sequence (keyed my-less? my-key))
-</pre></td></tr></table>in Scheme.
-<P>
-
-<A NAME="Topological Sort"></A>
-<HR SIZE="6">
-<A NAME="SEC217"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC216"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC218"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC207"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.2.5 Topological Sort </H3>
-<!--docid::SEC217::-->
-<P>
-
-<CODE>(require 'topological-sort)</CODE> or <CODE>(require 'tsort)</CODE>
-<A NAME="IDX1342"></A>
-<A NAME="IDX1343"></A>
-</P>
-<P>
-
-The algorithm is inspired by Cormen, Leiserson and Rivest (1990)
-<CITE>Introduction to Algorithms</CITE>, chapter 23.
-</P>
-<P>
-
-<A NAME="IDX1344"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>tsort</B> <I>dag pred</I>
-<DD><P>
-
-<A NAME="IDX1345"></A>
-<DT><U>Function:</U> <B>topological-sort</B> <I>dag pred</I>
-<DD>where
-</P>
-<DL COMPACT>
-<DT><VAR>dag</VAR>
-<DD>is a list of sublists. The car of each sublist is a vertex. The cdr is
-the adjacency list of that vertex, i.e. a list of all vertices to which
-there exists an edge from the car vertex.
-<DT><VAR>pred</VAR>
-<DD>is one of <CODE>eq?</CODE>, <CODE>eqv?</CODE>, <CODE>equal?</CODE>, <CODE>=</CODE>,
-<CODE>char=?</CODE>, <CODE>char-ci=?</CODE>, <CODE>string=?</CODE>, or <CODE>string-ci=?</CODE>.
-</DL>
-<P>
-
-Sort the directed acyclic graph <VAR>dag</VAR> so that for every edge from
-vertex <VAR>u</VAR> to <VAR>v</VAR>, <VAR>u</VAR> will come before <VAR>v</VAR> in the
-resulting list of vertices.
-</P>
-<P>
-
-Time complexity: O (|V| + |E|)
-</P>
-<P>
-
-Example (from Cormen):
-<BLOCKQUOTE>
-Prof. Bumstead topologically sorts his clothing when getting
-dressed. The first argument to <CODE>tsort</CODE> describes which
-garments he needs to put on before others. (For example,
-Prof Bumstead needs to put on his shirt before he puts on his
-tie or his belt.) <CODE>tsort</CODE> gives the correct order of dressing:
-</BLOCKQUOTE>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(require 'tsort)
-<A NAME="IDX1346"></A>(tsort '((shirt tie belt)
- (tie jacket)
- (belt jacket)
- (watch)
- (pants shoes belt)
- (undershorts pants shoes)
- (socks shoes))
- eq?)
-=>
-(socks undershorts pants shoes watch shirt belt tie jacket)
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="Hashing"></A>
-<HR SIZE="6">
-<A NAME="SEC218"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC217"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC219"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC207"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.2.6 Hashing </H3>
-<!--docid::SEC218::-->
-<P>
-
-<CODE>(require 'hash)</CODE>
-<A NAME="IDX1347"></A>
-</P>
-<P>
-
-These hashing functions are for use in quickly classifying objects.
-Hash tables use these functions.
-</P>
-<P>
-
-<A NAME="IDX1348"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>hashq</B> <I>obj k</I>
-<DD><A NAME="IDX1349"></A>
-<DT><U>Function:</U> <B>hashv</B> <I>obj k</I>
-<DD><A NAME="IDX1350"></A>
-<DT><U>Function:</U> <B>hash</B> <I>obj k</I>
-<DD>Returns an exact non-negative integer less than <VAR>k</VAR>. For each
-non-negative integer less than <VAR>k</VAR> there are arguments <VAR>obj</VAR> for
-which the hashing functions applied to <VAR>obj</VAR> and <VAR>k</VAR> returns
-that integer.
-<P>
-
-For <CODE>hashq</CODE>, <CODE>(eq? obj1 obj2)</CODE> implies <CODE>(= (hashq obj1 k)
-(hashq obj2))</CODE>.
-</P>
-<P>
-
-For <CODE>hashv</CODE>, <CODE>(eqv? obj1 obj2)</CODE> implies <CODE>(= (hashv obj1 k)
-(hashv obj2))</CODE>.
-</P>
-<P>
-
-For <CODE>hash</CODE>, <CODE>(equal? obj1 obj2)</CODE> implies <CODE>(= (hash obj1 k)
-(hash obj2))</CODE>.
-</P>
-<P>
-
-<CODE>hash</CODE>, <CODE>hashv</CODE>, and <CODE>hashq</CODE> return in time bounded by a
-constant. Notice that items having the same <CODE>hash</CODE> implies the
-items have the same <CODE>hashv</CODE> implies the items have the same
-<CODE>hashq</CODE>.
-</P>
-</DL>
-<P>
-
-<A NAME="Space-Filling Curves"></A>
-<HR SIZE="6">
-<A NAME="SEC219"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC218"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC220"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC207"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.2.7 Space-Filling Curves </H3>
-<!--docid::SEC219::-->
-<P>
-
-<TABLE BORDER="0" CELLSPACING="0">
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC220">7.2.7.1 Peano-Hilbert Space-Filling Curve</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC221">7.2.7.2 Sierpinski Curve</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-</TABLE>
-<P>
-
-<A NAME="Peano-Hilbert Space-Filling Curve"></A>
-<HR SIZE="6">
-<A NAME="SEC220"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC219"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC221"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC219"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 7.2.7.1 Peano-Hilbert Space-Filling Curve </H4>
-<!--docid::SEC220::-->
-<P>
-
-<CODE>(require 'hilbert-fill)</CODE>
-<A NAME="IDX1351"></A>
-</P>
-<P>
-
-<A NAME="IDX1352"></A>
-<A NAME="IDX1353"></A>
-<A NAME="IDX1354"></A>
-The <EM>Peano-Hilbert Space-Filling Curve</EM> is a one-to-one mapping
-<A NAME="IDX1355"></A>
-between a unit line segment and an <VAR>n</VAR>-dimensional unit cube.
-</P>
-<P>
-
-The integer procedures map the non-negative integers to an
-arbitrarily large <VAR>n</VAR>-dimensional cube with its corner at the
-origin and all coordinates are non-negative.
-</P>
-<P>
-
-For any exact nonnegative integers <VAR>scalar</VAR> and <VAR>rank</VAR>,
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(= <VAR>scalar</VAR> (hilbert-coordinates-&gt;integer
- (integer-&gt;hilbert-coordinates <VAR>scalar</VAR> <VAR>rank</VAR>)))
- => #t
-</pre></td></tr></table><P>
-
-<A NAME="IDX1356"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>integer-&gt;hilbert-coordinates</B> <I>scalar rank</I>
-<DD><P>
-
-Returns a list of <VAR>rank</VAR> integer coordinates corresponding to exact
-non-negative integer <VAR>scalar</VAR>. The lists returned by <CODE>integer-&gt;hilbert-coordinates</CODE> for <VAR>scalar</VAR> arguments
-0 and 1 will differ in the first element.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1357"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>hilbert-coordinates-&gt;integer</B> <I>coords</I>
-<DD><P>
-
-Returns an exact non-negative integer corresponding to <VAR>coords</VAR>, a list
-of non-negative integer coordinates.
-</P>
-</DL>
-<P>
-
-<A NAME="Sierpinski Curve"></A>
-<HR SIZE="6">
-<A NAME="SEC221"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC220"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC222"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC219"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 7.2.7.2 Sierpinski Curve </H4>
-<!--docid::SEC221::-->
-<P>
-
-<CODE>(require 'sierpinski)</CODE>
-<A NAME="IDX1358"></A>
-</P>
-<P>
-
-<A NAME="IDX1359"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>make-sierpinski-indexer</B> <I>max-coordinate</I>
-<DD>Returns a procedure (eg hash-function) of 2 numeric arguments which
-preserves <EM>nearness</EM> in its mapping from NxN to N.
-<P>
-
-<VAR>max-coordinate</VAR> is the maximum coordinate (a positive integer) of a
-population of points. The returned procedures is a function that takes
-the x and y coordinates of a point, (non-negative integers) and returns
-an integer corresponding to the relative position of that point along a
-Sierpinski curve. (You can think of this as computing a (pseudo-)
-inverse of the Sierpinski spacefilling curve.)
-</P>
-<P>
-
-Example use: Make an indexer (hash-function) for integer points lying in
-square of integer grid points [0,99]x[0,99]:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define space-key (make-sierpinski-indexer 100))
-</pre></td></tr></table>Now let's compute the index of some points:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(space-key 24 78) => 9206
-(space-key 23 80) => 9172
-</pre></td></tr></table><P>
-
-Note that locations (24, 78) and (23, 80) are near in index and
-therefore, because the Sierpinski spacefilling curve is continuous, we
-know they must also be near in the plane. Nearness in the plane does
-not, however, necessarily correspond to nearness in index, although it
-<EM>tends</EM> to be so.
-</P>
-<P>
-
-Example applications:
-<UL>
-
-<LI>
-Sort points by Sierpinski index to get heuristic solution to
-<EM>travelling salesman problem</EM>. For details of performance,
-see L. Platzman and J. Bartholdi, &quot;Spacefilling curves and the
-Euclidean travelling salesman problem&quot;, JACM 36(4):719--737
-(October 1989) and references therein.
-<P>
-
-</P>
-<LI>
-Use Sierpinski index as key by which to store 2-dimensional data
-in a 1-dimensional data structure (such as a table). Then
-locations that are near each other in 2-d space will tend to
-be near each other in 1-d data structure; and locations that
-are near in 1-d data structure will be near in 2-d space. This
-can significantly speed retrieval from secondary storage because
-contiguous regions in the plane will tend to correspond to
-contiguous regions in secondary storage. (This is a standard
-technique for managing CAD/CAM or geographic data.)
-<P>
-
-</UL>
-</DL>
-<P>
-
-<A NAME="Soundex"></A>
-<HR SIZE="6">
-<A NAME="SEC222"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC221"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC223"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC207"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.2.8 Soundex </H3>
-<!--docid::SEC222::-->
-<P>
-
-<CODE>(require 'soundex)</CODE>
-<A NAME="IDX1360"></A>
-</P>
-<P>
-
-<A NAME="IDX1361"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>soundex</B> <I>name</I>
-<DD>Computes the <EM>soundex</EM> hash of <VAR>name</VAR>. Returns a string of an
-initial letter and up to three digits between 0 and 6. Soundex
-supposedly has the property that names that sound similar in normal
-English pronunciation tend to map to the same key.
-<P>
-
-Soundex was a classic algorithm used for manual filing of personal
-records before the advent of computers. It performs adequately for
-English names but has trouble with other languages.
-</P>
-<P>
-
-See Knuth, Vol. 3 <CITE>Sorting and searching</CITE>, pp 391--2
-</P>
-<P>
-
-To manage unusual inputs, <CODE>soundex</CODE> omits all non-alphabetic
-characters. Consequently, in this implementation:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(soundex &lt;string of blanks&gt;) => &quot;&quot;
-(soundex &quot;&quot;) => &quot;&quot;
-</pre></td></tr></table><P>
-
-Examples from Knuth:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(map soundex '(&quot;Euler&quot; &quot;Gauss&quot; &quot;Hilbert&quot; &quot;Knuth&quot;
- &quot;Lloyd&quot; &quot;Lukasiewicz&quot;))
- => (&quot;E460&quot; &quot;G200&quot; &quot;H416&quot; &quot;K530&quot; &quot;L300&quot; &quot;L222&quot;)
-
-(map soundex '(&quot;Ellery&quot; &quot;Ghosh&quot; &quot;Heilbronn&quot; &quot;Kant&quot;
- &quot;Ladd&quot; &quot;Lissajous&quot;))
- => (&quot;E460&quot; &quot;G200&quot; &quot;H416&quot; &quot;K530&quot; &quot;L300&quot; &quot;L222&quot;)
-</pre></td></tr></table><P>
-
-Some cases in which the algorithm fails (Knuth):
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(map soundex '(&quot;Rogers&quot; &quot;Rodgers&quot;)) => (&quot;R262&quot; &quot;R326&quot;)
-
-(map soundex '(&quot;Sinclair&quot; &quot;St. Clair&quot;)) => (&quot;S524&quot; &quot;S324&quot;)
-
-(map soundex '(&quot;Tchebysheff&quot; &quot;Chebyshev&quot;)) => (&quot;T212&quot; &quot;C121&quot;)
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="String Search"></A>
-<HR SIZE="6">
-<A NAME="SEC223"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC222"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC224"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC207"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.2.9 String Search </H3>
-<!--docid::SEC223::-->
-<P>
-
-<CODE>(require 'string-search)</CODE>
-<A NAME="IDX1362"></A>
-</P>
-<P>
-
-<A NAME="IDX1363"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>string-index</B> <I>string char</I>
-<DD><A NAME="IDX1364"></A>
-<DT><U>Procedure:</U> <B>string-index-ci</B> <I>string char</I>
-<DD>Returns the index of the first occurence of <VAR>char</VAR> within
-<VAR>string</VAR>, or <CODE>#f</CODE> if the <VAR>string</VAR> does not contain a
-character <VAR>char</VAR>.
-</DL>
-<P>
-
-<A NAME="IDX1365"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>string-reverse-index</B> <I>string char</I>
-<DD><A NAME="IDX1366"></A>
-<DT><U>Procedure:</U> <B>string-reverse-index-ci</B> <I>string char</I>
-<DD>Returns the index of the last occurence of <VAR>char</VAR> within
-<VAR>string</VAR>, or <CODE>#f</CODE> if the <VAR>string</VAR> does not contain a
-character <VAR>char</VAR>.
-</DL>
-<P>
-
-<A NAME="IDX1367"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>substring?</B> <I>pattern string</I>
-<DD><A NAME="IDX1368"></A>
-<DT><U>Procedure:</U> <B>substring-ci?</B> <I>pattern string</I>
-<DD>Searches <VAR>string</VAR> to see if some substring of <VAR>string</VAR> is equal
-to <VAR>pattern</VAR>. <CODE>substring?</CODE> returns the index of the first
-character of the first substring of <VAR>string</VAR> that is equal to
-<VAR>pattern</VAR>; or <CODE>#f</CODE> if <VAR>string</VAR> does not contain
-<VAR>pattern</VAR>.
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(substring? &quot;rat&quot; &quot;pirate&quot;) => 2
-(substring? &quot;rat&quot; &quot;outrage&quot;) => #f
-(substring? &quot;&quot; any-string) => 0
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1369"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>find-string-from-port?</B> <I>str in-port max-no-chars</I>
-<DD>Looks for a string <VAR>str</VAR> within the first <VAR>max-no-chars</VAR> chars
-of the input port <VAR>in-port</VAR>.
-<P>
-
-<A NAME="IDX1370"></A>
-<DT><U>Procedure:</U> <B>find-string-from-port?</B> <I>str in-port</I>
-<DD>When called with two arguments, the search span is limited by the end of
-the input stream.
-</P>
-<P>
-
-<A NAME="IDX1371"></A>
-<DT><U>Procedure:</U> <B>find-string-from-port?</B> <I>str in-port char</I>
-<DD>Searches up to the first occurrence of character <VAR>char</VAR> in
-<VAR>str</VAR>.
-</P>
-<P>
-
-<A NAME="IDX1372"></A>
-<DT><U>Procedure:</U> <B>find-string-from-port?</B> <I>str in-port proc</I>
-<DD>Searches up to the first occurrence of the procedure <VAR>proc</VAR>
-returning non-false when called with a character (from <VAR>in-port</VAR>)
-argument.
-</P>
-<P>
-
-When the <VAR>str</VAR> is found, <CODE>find-string-from-port?</CODE> returns the
-number of characters it has read from the port, and the port is set to
-read the first char after that (that is, after the <VAR>str</VAR>) The
-function returns <CODE>#f</CODE> when the <VAR>str</VAR> isn't found.
-</P>
-<P>
-
-<CODE>find-string-from-port?</CODE> reads the port <EM>strictly</EM>
-sequentially, and does not perform any buffering. So
-<CODE>find-string-from-port?</CODE> can be used even if the <VAR>in-port</VAR> is
-open to a pipe or other communication channel.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1373"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>string-subst</B> <I>txt old1 new1 <small>...</small></I>
-<DD>Returns a copy of string <VAR>txt</VAR> with all occurrences of string
-<VAR>old1</VAR> in <VAR>txt</VAR> replaced with <VAR>new1</VAR>; then <VAR>old2</VAR>
-replaced with <VAR>new2</VAR> <small>...</small>. Matches are found from the left.
-Matches do not overlap.
-</DL>
-<P>
-
-<A NAME="IDX1374"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>count-newlines</B> <I>str</I>
-<DD>Returns the number of `<SAMP>#\newline</SAMP>' characters in string <VAR>str</VAR>.
-</DL>
-<P>
-
-<A NAME="Sequence Comparison"></A>
-<HR SIZE="6">
-<A NAME="SEC224"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC223"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC225"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC207"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.2.10 Sequence Comparison </H3>
-<!--docid::SEC224::-->
-<P>
-
-<CODE>(require 'diff)</CODE>
-<A NAME="IDX1375"></A>
-<A NAME="IDX1376"></A>
-</P>
-<P>
-
-<CODE>diff:edit-length</CODE> implements the algorithm:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>S. Wu, E. Myers, U. Manber, and W. Miller,
- &quot;An O(NP) Sequence Comparison Algorithm,&quot;
- Information Processing Letters 35, 6 (1990), 317-323.
- <A HREF="http://www.cs.arizona.edu/people/gene/vita.html">http://www.cs.arizona.edu/people/gene/vita.html</A>
-</pre></td></tr></table>S. Wu, &lt;A HREF=&quot;http://www.cs.arizona.edu/people/gene/vita.html&quot;&gt;
-E. Myers,&lt;/A&gt; U. Manber, and W. Miller,
-&lt;A HREF=&quot;http://www.cs.arizona.edu/people/gene/PAPERS/np_diff.ps&quot;&gt;
-&quot;An O(NP) Sequence Comparison Algorithm,&quot;&lt;/A&gt;
-Information Processing Letters 35, 6 (1990), 317-323.
-<P>
-
-The values returned by <CODE>diff:edit-length</CODE> can be used to gauge
-the degree of match between two sequences.
-</P>
-<P>
-
-Surprisingly, &quot;An O(NP) Sequence Comparison Algorithm&quot; does not
-derive the edit sequence; only the sequence length. Developing this
-linear-space sub-quadratic-time algorithm for computing the edit
-sequence required hundreds of hours of work. I have submitted a
-paper describing the algorithm to the Journal of Computational
-Biology.
-</P>
-<P>
-
-If the items being sequenced are text lines, then the computed
-edit-list is equivalent to the output of the <EM>diff</EM> utility
-<A NAME="IDX1377"></A>
-program. If the items being sequenced are words, then it is like the
-lesser known <EM>spiff</EM> program.
-<A NAME="IDX1378"></A>
-</P>
-<P>
-
-<A NAME="IDX1379"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>diff:longest-common-subsequence</B> <I>array1 array2 =? p-lim</I>
-<DD><P>
-
-<A NAME="IDX1380"></A>
-<DT><U>Function:</U> <B>diff:longest-common-subsequence</B> <I>array1 array2 =?</I>
-<DD><VAR>array1</VAR> and <VAR>array2</VAR> are one-dimensional arrays. The procedure <VAR>=?</VAR> is used
-to compare sequence tokens for equality.
-</P>
-<P>
-
-The non-negative integer <VAR>p-lim</VAR>, if provided, is maximum number of
-deletions of the shorter sequence to allow. <CODE>diff:longest-common-subsequence</CODE> will return <CODE>#f</CODE>
-if more deletions would be necessary.
-</P>
-<P>
-
-<CODE>diff:longest-common-subsequence</CODE> returns a one-dimensional array of length <CODE>(quotient (- (+
-len1 len2) (diff:edit-length <VAR>array1</VAR> <VAR>array2</VAR>)) 2)</CODE> holding the longest sequence
-common to both <VAR>array</VAR>s.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1381"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>diff:edits</B> <I>array1 array2 =? p-lim</I>
-<DD><P>
-
-<A NAME="IDX1382"></A>
-<DT><U>Function:</U> <B>diff:edits</B> <I>array1 array2 =?</I>
-<DD><VAR>array1</VAR> and <VAR>array2</VAR> are one-dimensional arrays. The procedure <VAR>=?</VAR> is used
-to compare sequence tokens for equality.
-</P>
-<P>
-
-The non-negative integer <VAR>p-lim</VAR>, if provided, is maximum number of
-deletions of the shorter sequence to allow. <CODE>diff:edits</CODE> will return <CODE>#f</CODE>
-if more deletions would be necessary.
-</P>
-<P>
-
-<CODE>diff:edits</CODE> returns a vector of length <CODE>(diff:edit-length <VAR>array1</VAR> <VAR>array2</VAR>)</CODE> composed
-of a shortest sequence of edits transformaing <VAR>array1</VAR> to <VAR>array2</VAR>.
-</P>
-<P>
-
-Each edit is an integer:
-</P>
-<DL COMPACT>
-<DT><VAR>k</VAR> &gt; 0
-<DD>Inserts <CODE>(array-ref <VAR>array1</VAR> (+ -1 <VAR>j</VAR>))</CODE> into the sequence.
-<DT><VAR>k</VAR> &lt; 0
-<DD>Deletes <CODE>(array-ref <VAR>array2</VAR> (- -1 <VAR>k</VAR>))</CODE> from the sequence.
-</DL>
-</DL>
-<P>
-
-<A NAME="IDX1383"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>diff:edit-length</B> <I>array1 array2 =? p-lim</I>
-<DD><P>
-
-<A NAME="IDX1384"></A>
-<DT><U>Function:</U> <B>diff:edit-length</B> <I>array1 array2 =?</I>
-<DD><VAR>array1</VAR> and <VAR>array2</VAR> are one-dimensional arrays. The procedure <VAR>=?</VAR> is used
-to compare sequence tokens for equality.
-</P>
-<P>
-
-The non-negative integer <VAR>p-lim</VAR>, if provided, is maximum number of
-deletions of the shorter sequence to allow. <CODE>diff:edit-length</CODE> will return <CODE>#f</CODE>
-if more deletions would be necessary.
-</P>
-<P>
-
-<CODE>diff:edit-length</CODE> returns the length of the shortest sequence of edits transformaing
-<VAR>array1</VAR> to <VAR>array2</VAR>.
-</P>
-</DL>
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(diff:longest-common-subsequence &quot;fghiejcklm&quot; &quot;fgehijkpqrlm&quot; eqv?)
-=> &quot;fghijklm&quot;
-
-(diff:edit-length &quot;fghiejcklm&quot; &quot;fgehijkpqrlm&quot; eqv?)
-=> 6
-
-(diff:edits &quot;fghiejcklm&quot; &quot;fgehijkpqrlm&quot; eqv?)
-=> #As32(3 -5 -7 8 9 10)
- ; e c h p q r
-</pre></td></tr></table><P>
-
-<A NAME="Procedures"></A>
-<HR SIZE="6">
-<A NAME="SEC225"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC224"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC226"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 7.3 Procedures </H2>
-<!--docid::SEC225::-->
-<P>
-
-Anything that doesn't fall neatly into any of the other categories winds
-up here.
-</P>
-<P>
-
-<TABLE BORDER="0" CELLSPACING="0">
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC226">7.3.1 Type Coercion</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'coerce</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC227">7.3.2 String-Case</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'string-case</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC228">7.3.3 String Ports</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'string-port</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC229">7.3.4 Line I/O</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'line-i/o</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC230">7.3.5 Multi-Processing</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'process</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC231">7.3.6 Metric Units</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">Portable manifest types for numeric values.</TD></TR>
-</TABLE>
-<P>
-
-<A NAME="Type Coercion"></A>
-<HR SIZE="6">
-<A NAME="SEC226"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC225"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC227"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC225"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.3.1 Type Coercion </H3>
-<!--docid::SEC226::-->
-<CODE>(require 'coerce)</CODE>
-<A NAME="IDX1385"></A>
-<P>
-
-<A NAME="IDX1386"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>type-of</B> <I>obj</I>
-<DD><P>
-
-Returns a symbol name for the type of <VAR>obj</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1387"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>coerce</B> <I>obj result-type</I>
-<DD><P>
-
-Converts and returns <VAR>obj</VAR> of type <CODE>char</CODE>, <CODE>number</CODE>,
-<CODE>string</CODE>, <CODE>symbol</CODE>, <CODE>list</CODE>, or <CODE>vector</CODE> to
-<VAR>result-type</VAR> (which must be one of these symbols).
-</P>
-</DL>
-<P>
-
-<A NAME="String-Case"></A>
-<HR SIZE="6">
-<A NAME="SEC227"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC226"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC228"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC225"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.3.2 String-Case </H3>
-<!--docid::SEC227::-->
-<P>
-
-<CODE>(require 'string-case)</CODE>
-<A NAME="IDX1388"></A>
-</P>
-<P>
-
-<A NAME="IDX1389"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>string-upcase</B> <I>str</I>
-<DD><A NAME="IDX1390"></A>
-<DT><U>Procedure:</U> <B>string-downcase</B> <I>str</I>
-<DD><A NAME="IDX1391"></A>
-<DT><U>Procedure:</U> <B>string-capitalize</B> <I>str</I>
-<DD>The obvious string conversion routines. These are non-destructive.
-</DL>
-<P>
-
-<A NAME="IDX1392"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>string-upcase!</B> <I>str</I>
-<DD><A NAME="IDX1393"></A>
-<DT><U>Function:</U> <B>string-downcase!</B> <I>str</I>
-<DD><A NAME="IDX1394"></A>
-<DT><U>Function:</U> <B>string-capitalize!</B> <I>str</I>
-<DD>The destructive versions of the functions above.
-</DL>
-<P>
-
-<A NAME="IDX1395"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>string-ci-&gt;symbol</B> <I>str</I>
-<DD>Converts string <VAR>str</VAR> to a symbol having the same case as if the
-symbol had been <CODE>read</CODE>.
-</DL>
-<P>
-
-<A NAME="IDX1396"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>symbol-append</B> <I>obj1 <small>...</small></I>
-<DD>Converts <VAR>obj1</VAR> <small>...</small> to strings, appends them, and converts to a
-symbol which is returned. Strings and numbers are converted to read's
-symbol case; the case of symbol characters is not changed. #f is
-converted to the empty string (symbol).
-</DL>
-<P>
-
-<A NAME="IDX1397"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>StudlyCapsExpand</B> <I>str delimiter</I>
-<DD><A NAME="IDX1398"></A>
-<DT><U>Function:</U> <B>StudlyCapsExpand</B> <I>str</I>
-<DD><VAR>delimiter</VAR> must be a string or character. If absent,
-<VAR>delimiter</VAR> defaults to `<SAMP>-</SAMP>'. <CODE>StudlyCapsExpand</CODE> returns a
-copy of <VAR>str</VAR> where <VAR>delimiter</VAR> is inserted between each
-lower-case character immediately followed by an upper-case character;
-and between two upper-case characters immediately followed by a
-lower-case character.
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(StudlyCapsExpand &quot;aX&quot; &quot; &quot;) => &quot;a X&quot;
-(StudlyCapsExpand &quot;aX&quot; &quot;..&quot;) => &quot;a..X&quot;
-(StudlyCapsExpand &quot;AX&quot;) => &quot;AX&quot;
-(StudlyCapsExpand &quot;Ax&quot;) => &quot;Ax&quot;
-(StudlyCapsExpand &quot;AXLE&quot;) => &quot;AXLE&quot;
-(StudlyCapsExpand &quot;aAXACz&quot;) => &quot;a-AXA-Cz&quot;
-(StudlyCapsExpand &quot;AaXACz&quot;) => &quot;Aa-XA-Cz&quot;
-(StudlyCapsExpand &quot;AAaXACz&quot;) => &quot;A-Aa-XA-Cz&quot;
-(StudlyCapsExpand &quot;AAaXAC&quot;) => &quot;A-Aa-XAC&quot;
-</pre></td></tr></table><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="String Ports"></A>
-<HR SIZE="6">
-<A NAME="SEC228"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC227"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC229"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC225"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.3.3 String Ports </H3>
-<!--docid::SEC228::-->
-<P>
-
-<CODE>(require 'string-port)</CODE>
-<A NAME="IDX1399"></A>
-</P>
-<P>
-
-<A NAME="IDX1400"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>call-with-output-string</B> <I>proc</I>
-<DD><VAR>proc</VAR> must be a procedure of one argument. This procedure calls
-<VAR>proc</VAR> with one argument: a (newly created) output port. When the
-function returns, the string composed of the characters written into the
-port is returned.
-</DL>
-<P>
-
-<A NAME="IDX1401"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>call-with-input-string</B> <I>string proc</I>
-<DD><VAR>proc</VAR> must be a procedure of one argument. This procedure calls
-<VAR>proc</VAR> with one argument: an (newly created) input port from which
-<VAR>string</VAR>'s contents may be read. When <VAR>proc</VAR> returns, the port
-is closed and the value yielded by the procedure <VAR>proc</VAR> is
-returned.
-</DL>
-<P>
-
-<A NAME="Line I/O"></A>
-<HR SIZE="6">
-<A NAME="SEC229"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC228"> &lt; </A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.3.4 Line I/O </H3>
-<!--docid::SEC229::-->
-<P>
-
-<CODE>(require 'line-i/o)</CODE>
-<A NAME="IDX1402"></A>
-</P>
-<P>
-
-<A NAME="IDX1403"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>read-line</B>
-<DD><P>
-
-<A NAME="IDX1404"></A>
-<DT><U>Function:</U> <B>read-line</B> <I>port</I>
-<DD>Returns a string of the characters up to, but not including a
-newline or end of file, updating <VAR>port</VAR> to point to the
-character following the newline. If no characters are available, an
-end of file object is returned. The <VAR>port</VAR> argument may be
-omitted, in which case it defaults to the value returned by
-<CODE>current-input-port</CODE>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1405"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>read-line!</B> <I>string</I>
-<DD><P>
-
-<A NAME="IDX1406"></A>
-<DT><U>Procedure:</U> <B>read-line!</B> <I>string port</I>
-<DD>Fills <VAR>string</VAR> with characters up to, but not including a newline or end
-of file, updating the <VAR>port</VAR> to point to the last character read
-or following the newline if it was read. If no characters are
-available, an end of file object is returned. If a newline or end
-of file was found, the number of characters read is returned.
-Otherwise, <CODE>#f</CODE> is returned. The <VAR>port</VAR> argument may be
-omitted, in which case it defaults to the value returned by
-<CODE>current-input-port</CODE>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1407"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>write-line</B> <I>string</I>
-<DD><P>
-
-<A NAME="IDX1408"></A>
-<DT><U>Function:</U> <B>write-line</B> <I>string port</I>
-<DD>Writes <VAR>string</VAR> followed by a newline to the given <VAR>port</VAR> and returns
-an unspecified value. The <VAR>Port</VAR> argument may be omitted, in
-which case it defaults to the value returned by
-<CODE>current-input-port</CODE>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1409"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>system-&gt;line</B> <I>command tmp</I>
-<DD><P>
-
-<A NAME="IDX1410"></A>
-<DT><U>Function:</U> <B>system-&gt;line</B> <I>command</I>
-<DD><VAR>command</VAR> must be a string. The string <VAR>tmp</VAR>, if supplied, is a path to use as
-a temporary file. <CODE>system-&gt;line</CODE> calls <CODE>system</CODE> with <VAR>command</VAR> as argument,
-redirecting stdout to file <VAR>tmp</VAR>. <CODE>system-&gt;line</CODE> returns a string containing the
-first line of output from <VAR>tmp</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="Multi-Processing"></A>
-<HR SIZE="6">
-<A NAME="SEC230"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC229"> &lt; </A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.3.5 Multi-Processing </H3>
-<!--docid::SEC230::-->
-<P>
-
-<CODE>(require 'process)</CODE>
-<A NAME="IDX1411"></A>
-</P>
-<P>
-
-This module implements asynchronous (non-polled) time-sliced
-multi-processing in the SCM Scheme implementation using procedures
-<CODE>alarm</CODE> and <CODE>alarm-interrupt</CODE>.
-<A NAME="IDX1412"></A>
-<A NAME="IDX1413"></A>
-Until this is ported to another implementation, consider it an example
-of writing schedulers in Scheme.
-</P>
-<P>
-
-<A NAME="IDX1414"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>add-process!</B> <I>proc</I>
-<DD>Adds proc, which must be a procedure (or continuation) capable of
-accepting accepting one argument, to the <CODE>process:queue</CODE>. The
-value returned is unspecified. The argument to <VAR>proc</VAR> should be
-ignored. If <VAR>proc</VAR> returns, the process is killed.
-</DL>
-<P>
-
-<A NAME="IDX1415"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>process:schedule!</B>
-<DD>Saves the current process on <CODE>process:queue</CODE> and runs the next
-process from <CODE>process:queue</CODE>. The value returned is
-unspecified.
-</DL>
-<P>
-
-<A NAME="IDX1416"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>kill-process!</B>
-<DD>Kills the current process and runs the next process from
-<CODE>process:queue</CODE>. If there are no more processes on
-<CODE>process:queue</CODE>, <CODE>(slib:exit)</CODE> is called (see section <A HREF="slib_2.html#SEC17">2.4 System</A>).
-</DL>
-<P>
-
-<A NAME="Metric Units"></A>
-<HR SIZE="6">
-<A NAME="SEC231"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC230"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC232"> &gt; </A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC225"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.3.6 Metric Units </H3>
-<!--docid::SEC231::-->
-<P>
-
-<CODE>(require 'metric-units)</CODE>
-<A NAME="IDX1417"></A>
-</P>
-<P>
-
-<A HREF="http://swissnet.ai.mit.edu/~jaffer/MIXF.html">http://swissnet.ai.mit.edu/~jaffer/MIXF.html</A>
-</P>
-<P>
-
-<EM>Metric Interchange Format</EM> is a character string encoding for
-numerical values and units which:
-</P>
-<P>
-
-<UL>
-<LI>
-is unambiguous in all locales;
-<P>
-
-</P>
-<LI>
-uses only [TOG] &quot;Portable Character Set&quot; characters matching &quot;Basic
-Latin&quot; characters in Plane 0 of the Universal Character Set [UCS];
-<P>
-
-</P>
-<LI>
-is transparent to [UTF-7] and [UTF-8] UCS transformation formats;
-<P>
-
-</P>
-<LI>
-is human readable and writable;
-<P>
-
-</P>
-<LI>
-is machine readable and writable;
-<P>
-
-</P>
-<LI>
-incorporates SI prefixes and units;
-<P>
-
-</P>
-<LI>
-incorporates [ISO 6093] numbers; and
-<P>
-
-</P>
-<LI>
-incorporates [IEC 60027-2] binary prefixes.
-</UL>
-<P>
-
-In the expression for the value of a quantity, the unit symbol is placed
-after the numerical value. A dot (PERIOD, `<SAMP>.</SAMP>') is placed between
-the numerical value and the unit symbol.
-</P>
-<P>
-
-Within a compound unit, each of the base and derived symbols can
-optionally have an attached SI prefix.
-</P>
-<P>
-
-Unit symbols formed from other unit symbols by multiplication are
-indicated by means of a dot (PERIOD, `<SAMP>.</SAMP>') placed between them.
-</P>
-<P>
-
-Unit symbols formed from other unit symbols by division are indicated by
-means of a SOLIDUS (`<SAMP>/</SAMP>') or negative exponents. The SOLIDUS must
-not be repeated in the same compound unit unless contained within a
-parenthesized subexpression.
-</P>
-<P>
-
-The grouping formed by a prefix symbol attached to a unit symbol
-constitutes a new inseparable symbol (forming a multiple or submultiple
-of the unit concerned) which can be raised to a positive or negative
-power and which can be combined with other unit symbols to form compound
-unit symbols.
-</P>
-<P>
-
-The grouping formed by surrounding compound unit symbols with
-parentheses (`<SAMP>(</SAMP>' and `<SAMP>)</SAMP>') constitutes a new inseparable symbol
-which can be raised to a positive or negative power and which can be
-combined with other unit symbols to form compound unit symbols.
-</P>
-<P>
-
-Compound prefix symbols, that is, prefix symbols formed by the
-juxtaposition of two or more prefix symbols, are not permitted.
-</P>
-<P>
-
-Prefix symbols are not used with the time-related unit symbols min
-(minute), h (hour), d (day). No prefix symbol may be used with dB
-(decibel). Only submultiple prefix symbols may be used with the unit
-symbols L (liter), Np (neper), o (degree), oC (degree Celsius), rad
-(radian), and sr (steradian). Submultiple prefix symbols may not be
-used with the unit symbols t (metric ton), r (revolution), or Bd (baud).
-</P>
-<P>
-
-A unit exponent follows the unit, separated by a CIRCUMFLEX (`<SAMP>^</SAMP>').
-Exponents may be positive or negative. Fractional exponents must be
-parenthesized.
-</P>
-<P>
-
-<HR SIZE="6">
-<A NAME="SEC232"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 7.3.6.1 SI Prefixes </H4>
-<!--docid::SEC232::-->
-<TABLE><tr><td>&nbsp;</td><td class=example><pre> Factor Name Symbol | Factor Name Symbol
- ====== ==== ====== | ====== ==== ======
- 1e24 yotta Y | 1e-1 deci d
- 1e21 zetta Z | 1e-2 centi c
- 1e18 exa E | 1e-3 milli m
- 1e15 peta P | 1e-6 micro u
- 1e12 tera T | 1e-9 nano n
- 1e9 giga G | 1e-12 pico p
- 1e6 mega M | 1e-15 femto f
- 1e3 kilo k | 1e-18 atto a
- 1e2 hecto h | 1e-21 zepto z
- 1e1 deka da | 1e-24 yocto y
-</pre></td></tr></table><P>
-
-<HR SIZE="6">
-<A NAME="SEC233"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC232"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC234"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC225"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 7.3.6.2 Binary Prefixes </H4>
-<!--docid::SEC233::-->
-<P>
-
-These binary prefixes are valid only with the units B (byte) and bit.
-However, decimal prefixes can also be used with bit; and decimal
-multiple (not submultiple) prefixes can also be used with B (byte).
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre> Factor (power-of-2) Name Symbol
- ====== ============ ==== ======
- 1.152921504606846976e18 (2^60) exbi Ei
- 1.125899906842624e15 (2^50) pebi Pi
- 1.099511627776e12 (2^40) tebi Ti
- 1.073741824e9 (2^30) gibi Gi
- 1.048576e6 (2^20) mebi Mi
- 1.024e3 (2^10) kibi Ki
-</pre></td></tr></table><P>
-
-<HR SIZE="6">
-<A NAME="SEC234"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC233"> &lt; </A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC225"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 7.3.6.3 Unit Symbols </H4>
-<!--docid::SEC234::-->
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre> Type of Quantity Name Symbol Equivalent
- ================ ==== ====== ==========
-time second s
-time minute min = 60.s
-time hour h = 60.min
-time day d = 24.h
-frequency hertz Hz s^-1
-signaling rate baud Bd s^-1
-length meter m
-volume liter L dm^3
-plane angle radian rad
-solid angle steradian sr rad^2
-plane angle revolution * r = 6.283185307179586.rad
-plane angle degree * o = 2.777777777777778e-3.r
-information capacity bit bit
-information capacity byte, octet B = 8.bit
-mass gram g
-mass ton t Mg
-mass unified atomic mass unit u = 1.66053873e-27.kg
-amount of substance mole mol
-catalytic activity katal kat mol/s
-thermodynamic temperature kelvin K
-centigrade temperature degree Celsius oC
-luminous intensity candela cd
-luminous flux lumen lm cd.sr
-illuminance lux lx lm/m^2
-force newton N m.kg.s^-2
-pressure, stress pascal Pa N/m^2
-energy, work, heat joule J N.m
-energy electronvolt eV = 1.602176462e-19.J
-power, radiant flux watt W J/s
-logarithm of power ratio neper Np
-logarithm of power ratio decibel * dB = 0.1151293.Np
-electric current ampere A
-electric charge coulomb C s.A
-electric potential, EMF volt V W/A
-capacitance farad F C/V
-electric resistance ohm Ohm V/A
-electric conductance siemens S A/V
-magnetic flux weber Wb V.s
-magnetic flux density tesla T Wb/m^2
-inductance henry H Wb/A
-radionuclide activity becquerel Bq s^-1
-absorbed dose energy gray Gy m^2.s^-2
-dose equivalent sievert Sv m^2.s^-2
-</pre></td></tr></table><P>
-
-* The formulas are:
-</P>
-<P>
-
-<UL>
-<LI>
-r/rad = 8 * atan(1)
-<LI>
-o/r = 1 / 360
-<LI>
-db/Np = ln(10) / 20
-</UL>
-<P>
-
-<A NAME="IDX1418"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>si:conversion-factor</B> <I>to-unit from-unit</I>
-<DD>If the strings <VAR>from-unit</VAR> and <VAR>to-unit</VAR> express valid unit
-expressions for quantities of the same unit-dimensions, then the value
-returned by <CODE>si:conversion-factor</CODE> will be such that multiplying a
-numerical value expressed in <VAR>from-unit</VAR>s by the returned conversion
-factor yields the numerical value expressed in <VAR>to-unit</VAR>s.
-<P>
-
-Otherwise, <CODE>si:conversion-factor</CODE> returns:
-</P>
-<P>
-
-</P>
-<DL COMPACT>
-<DT>-3
-<DD>if neither <VAR>from-unit</VAR> nor <VAR>to-unit</VAR> is a syntactically valid
-unit.
-<DT>-2
-<DD>if <VAR>from-unit</VAR> is not a syntactically valid unit.
-<DT>-1
-<DD>if <VAR>to-unit</VAR> is not a syntactically valid unit.
-<DT>0
-<DD>if linear conversion (by a factor) is not possible.
-</DL>
-<P>
-
-</P>
-</DL>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(si:conversion-factor &quot;km/s&quot; &quot;m/s&quot; ) => 0.001
-(si:conversion-factor &quot;N&quot; &quot;m/s&quot; ) => 0
-(si:conversion-factor &quot;moC&quot; &quot;oC&quot; ) => 1000
-(si:conversion-factor &quot;mK&quot; &quot;oC&quot; ) => 0
-(si:conversion-factor &quot;rad&quot; &quot;o&quot; ) => 0.0174533
-(si:conversion-factor &quot;K&quot; &quot;o&quot; ) => 0
-(si:conversion-factor &quot;K&quot; &quot;K&quot; ) => 1
-(si:conversion-factor &quot;oK&quot; &quot;oK&quot; ) => -3
-(si:conversion-factor &quot;&quot; &quot;s/s&quot; ) => 1
-(si:conversion-factor &quot;km/h&quot; &quot;mph&quot; ) => -2
-</pre></td></tr></table><P>
-
-<A NAME="Standards Support"></A>
-<HR SIZE="6">
-<A NAME="SEC235"></A>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 7.4 Standards Support </H2>
-<!--docid::SEC235::-->
-<P>
-
-<TABLE BORDER="0" CELLSPACING="0">
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC236">7.4.1 RnRS</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">Revised Reports on Scheme</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC237">7.4.2 With-File</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'with-file</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC238">7.4.3 Transcripts</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'transcript</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC239">7.4.4 Rev2 Procedures</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'rev2-procedures</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC240">7.4.5 Rev4 Optional Procedures</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'rev4-optional-procedures</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC241">7.4.6 Multi-argument / and -</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'multiarg/and-</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC242">7.4.7 Multi-argument Apply</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'multiarg-apply</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC243">7.4.8 Rationalize</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'rationalize</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC244">7.4.9 Promises</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'delay</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC245">7.4.10 Dynamic-Wind</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'dynamic-wind</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC246">7.4.11 Eval</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'eval</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC247">7.4.12 Values</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'values</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC248">7.4.13 SRFI</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'http://srfi.schemers.org/srfi-0/srfi-0.html</TD></TR>
-</TABLE>
-<P>
-
-<A NAME="RnRS"></A>
-<HR SIZE="6">
-<A NAME="SEC236"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC235"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC237"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC235"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.4.1 RnRS </H3>
-<!--docid::SEC236::-->
-<P>
-
-The <CODE>r2rs</CODE>, <CODE>r3rs</CODE>, <CODE>r4rs</CODE>, and <CODE>r5rs</CODE> features
-attempt to provide procedures and macros to bring a Scheme
-implementation to the desired version of Scheme.
-</P>
-<P>
-
-<A NAME="IDX1419"></A>
-</P>
-<DL>
-<DT><U>Feature:</U> <B>r2rs</B>
-<DD><A NAME="IDX1420"></A>
-Requires features implementing procedures and optional procedures
-specified by <CITE>Revised^2 Report on the Algorithmic Language Scheme</CITE>;
-namely <CODE>rev3-procedures</CODE> and <CODE>rev2-procedures</CODE>.
-</DL>
-<P>
-
-<A NAME="IDX1421"></A>
-</P>
-<DL>
-<DT><U>Feature:</U> <B>r3rs</B>
-<DD><A NAME="IDX1422"></A>
-Requires features implementing procedures and optional procedures
-specified by <CITE>Revised^3 Report on the Algorithmic Language Scheme</CITE>;
-namely <CODE>rev3-procedures</CODE>.
-<P>
-
-<EM>Note:</EM> SLIB already mandates the <CODE>r3rs</CODE> procedures which can
-be portably implemented in <CODE>r4rs</CODE> implementations.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1423"></A>
-</P>
-<DL>
-<DT><U>Feature:</U> <B>r4rs</B>
-<DD><A NAME="IDX1424"></A>
-Requires features implementing procedures and optional procedures
-specified by <CITE>Revised^4 Report on the Algorithmic Language Scheme</CITE>;
-namely <CODE>rev4-optional-procedures</CODE>.
-</DL>
-<P>
-
-<A NAME="IDX1425"></A>
-</P>
-<DL>
-<DT><U>Feature:</U> <B>r5rs</B>
-<DD><A NAME="IDX1426"></A>
-Requires features implementing procedures and optional procedures
-specified by <CITE>Revised^5 Report on the Algorithmic Language Scheme</CITE>;
-namely <CODE>values</CODE>, <CODE>macro</CODE>, and <CODE>eval</CODE>.
-</DL>
-<P>
-
-<A NAME="With-File"></A>
-<HR SIZE="6">
-<A NAME="SEC237"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC236"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC238"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC235"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.4.2 With-File </H3>
-<!--docid::SEC237::-->
-<P>
-
-<CODE>(require 'with-file)</CODE>
-<A NAME="IDX1427"></A>
-</P>
-<P>
-
-<A NAME="IDX1428"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>with-input-from-file</B> <I>file thunk</I>
-<DD><A NAME="IDX1429"></A>
-<DT><U>Function:</U> <B>with-output-to-file</B> <I>file thunk</I>
-<DD>Description found in R4RS.
-</DL>
-<P>
-
-<A NAME="Transcripts"></A>
-<HR SIZE="6">
-<A NAME="SEC238"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC237"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC239"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC235"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.4.3 Transcripts </H3>
-<!--docid::SEC238::-->
-<P>
-
-<CODE>(require 'transcript)</CODE>
-<A NAME="IDX1430"></A>
-</P>
-<P>
-
-<A NAME="IDX1431"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>transcript-on</B> <I>filename</I>
-<DD><A NAME="IDX1432"></A>
-<DT><U>Function:</U> <B>transcript-off</B> <I>filename</I>
-<DD>Redefines <CODE>read-char</CODE>, <CODE>read</CODE>, <CODE>write-char</CODE>,
-<CODE>write</CODE>, <CODE>display</CODE>, and <CODE>newline</CODE>.
-</DL>
-<P>
-
-<A NAME="Rev2 Procedures"></A>
-<HR SIZE="6">
-<A NAME="SEC239"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC238"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC240"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC235"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.4.4 Rev2 Procedures </H3>
-<!--docid::SEC239::-->
-<P>
-
-<CODE>(require 'rev2-procedures)</CODE>
-<A NAME="IDX1433"></A>
-</P>
-<P>
-
-The procedures below were specified in the <CITE>Revised^2 Report on
-Scheme</CITE>. <STRONG>N.B.</STRONG>: The symbols <CODE>1+</CODE> and <CODE>-1+</CODE> are not
-<CITE>R4RS</CITE> syntax. Scheme-&gt;C, for instance, chokes on this
-module.
-</P>
-<P>
-
-<A NAME="IDX1434"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>substring-move-left!</B> <I>string1 start1 end1 string2 start2</I>
-<DD><A NAME="IDX1435"></A>
-<DT><U>Procedure:</U> <B>substring-move-right!</B> <I>string1 start1 end1 string2 start2</I>
-<DD><VAR>string1</VAR> and <VAR>string2</VAR> must be a strings, and <VAR>start1</VAR>,
-<VAR>start2</VAR> and <VAR>end1</VAR> must be exact integers satisfying
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=display><pre style="font-family: serif">0 &lt;= <VAR>start1</VAR> &lt;= <VAR>end1</VAR> &lt;= (string-length <VAR>string1</VAR>)
-0 &lt;= <VAR>start2</VAR> &lt;= <VAR>end1</VAR> - <VAR>start1</VAR> + <VAR>start2</VAR> &lt;= (string-length <VAR>string2</VAR>)
-</pre></td></tr></table><P>
-
-<CODE>substring-move-left!</CODE> and <CODE>substring-move-right!</CODE> store
-characters of <VAR>string1</VAR> beginning with index <VAR>start1</VAR>
-(inclusive) and ending with index <VAR>end1</VAR> (exclusive) into
-<VAR>string2</VAR> beginning with index <VAR>start2</VAR> (inclusive).
-</P>
-<P>
-
-<CODE>substring-move-left!</CODE> stores characters in time order of
-increasing indices. <CODE>substring-move-right!</CODE> stores characters in
-time order of increasing indeces.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1436"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>substring-fill!</B> <I>string start end char</I>
-<DD>Fills the elements <VAR>start</VAR>--<VAR>end</VAR> of <VAR>string</VAR> with the
-character <VAR>char</VAR>.
-</DL>
-<P>
-
-<A NAME="IDX1437"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>string-null?</B> <I>str</I>
-<DD>== <CODE>(= 0 (string-length <VAR>str</VAR>))</CODE>
-</DL>
-<P>
-
-<A NAME="IDX1438"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>append!</B> <I>pair1 <small>...</small></I>
-<DD>Destructively appends its arguments. Equivalent to <CODE>nconc</CODE>.
-</DL>
-<P>
-
-<A NAME="IDX1439"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>1+</B> <I>n</I>
-<DD>Adds 1 to <VAR>n</VAR>.
-</DL>
-<P>
-
-<A NAME="IDX1440"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>-1+</B> <I>n</I>
-<DD>Subtracts 1 from <VAR>n</VAR>.
-</DL>
-<P>
-
-<A NAME="IDX1441"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>&lt;?</B>
-<DD><A NAME="IDX1442"></A>
-<DT><U>Function:</U> <B>&lt;=?</B>
-<DD><A NAME="IDX1443"></A>
-<DT><U>Function:</U> <B>=?</B>
-<DD><A NAME="IDX1444"></A>
-<DT><U>Function:</U> <B>&gt;?</B>
-<DD><A NAME="IDX1445"></A>
-<DT><U>Function:</U> <B>&gt;=?</B>
-<DD>These are equivalent to the procedures of the same name but without the
-trailing `<SAMP>?</SAMP>'.
-</DL>
-<P>
-
-<A NAME="Rev4 Optional Procedures"></A>
-<HR SIZE="6">
-<A NAME="SEC240"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC239"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC241"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC235"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.4.5 Rev4 Optional Procedures </H3>
-<!--docid::SEC240::-->
-<P>
-
-<CODE>(require 'rev4-optional-procedures)</CODE>
-<A NAME="IDX1446"></A>
-</P>
-<P>
-
-For the specification of these optional procedures,
-See section `Standard procedures' in <CITE>Revised(4) Scheme</CITE>.
-</P>
-<P>
-
-<A NAME="IDX1447"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>list-tail</B> <I>l p</I>
-<DD></DL>
-<P>
-
-<A NAME="IDX1448"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>string-&gt;list</B> <I>s</I>
-<DD></DL>
-<P>
-
-<A NAME="IDX1449"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>list-&gt;string</B> <I>l</I>
-<DD></DL>
-<P>
-
-<A NAME="IDX1450"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>string-copy</B>
-<DD></DL>
-<P>
-
-<A NAME="IDX1451"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>string-fill!</B> <I>s obj</I>
-<DD></DL>
-<P>
-
-<A NAME="IDX1452"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>list-&gt;vector</B> <I>l</I>
-<DD></DL>
-<P>
-
-<A NAME="IDX1453"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>vector-&gt;list</B> <I>s</I>
-<DD></DL>
-<P>
-
-<A NAME="IDX1454"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>vector-fill!</B> <I>s obj</I>
-<DD></DL>
-<P>
-
-<A NAME="Multi-argument / and -"></A>
-<HR SIZE="6">
-<A NAME="SEC241"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC240"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC242"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC235"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.4.6 Multi-argument / and - </H3>
-<!--docid::SEC241::-->
-<P>
-
-<CODE>(require 'multiarg/and-)</CODE>
-<A NAME="IDX1455"></A>
-</P>
-<P>
-
-For the specification of these optional forms, See section `Numerical operations' in <CITE>Revised(4) Scheme</CITE>.
-</P>
-<P>
-
-<A NAME="IDX1456"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>/</B> <I>dividend divisor1 <small>...</small></I>
-<DD></DL>
-<P>
-
-<A NAME="IDX1457"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>-</B> <I>minuend subtrahend1 <small>...</small></I>
-<DD></DL>
-<P>
-
-<A NAME="Multi-argument Apply"></A>
-<HR SIZE="6">
-<A NAME="SEC242"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC241"> &lt; </A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.4.7 Multi-argument Apply </H3>
-<!--docid::SEC242::-->
-<P>
-
-<CODE>(require 'multiarg-apply)</CODE>
-<A NAME="IDX1458"></A>
-</P>
-<P>
-
-For the specification of this optional form,
-See section `Control features' in <CITE>Revised(4) Scheme</CITE>.
-</P>
-<P>
-
-<A NAME="IDX1459"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>apply</B> <I>proc arg1 <small>...</small></I>
-<DD></DL>
-<P>
-
-<A NAME="Rationalize"></A>
-<HR SIZE="6">
-<A NAME="SEC243"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC242"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC244"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC235"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.4.8 Rationalize </H3>
-<!--docid::SEC243::-->
-<P>
-
-<CODE>(require 'rationalize)</CODE>
-<A NAME="IDX1460"></A>
-</P>
-<P>
-
-<A NAME="IDX1461"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>rationalize</B> <I>x e</I>
-<DD><P>
-
-Computes the correct result for exact arguments (provided the
-implementation supports exact rational numbers of unlimited precision);
-and produces a reasonable answer for inexact arguments when inexact
-arithmetic is implemented using floating-point.
-</P>
-<P>
-
-</P>
-</DL>
-<CODE>Rationalize</CODE> has limited use in implementations lacking exact
-(non-integer) rational numbers. The following procedures return a list
-of the numerator and denominator.
-<P>
-
-<A NAME="IDX1462"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>find-ratio</B> <I>x e</I>
-<DD><P>
-
-<CODE>find-ratio</CODE> returns the list of the <EM>simplest</EM>
-numerator and denominator whose quotient differs from <VAR>x</VAR> by no more
-than <VAR>e</VAR>.
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=display><pre style="font-family: serif"><TT>(find-ratio 3/97 .0001) => (3 97)
-(find-ratio 3/97 .001) => (1 32)
-</TT>
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1463"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>find-ratio-between</B> <I>x y</I>
-<DD><P>
-
-<CODE>find-ratio-between</CODE> returns the list of the <EM>simplest</EM>
-numerator and denominator between <VAR>x</VAR> and <VAR>y</VAR>.
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=display><pre style="font-family: serif"><TT>(find-ratio-between 2/7 3/5) => (1 2)
-(find-ratio-between -3/5 -2/7) => (-1 2)
-</TT>
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="Promises"></A>
-<HR SIZE="6">
-<A NAME="SEC244"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC243"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC245"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC235"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.4.9 Promises </H3>
-<!--docid::SEC244::-->
-<P>
-
-<CODE>(require 'promise)</CODE>
-<A NAME="IDX1464"></A>
-</P>
-<P>
-
-<A NAME="IDX1465"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>make-promise</B> <I>proc</I>
-<DD></DL>
-<P>
-
-<A NAME="IDX1466"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>force</B> <I>promise</I>
-<DD></DL>
-<P>
-
-<CODE>(require 'delay)</CODE> provides <CODE>force</CODE> and <CODE>delay</CODE>:
-</P>
-<P>
-
-<A NAME="IDX1467"></A>
-</P>
-<DL>
-<DT><U>Macro:</U> <B>delay</B> <I>obj</I>
-<DD>Change occurrences of <CODE>(delay <VAR>expression</VAR>)</CODE> to
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(make-promise (lambda () <VAR>expression</VAR>))
-</pre></td></tr></table><P>
-
-</P>
-</DL>
-<P>
-
-(see section `Control features' in <CITE>Revised(4) Scheme</CITE>).
-</P>
-<P>
-
-<A NAME="Dynamic-Wind"></A>
-<HR SIZE="6">
-<A NAME="SEC245"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC244"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC246"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC235"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.4.10 Dynamic-Wind </H3>
-<!--docid::SEC245::-->
-<P>
-
-<CODE>(require 'dynamic-wind)</CODE>
-<A NAME="IDX1468"></A>
-</P>
-<P>
-
-This facility is a generalization of Common LISP <CODE>unwind-protect</CODE>,
-designed to take into account the fact that continuations produced by
-<CODE>call-with-current-continuation</CODE> may be reentered.
-</P>
-<P>
-
-<A NAME="IDX1469"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>dynamic-wind</B> <I>thunk1 thunk2 thunk3</I>
-<DD>The arguments <VAR>thunk1</VAR>, <VAR>thunk2</VAR>, and <VAR>thunk3</VAR> must all be
-procedures of no arguments (thunks).
-<P>
-
-<CODE>dynamic-wind</CODE> calls <VAR>thunk1</VAR>, <VAR>thunk2</VAR>, and then
-<VAR>thunk3</VAR>. The value returned by <VAR>thunk2</VAR> is returned as the
-result of <CODE>dynamic-wind</CODE>. <VAR>thunk3</VAR> is also called just before
-control leaves the dynamic context of <VAR>thunk2</VAR> by calling a
-continuation created outside that context. Furthermore, <VAR>thunk1</VAR> is
-called before reentering the dynamic context of <VAR>thunk2</VAR> by calling
-a continuation created inside that context. (Control is inside the
-context of <VAR>thunk2</VAR> if <VAR>thunk2</VAR> is on the current return stack).
-</P>
-<P>
-
-<STRONG>Warning:</STRONG> There is no provision for dealing with errors or
-interrupts. If an error or interrupt occurs while using
-<CODE>dynamic-wind</CODE>, the dynamic environment will be that in effect at
-the time of the error or interrupt.
-</P>
-</DL>
-<P>
-
-<A NAME="Eval"></A>
-<HR SIZE="6">
-<A NAME="SEC246"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC245"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC247"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC235"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.4.11 Eval </H3>
-<!--docid::SEC246::-->
-<P>
-
-<CODE>(require 'eval)</CODE>
-<A NAME="IDX1470"></A>
-</P>
-<P>
-
-<A NAME="IDX1471"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>eval</B> <I>expression environment-specifier</I>
-<DD><P>
-
-Evaluates <VAR>expression</VAR> in the specified environment and returns its
-value. <VAR>Expression</VAR> must be a valid Scheme expression represented
-as data, and <VAR>environment-specifier</VAR> must be a value returned by one
-of the three procedures described below. Implementations may extend
-<CODE>eval</CODE> to allow non-expression programs (definitions) as the first
-argument and to allow other values as environments, with the restriction
-that <CODE>eval</CODE> is not allowed to create new bindings in the
-environments associated with <CODE>null-environment</CODE> or
-<CODE>scheme-report-environment</CODE>.
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(eval '(* 7 3) (scheme-report-environment 5))
- => 21
-
-(let ((f (eval '(lambda (f x) (f x x))
- (null-environment))))
- (f + 10))
- => 20
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1472"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>scheme-report-environment</B> <I>version</I>
-<DD><A NAME="IDX1473"></A>
-<DT><U>Function:</U> <B>null-environment</B> <I>version</I>
-<DD><A NAME="IDX1474"></A>
-<DT><U>Function:</U> <B>null-environment</B>
-<DD><P>
-
-<VAR>Version</VAR> must be an exact non-negative integer <VAR>n</VAR>
-corresponding to a version of one of the Revised^<VAR>n</VAR> Reports on
-Scheme. <CODE>Scheme-report-environment</CODE> returns a specifier for an
-environment that contains the set of bindings specified in the
-corresponding report that the implementation supports.
-<CODE>Null-environment</CODE> returns a specifier for an environment that
-contains only the (syntactic) bindings for all the syntactic keywords
-defined in the given version of the report.
-</P>
-<P>
-
-Not all versions may be available in all implementations at all times.
-However, an implementation that conforms to version <VAR>n</VAR> of the
-Revised^<VAR>n</VAR> Reports on Scheme must accept version <VAR>n</VAR>. An error
-is signalled if the specified version is not available.
-</P>
-<P>
-
-The effect of assigning (through the use of <CODE>eval</CODE>) a variable
-bound in a <CODE>scheme-report-environment</CODE> (for example <CODE>car</CODE>) is
-unspecified. Thus the environments specified by
-<CODE>scheme-report-environment</CODE> may be immutable.
-</P>
-<P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1475"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>interaction-environment</B>
-<DD><P>
-
-This optional procedure returns a specifier for the environment that
-contains implementation-defined bindings, typically a superset of those
-listed in the report. The intent is that this procedure will return the
-environment in which the implementation would evaluate expressions
-dynamically typed by the user.
-</P>
-</DL>
-<P>
-
-Here are some more <CODE>eval</CODE> examples:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(require 'eval)
-=> #&lt;unspecified&gt;
-(define car 'volvo)
-=> #&lt;unspecified&gt;
-car
-=> volvo
-(eval 'car (interaction-environment))
-=> volvo
-(eval 'car (scheme-report-environment 5))
-=> #&lt;primitive-procedure car&gt;
-(eval '(eval 'car (interaction-environment))
- (scheme-report-environment 5))
-=> volvo
-(eval '(eval '(set! car 'buick) (interaction-environment))
- (scheme-report-environment 5))
-=> #&lt;unspecified&gt;
-car
-=> buick
-(eval 'car (scheme-report-environment 5))
-=> #&lt;primitive-procedure car&gt;
-(eval '(eval 'car (interaction-environment))
- (scheme-report-environment 5))
-=> buick
-</pre></td></tr></table><P>
-
-<A NAME="Values"></A>
-<HR SIZE="6">
-<A NAME="SEC247"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC246"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC248"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC235"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.4.12 Values </H3>
-<!--docid::SEC247::-->
-<P>
-
-<CODE>(require 'values)</CODE>
-<A NAME="IDX1476"></A>
-</P>
-<P>
-
-<A NAME="IDX1477"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>values</B> <I>obj <small>...</small></I>
-<DD><CODE>values</CODE> takes any number of arguments, and passes (returns) them
-to its continuation.
-</DL>
-<P>
-
-<A NAME="IDX1478"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>call-with-values</B> <I>thunk proc</I>
-<DD><VAR>thunk</VAR> must be a procedure of no arguments, and <VAR>proc</VAR> must be
-a procedure. <CODE>call-with-values</CODE> calls <VAR>thunk</VAR> with a
-continuation that, when passed some values, calls <VAR>proc</VAR> with those
-values as arguments.
-<P>
-
-Except for continuations created by the <CODE>call-with-values</CODE>
-procedure, all continuations take exactly one value, as now; the effect
-of passing no value or more than one value to continuations that were
-not created by the <CODE>call-with-values</CODE> procedure is
-unspecified.
-</P>
-</DL>
-<P>
-
-<A NAME="SRFI"></A>
-<HR SIZE="6">
-<A NAME="SEC248"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC247"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC249"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC235"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.4.13 SRFI </H3>
-<!--docid::SEC248::-->
-<P>
-
-<CODE>(require 'srfi)</CODE>
-<A NAME="IDX1479"></A>
-</P>
-<P>
-
-Implements <EM>Scheme Request For Implementation</EM> (SRFI) as
-<A NAME="IDX1480"></A>
-described at <A HREF="http://srfi.schemers.org/">http://srfi.schemers.org/</A>
-</P>
-<P>
-
-The Copyright terms of each SRFI states:
-<BLOCKQUOTE>
-&quot;However, this document itself may not be modified in any way, ...&quot;
-</BLOCKQUOTE>
-<P>
-
-Therefore, the specification of SRFI constructs must not be
-quoted without including the complete SRFI document containing
-discussion and a sample implementation program.
-</P>
-<P>
-
-<A NAME="IDX1481"></A>
-</P>
-<DL>
-<DT><U>Macro:</U> <B>cond-expand</B> <I>&lt;clause1&gt; &lt;clause2&gt; <small>...</small></I>
-<DD><P>
-
-<EM>Syntax:</EM>
-Each &lt;clause&gt; should be of the form
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=display><pre style="font-family: serif"><TT>(&lt;feature&gt; &lt;expression1&gt; <small>...</small>)</TT>
-</pre></td></tr></table><P>
-
-where &lt;feature&gt; is a boolean expression composed of symbols and
-`and', `or', and `not' of boolean expressions. The last &lt;clause&gt;
-may be an &quot;else clause,&quot; which has the form
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=display><pre style="font-family: serif"><TT>(else &lt;expression1&gt; &lt;expression2&gt; <small>...</small>).</TT>
-</pre></td></tr></table><P>
-
-The first clause whose feature expression is satisfied is expanded.
-If no feature expression is satisfied and there is no else clause, an
-error is signaled.
-</P>
-<P>
-
-SLIB <CODE>cond-expand</CODE> is an extension of SRFI-0,
-<A HREF="http://srfi.schemers.org/srfi-0/srfi-0.html">http://srfi.schemers.org/srfi-0/srfi-0.html</A>.
-</P>
-</DL>
-<P>
-
-<TABLE BORDER="0" CELLSPACING="0">
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC249">7.4.13.1 SRFI-1</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">list-processing</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC260">7.4.13.2 SRFI-2</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">guarded LET* special form</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC261">7.4.13.3 SRFI-8</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">Binding to multiple values</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC262">7.4.13.4 SRFI-9</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">Defining Record Types</TD></TR>
-</TABLE>
-<P>
-
-<A NAME="SRFI-1"></A>
-<HR SIZE="6">
-<A NAME="SEC249"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC248"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC260"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC248"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 7.4.13.1 SRFI-1 </H4>
-<!--docid::SEC249::-->
-<P>
-
-<CODE>(require 'srfi-1)</CODE>
-<A NAME="IDX1482"></A>
-</P>
-<P>
-
-Implements the <EM>SRFI-1</EM> <EM>list-processing library</EM> as described
-<A NAME="IDX1483"></A>
-<A NAME="IDX1484"></A>
-at <A HREF="http://srfi.schemers.org/srfi-1/srfi-1.html">http://srfi.schemers.org/srfi-1/srfi-1.html</A>
-</P>
-<P>
-
-<A NAME="SEC250"></A>
-<H3> Constructors </H3>
-<!--docid::SEC250::-->
-<P>
-
-<A NAME="IDX1485"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>xcons</B> <I>d a</I>
-<DD><CODE>(define (xcons d a) (cons a d))</CODE>.
-</DL>
-<P>
-
-<A NAME="IDX1486"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>list-tabulate</B> <I>len proc</I>
-<DD>Returns a list of length <VAR>len</VAR>. Element <VAR>i</VAR> is <CODE>(<VAR>proc</VAR>
-<VAR>i</VAR>)</CODE> for 0 &lt;= <VAR>i</VAR> &lt; <VAR>len</VAR>.
-</DL>
-<P>
-
-<A NAME="IDX1487"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>cons*</B> <I>obj1 obj2</I>
-<DD><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1488"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>list-copy</B> <I>flist</I>
-<DD><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1489"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>iota</B> <I>count start step</I>
-<DD><P>
-
-<A NAME="IDX1490"></A>
-<DT><U>Function:</U> <B>iota</B> <I>count start</I>
-<DD></P>
-<P>
-
-<A NAME="IDX1491"></A>
-<DT><U>Function:</U> <B>iota</B> <I>count</I>
-<DD>Returns a list of <VAR>count</VAR> numbers: (<VAR>start</VAR>, <VAR>start</VAR>+<VAR>step</VAR>, <small>...</small>, <VAR>start</VAR>+(<VAR>count</VAR>-1)*<VAR>step</VAR>).
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1492"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>circular-list</B> <I>obj1 obj2 <small>...</small></I>
-<DD><P>
-
-Returns a circular list of <VAR>obj1</VAR>, <VAR>obj2</VAR>, <small>...</small>.
-</P>
-</DL>
-<A NAME="SEC251"></A>
-<H3> Predicates </H3>
-<!--docid::SEC251::-->
-<P>
-
-<A NAME="IDX1493"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>proper-list?</B> <I>obj</I>
-<DD><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1494"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>circular-list?</B> <I>x</I>
-<DD><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1495"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>dotted-list?</B> <I>obj</I>
-<DD><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1496"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>null-list?</B> <I>obj</I>
-<DD><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1497"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>not-pair?</B> <I>obj</I>
-<DD><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1498"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>list=</B> <I>=pred list <small>...</small></I>
-<DD><P>
-
-</P>
-</DL>
-<A NAME="SEC252"></A>
-<H3> Selectors </H3>
-<!--docid::SEC252::-->
-<P>
-
-<A NAME="IDX1499"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>first</B> <I>pair</I>
-<DD><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1500"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>second</B> <I>pair</I>
-<DD><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1501"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>third</B> <I>pair</I>
-<DD><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1502"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>fourth</B> <I>pair</I>
-<DD><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1503"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>fifth</B> <I>pair</I>
-<DD><A NAME="IDX1504"></A>
-<DT><U>Function:</U> <B>sixth</B> <I>obj</I>
-<DD><A NAME="IDX1505"></A>
-<DT><U>Function:</U> <B>seventh</B> <I>obj</I>
-<DD><A NAME="IDX1506"></A>
-<DT><U>Function:</U> <B>eighth</B> <I>obj</I>
-<DD><A NAME="IDX1507"></A>
-<DT><U>Function:</U> <B>ninth</B> <I>obj</I>
-<DD><A NAME="IDX1508"></A>
-<DT><U>Function:</U> <B>tenth</B> <I>obj</I>
-<DD><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1509"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>car+cdr</B> <I>pair</I>
-<DD><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1510"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>drop</B> <I>lst k</I>
-<DD><A NAME="IDX1511"></A>
-<DT><U>Function:</U> <B>take</B> <I>lst k</I>
-<DD><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1512"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>take!</B> <I>lst k</I>
-<DD><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1513"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>take-right</B> <I>lst k</I>
-<DD><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1514"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>drop-right</B> <I>lst k</I>
-<DD><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1515"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>drop-right!</B> <I>lst k</I>
-<DD><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1516"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>split-at</B> <I>lst k</I>
-<DD><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1517"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>split-at!</B> <I>lst k</I>
-<DD><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1518"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>last</B> <I>lst</I>
-<DD><P>
-
-(car (last-pair lst))
-</P>
-</DL>
-<A NAME="SEC253"></A>
-<H3> Miscellaneous </H3>
-<!--docid::SEC253::-->
-<P>
-
-<A NAME="IDX1519"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>length+</B> <I>obj</I>
-<DD><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1520"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>concatenate</B> <I>lists</I>
-<DD><A NAME="IDX1521"></A>
-<DT><U>Function:</U> <B>concatenate!</B> <I>lists</I>
-<DD><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1522"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>reverse!</B> <I>lst</I>
-<DD><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1523"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>append-reverse</B> <I>rev-head tail</I>
-<DD><A NAME="IDX1524"></A>
-<DT><U>Function:</U> <B>append-reverse!</B> <I>rev-head tail</I>
-<DD><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1525"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>zip</B> <I>list1 list2 <small>...</small></I>
-<DD><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1526"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>unzip1</B> <I>lst</I>
-<DD><A NAME="IDX1527"></A>
-<DT><U>Function:</U> <B>unzip2</B> <I>lst</I>
-<DD><A NAME="IDX1528"></A>
-<DT><U>Function:</U> <B>unzip3</B> <I>lst</I>
-<DD><A NAME="IDX1529"></A>
-<DT><U>Function:</U> <B>unzip4</B> <I>lst</I>
-<DD><A NAME="IDX1530"></A>
-<DT><U>Function:</U> <B>unzip5</B> <I>lst</I>
-<DD><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1531"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>count</B> <I>pred list1 list2 <small>...</small></I>
-<DD><P>
-
-</P>
-</DL>
-<A NAME="SEC254"></A>
-<H3> Fold and Unfold </H3>
-<!--docid::SEC254::-->
-<P>
-
-<A NAME="IDX1532"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>map!</B> <I>f list1 clist2 <small>...</small></I>
-<DD><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1533"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>pair-for-each</B> <I>f clist1 clist2 <small>...</small></I>
-<DD><P>
-
-</P>
-</DL>
-<A NAME="SEC255"></A>
-<H3> Filtering and Partitioning </H3>
-<!--docid::SEC255::-->
-<P>
-
-<A NAME="IDX1534"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>filter</B> <I>pred lis</I>
-<DD><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1535"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>filter!</B> <I>pred l</I>
-<DD><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1536"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>partition</B> <I>pred list</I>
-<DD><P>
-
-</P>
-</DL>
-<A NAME="SEC256"></A>
-<H3> Searching </H3>
-<!--docid::SEC256::-->
-<P>
-
-<A NAME="IDX1537"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>find</B> <I>pred list</I>
-<DD><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1538"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>find-tail</B> <I>pred list</I>
-<DD><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1539"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>remove</B> <I>pred l</I>
-<DD><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1540"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>remove!</B> <I>pred l</I>
-<DD><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1541"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>any</B> <I>pred clist1 clist2 <small>...</small></I>
-<DD><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1542"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>list-index</B> <I>pred clist1 clist2 <small>...</small></I>
-<DD><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1543"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>span</B> <I>pred list</I>
-<DD><P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1544"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>member</B> <I>obj list pred</I>
-<DD><P>
-
-<A NAME="IDX1545"></A>
-<DT><U>Function:</U> <B>member</B> <I>obj list</I>
-<DD></P>
-<P>
-
-<CODE>member</CODE> returns the first sublist of <VAR>list</VAR> whose car is <VAR>obj</VAR>, where the sublists
-of <VAR>list</VAR> are the non-empty lists returned by <TT>(list-tail <VAR>list</VAR> <VAR>k</VAR>)</TT>
-for <VAR>k</VAR> less than the length of <VAR>list</VAR>. If <VAR>obj</VAR> does not occur in <VAR>list</VAR>,
-then <TT>#f</TT> (not the empty list) is returned. The procedure <VAR>pred</VAR> is
-used for testing equality. If <VAR>pred</VAR> is not provided, `<SAMP>equal?</SAMP>' is
-used.
-</P>
-</DL>
-<A NAME="SEC257"></A>
-<H3> Deleting </H3>
-<!--docid::SEC257::-->
-<P>
-
-<A NAME="SEC258"></A>
-<H3> Association lists </H3>
-<!--docid::SEC258::-->
-<P>
-
-<A NAME="IDX1546"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>assoc</B> <I>obj alist pred</I>
-<DD><P>
-
-<A NAME="IDX1547"></A>
-<DT><U>Function:</U> <B>assoc</B> <I>obj alist</I>
-<DD></P>
-<P>
-
-<VAR>alist</VAR> (for &quot;association list&quot;) must be a list of pairs. These
-procedures find the first pair in <VAR>alist</VAR> whose car field is <VAR>obj</VAR>, and
-returns that pair. If no pair in <VAR>alist</VAR> has <VAR>obj</VAR> as its car, then <TT>#f</TT>
-(not the empty list) is returned. The procedure <VAR>pred</VAR> is used for
-testing equality. If <VAR>pred</VAR> is not provided, `<SAMP>equal?</SAMP>' is used.
-</P>
-</DL>
-<A NAME="SEC259"></A>
-<H3> Set operations </H3>
-<!--docid::SEC259::-->
-<P>
-
-<A NAME="SRFI-2"></A>
-<HR SIZE="6">
-<A NAME="SEC260"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC249"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC261"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC248"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 7.4.13.2 SRFI-2 </H4>
-<!--docid::SEC260::-->
-<P>
-
-<CODE>(require 'srfi-2)</CODE>
-<A NAME="IDX1548"></A>
-</P>
-<P>
-
-<A NAME="IDX1549"></A>
-</P>
-<DL>
-<DT><U>Macro:</U> <B>and-let*</B> <I>claws body <small>...</small></I>
-<DD><P>
-
-<A HREF="http://srfi.schemers.org/srfi-2/srfi-2.html">http://srfi.schemers.org/srfi-2/srfi-2.html</A>
-</P>
-</DL>
-<P>
-
-<A NAME="SRFI-8"></A>
-<HR SIZE="6">
-<A NAME="SEC261"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC260"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC262"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC248"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 7.4.13.3 SRFI-8 </H4>
-<!--docid::SEC261::-->
-<P>
-
-<CODE>(require 'srfi-8)</CODE>
-<A NAME="IDX1550"></A>
-</P>
-<P>
-
-<A NAME="IDX1551"></A>
-</P>
-<DL>
-<DT><U>Special Form:</U> <B>receive</B> <I>formals expression body <small>...</small></I>
-<DD><P>
-
-<A HREF="http://srfi.schemers.org/srfi-8/srfi-8.html">http://srfi.schemers.org/srfi-8/srfi-8.html</A>
-</P>
-</DL>
-<P>
-
-<A NAME="SRFI-9"></A>
-<HR SIZE="6">
-<A NAME="SEC262"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC261"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC263"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC248"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H4> 7.4.13.4 SRFI-9 </H4>
-<!--docid::SEC262::-->
-<P>
-
-<CODE>(require 'srfi-9)</CODE>
-<A NAME="IDX1552"></A>
-</P>
-<P>
-
-<A HREF="http://srfi.schemers.org/srfi-9/srfi-9.html">http://srfi.schemers.org/srfi-9/srfi-9.html</A>
-</P>
-<P>
-
-<A NAME="IDX1553"></A>
-</P>
-<DL>
-<DT><U>Special Form:</U> <B>define-record-type</B> <I>&lt;type-name&gt; (&lt;constructor-name&gt; &lt;field-tag&gt; ...) &lt;predicate-name&gt; &lt;field spec&gt; ...</I>
-<DD><P>
-
-Where
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>&lt;field-spec&gt; == (&lt;field-tag&gt; &lt;accessor-name&gt;)
- == (&lt;field-tag&gt; &lt;accessor-name&gt; &lt;modifier-name&gt;)
-
-</pre></td></tr></table><P>
-
-<CODE>define-record-type</CODE> is a syntax wrapper for the SLIB
-<CODE>record</CODE> module.
-</P>
-</DL>
-<P>
-
-<A NAME="Session Support"></A>
-<HR SIZE="6">
-<A NAME="SEC263"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC262"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC264"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 7.5 Session Support </H2>
-<!--docid::SEC263::-->
-<P>
-
-<TABLE BORDER="0" CELLSPACING="0">
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC264">7.5.1 Repl</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">Macros at top-level</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC265">7.5.2 Quick Print</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">Loop-safe Output</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC266">7.5.3 Debug</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">To err is human ...</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC267">7.5.4 Breakpoints</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">Pause execution</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC268">7.5.5 Tracing</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">'trace</TD></TR>
-</TABLE>
-<P>
-
-<A NAME="Repl"></A>
-<HR SIZE="6">
-<A NAME="SEC264"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC263"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC265"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC263"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.5.1 Repl </H3>
-<!--docid::SEC264::-->
-<P>
-
-<CODE>(require 'repl)</CODE>
-<A NAME="IDX1554"></A>
-</P>
-<P>
-
-Here is a read-eval-print-loop which, given an eval, evaluates forms.
-</P>
-<P>
-
-<A NAME="IDX1555"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>repl:top-level</B> <I>repl:eval</I>
-<DD><CODE>read</CODE>s, <CODE>repl:eval</CODE>s and <CODE>write</CODE>s expressions from
-<CODE>(current-input-port)</CODE> to <CODE>(current-output-port)</CODE> until an
-end-of-file is encountered. <CODE>load</CODE>, <CODE>slib:eval</CODE>,
-<CODE>slib:error</CODE>, and <CODE>repl:quit</CODE> dynamically bound during
-<CODE>repl:top-level</CODE>.
-</DL>
-<P>
-
-<A NAME="IDX1556"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>repl:quit</B>
-<DD>Exits from the invocation of <CODE>repl:top-level</CODE>.
-</DL>
-<P>
-
-The <CODE>repl:</CODE> procedures establish, as much as is possible to do
-portably, a top level environment supporting macros.
-<CODE>repl:top-level</CODE> uses <CODE>dynamic-wind</CODE> to catch error conditions
-and interrupts. If your implementation supports this you are all set.
-</P>
-<P>
-
-Otherwise, if there is some way your implementation can catch error
-conditions and interrupts, then have them call <CODE>slib:error</CODE>. It
-will display its arguments and reenter <CODE>repl:top-level</CODE>.
-<CODE>slib:error</CODE> dynamically bound by <CODE>repl:top-level</CODE>.
-</P>
-<P>
-
-To have your top level loop always use macros, add any interrupt
-catching lines and the following lines to your Scheme init file:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(require 'macro)
-<A NAME="IDX1557"></A>(require 'repl)
-<A NAME="IDX1558"></A>(repl:top-level macro:eval)
-</pre></td></tr></table><P>
-
-<A NAME="Quick Print"></A>
-<HR SIZE="6">
-<A NAME="SEC265"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC264"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC266"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC263"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.5.2 Quick Print </H3>
-<!--docid::SEC265::-->
-<P>
-
-<CODE>(require 'qp)</CODE>
-<A NAME="IDX1559"></A>
-</P>
-<P>
-
-When displaying error messages and warnings, it is paramount that the
-output generated for circular lists and large data structures be
-limited. This section supplies a procedure to do this. It could be
-much improved.
-</P>
-<P>
-
-<BLOCKQUOTE>
-Notice that the neccessity for truncating output eliminates
-Common-Lisp's <A HREF="slib_4.html#SEC53">4.2 Format (version 3.0)</A> from consideration; even when variables
-<CODE>*print-level*</CODE> and <CODE>*print-level*</CODE> are set, huge strings and
-bit-vectors are <EM>not</EM> limited.
-</BLOCKQUOTE>
-<P>
-
-<A NAME="IDX1560"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>qp</B> <I>arg1 <small>...</small></I>
-<DD><A NAME="IDX1561"></A>
-<DT><U>Procedure:</U> <B>qpn</B> <I>arg1 <small>...</small></I>
-<DD><A NAME="IDX1562"></A>
-<DT><U>Procedure:</U> <B>qpr</B> <I>arg1 <small>...</small></I>
-<DD><CODE>qp</CODE> writes its arguments, separated by spaces, to
-<CODE>(current-output-port)</CODE>. <CODE>qp</CODE> compresses printing by
-substituting `<SAMP>...</SAMP>' for substructure it does not have sufficient
-room to print. <CODE>qpn</CODE> is like <CODE>qp</CODE> but outputs a newline
-before returning. <CODE>qpr</CODE> is like <CODE>qpn</CODE> except that it returns
-its last argument.
-</DL>
-<P>
-
-<A NAME="IDX1563"></A>
-</P>
-<DL>
-<DT><U>Variable:</U> <B>*qp-width*</B>
-<DD><VAR>*qp-width*</VAR> is the largest number of characters that <CODE>qp</CODE>
-should use. If <VAR>*qp-width*</VAR> is #f, then all items will be
-<CODE>write</CODE>n. If <VAR>*qp-width*</VAR> is 0, then all items except
-procedures will be <CODE>write</CODE>n; procedures will be indicated by
-`<SAMP>#[proc]</SAMP>'.
-</DL>
-<P>
-
-<A NAME="Debug"></A>
-<HR SIZE="6">
-<A NAME="SEC266"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC265"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC267"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC263"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.5.3 Debug </H3>
-<!--docid::SEC266::-->
-<P>
-
-<CODE>(require 'debug)</CODE>
-<A NAME="IDX1564"></A>
-</P>
-<P>
-
-Requiring <CODE>debug</CODE> automatically requires <CODE>trace</CODE> and
-<CODE>break</CODE>.
-</P>
-<P>
-
-An application with its own datatypes may want to substitute its own
-printer for <CODE>qp</CODE>. This example shows how to do this:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define qpn (lambda args) <small>...</small>)
-(provide 'qp)
-(require 'debug)
-<A NAME="IDX1565"></A></pre></td></tr></table><P>
-
-<A NAME="IDX1566"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>trace-all</B> <I>file <small>...</small></I>
-<DD>Traces (see section <A HREF="slib_7.html#SEC268">7.5.5 Tracing</A>) all procedures <CODE>define</CODE>d at top-level in
-`<TT>file</TT>' <small>...</small>.
-<P>
-
-<A NAME="IDX1567"></A>
-<DT><U>Procedure:</U> <B>track-all</B> <I>file <small>...</small></I>
-<DD>Tracks (see section <A HREF="slib_7.html#SEC268">7.5.5 Tracing</A>) all procedures <CODE>define</CODE>d at top-level in
-`<TT>file</TT>' <small>...</small>.
-</P>
-<P>
-
-<A NAME="IDX1568"></A>
-<DT><U>Procedure:</U> <B>stack-all</B> <I>file <small>...</small></I>
-<DD>Stacks (see section <A HREF="slib_7.html#SEC268">7.5.5 Tracing</A>) all procedures <CODE>define</CODE>d at top-level in
-`<TT>file</TT>' <small>...</small>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1569"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>break-all</B> <I>file <small>...</small></I>
-<DD>Breakpoints (see section <A HREF="slib_7.html#SEC267">7.5.4 Breakpoints</A>) all procedures <CODE>define</CODE>d at
-top-level in `<TT>file</TT>' <small>...</small>.
-</DL>
-<P>
-
-<A NAME="Breakpoints"></A>
-<HR SIZE="6">
-<A NAME="SEC267"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC266"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC268"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC263"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.5.4 Breakpoints </H3>
-<!--docid::SEC267::-->
-<P>
-
-<CODE>(require 'break)</CODE>
-<A NAME="IDX1570"></A>
-</P>
-<P>
-
-<A NAME="IDX1571"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>init-debug</B>
-<DD>If your Scheme implementation does not support <CODE>break</CODE> or
-<CODE>abort</CODE>, a message will appear when you <CODE>(require 'break)</CODE> or
-<A NAME="IDX1572"></A>
-<CODE>(require 'debug)</CODE> telling you to type <CODE>(init-debug)</CODE>. This
-<A NAME="IDX1573"></A>
-is in order to establish a top-level continuation. Typing
-<CODE>(init-debug)</CODE> at top level sets up a continuation for
-<CODE>break</CODE>.
-</DL>
-<P>
-
-<A NAME="IDX1574"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>breakpoint</B> <I>arg1 <small>...</small></I>
-<DD>Returns from the top level continuation and pushes the continuation from
-which it was called on a continuation stack.
-</DL>
-<P>
-
-<A NAME="IDX1575"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>continue</B>
-<DD>Pops the topmost continuation off of the continuation stack and returns
-an unspecified value to it.
-<P>
-
-<A NAME="IDX1576"></A>
-<DT><U>Function:</U> <B>continue</B> <I>arg1 <small>...</small></I>
-<DD>Pops the topmost continuation off of the continuation stack and returns
-<VAR>arg1</VAR> <small>...</small> to it.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1577"></A>
-</P>
-<DL>
-<DT><U>Macro:</U> <B>break</B> <I>proc1 <small>...</small></I>
-<DD>Redefines the top-level named procedures given as arguments so that
-<CODE>breakpoint</CODE> is called before calling <VAR>proc1</VAR> <small>...</small>.
-<A NAME="IDX1578"></A>
-<DT><U>Macro:</U> <B>break</B>
-<DD>With no arguments, makes sure that all the currently broken identifiers
-are broken (even if those identifiers have been redefined) and returns a
-list of the broken identifiers.
-</DL>
-<P>
-
-<A NAME="IDX1579"></A>
-</P>
-<DL>
-<DT><U>Macro:</U> <B>unbreak</B> <I>proc1 <small>...</small></I>
-<DD>Turns breakpoints off for its arguments.
-<A NAME="IDX1580"></A>
-<DT><U>Macro:</U> <B>unbreak</B>
-<DD>With no arguments, unbreaks all currently broken identifiers and returns
-a list of these formerly broken identifiers.
-</DL>
-<P>
-
-These are <EM>procedures</EM> for breaking. If defmacros are not natively
-supported by your implementation, these might be more convenient to use.
-</P>
-<P>
-
-<A NAME="IDX1581"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>breakf</B> <I>proc</I>
-<DD><A NAME="IDX1582"></A>
-<DT><U>Function:</U> <B>breakf</B> <I>proc name</I>
-<DD>To break, type
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(set! <VAR>symbol</VAR> (breakf <VAR>symbol</VAR>))
-</pre></td></tr></table>or
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(set! <VAR>symbol</VAR> (breakf <VAR>symbol</VAR> '<VAR>symbol</VAR>))
-</pre></td></tr></table>or
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define <VAR>symbol</VAR> (breakf <VAR>function</VAR>))
-</pre></td></tr></table>or
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define <VAR>symbol</VAR> (breakf <VAR>function</VAR> '<VAR>symbol</VAR>))
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1583"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>unbreakf</B> <I>proc</I>
-<DD>To unbreak, type
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(set! <VAR>symbol</VAR> (unbreakf <VAR>symbol</VAR>))
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="Trace"></A>
-<HR SIZE="6">
-<A NAME="SEC268"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC267"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC269"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC263"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.5.5 Tracing </H3>
-<!--docid::SEC268::-->
-<P>
-
-<CODE>(require 'trace)</CODE>
-<A NAME="IDX1584"></A>
-</P>
-<P>
-
-This feature provides three ways to monitor procedure invocations:
-</P>
-<P>
-
-</P>
-<DL COMPACT>
-<DT>stack
-<DD>Pushes the procedure-name when the procedure is called; pops when it
-returns.
-<DT>track
-<DD>Pushes the procedure-name and arguments when the procedure is called;
-pops when it returns.
-<DT>trace
-<DD>Pushes the procedure-name and prints `<SAMP>CALL <VAR>procedure-name</VAR>
-<VAR>arg1</VAR> <small>...</small></SAMP>' when the procdure is called; pops and prints
-`<SAMP>RETN <VAR>procedure-name</VAR> <VAR>value</VAR></SAMP>' when the procedure returns.
-</DL>
-<P>
-
-<A NAME="IDX1585"></A>
-</P>
-<DL>
-<DT><U>Variable:</U> <B>debug:max-count</B>
-<DD>If a traced procedure calls itself or untraced procedures which call it,
-stack, track, and trace will limit the number of stack pushes to
-<VAR>debug:max-count</VAR>.
-</DL>
-<P>
-
-<A NAME="IDX1586"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>print-call-stack</B>
-<DD><A NAME="IDX1587"></A>
-<DT><U>Function:</U> <B>print-call-stack</B> <I>port</I>
-<DD>Prints the call-stack to <VAR>port</VAR> or the current-error-port.
-</DL>
-<P>
-
-<A NAME="IDX1588"></A>
-</P>
-<DL>
-<DT><U>Macro:</U> <B>trace</B> <I>proc1 <small>...</small></I>
-<DD>Traces the top-level named procedures given as arguments.
-<A NAME="IDX1589"></A>
-<DT><U>Macro:</U> <B>trace</B>
-<DD>With no arguments, makes sure that all the currently traced identifiers
-are traced (even if those identifiers have been redefined) and returns a
-list of the traced identifiers.
-</DL>
-<P>
-
-<A NAME="IDX1590"></A>
-</P>
-<DL>
-<DT><U>Macro:</U> <B>track</B> <I>proc1 <small>...</small></I>
-<DD>Traces the top-level named procedures given as arguments.
-<A NAME="IDX1591"></A>
-<DT><U>Macro:</U> <B>track</B>
-<DD>With no arguments, makes sure that all the currently tracked identifiers
-are tracked (even if those identifiers have been redefined) and returns
-a list of the tracked identifiers.
-</DL>
-<P>
-
-<A NAME="IDX1592"></A>
-</P>
-<DL>
-<DT><U>Macro:</U> <B>stack</B> <I>proc1 <small>...</small></I>
-<DD>Traces the top-level named procedures given as arguments.
-<A NAME="IDX1593"></A>
-<DT><U>Macro:</U> <B>stack</B>
-<DD>With no arguments, makes sure that all the currently stacked identifiers
-are stacked (even if those identifiers have been redefined) and returns
-a list of the stacked identifiers.
-</DL>
-<P>
-
-<A NAME="IDX1594"></A>
-</P>
-<DL>
-<DT><U>Macro:</U> <B>untrace</B> <I>proc1 <small>...</small></I>
-<DD>Turns tracing, tracking, and off for its arguments.
-<A NAME="IDX1595"></A>
-<DT><U>Macro:</U> <B>untrace</B>
-<DD>With no arguments, untraces all currently traced identifiers and returns
-a list of these formerly traced identifiers.
-</DL>
-<P>
-
-<A NAME="IDX1596"></A>
-</P>
-<DL>
-<DT><U>Macro:</U> <B>untrack</B> <I>proc1 <small>...</small></I>
-<DD>Turns tracing, tracking, and off for its arguments.
-<A NAME="IDX1597"></A>
-<DT><U>Macro:</U> <B>untrack</B>
-<DD>With no arguments, untracks all currently tracked identifiers and returns
-a list of these formerly tracked identifiers.
-</DL>
-<P>
-
-<A NAME="IDX1598"></A>
-</P>
-<DL>
-<DT><U>Macro:</U> <B>unstack</B> <I>proc1 <small>...</small></I>
-<DD>Turns tracing, stacking, and off for its arguments.
-<A NAME="IDX1599"></A>
-<DT><U>Macro:</U> <B>unstack</B>
-<DD>With no arguments, unstacks all currently stacked identifiers and returns
-a list of these formerly stacked identifiers.
-</DL>
-<P>
-
-These are <EM>procedures</EM> for tracing. If defmacros are not natively
-supported by your implementation, these might be more convenient to use.
-</P>
-<P>
-
-<A NAME="IDX1600"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>tracef</B> <I>proc</I>
-<DD><A NAME="IDX1601"></A>
-<DT><U>Function:</U> <B>tracef</B> <I>proc name</I>
-<DD><A NAME="IDX1602"></A>
-<DT><U>Function:</U> <B>trackf</B> <I>proc</I>
-<DD><A NAME="IDX1603"></A>
-<DT><U>Function:</U> <B>trackf</B> <I>proc name</I>
-<DD><A NAME="IDX1604"></A>
-<DT><U>Function:</U> <B>stackf</B> <I>proc</I>
-<DD><A NAME="IDX1605"></A>
-<DT><U>Function:</U> <B>stackf</B> <I>proc name</I>
-<DD>To trace, type
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(set! <VAR>symbol</VAR> (tracef <VAR>symbol</VAR>))
-</pre></td></tr></table>or
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(set! <VAR>symbol</VAR> (tracef <VAR>symbol</VAR> '<VAR>symbol</VAR>))
-</pre></td></tr></table>or
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define <VAR>symbol</VAR> (tracef <VAR>function</VAR>))
-</pre></td></tr></table>or
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define <VAR>symbol</VAR> (tracef <VAR>function</VAR> '<VAR>symbol</VAR>))
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="IDX1606"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>untracef</B> <I>proc</I>
-<DD>Removes tracing, tracking, or stacking for <VAR>proc</VAR>.
-To untrace, type
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(set! <VAR>symbol</VAR> (untracef <VAR>symbol</VAR>))
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="System Interface"></A>
-<HR SIZE="6">
-<A NAME="SEC269"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC268"> &lt; </A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 7.6 System Interface </H2>
-<!--docid::SEC269::-->
-<P>
-
-If <CODE>(provided? 'getenv)</CODE>:
-</P>
-<P>
-
-<A NAME="IDX1607"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>getenv</B> <I>name</I>
-<DD>Looks up <VAR>name</VAR>, a string, in the program environment. If <VAR>name</VAR> is
-found a string of its value is returned. Otherwise, <CODE>#f</CODE> is returned.
-</DL>
-<P>
-
-If <CODE>(provided? 'system)</CODE>:
-</P>
-<P>
-
-<A NAME="IDX1608"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>system</B> <I>command-string</I>
-<DD>Executes the <VAR>command-string</VAR> on the computer and returns the
-integer status code.
-</DL>
-<P>
-
-<TABLE BORDER="0" CELLSPACING="0">
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC270">7.6.1 Directories</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC271">7.6.2 Transactions</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_7.html#SEC275">7.6.3 CVS</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-</TABLE>
-<P>
-
-<A NAME="Directories"></A>
-<HR SIZE="6">
-<A NAME="SEC270"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC269"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC271"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC269"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.6.1 Directories </H3>
-<!--docid::SEC270::-->
-<P>
-
-<CODE>(require 'directory)</CODE>
-<A NAME="IDX1609"></A>
-</P>
-<P>
-
-<A NAME="IDX1610"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>current-directory</B>
-<DD><P>
-
-<CODE>current-directory</CODE> returns a string containing the absolute file
-name representing the current working directory. If this string
-cannot be obtained, #f is returned.
-</P>
-<P>
-
-If <CODE>current-directory</CODE> cannot be supported by the platform, then #f is returned.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1611"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>make-directory</B> <I>name</I>
-<DD><P>
-
-Creates a sub-directory <VAR>name</VAR> of the current-directory. If
-successful, <CODE>make-directory</CODE> returns #t; otherwise #f.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1612"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>directory-for-each</B> <I>proc directory</I>
-<DD><P>
-
-<VAR>proc</VAR> must be a procedure taking one argument.
-`<SAMP>Directory-For-Each</SAMP>' applies <VAR>proc</VAR> to the (string) name of
-each file in <VAR>directory</VAR>. The dynamic order in which <VAR>proc</VAR> is
-applied to the filenames is unspecified. The value returned by
-`<SAMP>directory-for-each</SAMP>' is unspecified.
-</P>
-<P>
-
-<A NAME="IDX1613"></A>
-<DT><U>Function:</U> <B>directory-for-each</B> <I>proc directory pred</I>
-<DD>Applies <VAR>proc</VAR> only to those filenames for which the procedure
-<VAR>pred</VAR> returns a non-false value.
-</P>
-<P>
-
-<A NAME="IDX1614"></A>
-<DT><U>Function:</U> <B>directory-for-each</B> <I>proc directory match</I>
-<DD>Applies <VAR>proc</VAR> only to those filenames for which
-<CODE>(filename:match?? <VAR>match</VAR>)</CODE> would return a non-false value
-(see section `Filenames' in <CITE>SLIB</CITE>).
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(require 'directory)
-(directory-for-each print &quot;.&quot; &quot;[A-Z]*.scm&quot;)
--|
-&quot;Bev2slib.scm&quot;
-&quot;Template.scm&quot;
-</pre></td></tr></table></DL>
-<P>
-
-<A NAME="Transactions"></A>
-<HR SIZE="6">
-<A NAME="SEC271"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC270"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC275"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC269"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.6.2 Transactions </H3>
-<!--docid::SEC271::-->
-<P>
-
-If <CODE>system</CODE> is provided by the Scheme implementation, the
-<EM>transact</EM> package provides functions for file-locking and
-file-replacement transactions.
-</P>
-<P>
-
-<CODE>(require 'transact)</CODE>
-<A NAME="IDX1615"></A>
-</P>
-<P>
-
-<A NAME="SEC272"></A>
-<H4> File Locking </H4>
-<!--docid::SEC272::-->
-<P>
-
-Unix file-locking is focussed on write permissions for segments of a
-existing file. While this might be employed for (binary) database
-access, it is not used for everyday contention (between users) for
-text files.
-</P>
-<P>
-
-Microsoft has several file-locking protocols. Their model denies
-write access to a file if any reader has it open. This is too
-restrictive. Write access is denied even when the reader has
-reached end-of-file. And tracking read access (which is much more
-common than write access) causes havoc when remote hosts crash or
-disconnect.
-</P>
-<P>
-
-It is bizarre that the concept of multi-user contention for
-modifying files has not been adequately addressed by either of the
-large operating system development efforts. There is further irony
-that both camps support contention detection and resolution only
-through weak conventions of some their document editing programs.
-</P>
-<P>
-
-<A NAME="IDX1616"></A>
-The <EM>file-lock</EM> procedures implement a transaction method for file
-<A NAME="IDX1617"></A>
-replacement compatible with the methods used by the GNU <EM>emacs</EM>
-<A NAME="IDX1618"></A>
-text editor on Unix systems and the Microsoft <EM>Word</EM> editor.
-<A NAME="IDX1619"></A>
-<A NAME="IDX1620"></A>
-</P>
-<P>
-
-<A NAME="IDX1621"></A>
-Both protocols employ what I term a <EM>certificate</EM> containing the
-<A NAME="IDX1622"></A>
-user, hostname, time, and (on Unix) process-id.
-Intent to replace <VAR>file</VAR> is indicated by adding to <VAR>file</VAR>'s
-directory a certificate object whose name is derived from
-<VAR>file</VAR>.
-</P>
-<P>
-
-The Microsoft Word certificate is contained in a 162 byte file named
-for the visited <VAR>file</VAR> with a `<SAMP>~$</SAMP>' prefix.
-Emacs/Unix creates a symbolic link to a certificate named for the
-visited <VAR>file</VAR> prefixed with `<SAMP>.#</SAMP>'.
-Because Unix systems can import Microsoft file systems, these
-routines maintain and check both Emacs and Word certificates.
-</P>
-<P>
-
-<A NAME="IDX1623"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>file-lock-owner</B> <I>path</I>
-<DD><P>
-
-Returns the string `<SAMP><VAR>user</VAR>@<VAR>hostname</VAR></SAMP>' associated with
-the lock owner of file <VAR>path</VAR> if locked; and #f otherwise.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1624"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>file-lock!</B> <I>path email</I>
-<DD><P>
-
-<A NAME="IDX1625"></A>
-<DT><U>Procedure:</U> <B>file-lock!</B> <I>path</I>
-<DD></P>
-<P>
-
-<VAR>path</VAR> must be a string naming the file to be locked. If supplied, <VAR>email</VAR>
-must be a string formatted as `<SAMP><VAR>user</VAR>@<VAR>hostname</VAR></SAMP>'. If
-absent, <VAR>email</VAR> defaults to the value returned by <CODE>user-email-address</CODE>.
-</P>
-<P>
-
-If <VAR>path</VAR> is already locked, then <CODE>file-lock!</CODE> returns `<SAMP>#f</SAMP>'. If <VAR>path</VAR> is
-unlocked, then <CODE>file-lock!</CODE> returns the certificate string associated with the
-new lock for file <VAR>path</VAR>.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1626"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>file-unlock!</B> <I>path certificate</I>
-<DD><P>
-
-<VAR>path</VAR> must be a string naming the file to be unlocked. <VAR>certificate</VAR> must be the
-string returned by <CODE>file-lock!</CODE> for <VAR>path</VAR>.
-</P>
-<P>
-
-If <VAR>path</VAR> is locked with <VAR>certificate</VAR>, then <CODE>file-unlock!</CODE> removes the locks and returns
-`<SAMP>#t</SAMP>'. Otherwise, <CODE>file-unlock!</CODE> leaves the file system unaltered and returns
-`<SAMP>#f</SAMP>'.
-</P>
-</DL>
-<A NAME="SEC273"></A>
-<H4> File Transactions </H4>
-<!--docid::SEC273::-->
-<P>
-
-<A NAME="IDX1627"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>emacs:backup-name</B> <I>path backup-style</I>
-<DD><P>
-
-<VAR>path</VAR> must be a string. <VAR>backup-style</VAR> must be a symbol. Depending on <VAR>backup-style</VAR>, <CODE>emacs:backup-name</CODE>
-returns:
-</P>
-<DL COMPACT>
-<DT>none
-<DD>#f
-<DT>simple
-<DD>the string &quot;<VAR>path</VAR>~&quot;
-<DT>numbered
-<DD>the string &quot;<VAR>path</VAR>.~<VAR>n</VAR>~&quot;, where <VAR>n</VAR> is one greater than the
-highest number appearing in a filename matching &quot;<VAR>path</VAR>.~*~&quot;. <VAR>n</VAR>
-defauls to 1 when no filename matches.
-<DT>existing
-<DD>the string &quot;<VAR>path</VAR>.~<VAR>n</VAR>~&quot; if a numbered backup already exists in
-this directory; otherwise. &quot;<VAR>path</VAR>~&quot;
-<DT>orig
-<DD>the string &quot;<VAR>path</VAR>.orig&quot;
-<DT>bak
-<DD>the string &quot;<VAR>path</VAR>.bak&quot;
-</DL>
-</DL>
-<P>
-
-<A NAME="IDX1628"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>transact-file-replacement</B> <I>proc path backup-style certificate</I>
-<DD><P>
-
-<A NAME="IDX1629"></A>
-<DT><U>Function:</U> <B>transact-file-replacement</B> <I>proc path backup-style</I>
-<DD></P>
-<P>
-
-<A NAME="IDX1630"></A>
-<DT><U>Function:</U> <B>transact-file-replacement</B> <I>proc path</I>
-<DD></P>
-<P>
-
-<VAR>path</VAR> must be a string naming an existing file. <VAR>backup-style</VAR> is one of the
-symbols none, simple, numbered, existing, orig,
-bak or #f; with meanings described above; or a string naming
-the location of a backup file. <VAR>backup-style</VAR> defaults to #f. If supplied,
-<VAR>certificate</VAR> is the certificate with which <VAR>path</VAR> is locked.
-</P>
-<P>
-
-<VAR>proc</VAR> must be a procedure taking two string arguments:
-<UL>
-<LI>
-<VAR>path</VAR>, the original filename (to be read); and
-<LI>
-a temporary file-name.
-</UL>
-<P>
-
-If <VAR>path</VAR> is locked by other than <VAR>certificate</VAR>, or if <VAR>certificate</VAR> is supplied and <VAR>path</VAR> is not
-locked, then <CODE>transact-file-replacement</CODE> returns #f. If <VAR>certificate</VAR> is not supplied, then, <CODE>transact-file-replacement</CODE> creates
-temporary (Emacs and Word) locks for <VAR>path</VAR> during the transaction. The
-lock status of <VAR>path</VAR> will be restored before <CODE>transact-file-replacement</CODE> returns.
-</P>
-<P>
-
-<CODE>transact-file-replacement</CODE> calls <VAR>proc</VAR> with <VAR>path</VAR> (which should not be modified) and a temporary
-file path to be written.
-If <VAR>proc</VAR> returns any value other than #t, then the file named by <VAR>path</VAR>
-is not altered and <CODE>transact-file-replacement</CODE> returns #f.
-Otherwise, <CODE>emacs:backup-name</CODE> is called with <VAR>path</VAR> and <VAR>backup-style</VAR>. If it
-returns a string, then <VAR>path</VAR> is renamed to it.
-</P>
-<P>
-
-Finally, the temporary file is renamed <VAR>path</VAR>.
-<CODE>transact-file-replacement</CODE> returns #t if <VAR>path</VAR> was successfully replaced; and #f otherwise.
-</P>
-</DL>
-<A NAME="SEC274"></A>
-<H4> Identification </H4>
-<!--docid::SEC274::-->
-<P>
-
-<A NAME="IDX1631"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>user-email-address</B>
-<DD><P>
-
-<CODE>user-email-address</CODE> returns a string of the form `<SAMP>username@hostname</SAMP>'. If
-this e-mail address cannot be obtained, #f is returned.
-</P>
-</DL>
-<P>
-
-<A NAME="CVS"></A>
-<HR SIZE="6">
-<A NAME="SEC275"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC271"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC276"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC269"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 7.6.3 CVS </H3>
-<!--docid::SEC275::-->
-<P>
-
-<CODE>(require 'cvs)</CODE>
-<A NAME="IDX1632"></A>
-</P>
-<P>
-
-<A NAME="IDX1633"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>cvs-files</B> <I>directory/</I>
-<DD>Returns a list of the local pathnames (with prefix <VAR>directory/</VAR>) of all
-CVS controlled files in <VAR>directory/</VAR> and in <VAR>directory/</VAR>'s subdirectories.
-</DL>
-<P>
-
-<A NAME="IDX1634"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>cvs-directories</B> <I>directory/</I>
-<DD>Returns a list of all of <VAR>directory/</VAR> and all <VAR>directory/</VAR>'s CVS controlled
-subdirectories.
-</DL>
-<P>
-
-<A NAME="IDX1635"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>cvs-root</B> <I>path/</I>
-<DD>Returns the (string) contents of <VAR>path/</VAR>CVS/Root;
-or <CODE>(getenv &quot;CVSROOT&quot;)</CODE> if Root doesn't exist.
-</DL>
-<P>
-
-<A NAME="IDX1636"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>cvs-repository</B> <I>directory/</I>
-<DD>Returns the (string) contents of <VAR>directory/</VAR>CVS/Root appended
-with <VAR>directory/</VAR>CVS/Repository; or #f if <VAR>directory/</VAR>CVS/Repository
-doesn't exist.
-</DL>
-<P>
-
-<A NAME="IDX1637"></A>
-</P>
-<DL>
-<DT><U>Procedure:</U> <B>cvs-set-root!</B> <I>new-root directory/</I>
-<DD><P>
-
-Writes <VAR>new-root</VAR> to file CVS/Root of <VAR>directory/</VAR> and all its subdirectories.
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1638"></A>
-</P>
-<DL>
-<DT><U>Function:</U> <B>cvs-vet</B> <I>directory/</I>
-<DD><P>
-
-Signals an error if CVS/Repository or CVS/Root files in <VAR>directory/</VAR> or any
-subdirectory do not match.
-</P>
-</DL>
-<P>
-
-<A NAME="Extra-SLIB Packages"></A>
-<HR SIZE="6">
-<A NAME="SEC276"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC275"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 7.7 Extra-SLIB Packages </H2>
-<!--docid::SEC276::-->
-<P>
-
-Several Scheme packages have been written using SLIB. There are several
-reasons why a package might not be included in the SLIB distribution:
-<UL>
-<LI>
-Because it requires special hardware or software which is not universal.
-<LI>
-Because it is large and of limited interest to most Scheme users.
-<LI>
-Because it has copying terms different enough from the other SLIB
-packages that its inclusion would cause confusion.
-<LI>
-Because it is an application program, rather than a library module.
-<LI>
-Because I have been too busy to integrate it.
-</UL>
-<P>
-
-Once an optional package is installed (and an entry added to
-<CODE>*catalog*</CODE>, the <CODE>require</CODE> mechanism allows it to be called up
-and used as easily as any other SLIB package. Some optional packages
-(for which <CODE>*catalog*</CODE> already has entries) available from SLIB
-sites are:
-</P>
-<P>
-
-</P>
-<DL COMPACT>
-<DT>SLIB-PSD
-<DD>is a portable debugger for Scheme (requires emacs editor).
-<P>
-
-&lt;A HREF=&quot;http://swissnet.ai.mit.edu/ftpdir/scm/slib-psd1-3.tar.gz&quot;&gt;
-http://swissnet.ai.mit.edu/ftpdir/scm/slib-psd1-3.tar.gz
-&lt;/A&gt;
-</P>
-<P>
-
-swissnet.ai.mit.edu:/pub/scm/slib-psd1-3.tar.gz
-</P>
-<P>
-
-ftp.maths.tcd.ie:pub/bosullvn/jacal/slib-psd1-3.tar.gz
-</P>
-<P>
-
-ftp.cs.indiana.edu:/pub/scheme-repository/utl/slib-psd1-3.tar.gz
-</P>
-<P>
-
-With PSD, you can run a Scheme program in an Emacs buffer, set
-breakpoints, single step evaluation and access and modify the program's
-variables. It works by instrumenting the original source code, so it
-should run with any R4RS compliant Scheme. It has been tested with SCM,
-Elk 1.5, and the sci interpreter in the Scheme-&gt;C system, but should
-work with other Schemes with a minimal amount of porting, if at
-all. Includes documentation and user's manual. Written by Pertti
-Kellom\&quot;aki, pk @ cs.tut.fi. The Lisp Pointers article describing PSD
-(Lisp Pointers VI(1):15-23, January-March 1993) is available as
-&lt;A HREF=&quot;http://www.cs.tut.fi/staff/pk/scheme/psd/article/article.html&quot;&gt;
-http://www.cs.tut.fi/staff/pk/scheme/psd/article/article.html
-&lt;/A&gt;
-</P>
-<P>
-
-</P>
-<DT>SCHELOG
-<DD>is an embedding of Prolog in Scheme.<BR>
-&lt;A HREF=&quot;http://www.ccs.neu.edu/~dorai/schelog/schelog.html&quot;&gt;
-http://www.ccs.neu.edu/~dorai/schelog/schelog.html
-&lt;/A&gt;
-<P>
-
-</P>
-<DT>JFILTER
-<DD>is a Scheme program which converts text among the JIS, EUC, and
-Shift-JIS Japanese character sets.<BR>
-&lt;A HREF=&quot;http://www.sci.toyama-u.ac.jp/~iwao/Scheme/Jfilter/index.html&quot;&gt;
-http://www.sci.toyama-u.ac.jp/~iwao/Scheme/Jfilter/index.html
-&lt;/A&gt;
-</DL>
-<P>
-
-<A NAME="About SLIB"></A>
-<HR SIZE="6">
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_7.html#SEC183"> &lt;&lt; </A>]</TD>
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<BR>
-<FONT SIZE="-1">
-This document was generated
-by <I>Steve Langasek</I> on <I>January, 10 2005</I>
-using <A HREF="http://texi2html.cvshome.org"><I>texi2html</I></A>
-</FONT>
-
-</BODY>
-</HTML>
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- "http://www.w3.org/TR/html40/loose.dtd">
-<HTML>
-<!-- Created on January, 10 2005 by texi2html 1.66 -->
-<!--
-Written by: Lionel Cons <Lionel.Cons@cern.ch> (original author)
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- Olaf Bachmann <obachman@mathematik.uni-kl.de>
- and many others.
-Maintained by: Many creative people <dev@texi2html.cvshome.org>
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-<HEAD>
-<TITLE>SLIB: About SLIB</TITLE>
-
-<META NAME="description" CONTENT="SLIB: About SLIB">
-<META NAME="keywords" CONTENT="SLIB: About SLIB">
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-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_9.html#SEC292"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H1> 8. About SLIB </H1>
-<!--docid::SEC277::-->
-<P>
-
-More people than I can name have contributed to SLIB. Thanks to all of
-you!
-</P>
-<P>
-
-<BLOCKQUOTE>
-SLIB 3a1, released January 2005.<BR>
-Aubrey Jaffer &lt;agj @ alum.mit.edu&gt;<BR>
-<I>Hyperactive Software</I> -- The Maniac Inside!<BR>
-<A HREF="http://swissnet.ai.mit.edu/~jaffer/SLIB.html">http://swissnet.ai.mit.edu/~jaffer/SLIB.html</A>
-</BLOCKQUOTE>
-<P>
-
-<TABLE BORDER="0" CELLSPACING="0">
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_8.html#SEC278">8.1 Installation</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">How to install SLIB on your system.</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_8.html#SEC284">8.2 Porting</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">SLIB to new platforms.</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_8.html#SEC285">8.3 Coding Guidelines</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">How to write modules for SLIB.</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_8.html#SEC287">8.4 Copyrights</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP">Intellectual propery issues.</TD></TR>
-<TR><TD ALIGN="left" VALIGN="TOP"><A HREF="slib_8.html#SEC291">8.5 About this manual</A></TD><TD>&nbsp;&nbsp;</TD><TD ALIGN="left" VALIGN="TOP"></TD></TR>
-</TABLE>
-<P>
-
-<A NAME="Installation"></A>
-<HR SIZE="6">
-<A NAME="SEC278"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC279"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC284"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 8.1 Installation </H2>
-<!--docid::SEC278::-->
-<P>
-
-&lt;A NAME=&quot;Installation&quot;&gt;
-&lt;/A&gt;
-</P>
-<P>
-
-<A NAME="IDX1639"></A>
-<A NAME="IDX1640"></A>
-There are four parts to installation:
-</P>
-<P>
-
-<UL>
-<LI>
-Unpack the SLIB distribution.
-<LI>
-Configure the Scheme implementation(s) to locate the SLIB directory.
-<LI>
-Arrange for Scheme implementation to load its SLIB initialization file.
-<LI>
-Build the SLIB catalog for the Scheme implementation.
-</UL>
-<P>
-
-<HR SIZE="6">
-<A NAME="SEC279"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC278"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC280"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[ &gt;&gt; ]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 8.1.1 Unpacking the SLIB Distribution </H3>
-<!--docid::SEC279::-->
-<P>
-
-If the SLIB distribution is a Linux RPM, it will create the SLIB
-directory `<TT>/usr/share/slib</TT>'.
-</P>
-<P>
-
-If the SLIB distribution is a ZIP file, unzip the distribution to create
-the SLIB directory. Locate this `<TT>slib</TT>' directory either in your
-home directory (if only you will use this SLIB installation); or put it
-in a location where libraries reside on your system. On unix systems
-this might be `<TT>/usr/share/slib</TT>', `<TT>/usr/local/lib/slib</TT>', or
-`<TT>/usr/lib/slib</TT>'. If you know where SLIB should go on other
-platforms, please inform agj @ alum.mit.edu.
-</P>
-<P>
-
-<HR SIZE="6">
-<A NAME="SEC280"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC279"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC281"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[ &gt;&gt; ]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 8.1.2 Configure Scheme Implementation to Locate SLIB </H3>
-<!--docid::SEC280::-->
-<P>
-
-If the Scheme implementation supports <CODE>getenv</CODE>, then the value of
-the shell environment variable <VAR>SCHEME_LIBRARY_PATH</VAR> will be used
-for <CODE>(library-vicinity)</CODE> if it is defined. Currently, Chez, Elk,
-MITScheme, scheme-&gt;c, VSCM, and SCM support <CODE>getenv</CODE>. Scheme48
-supports <CODE>getenv</CODE> but does not use it for determining
-<CODE>library-vicinity</CODE>. (That is done from the Makefile.)
-</P>
-<P>
-
-The <CODE>(library-vicinity)</CODE> can also be specified from the SLIB
-initialization file or by implementation-specific means.
-</P>
-<P>
-
-<HR SIZE="6">
-<A NAME="SEC281"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC280"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC282"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[ &gt;&gt; ]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 8.1.3 Loading SLIB Initialization File </H3>
-<!--docid::SEC281::-->
-<P>
-
-Check the manifest in `<TT>README</TT>' to find a configuration file for
-your Scheme implementation. Initialization files for most IEEE P1178
-compliant Scheme Implementations are included with this distribution.
-</P>
-<P>
-
-You should check the definitions of <CODE>software-type</CODE>,
-<CODE>scheme-implementation-version</CODE>,
-<CODE>implementation-vicinity</CODE>,
-and <CODE>library-vicinity</CODE> in the initialization file. There are
-comments in the file for how to configure it.
-</P>
-<P>
-
-Once this is done, modify the startup file for your Scheme
-implementation to <CODE>load</CODE> this initialization file.
-</P>
-<P>
-
-<HR SIZE="6">
-<A NAME="SEC282"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC281"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC283"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[ &gt;&gt; ]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 8.1.4 Build New SLIB Catalog for Implementation </H3>
-<!--docid::SEC282::-->
-<P>
-
-When SLIB is first used from an implementation, a file named
-`<TT>slibcat</TT>' is written to the <CODE>implementation-vicinity</CODE> for that
-implementation. Because users may lack permission to write in
-<CODE>implementation-vicinity</CODE>, it is good practice to build the new
-catalog when installing SLIB.
-</P>
-<P>
-
-To build (or rebuild) the catalog, start the Scheme implementation (with
-SLIB), then:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(require 'new-catalog)
-</pre></td></tr></table><P>
-
-The catalog also supports color-name dictionaries. With an
-SLIB-installed scheme implementation, type:
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(require 'color-names)
-(make-slib-color-name-db)
-(require 'new-catalog)
-(slib:exit)
-</pre></td></tr></table><P>
-
-<HR SIZE="6">
-<A NAME="SEC283"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC282"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC284"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[ &gt;&gt; ]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 8.1.5 Implementation-specific Instructions </H3>
-<!--docid::SEC283::-->
-<P>
-
-Multiple implementations of Scheme can all use the same SLIB directory.
-Simply configure each implementation's initialization file as outlined
-above.
-</P>
-<P>
-
-<A NAME="IDX1641"></A>
-</P>
-<DL>
-<DT><U>Implementation:</U> <B>SCM</B>
-<DD>The SCM implementation does not require any initialization file as SLIB
-support is already built into SCM. See the documentation with SCM for
-installation instructions.
-</DL>
-<P>
-
-<A NAME="IDX1642"></A>
-</P>
-<DL>
-<DT><U>Implementation:</U> <B>VSCM</B>
-<DD><TABLE><tr><td>&nbsp;</td><td class=display><pre style="font-family: serif">From: Matthias Blume &lt;blume @ cs.Princeton.EDU&gt;
-Date: Tue, 1 Mar 1994 11:42:31 -0500
-</pre></td></tr></table><P>
-
-Disclaimer: The code below is only a quick hack. If I find some time to
-spare I might get around to make some more things work.
-</P>
-<P>
-
-You have to provide `<TT>vscm.init</TT>' as an explicit command line
-argument. Since this is not very nice I would recommend the following
-installation procedure:
-</P>
-<P>
-
-<OL>
-<LI>
-run scheme
-<LI>
-<CODE>(load &quot;vscm.init&quot;)</CODE>
-<LI>
-<CODE>(slib:dump &quot;dumpfile&quot;)</CODE>
-<LI>
-mv dumpfile place-where-vscm-standard-bootfile-resides
-e.g. mv dumpfile /usr/local/vscm/lib/scheme-boot
-(In this case vscm should have been compiled with flag
--DDEFAULT_BOOTFILE='&quot;/usr/local/vscm/lib/scheme-boot&quot;'. See Makefile
-(definition of DDP) for details.)
-</OL>
-<P>
-
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1643"></A>
-</P>
-<DL>
-<DT><U>Implementation:</U> <B>Scheme48</B>
-<DD>To make a Scheme48 image for an installation under <CODE>&lt;prefix&gt;</CODE>,
-<P>
-
-<OL>
-<LI>
-<CODE>cd</CODE> to the SLIB directory
-<LI>
-type <CODE>make prefix=&lt;prefix&gt; slib48</CODE>.
-<LI>
-To install the image, type <CODE>make prefix=&lt;prefix&gt; install48</CODE>. This
-will also create a shell script with the name <CODE>slib48</CODE> which will
-invoke the saved image.
-</OL>
-</DL>
-<P>
-
-<A NAME="IDX1644"></A>
-</P>
-<DL>
-<DT><U>Implementation:</U> <B>PLT Scheme</B>
-<DD><A NAME="IDX1645"></A>
-<DT><U>Implementation:</U> <B>DrScheme</B>
-<DD><A NAME="IDX1646"></A>
-<DT><U>Implementation:</U> <B>MzScheme</B>
-<DD><P>
-
-The `<TT>init.ss</TT>' file in the _slibinit_ collection is an SLIB
-initialization file.
-</P>
-<P>
-
-To use SLIB in MzScheme, set the <VAR>SCHEME_LIBRARY_PATH</VAR> environment
-variable to the installed SLIB location; then invoke MzScheme thus:
-</P>
-<P>
-
-<CODE>mzscheme -f ${SCHEME_LIBRARY_PATH}DrScheme.init</CODE>
-</P>
-</DL>
-<P>
-
-<A NAME="IDX1647"></A>
-</P>
-<DL>
-<DT><U>Implementation:</U> <B>MIT Scheme</B>
-<DD><CODE>scheme -load ${SCHEME_LIBRARY_PATH}mitscheme.init</CODE>
-</DL>
-<P>
-
-<A NAME="IDX1648"></A>
-</P>
-<DL>
-<DT><U>Implementation:</U> <B>Guile</B>
-<DD><CODE>guile -l ${SCHEME_LIBRARY_PATH}guile.init</CODE>
-</DL>
-<P>
-
-<A NAME="Porting"></A>
-<HR SIZE="6">
-<A NAME="SEC284"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC283"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC285"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC285"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 8.2 Porting </H2>
-<!--docid::SEC284::-->
-<P>
-
-If there is no initialization file for your Scheme implementation, you
-will have to create one. Your Scheme implementation must be largely
-compliant with
-<TABLE><tr><td>&nbsp;</td><td class=example><pre><CITE>IEEE Std 1178-1990</CITE>,
-<CITE>Revised^4 Report on the Algorithmic Language Scheme</CITE>, or
-<CITE>Revised^5 Report on the Algorithmic Language Scheme</CITE>
-</pre></td></tr></table>in order to support SLIB. <A NAME="DOCF7" HREF="slib_fot.html#FOOT7">(7)</A>
-<P>
-
-`<TT>Template.scm</TT>' is an example configuration file. The comments
-inside will direct you on how to customize it to reflect your system.
-Give your new initialization file the implementation's name with
-`<TT>.init</TT>' appended. For instance, if you were porting
-<CODE>foo-scheme</CODE> then the initialization file might be called
-`<TT>foo.init</TT>'.
-</P>
-<P>
-
-Your customized version should then be loaded as part of your scheme
-implementation's initialization. It will load `<TT>require.scm</TT>' from
-the library; this will allow the use of <CODE>provide</CODE>,
-<CODE>provided?</CODE>, and <CODE>require</CODE> along with the <EM>vicinity</EM>
-functions (these functions are documented in the sections
-<A HREF="slib_1.html#SEC2">1.1 Feature</A> and <A HREF="slib_1.html#SEC3">1.2 Require</A>). The rest of the library will then
-be accessible in a system independent fashion.
-</P>
-<P>
-
-Please mail new working configuration files to <CODE>agj @ alum.mit.edu</CODE>
-so that they can be included in the SLIB distribution.
-</P>
-<P>
-
-<A NAME="Coding Guidelines"></A>
-<HR SIZE="6">
-<A NAME="SEC285"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC284"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC286"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC287"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 8.3 Coding Guidelines </H2>
-<!--docid::SEC285::-->
-<P>
-
-All library packages are written in IEEE P1178 Scheme and assume that a
-configuration file and `<TT>require.scm</TT>' package have already been
-loaded. Other versions of Scheme can be supported in library packages
-as well by using, for example, <CODE>(provided? 'r3rs)</CODE> or
-<CODE>(require 'r3rs)</CODE> (see section <A HREF="slib_1.html#SEC3">1.2 Require</A>).
-<A NAME="IDX1649"></A>
-</P>
-<P>
-
-If a procedure defined in a module is called by other procedures in
-that module, then those procedures should instead call an alias
-defined in that module:
-</P>
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>(define module-name:foo foo)
-</pre></td></tr></table><P>
-
-The module name and `<SAMP>:</SAMP>' should prefix that symbol for the
-internal name. Do not export internal aliases.
-</P>
-<P>
-
-A procedure is exported from a module by putting Schmooz-style
-comments (see section <A HREF="slib_4.html#SEC87">4.14 Schmooz</A>) or `<SAMP>;@</SAMP>' at the beginning of the line
-immediately preceding the definition (<CODE>define</CODE>,
-<CODE>define-syntax</CODE>, or <CODE>defmacro</CODE>). Modules, exports and other
-relevant issues are discussed in <A HREF="slib_1.html#SEC7">1.6 Compiling Scheme</A>.
-</P>
-<P>
-
-Code submitted for inclusion in SLIB should not duplicate (more than
-one) routines already in SLIB files. Use <CODE>require</CODE> to force
-those library routines to be used by your package.
-</P>
-<P>
-
-Documentation should be provided in Emacs Texinfo format if possible,
-but documentation must be provided.
-</P>
-<P>
-
-Your package will be released sooner with SLIB if you send me a file
-which tests your code. Please run this test <EM>before</EM> you send me
-the code!
-</P>
-<P>
-
-<HR SIZE="6">
-<A NAME="SEC286"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC285"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC287"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[ &gt;&gt; ]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 8.3.1 Modifications </H3>
-<!--docid::SEC286::-->
-<P>
-
-Please document your changes. A line or two for `<TT>ChangeLog</TT>' is
-sufficient for simple fixes or extensions. Look at the format of
-`<TT>ChangeLog</TT>' to see what information is desired. Please send me
-<CODE>diff</CODE> files from the latest SLIB distribution (remember to send
-<CODE>diff</CODE>s of `<TT>slib.texi</TT>' and `<TT>ChangeLog</TT>'). This makes for
-less email traffic and makes it easier for me to integrate when more
-than one person is changing a file (this happens a lot with
-`<TT>slib.texi</TT>' and `<SAMP>*.init</SAMP>' files).
-</P>
-<P>
-
-If someone else wrote a package you want to significantly modify, please
-try to contact the author, who may be working on a new version. This
-will insure against wasting effort on obsolete versions.
-</P>
-<P>
-
-Please <EM>do not</EM> reformat the source code with your favorite
-beautifier, make 10 fixes, and send me the resulting source code. I do
-not have the time to fish through 10000 diffs to find your 10 real fixes.
-</P>
-<P>
-
-<A NAME="Copyrights"></A>
-<HR SIZE="6">
-<A NAME="SEC287"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC286"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC288"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC291"> &gt;&gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 8.4 Copyrights </H2>
-<!--docid::SEC287::-->
-<P>
-
-&lt;A NAME=&quot;Copyrights&quot;&gt;
-&lt;/A&gt;
-</P>
-<P>
-
-This section has instructions for SLIB authors regarding copyrights.
-<A NAME="IDX1650"></A>
-</P>
-<P>
-
-Each package in SLIB must either be in the public domain, or come with a
-statement of terms permitting users to copy, redistribute and modify it.
-The comments at the beginning of `<TT>require.scm</TT>' and
-`<TT>macwork.scm</TT>' illustrate copyright and appropriate terms.
-</P>
-<P>
-
-If your code or changes amount to less than about 10 lines, you do not
-need to add your copyright or send a disclaimer.
-</P>
-<P>
-
-<HR SIZE="6">
-<A NAME="SEC288"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC287"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC289"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[ &gt;&gt; ]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 8.4.1 Putting code into the Public Domain </H3>
-<!--docid::SEC288::-->
-<P>
-
-In order to put code in the public domain you should sign a copyright
-disclaimer and send it to the SLIB maintainer. Contact
-agj @ alum.mit.edu for the address to mail the disclaimer to.
-</P>
-<P>
-
-<BLOCKQUOTE>
-I, <VAR>&lt;my-name&gt;</VAR>, hereby affirm that I have placed the software
-package <VAR>&lt;name&gt;</VAR> in the public domain.
-<P>
-
-I affirm that I am the sole author and sole copyright holder for the
-software package, that I have the right to place this software package
-in the public domain, and that I will do nothing to undermine this
-status in the future.
-<PRE> <VAR>signature and date</VAR>
-</PRE>
-</BLOCKQUOTE>
-<P>
-
-This wording assumes that you are the sole author. If you are not the
-sole author, the wording needs to be different. If you don't want to
-be bothered with sending a letter every time you release or modify a
-module, make your letter say that it also applies to your future
-revisions of that module.
-</P>
-<P>
-
-Make sure no employer has any claim to the copyright on the work you
-are submitting. If there is any doubt, create a copyright disclaimer
-and have your employer sign it. Mail the signed disclaimer to the
-SLIB maintainer. Contact agj @ alum.mit.edu for the address to mail
-the disclaimer to. An example disclaimer follows.
-</P>
-<P>
-
-<HR SIZE="6">
-<A NAME="SEC289"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC288"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC290"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[ &gt;&gt; ]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 8.4.2 Explicit copying terms </H3>
-<!--docid::SEC289::-->
-<P>
-
-If you submit more than about 10 lines of code which you are not
-placing into the Public Domain (by sending me a disclaimer) you need
-to:
-</P>
-<P>
-
-<UL>
-<LI>
-Arrange that your name appears in a copyright line for the appropriate
-year. Multiple copyright lines are acceptable.
-<LI>
-With your copyright line, specify any terms you require to be
-different from those already in the file.
-<LI>
-Make sure no employer has any claim to the copyright on the work you
-are submitting. If there is any doubt, create a copyright disclaimer
-and have your employer sign it. Mail the signed disclaim to the SLIB
-maintainer. Contact agj @ alum.mit.edu for the address to mail the
-disclaimer to.
-</UL>
-<P>
-
-<HR SIZE="6">
-<A NAME="SEC290"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC289"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC291"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[ &gt;&gt; ]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H3> 8.4.3 Example: Company Copyright Disclaimer </H3>
-<!--docid::SEC290::-->
-<P>
-
-This disclaimer should be signed by a vice president or general
-manager of the company. If you can't get at them, anyone else
-authorized to license out software produced there will do. Here is a
-sample wording:
-</P>
-<P>
-
-<BLOCKQUOTE>
-<VAR>&lt;employer&gt;</VAR> Corporation hereby disclaims all copyright
-interest in the program <VAR>&lt;program&gt;</VAR> written by <VAR>&lt;name&gt;</VAR>.
-<P>
-
-<VAR>&lt;employer&gt;</VAR> Corporation affirms that it has no other intellectual
-property interest that would undermine this release, and will do
-nothing to undermine it in the future.
-</P>
-<P>
-
-<PRE><VAR>&lt;signature and date&gt;</VAR>,
-<VAR>&lt;name&gt;</VAR>, <VAR>&lt;title&gt;</VAR>, <VAR>&lt;employer&gt;</VAR> Corporation
-</PRE>
-</BLOCKQUOTE>
-<P>
-
-<A NAME="About this manual"></A>
-<HR SIZE="6">
-<A NAME="SEC291"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC290"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_9.html#SEC292"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[ &gt;&gt; ]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H2> 8.5 About this manual </H2>
-<!--docid::SEC291::-->
-<P>
-
-<UL>
-<LI>
-Entries that are labeled as Functions are called for their return
-values. Entries that are labeled as Procedures are called primarily for
-their side effects.
-<P>
-
-</P>
-<LI>
-Examples in this text were produced using the <CODE>scm</CODE> Scheme
-implementation.
-<P>
-
-</P>
-<LI>
-At the beginning of each section, there is a line that looks like
-<A NAME="IDX1651"></A>
-<CODE>(require 'feature)</CODE>. Include this line in your code prior to
-using the package.
-</UL>
-<P>
-
-<A NAME="Index"></A>
-<HR SIZE="6">
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[ &gt;&gt; ]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<BR>
-<FONT SIZE="-1">
-This document was generated
-by <I>Steve Langasek</I> on <I>January, 10 2005</I>
-using <A HREF="http://texi2html.cvshome.org"><I>texi2html</I></A>
-</FONT>
-
-</BODY>
-</HTML>
diff --git a/slib_9.html b/slib_9.html
deleted file mode 100644
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-<!DOCTYPE html PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN"
- "http://www.w3.org/TR/html40/loose.dtd">
-<HTML>
-<!-- Created on January, 10 2005 by texi2html 1.66 -->
-<!--
-Written by: Lionel Cons <Lionel.Cons@cern.ch> (original author)
- Karl Berry <karl@freefriends.org>
- Olaf Bachmann <obachman@mathematik.uni-kl.de>
- and many others.
-Maintained by: Many creative people <dev@texi2html.cvshome.org>
-Send bugs and suggestions to <users@texi2html.cvshome.org>
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--->
-<HEAD>
-<TITLE>SLIB: Index</TITLE>
-
-<META NAME="description" CONTENT="SLIB: Index">
-<META NAME="keywords" CONTENT="SLIB: Index">
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-
-<A NAME="SEC292"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC291"> &lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_12.html"> &gt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top"> Up </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[ &gt;&gt; ]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H1> Procedure and Macro Index </H1>
-<!--docid::SEC292::-->
-<P>
-
-This is an alphabetical list of all the procedures and macros in SLIB.
-</P>
-<P>
-
-</P>
-<table><tr><th valign=top>Jump to: &nbsp; </th><td><A HREF="slib_9.html#fn_-" style="text-decoration:none"><b>-</b></A>
- &nbsp;
-<A HREF="slib_9.html#fn_/" style="text-decoration:none"><b>/</b></A>
- &nbsp;
-<A HREF="slib_9.html#fn_1" style="text-decoration:none"><b>1</b></A>
- &nbsp;
-<A HREF="slib_9.html#fn_&lt;" style="text-decoration:none"><b><</b></A>
- &nbsp;
-<A HREF="slib_9.html#fn_=" style="text-decoration:none"><b>=</b></A>
- &nbsp;
-<A HREF="slib_9.html#fn_&gt;" style="text-decoration:none"><b>></b></A>
- &nbsp;
-<BR>
-<A HREF="slib_9.html#fn_A" style="text-decoration:none"><b>A</b></A>
- &nbsp;
-<A HREF="slib_9.html#fn_B" style="text-decoration:none"><b>B</b></A>
- &nbsp;
-<A HREF="slib_12.html#fn_C" style="text-decoration:none"><b>C</b></A>
- &nbsp;
-<A HREF="slib_13.html#fn_D" style="text-decoration:none"><b>D</b></A>
- &nbsp;
-<A HREF="slib_13.html#fn_E" style="text-decoration:none"><b>E</b></A>
- &nbsp;
-<A HREF="slib_13.html#fn_F" style="text-decoration:none"><b>F</b></A>
- &nbsp;
-<A HREF="slib_14.html#fn_G" style="text-decoration:none"><b>G</b></A>
- &nbsp;
-<A HREF="slib_14.html#fn_H" style="text-decoration:none"><b>H</b></A>
- &nbsp;
-<A HREF="slib_14.html#fn_I" style="text-decoration:none"><b>I</b></A>
- &nbsp;
-<A HREF="slib_15.html#fn_J" style="text-decoration:none"><b>J</b></A>
- &nbsp;
-<A HREF="slib_15.html#fn_K" style="text-decoration:none"><b>K</b></A>
- &nbsp;
-<A HREF="slib_15.html#fn_L" style="text-decoration:none"><b>L</b></A>
- &nbsp;
-<A HREF="slib_15.html#fn_M" style="text-decoration:none"><b>M</b></A>
- &nbsp;
-<A HREF="slib_16.html#fn_N" style="text-decoration:none"><b>N</b></A>
- &nbsp;
-<A HREF="slib_16.html#fn_O" style="text-decoration:none"><b>O</b></A>
- &nbsp;
-<A HREF="slib_16.html#fn_P" style="text-decoration:none"><b>P</b></A>
- &nbsp;
-<A HREF="slib_17.html#fn_Q" style="text-decoration:none"><b>Q</b></A>
- &nbsp;
-<A HREF="slib_17.html#fn_R" style="text-decoration:none"><b>R</b></A>
- &nbsp;
-<A HREF="slib_17.html#fn_S" style="text-decoration:none"><b>S</b></A>
- &nbsp;
-<A HREF="slib_18.html#fn_T" style="text-decoration:none"><b>T</b></A>
- &nbsp;
-<A HREF="slib_18.html#fn_U" style="text-decoration:none"><b>U</b></A>
- &nbsp;
-<A HREF="slib_18.html#fn_V" style="text-decoration:none"><b>V</b></A>
- &nbsp;
-<A HREF="slib_18.html#fn_W" style="text-decoration:none"><b>W</b></A>
- &nbsp;
-<A HREF="slib_19.html#fn_X" style="text-decoration:none"><b>X</b></A>
- &nbsp;
-<A HREF="slib_19.html#fn_Y" style="text-decoration:none"><b>Y</b></A>
- &nbsp;
-<A HREF="slib_19.html#fn_Z" style="text-decoration:none"><b>Z</b></A>
- &nbsp;
-</td></tr></table><P></P>
-<TABLE border=0>
-<TR><TD></TD><TH ALIGN=LEFT>Index Entry</TH><TH ALIGN=LEFT> Section</TH></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="fn_-"></A>-</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1457"><CODE>-</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC241">7.4.6 Multi-argument / and -</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1440"><CODE>-1+</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC239">7.4.4 Rev2 Procedures</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="fn_/"></A>/</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1456"><CODE>/</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC241">7.4.6 Multi-argument / and -</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="fn_1"></A>1</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1439"><CODE>1+</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC239">7.4.4 Rev2 Procedures</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="fn_&lt;"></A>&lt;</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1442"><CODE>&lt;=?</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC239">7.4.4 Rev2 Procedures</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1441"><CODE>&lt;?</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC239">7.4.4 Rev2 Procedures</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="fn_="></A>=</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX504"><CODE>=</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC94">5.1.5 Gray code</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1443"><CODE>=?</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC239">7.4.4 Rev2 Procedures</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="fn_&gt;"></A>&gt;</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1445"><CODE>&gt;=?</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC239">7.4.4 Rev2 Procedures</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1444"><CODE>&gt;?</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC239">7.4.4 Rev2 Procedures</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="fn_A"></A>A</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX399"><CODE>absolute-path?</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC77">File-system Locators and Predicates</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX397"><CODE>absolute-uri?</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC77">File-system Locators and Predicates</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1100"><CODE>ac32</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC185">7.1.1 Arrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1101"><CODE>ac32</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC185">7.1.1 Arrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1098"><CODE>ac64</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC185">7.1.1 Arrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1099"><CODE>ac64</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC185">7.1.1 Arrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX964"><CODE>add-command-tables</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC156">6.1.4.1 Database Extension</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX933"><CODE>add-domain</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC145">Defining Tables</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX972"><CODE>add-domain on relational-database</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC157">6.1.4.2 Command Intrinsics</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1414"><CODE>add-process!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC230">7.3.5 Multi-Processing</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_3.html#IDX167"><CODE>add-setter</CODE></A></TD><TD valign=top><A HREF="slib_3.html#SEC43">3.8.3 Setters</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1290"><CODE>adjoin</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC210">7.2.1.2 Lists as sets</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX251"><CODE>adjoin-parameters!</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC65">4.4.4 Parameter lists</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1067"><CODE>alist-&gt;wt-tree</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC179">6.3.1 Construction of Weight-Balanced Trees</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1147"><CODE>alist-associator</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC188">7.1.4 Association Lists</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1150"><CODE>alist-for-each</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC188">7.1.4 Association Lists</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1146"><CODE>alist-inquirer</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC188">7.1.4 Association Lists</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1149"><CODE>alist-map</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC188">7.1.4 Association Lists</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1148"><CODE>alist-remover</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC188">7.1.4 Association Lists</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX1003"><CODE>alist-table</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC167">6.2.1.1 The Base</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1549"><CODE>and-let*</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC260">7.4.13.2 SRFI-2</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1321"><CODE>and?</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC213">7.2.1.5 Non-List functions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1541"><CODE>any</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC256">Searching</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1229"><CODE>any?</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC194">7.1.9 Collections</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1438"><CODE>append!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC239">7.4.4 Rev2 Procedures</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1523"><CODE>append-reverse</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC253">Miscellaneous</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1524"><CODE>append-reverse!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC253">Miscellaneous</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1459"><CODE>apply</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC242">7.4.7 Multi-argument Apply</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1104"><CODE>ar32</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC185">7.1.1 Arrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1105"><CODE>ar32</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC185">7.1.1 Arrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1102"><CODE>ar64</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC185">7.1.1 Arrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1103"><CODE>ar64</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC185">7.1.1 Arrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1134"><CODE>array-align</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC186">7.1.2 Subarrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1142"><CODE>array-copy!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC187">7.1.3 Array Mapping</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1127"><CODE>array-dimensions</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC185">7.1.1 Arrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1139"><CODE>array-for-each</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC187">7.1.3 Array Mapping</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1128"><CODE>array-in-bounds?</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC185">7.1.1 Arrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1141"><CODE>array-index-map!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC187">7.1.3 Array Mapping</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1140"><CODE>array-indexes</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC187">7.1.3 Array Mapping</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1138"><CODE>array-map</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC187">7.1.3 Array Mapping</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1137"><CODE>array-map!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC187">7.1.3 Array Mapping</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1125"><CODE>array-rank</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC185">7.1.1 Arrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1129"><CODE>array-ref</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC185">7.1.1 Arrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1130"><CODE>array-set!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC185">7.1.1 Arrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1126"><CODE>array-shape</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC185">7.1.1 Arrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1135"><CODE>array-trim</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC186">7.1.2 Subarrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1096"><CODE>array=?</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC185">7.1.1 Arrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1095"><CODE>array?</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC185">7.1.1 Arrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1110"><CODE>as16</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC185">7.1.1 Arrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1111"><CODE>as16</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC185">7.1.1 Arrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1108"><CODE>as32</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC185">7.1.1 Arrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1109"><CODE>as32</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC185">7.1.1 Arrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1106"><CODE>as64</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC185">7.1.1 Arrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1107"><CODE>as64</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC185">7.1.1 Arrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1112"><CODE>as8</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC185">7.1.1 Arrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1113"><CODE>as8</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC185">7.1.1 Arrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX453"><CODE>asctime</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC84">4.12.2 Posix Time</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX490"><CODE>ash</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC92">5.1.3 Fields of Bits</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1546"><CODE>assoc</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC258">Association lists</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1547"><CODE>assoc</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC258">Association lists</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1122"><CODE>at1</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC185">7.1.1 Arrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1123"><CODE>at1</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC185">7.1.1 Arrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1323"><CODE>atom?</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC213">7.2.1.5 Non-List functions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1118"><CODE>au16</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC185">7.1.1 Arrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1119"><CODE>au16</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC185">7.1.1 Arrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1116"><CODE>au32</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC185">7.1.1 Arrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1117"><CODE>au32</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC185">7.1.1 Arrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1114"><CODE>au64</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC185">7.1.1 Arrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1115"><CODE>au64</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC185">7.1.1 Arrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1120"><CODE>au8</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC185">7.1.1 Arrays</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1121"><CODE>au8</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC185">7.1.1 Arrays</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
-<TR><TH><A NAME="fn_B"></A>B</TH><TD></TD><TD></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX274"><CODE>batch:call-with-output-script</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC68">4.4.7 Batch</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX275"><CODE>batch:command</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC68">4.4.7 Batch</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX279"><CODE>batch:comment</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC68">4.4.7 Batch</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX281"><CODE>batch:delete-file</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC68">4.4.7 Batch</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX272"><CODE>batch:initialize!</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC68">4.4.7 Batch</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX280"><CODE>batch:lines-&gt;file</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC68">4.4.7 Batch</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX282"><CODE>batch:rename-file</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC68">4.4.7 Batch</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX278"><CODE>batch:run-script</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC68">4.4.7 Batch</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX277"><CODE>batch:try-chopped-command</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC68">4.4.7 Batch</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_4.html#IDX276"><CODE>batch:try-command</CODE></A></TD><TD valign=top><A HREF="slib_4.html#SEC68">4.4.7 Batch</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX488"><CODE>bit-field</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC92">5.1.3 Fields of Bits</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX494"><CODE>bit-reverse</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC93">5.1.4 Bit order and Lamination</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX482"><CODE>bitwise-if</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC90">5.1.1 Bitwise Operations</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX500"><CODE>bitwise:delaminate</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC93">5.1.4 Bit order and Lamination</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX499"><CODE>bitwise:laminate</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC93">5.1.4 Bit order and Lamination</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX787"><CODE>blackbody-spectrum</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC127">5.9.3 Spectra</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX788"><CODE>blackbody-spectrum</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC127">5.9.3 Spectra</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_5.html#IDX498"><CODE>booleans-&gt;integer</CODE></A></TD><TD valign=top><A HREF="slib_5.html#SEC93">5.1.4 Bit order and Lamination</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1577"><CODE>break</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC267">7.5.4 Breakpoints</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1578"><CODE>break</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC267">7.5.4 Breakpoints</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1569"><CODE>break-all</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC266">7.5.3 Debug</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1581"><CODE>breakf</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC267">7.5.4 Breakpoints</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1582"><CODE>breakf</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC267">7.5.4 Breakpoints</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1574"><CODE>breakpoint</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC267">7.5.4 Breakpoints</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX987"><CODE>browse</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC164">6.1.6 Database Browser</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX988"><CODE>browse</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC164">6.1.6 Database Browser</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX989"><CODE>browse</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC164">6.1.6 Database Browser</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX990"><CODE>browse</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC164">6.1.6 Database Browser</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX991"><CODE>browse</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC164">6.1.6 Database Browser</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_6.html#IDX992"><CODE>browse</CODE></A></TD><TD valign=top><A HREF="slib_6.html#SEC164">6.1.6 Database Browser</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_2.html#IDX100"><CODE>browse-url</CODE></A></TD><TD valign=top><A HREF="slib_2.html#SEC17">2.4 System</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1313"><CODE>butlast</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC211">7.2.1.3 Lists as sequences</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1315"><CODE>butnthcdr</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC211">7.2.1.3 Lists as sequences</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1154"><CODE>byte-ref</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC189">7.1.5 Byte</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1155"><CODE>byte-set!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC189">7.1.5 Byte</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1159"><CODE>bytes</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC189">7.1.5 Byte</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1187"><CODE>bytes-&gt;ieee-double</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC190">7.1.6 Byte/Number Conversions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1186"><CODE>bytes-&gt;ieee-float</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC190">7.1.6 Byte/Number Conversions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1184"><CODE>bytes-&gt;integer</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC190">7.1.6 Byte/Number Conversions</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1160"><CODE>bytes-&gt;list</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC189">7.1.5 Byte</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1163"><CODE>bytes-copy</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC189">7.1.5 Byte</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1158"><CODE>bytes-length</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC189">7.1.5 Byte</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1165"><CODE>bytes-reverse</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC189">7.1.5 Byte</A></TD></TR>
-<TR><TD></TD><TD valign=top><A HREF="slib_7.html#IDX1164"><CODE>bytes-reverse!</CODE></A></TD><TD valign=top><A HREF="slib_7.html#SEC189">7.1.5 Byte</A></TD></TR>
-<TR><TD COLSPAN=3> <HR></TD></TR>
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-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_8.html#SEC277"> &lt;&lt; </A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[ &gt;&gt; ]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT"> &nbsp; <TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<BR>
-<FONT SIZE="-1">
-This document was generated
-by <I>Steve Langasek</I> on <I>January, 10 2005</I>
-using <A HREF="http://texi2html.cvshome.org"><I>texi2html</I></A>
-</FONT>
-
-</BODY>
-</HTML>
diff --git a/slib_abt.html b/slib_abt.html
deleted file mode 100644
index 3e4da88..0000000
--- a/slib_abt.html
+++ /dev/null
@@ -1,205 +0,0 @@
-<!DOCTYPE html PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN"
- "http://www.w3.org/TR/html40/loose.dtd">
-<HTML>
-<!-- Created on January, 10 2005 by texi2html 1.66 -->
-<!--
-Written by: Lionel Cons <Lionel.Cons@cern.ch> (original author)
- Karl Berry <karl@freefriends.org>
- Olaf Bachmann <obachman@mathematik.uni-kl.de>
- and many others.
-Maintained by: Many creative people <dev@texi2html.cvshome.org>
-Send bugs and suggestions to <users@texi2html.cvshome.org>
-
--->
-<HEAD>
-<TITLE>SLIB: About this document</TITLE>
-
-<META NAME="description" CONTENT="SLIB: About this document">
-<META NAME="keywords" CONTENT="SLIB: About this document">
-<META NAME="resource-type" CONTENT="document">
-<META NAME="distribution" CONTENT="global">
-<META NAME="Generator" CONTENT="texi2html 1.66">
-
-</HEAD>
-
-<BODY LANG="en" BGCOLOR="#FFFFFF" TEXT="#000000" LINK="#0000FF" VLINK="#800080" ALINK="#FF0000">
-
-<A NAME="SEC_About"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H1>About this document</H1>
-This document was generated
-by
-using <A HREF="http://texi2html.cvshome.org"><I>texi2html</I></A>
-<P></P>
-The buttons in the navigation panels have the following meaning:
-<P></P>
-<table border = "1">
-<TR>
-<TH> Button </TH>
-<TH> Name </TH>
-<TH> Go to </TH>
-<TH> From 1.2.3 go to</TH>
-</TR>
-<TR>
-<TD ALIGN="CENTER">
- [ &lt; ] </TD>
-<TD ALIGN="CENTER">
-Back
-</TD>
-<TD>
-previous section in reading order
-</TD>
-<TD>
-1.2.2
-</TD>
-</TR>
-<TR>
-<TD ALIGN="CENTER">
- [ &gt; ] </TD>
-<TD ALIGN="CENTER">
-Forward
-</TD>
-<TD>
-next section in reading order
-</TD>
-<TD>
-1.2.4
-</TD>
-</TR>
-<TR>
-<TD ALIGN="CENTER">
- [ &lt;&lt; ] </TD>
-<TD ALIGN="CENTER">
-FastBack
-</TD>
-<TD>
-beginning of this chapter or previous chapter
-</TD>
-<TD>
-1
-</TD>
-</TR>
-<TR>
-<TD ALIGN="CENTER">
- [ Up ] </TD>
-<TD ALIGN="CENTER">
-Up
-</TD>
-<TD>
-up section
-</TD>
-<TD>
-1.2
-</TD>
-</TR>
-<TR>
-<TD ALIGN="CENTER">
- [ &gt;&gt; ] </TD>
-<TD ALIGN="CENTER">
-FastForward
-</TD>
-<TD>
-next chapter
-</TD>
-<TD>
-2
-</TD>
-</TR>
-<TR>
-<TD ALIGN="CENTER">
- [Top] </TD>
-<TD ALIGN="CENTER">
-Top
-</TD>
-<TD>
-cover (top) of document
-</TD>
-<TD>
- &nbsp;
-</TD>
-</TR>
-<TR>
-<TD ALIGN="CENTER">
- [Contents] </TD>
-<TD ALIGN="CENTER">
-Contents
-</TD>
-<TD>
-table of contents
-</TD>
-<TD>
- &nbsp;
-</TD>
-</TR>
-<TR>
-<TD ALIGN="CENTER">
- [Index] </TD>
-<TD ALIGN="CENTER">
-Index
-</TD>
-<TD>
-concept index
-</TD>
-<TD>
- &nbsp;
-</TD>
-</TR>
-<TR>
-<TD ALIGN="CENTER">
- [ ? ] </TD>
-<TD ALIGN="CENTER">
-About
-</TD>
-<TD>
-this page
-</TD>
-<TD>
- &nbsp;
-</TD>
-</TR>
-</TABLE>
- <P>
- where the <STRONG> Example </STRONG> assumes that the current position
- is at <STRONG> Subsubsection One-Two-Three </STRONG> of a document of
- the following structure:</P>
- <UL>
- <LI> 1. Section One
- <UL>
- <LI>1.1 Subsection One-One
- <UL>
- <LI>...</LI>
- </UL>
- <LI>1.2 Subsection One-Two
- <UL>
- <LI>1.2.1 Subsubsection One-Two-One</LI>
- <LI>1.2.2 Subsubsection One-Two-Two</LI>
- <LI>1.2.3 Subsubsection One-Two-Three &nbsp; &nbsp;
- <STRONG>&lt;== Current Position </STRONG></LI>
- <LI>1.2.4 Subsubsection One-Two-Four</LI>
- </UL>
- </LI>
- <LI>1.3 Subsection One-Three
- <UL>
- <LI>...</LI>
- </UL>
- </LI>
- <LI>1.4 Subsection One-Four</LI>
- </UL>
- </LI>
- </UL>
-
-<HR SIZE=1>
-<BR>
-<FONT SIZE="-1">
-This document was generated
-by <I>Steve Langasek</I> on <I>January, 10 2005</I>
-using <A HREF="http://texi2html.cvshome.org"><I>texi2html</I></A>
-</FONT>
-
-</BODY>
-</HTML>
diff --git a/slib_fot.html b/slib_fot.html
deleted file mode 100644
index 9d20d03..0000000
--- a/slib_fot.html
+++ /dev/null
@@ -1,92 +0,0 @@
-<!DOCTYPE html PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN"
- "http://www.w3.org/TR/html40/loose.dtd">
-<HTML>
-<!-- Created on January, 10 2005 by texi2html 1.66 -->
-<!--
-Written by: Lionel Cons <Lionel.Cons@cern.ch> (original author)
- Karl Berry <karl@freefriends.org>
- Olaf Bachmann <obachman@mathematik.uni-kl.de>
- and many others.
-Maintained by: Many creative people <dev@texi2html.cvshome.org>
-Send bugs and suggestions to <users@texi2html.cvshome.org>
-
--->
-<HEAD>
-<TITLE>SLIB: Footnotes</TITLE>
-
-<META NAME="description" CONTENT="SLIB: Footnotes">
-<META NAME="keywords" CONTENT="SLIB: Footnotes">
-<META NAME="resource-type" CONTENT="document">
-<META NAME="distribution" CONTENT="global">
-<META NAME="Generator" CONTENT="texi2html 1.66">
-
-</HEAD>
-
-<BODY LANG="en" BGCOLOR="#FFFFFF" TEXT="#000000" LINK="#0000FF" VLINK="#800080" ALINK="#FF0000">
-
-<A NAME="slib_fot.html"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H1>Footnotes</H1>
-<H3><A NAME="FOOT1" HREF="slib_1.html#DOCF1">(1)</A></H3>
-<P>There are some functions with internal <CODE>require</CODE> calls
-to delay loading modules until they are needed. While this reduces
-startup latency for interpreters, it can produce headaches for
-compilers.
-<H3><A NAME="FOOT2" HREF="slib_1.html#DOCF2">(2)</A></H3>
-<P>Although it will
-work on large info files, feeding it an excerpt is much faster; and
-has less chance of being confused by unusual text in the info file.
-This command excerpts the SLIB index into `<TT>slib-index.info</TT>':
-<P>
-
-<TABLE><tr><td>&nbsp;</td><td class=example><pre>info -f slib2d6.info -n &quot;Index&quot; -o slib-index.info
-</pre></td></tr></table>
-<H3><A NAME="FOOT3" HREF="slib_4.html#DOCF3">(3)</A></H3>
-<P>How do I know this?
-I parsed 250kbyte of random input (an e-mail file) with a non-trivial
-grammar utilizing all constructs.
-<H3><A NAME="FOOT4" HREF="slib_5.html#DOCF4">(4)</A></H3>
-<P>Readers may recognize these color string formats from Xlib.
-X11's color management system was doomed by its fiction that CRT
-monitors' (and X11 default) color-spaces were linear RGBi. Unable to
-shed this legacy, the only practical way to view pictures on X is to
-ignore its color management system and use an sRGB monitor. In this
-implementation the device-independent RGB709 and sRGB spaces replace the
-device-dependent RGBi and RGB spaces of Xlib.
-<H3><A NAME="FOOT5" HREF="slib_5.html#DOCF5">(5)</A></H3>
-<P>
-A comprehensive encoding of transforms between CIEXYZ and device color
-spaces is the International Color Consortium profile format,
-ICC.1:1998-09:
-<P>
-
-<BLOCKQUOTE>
-The intent of this format is to provide a cross-platform device profile
-format. Such device profiles can be used to translate color data
-created on one device into another device's native color space.
-</BLOCKQUOTE>
-
-<H3><A NAME="FOOT6" HREF="slib_5.html#DOCF6">(6)</A></H3>
-<P>David Kahaner, Cleve Moler, and Stephen Nash
-<CITE>Numerical Methods and Software</CITE>
-Prentice-Hall, 1989, ISBN 0-13-627258-4
-<H3><A NAME="FOOT7" HREF="slib_8.html#DOCF7">(7)</A></H3>
-<P>If you are porting a
-<CITE>Revised^3 Report on the Algorithmic Language Scheme</CITE>
-implementation, then you will need to finish writing `<TT>sc4sc3.scm</TT>'
-and <CODE>load</CODE> it from your initialization file.
-<HR SIZE=1>
-<BR>
-<FONT SIZE="-1">
-This document was generated
-by <I>Steve Langasek</I> on <I>January, 10 2005</I>
-using <A HREF="http://texi2html.cvshome.org"><I>texi2html</I></A>
-</FONT>
-
-</BODY>
-</HTML>
diff --git a/slib_ovr.html b/slib_ovr.html
deleted file mode 100644
index 0d45685..0000000
--- a/slib_ovr.html
+++ /dev/null
@@ -1,69 +0,0 @@
-<!DOCTYPE html PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN"
- "http://www.w3.org/TR/html40/loose.dtd">
-<HTML>
-<!-- Created on January, 10 2005 by texi2html 1.66 -->
-<!--
-Written by: Lionel Cons <Lionel.Cons@cern.ch> (original author)
- Karl Berry <karl@freefriends.org>
- Olaf Bachmann <obachman@mathematik.uni-kl.de>
- and many others.
-Maintained by: Many creative people <dev@texi2html.cvshome.org>
-Send bugs and suggestions to <users@texi2html.cvshome.org>
-
--->
-<HEAD>
-<TITLE>SLIB: Short Table of Contents</TITLE>
-
-<META NAME="description" CONTENT="SLIB: Short Table of Contents">
-<META NAME="keywords" CONTENT="SLIB: Short Table of Contents">
-<META NAME="resource-type" CONTENT="document">
-<META NAME="distribution" CONTENT="global">
-<META NAME="Generator" CONTENT="texi2html 1.66">
-
-</HEAD>
-
-<BODY LANG="en" BGCOLOR="#FFFFFF" TEXT="#000000" LINK="#0000FF" VLINK="#800080" ALINK="#FF0000">
-
-<A NAME="SEC_OVERVIEW"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H1>Short Table of Contents</H1>
-<BLOCKQUOTE>
-<A NAME="TOC1" HREF="slib_1.html#SEC1">1. The Library System</A>
-<BR>
-<A NAME="TOC13" HREF="slib_2.html#SEC13">2. Universal SLIB Procedures</A>
-<BR>
-<A NAME="TOC21" HREF="slib_3.html#SEC21">3. Scheme Syntax Extension Packages</A>
-<BR>
-<A NAME="TOC45" HREF="slib_4.html#SEC45">4. Textual Conversion Packages</A>
-<BR>
-<A NAME="TOC88" HREF="slib_5.html#SEC88">5. Mathematical Packages</A>
-<BR>
-<A NAME="TOC140" HREF="slib_6.html#SEC140">6. Database Packages</A>
-<BR>
-<A NAME="TOC183" HREF="slib_7.html#SEC183">7. Other Packages</A>
-<BR>
-<A NAME="TOC277" HREF="slib_8.html#SEC277">8. About SLIB</A>
-<BR>
-<A NAME="TOC292" HREF="slib_9.html#SEC292">Procedure and Macro Index</A>
-<BR>
-<A NAME="TOC293" HREF="slib_10.html#SEC293">Variable Index</A>
-<BR>
-<A NAME="TOC294" HREF="slib_11.html#SEC294">Concept and Feature Index</A>
-<BR>
-
-</BLOCKQUOTE>
-<HR SIZE=1>
-<BR>
-<FONT SIZE="-1">
-This document was generated
-by <I>Steve Langasek</I> on <I>January, 10 2005</I>
-using <A HREF="http://texi2html.cvshome.org"><I>texi2html</I></A>
-</FONT>
-
-</BODY>
-</HTML>
diff --git a/slib_toc.html b/slib_toc.html
deleted file mode 100644
index 4ad33c7..0000000
--- a/slib_toc.html
+++ /dev/null
@@ -1,676 +0,0 @@
-<!DOCTYPE html PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN"
- "http://www.w3.org/TR/html40/loose.dtd">
-<HTML>
-<!-- Created on January, 10 2005 by texi2html 1.66 -->
-<!--
-Written by: Lionel Cons <Lionel.Cons@cern.ch> (original author)
- Karl Berry <karl@freefriends.org>
- Olaf Bachmann <obachman@mathematik.uni-kl.de>
- and many others.
-Maintained by: Many creative people <dev@texi2html.cvshome.org>
-Send bugs and suggestions to <users@texi2html.cvshome.org>
-
--->
-<HEAD>
-<TITLE>SLIB: Table of Contents</TITLE>
-
-<META NAME="description" CONTENT="SLIB: Table of Contents">
-<META NAME="keywords" CONTENT="SLIB: Table of Contents">
-<META NAME="resource-type" CONTENT="document">
-<META NAME="distribution" CONTENT="global">
-<META NAME="Generator" CONTENT="texi2html 1.66">
-
-</HEAD>
-
-<BODY LANG="en" BGCOLOR="#FFFFFF" TEXT="#000000" LINK="#0000FF" VLINK="#800080" ALINK="#FF0000">
-
-<A NAME="SEC_Contents"></A>
-<TABLE CELLPADDING=1 CELLSPACING=1 BORDER=0>
-<TR><TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib.html#SEC_Top">Top</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_toc.html#SEC_Contents">Contents</A>]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[Index]</TD>
-<TD VALIGN="MIDDLE" ALIGN="LEFT">[<A HREF="slib_abt.html#SEC_About"> ? </A>]</TD>
-</TR></TABLE>
-<H1>Table of Contents</H1>
-<BLOCKQUOTE>
-<A NAME="TOC1" HREF="slib_1.html#SEC1">1. The Library System</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC2" HREF="slib_1.html#SEC2">1.1 Feature</A>
-<BR>
-<A NAME="TOC3" HREF="slib_1.html#SEC3">1.2 Require</A>
-<BR>
-<A NAME="TOC4" HREF="slib_1.html#SEC4">1.3 Library Catalogs</A>
-<BR>
-<A NAME="TOC5" HREF="slib_1.html#SEC5">1.4 Catalog Creation</A>
-<BR>
-<A NAME="TOC6" HREF="slib_1.html#SEC6">1.5 Catalog Vicinities</A>
-<BR>
-<A NAME="TOC7" HREF="slib_1.html#SEC7">1.6 Compiling Scheme</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC8" HREF="slib_1.html#SEC8">1.6.1 Module Conventions</A>
-<BR>
-<A NAME="TOC9" HREF="slib_1.html#SEC9">1.6.2 Module Manifests</A>
-<BR>
-<A NAME="TOC10" HREF="slib_1.html#SEC10">1.6.3 Module Semantics</A>
-<BR>
-<A NAME="TOC11" HREF="slib_1.html#SEC11">1.6.4 Top-level Variable References</A>
-<BR>
-<A NAME="TOC12" HREF="slib_1.html#SEC12">1.6.5 Module Analysis</A>
-<BR>
-</BLOCKQUOTE>
-</BLOCKQUOTE>
-<A NAME="TOC13" HREF="slib_2.html#SEC13">2. Universal SLIB Procedures</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC14" HREF="slib_2.html#SEC14">2.1 Vicinity</A>
-<BR>
-<A NAME="TOC15" HREF="slib_2.html#SEC15">2.2 Configuration</A>
-<BR>
-<A NAME="TOC16" HREF="slib_2.html#SEC16">2.3 Input/Output</A>
-<BR>
-<A NAME="TOC17" HREF="slib_2.html#SEC17">2.4 System</A>
-<BR>
-<A NAME="TOC18" HREF="slib_2.html#SEC18">2.5 Miscellany</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC19" HREF="slib_2.html#SEC19">2.5.1 Mutual Exclusion</A>
-<BR>
-<A NAME="TOC20" HREF="slib_2.html#SEC20">2.5.2 Legacy</A>
-<BR>
-</BLOCKQUOTE>
-</BLOCKQUOTE>
-<A NAME="TOC21" HREF="slib_3.html#SEC21">3. Scheme Syntax Extension Packages</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC22" HREF="slib_3.html#SEC22">3.1 Defmacro</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC23" HREF="slib_3.html#SEC23">3.1.1 Defmacroexpand</A>
-<BR>
-</BLOCKQUOTE>
-<A NAME="TOC24" HREF="slib_3.html#SEC24">3.2 R4RS Macros</A>
-<BR>
-<A NAME="TOC25" HREF="slib_3.html#SEC25">3.3 Macro by Example</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC26" HREF="slib_3.html#SEC26">3.3.1 Caveat</A>
-<BR>
-</BLOCKQUOTE>
-<A NAME="TOC27" HREF="slib_3.html#SEC27">3.4 Macros That Work</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC28" HREF="slib_3.html#SEC28">3.4.1 Definitions</A>
-<BR>
-<A NAME="TOC29" HREF="slib_3.html#SEC29">3.4.2 Restrictions</A>
-<BR>
-</BLOCKQUOTE>
-<A NAME="TOC30" HREF="slib_3.html#SEC30">3.5 Syntactic Closures</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC31" HREF="slib_3.html#SEC31">3.5.1 Syntactic Closure Macro Facility</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC32" HREF="slib_3.html#SEC32">3.5.1.1 Terminology</A>
-<BR>
-<A NAME="TOC33" HREF="slib_3.html#SEC33">3.5.1.2 Transformer Definition</A>
-<BR>
-<A NAME="TOC34" HREF="slib_3.html#SEC34">3.5.1.3 Identifiers</A>
-<BR>
-<A NAME="TOC35" HREF="slib_3.html#SEC35">3.5.1.4 Acknowledgements</A>
-<BR>
-</BLOCKQUOTE>
-</BLOCKQUOTE>
-<A NAME="TOC36" HREF="slib_3.html#SEC36">3.6 Syntax-Case Macros</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC37" HREF="slib_3.html#SEC37">3.6.1 Notes</A>
-<BR>
-<A NAME="TOC38" HREF="slib_3.html#SEC38">3.6.2 Note from SLIB maintainer</A>
-<BR>
-</BLOCKQUOTE>
-<A NAME="TOC39" HREF="slib_3.html#SEC39">3.7 Fluid-Let</A>
-<BR>
-<A NAME="TOC40" HREF="slib_3.html#SEC40">3.8 Yasos</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC41" HREF="slib_3.html#SEC41">3.8.1 Terms</A>
-<BR>
-<A NAME="TOC42" HREF="slib_3.html#SEC42">3.8.2 Interface</A>
-<BR>
-<A NAME="TOC43" HREF="slib_3.html#SEC43">3.8.3 Setters</A>
-<BR>
-<A NAME="TOC44" HREF="slib_3.html#SEC44">3.8.4 Examples</A>
-<BR>
-</BLOCKQUOTE>
-</BLOCKQUOTE>
-<A NAME="TOC45" HREF="slib_4.html#SEC45">4. Textual Conversion Packages</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC46" HREF="slib_4.html#SEC46">4.1 Precedence Parsing</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC47" HREF="slib_4.html#SEC47">4.1.1 Precedence Parsing Overview</A>
-<BR>
-<A NAME="TOC48" HREF="slib_4.html#SEC48">4.1.2 Rule Types</A>
-<BR>
-<A NAME="TOC49" HREF="slib_4.html#SEC49">4.1.3 Ruleset Definition and Use</A>
-<BR>
-<A NAME="TOC50" HREF="slib_4.html#SEC50">4.1.4 Token definition</A>
-<BR>
-<A NAME="TOC51" HREF="slib_4.html#SEC51">4.1.5 Nud and Led Definition</A>
-<BR>
-<A NAME="TOC52" HREF="slib_4.html#SEC52">4.1.6 Grammar Rule Definition</A>
-<BR>
-</BLOCKQUOTE>
-<A NAME="TOC53" HREF="slib_4.html#SEC53">4.2 Format (version 3.0)</A>
-<BR>
-<A NAME="TOC54" HREF="slib_4.html#SEC54">4.3 Standard Formatted I/O</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC55" HREF="slib_4.html#SEC55">4.3.1 stdio</A>
-<BR>
-<A NAME="TOC56" HREF="slib_4.html#SEC56">4.3.2 Standard Formatted Output</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC57" HREF="slib_4.html#SEC57">4.3.2.1 Exact Conversions</A>
-<BR>
-<A NAME="TOC58" HREF="slib_4.html#SEC58">4.3.2.2 Inexact Conversions</A>
-<BR>
-<A NAME="TOC59" HREF="slib_4.html#SEC59">4.3.2.3 Other Conversions</A>
-<BR>
-</BLOCKQUOTE>
-<A NAME="TOC60" HREF="slib_4.html#SEC60">4.3.3 Standard Formatted Input</A>
-<BR>
-</BLOCKQUOTE>
-<A NAME="TOC61" HREF="slib_4.html#SEC61">4.4 Program and Arguments</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC62" HREF="slib_4.html#SEC62">4.4.1 Getopt</A>
-<BR>
-<A NAME="TOC63" HREF="slib_4.html#SEC63">4.4.2 Getopt---</A>
-<BR>
-<A NAME="TOC64" HREF="slib_4.html#SEC64">4.4.3 Command Line</A>
-<BR>
-<A NAME="TOC65" HREF="slib_4.html#SEC65">4.4.4 Parameter lists</A>
-<BR>
-<A NAME="TOC66" HREF="slib_4.html#SEC66">4.4.5 Getopt Parameter lists</A>
-<BR>
-<A NAME="TOC67" HREF="slib_4.html#SEC67">4.4.6 Filenames</A>
-<BR>
-<A NAME="TOC68" HREF="slib_4.html#SEC68">4.4.7 Batch</A>
-<BR>
-</BLOCKQUOTE>
-<A NAME="TOC69" HREF="slib_4.html#SEC69">4.5 HTML</A>
-<BR>
-<A NAME="TOC70" HREF="slib_4.html#SEC70">4.6 HTML Forms</A>
-<BR>
-<A NAME="TOC71" HREF="slib_4.html#SEC71">4.7 HTML Tables</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC72" HREF="slib_4.html#SEC72">4.7.1 HTML editing tables</A>
-<BR>
-<A NAME="TOC73" HREF="slib_4.html#SEC73">4.7.2 HTML databases</A>
-<BR>
-</BLOCKQUOTE>
-<A NAME="TOC74" HREF="slib_4.html#SEC74">4.8 HTTP and CGI</A>
-<BR>
-<A NAME="TOC75" HREF="slib_4.html#SEC75">4.9 Parsing HTML</A>
-<BR>
-<A NAME="TOC76" HREF="slib_4.html#SEC76">4.10 URI</A>
-<BR>
-<A NAME="TOC78" HREF="slib_4.html#SEC78">4.11 Printing Scheme</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC79" HREF="slib_4.html#SEC79">4.11.1 Generic-Write</A>
-<BR>
-<A NAME="TOC80" HREF="slib_4.html#SEC80">4.11.2 Object-To-String</A>
-<BR>
-<A NAME="TOC81" HREF="slib_4.html#SEC81">4.11.3 Pretty-Print</A>
-<BR>
-</BLOCKQUOTE>
-<A NAME="TOC82" HREF="slib_4.html#SEC82">4.12 Time and Date</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC83" HREF="slib_4.html#SEC83">4.12.1 Time Zone</A>
-<BR>
-<A NAME="TOC84" HREF="slib_4.html#SEC84">4.12.2 Posix Time</A>
-<BR>
-<A NAME="TOC85" HREF="slib_4.html#SEC85">4.12.3 Common-Lisp Time</A>
-<BR>
-</BLOCKQUOTE>
-<A NAME="TOC86" HREF="slib_4.html#SEC86">4.13 NCBI-DNA</A>
-<BR>
-<A NAME="TOC87" HREF="slib_4.html#SEC87">4.14 Schmooz</A>
-<BR>
-</BLOCKQUOTE>
-<A NAME="TOC88" HREF="slib_5.html#SEC88">5. Mathematical Packages</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC89" HREF="slib_5.html#SEC89">5.1 Bit-Twiddling</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC90" HREF="slib_5.html#SEC90">5.1.1 Bitwise Operations</A>
-<BR>
-<A NAME="TOC91" HREF="slib_5.html#SEC91">5.1.2 Bit Within Word</A>
-<BR>
-<A NAME="TOC92" HREF="slib_5.html#SEC92">5.1.3 Fields of Bits</A>
-<BR>
-<A NAME="TOC93" HREF="slib_5.html#SEC93">5.1.4 Bit order and Lamination</A>
-<BR>
-<A NAME="TOC94" HREF="slib_5.html#SEC94">5.1.5 Gray code</A>
-<BR>
-</BLOCKQUOTE>
-<A NAME="TOC95" HREF="slib_5.html#SEC95">5.2 Modular Arithmetic</A>
-<BR>
-<A NAME="TOC96" HREF="slib_5.html#SEC96">5.3 Prime Numbers</A>
-<BR>
-<A NAME="TOC97" HREF="slib_5.html#SEC97">5.4 Random Numbers</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC98" HREF="slib_5.html#SEC98">5.4.1 Exact Random Numbers</A>
-<BR>
-<A NAME="TOC99" HREF="slib_5.html#SEC99">5.4.2 Inexact Random Numbers</A>
-<BR>
-</BLOCKQUOTE>
-<A NAME="TOC100" HREF="slib_5.html#SEC100">5.5 Fast Fourier Transform</A>
-<BR>
-<A NAME="TOC101" HREF="slib_5.html#SEC101">5.6 Cyclic Checksum</A>
-<BR>
-<A NAME="TOC102" HREF="slib_5.html#SEC102">5.7 Graphing</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC103" HREF="slib_5.html#SEC103">5.7.1 Character Plotting</A>
-<BR>
-<A NAME="TOC104" HREF="slib_5.html#SEC104">5.7.2 PostScript Graphing</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC105" HREF="slib_5.html#SEC105">5.7.2.1 Column Ranges</A>
-<BR>
-<A NAME="TOC106" HREF="slib_5.html#SEC106">5.7.2.2 Drawing the Graph</A>
-<BR>
-<A NAME="TOC107" HREF="slib_5.html#SEC107">5.7.2.3 Graphics Context</A>
-<BR>
-<A NAME="TOC108" HREF="slib_5.html#SEC108">5.7.2.4 Rectangles</A>
-<BR>
-<A NAME="TOC109" HREF="slib_5.html#SEC109">5.7.2.5 Legending</A>
-<BR>
-<A NAME="TOC110" HREF="slib_5.html#SEC110">5.7.2.6 Legacy Plotting</A>
-<BR>
-<A NAME="TOC111" HREF="slib_5.html#SEC111">5.7.2.7 Example Graph</A>
-<BR>
-</BLOCKQUOTE>
-</BLOCKQUOTE>
-<A NAME="TOC112" HREF="slib_5.html#SEC112">5.8 Solid Modeling</A>
-<BR>
-<A NAME="TOC118" HREF="slib_5.html#SEC118">5.9 Color</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC119" HREF="slib_5.html#SEC119">5.9.1 Color Data-Type</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC120" HREF="slib_5.html#SEC120">5.9.1.1 External Representation</A>
-<BR>
-<A NAME="TOC121" HREF="slib_5.html#SEC121">5.9.1.2 White</A>
-<BR>
-</BLOCKQUOTE>
-<A NAME="TOC122" HREF="slib_5.html#SEC122">5.9.2 Color Spaces</A>
-<BR>
-<A NAME="TOC127" HREF="slib_5.html#SEC127">5.9.3 Spectra</A>
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-<A NAME="TOC128" HREF="slib_5.html#SEC128">5.9.4 Color Difference Metrics</A>
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-<A NAME="TOC129" HREF="slib_5.html#SEC129">5.9.5 Color Conversions</A>
-<BR>
-<A NAME="TOC130" HREF="slib_5.html#SEC130">5.9.6 Color Names</A>
-<BR>
-<A NAME="TOC133" HREF="slib_5.html#SEC133">5.9.7 Daylight</A>
-<BR>
-</BLOCKQUOTE>
-<A NAME="TOC134" HREF="slib_5.html#SEC134">5.10 Root Finding</A>
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-<A NAME="TOC135" HREF="slib_5.html#SEC135">5.11 Minimizing</A>
-<BR>
-<A NAME="TOC136" HREF="slib_5.html#SEC136">5.12 Commutative Rings</A>
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-<A NAME="TOC137" HREF="slib_5.html#SEC137">5.13 Rules and Rulesets</A>
-<BR>
-<A NAME="TOC138" HREF="slib_5.html#SEC138">5.14 How to Create a Commutative Ring</A>
-<BR>
-<A NAME="TOC139" HREF="slib_5.html#SEC139">5.15 Matrix Algebra</A>
-<BR>
-</BLOCKQUOTE>
-<A NAME="TOC140" HREF="slib_6.html#SEC140">6. Database Packages</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC141" HREF="slib_6.html#SEC141">6.1 Relational Database</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC142" HREF="slib_6.html#SEC142">6.1.1 Using Databases</A>
-<BR>
-<A NAME="TOC147" HREF="slib_6.html#SEC147">6.1.2 Table Operations</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC148" HREF="slib_6.html#SEC148">6.1.2.1 Single Row Operations</A>
-<BR>
-<A NAME="TOC149" HREF="slib_6.html#SEC149">6.1.2.2 Match-Keys</A>
-<BR>
-<A NAME="TOC150" HREF="slib_6.html#SEC150">6.1.2.3 Multi-Row Operations</A>
-<BR>
-<A NAME="TOC151" HREF="slib_6.html#SEC151">6.1.2.4 Indexed Sequential Access Methods</A>
-<BR>
-<A NAME="TOC152" HREF="slib_6.html#SEC152">6.1.2.5 Sequential Index Operations</A>
-<BR>
-<A NAME="TOC153" HREF="slib_6.html#SEC153">6.1.2.6 Table Administration</A>
-<BR>
-</BLOCKQUOTE>
-<A NAME="TOC154" HREF="slib_6.html#SEC154">6.1.3 Database Interpolation</A>
-<BR>
-<A NAME="TOC155" HREF="slib_6.html#SEC155">6.1.4 Embedded Commands</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC156" HREF="slib_6.html#SEC156">6.1.4.1 Database Extension</A>
-<BR>
-<A NAME="TOC157" HREF="slib_6.html#SEC157">6.1.4.2 Command Intrinsics</A>
-<BR>
-<A NAME="TOC158" HREF="slib_6.html#SEC158">6.1.4.3 Define-tables Example</A>
-<BR>
-<A NAME="TOC159" HREF="slib_6.html#SEC159">6.1.4.4 The *commands* Table</A>
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-<A NAME="TOC160" HREF="slib_6.html#SEC160">6.1.4.5 Command Service</A>
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-<A NAME="TOC161" HREF="slib_6.html#SEC161">6.1.4.6 Command Example</A>
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-</BLOCKQUOTE>
-<A NAME="TOC162" HREF="slib_6.html#SEC162">6.1.5 Database Macros</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC163" HREF="slib_6.html#SEC163">6.1.5.1 Within-database Example</A>
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-</BLOCKQUOTE>
-<A NAME="TOC164" HREF="slib_6.html#SEC164">6.1.6 Database Browser</A>
-<BR>
-</BLOCKQUOTE>
-<A NAME="TOC165" HREF="slib_6.html#SEC165">6.2 Relational Infrastructure</A>
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-<A NAME="TOC166" HREF="slib_6.html#SEC166">6.2.1 Base Table</A>
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-<BLOCKQUOTE>
-<A NAME="TOC167" HREF="slib_6.html#SEC167">6.2.1.1 The Base</A>
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-<A NAME="TOC168" HREF="slib_6.html#SEC168">6.2.1.2 Base Tables</A>
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-<A NAME="TOC169" HREF="slib_6.html#SEC169">6.2.1.3 Base Field Types</A>
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-<A NAME="TOC170" HREF="slib_6.html#SEC170">6.2.1.4 Composite Keys</A>
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-<A NAME="TOC171" HREF="slib_6.html#SEC171">6.2.1.5 Base Record Operations</A>
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-<A NAME="TOC172" HREF="slib_6.html#SEC172">6.2.1.6 Match Keys</A>
-<BR>
-<A NAME="TOC173" HREF="slib_6.html#SEC173">6.2.1.7 Aggregate Base Operations</A>
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-<A NAME="TOC174" HREF="slib_6.html#SEC174">6.2.1.8 Base ISAM Operations</A>
-<BR>
-</BLOCKQUOTE>
-<A NAME="TOC175" HREF="slib_6.html#SEC175">6.2.2 Catalog Representation</A>
-<BR>
-<A NAME="TOC176" HREF="slib_6.html#SEC176">6.2.3 Relational Database Objects</A>
-<BR>
-<A NAME="TOC177" HREF="slib_6.html#SEC177">6.2.4 Database Operations</A>
-<BR>
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-<A NAME="TOC178" HREF="slib_6.html#SEC178">6.3 Weight-Balanced Trees</A>
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-<A NAME="TOC179" HREF="slib_6.html#SEC179">6.3.1 Construction of Weight-Balanced Trees</A>
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-<A NAME="TOC180" HREF="slib_6.html#SEC180">6.3.2 Basic Operations on Weight-Balanced Trees</A>
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-<A NAME="TOC181" HREF="slib_6.html#SEC181">6.3.3 Advanced Operations on Weight-Balanced Trees</A>
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-<A NAME="TOC182" HREF="slib_6.html#SEC182">6.3.4 Indexing Operations on Weight-Balanced Trees</A>
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-</BLOCKQUOTE>
-<A NAME="TOC183" HREF="slib_7.html#SEC183">7. Other Packages</A>
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-<BLOCKQUOTE>
-<A NAME="TOC184" HREF="slib_7.html#SEC184">7.1 Data Structures</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC185" HREF="slib_7.html#SEC185">7.1.1 Arrays</A>
-<BR>
-<A NAME="TOC186" HREF="slib_7.html#SEC186">7.1.2 Subarrays</A>
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-<A NAME="TOC187" HREF="slib_7.html#SEC187">7.1.3 Array Mapping</A>
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-<A NAME="TOC188" HREF="slib_7.html#SEC188">7.1.4 Association Lists</A>
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-<A NAME="TOC189" HREF="slib_7.html#SEC189">7.1.5 Byte</A>
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-<A NAME="TOC190" HREF="slib_7.html#SEC190">7.1.6 Byte/Number Conversions</A>
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-<A NAME="TOC192" HREF="slib_7.html#SEC192">7.1.7 MAT-File Format</A>
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-<A NAME="TOC193" HREF="slib_7.html#SEC193">7.1.8 Portable Image Files</A>
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-<A NAME="TOC194" HREF="slib_7.html#SEC194">7.1.9 Collections</A>
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-<A NAME="TOC195" HREF="slib_7.html#SEC195">7.1.10 Dynamic Data Type</A>
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-<A NAME="TOC196" HREF="slib_7.html#SEC196">7.1.11 Hash Tables</A>
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-<A NAME="TOC197" HREF="slib_7.html#SEC197">7.1.12 Macroless Object System</A>
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-<A NAME="TOC198" HREF="slib_7.html#SEC198">7.1.13 Concepts</A>
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-<A NAME="TOC199" HREF="slib_7.html#SEC199">7.1.14 Procedures</A>
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-<A NAME="TOC200" HREF="slib_7.html#SEC200">7.1.15 Examples</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC201" HREF="slib_7.html#SEC201">7.1.15.1 Inverter Documentation</A>
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-<A NAME="TOC202" HREF="slib_7.html#SEC202">7.1.15.2 Number Documention</A>
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-<A NAME="TOC203" HREF="slib_7.html#SEC203">7.1.15.3 Inverter code</A>
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-<A NAME="TOC204" HREF="slib_7.html#SEC204">7.1.16 Priority Queues</A>
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-<A NAME="TOC205" HREF="slib_7.html#SEC205">7.1.17 Queues</A>
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-<A NAME="TOC206" HREF="slib_7.html#SEC206">7.1.18 Records</A>
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-<A NAME="TOC207" HREF="slib_7.html#SEC207">7.2 Sorting and Searching</A>
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-<A NAME="TOC208" HREF="slib_7.html#SEC208">7.2.1 Common List Functions</A>
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-<A NAME="TOC209" HREF="slib_7.html#SEC209">7.2.1.1 List construction</A>
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-<A NAME="TOC210" HREF="slib_7.html#SEC210">7.2.1.2 Lists as sets</A>
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-<A NAME="TOC211" HREF="slib_7.html#SEC211">7.2.1.3 Lists as sequences</A>
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-<A NAME="TOC212" HREF="slib_7.html#SEC212">7.2.1.4 Destructive list operations</A>
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-<A NAME="TOC213" HREF="slib_7.html#SEC213">7.2.1.5 Non-List functions</A>
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-<A NAME="TOC214" HREF="slib_7.html#SEC214">7.2.2 Tree operations</A>
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-<A NAME="TOC215" HREF="slib_7.html#SEC215">7.2.3 Chapter Ordering</A>
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-<A NAME="TOC216" HREF="slib_7.html#SEC216">7.2.4 Sorting</A>
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-<A NAME="TOC217" HREF="slib_7.html#SEC217">7.2.5 Topological Sort</A>
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-<A NAME="TOC218" HREF="slib_7.html#SEC218">7.2.6 Hashing</A>
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-<A NAME="TOC219" HREF="slib_7.html#SEC219">7.2.7 Space-Filling Curves</A>
-<BR>
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-<A NAME="TOC220" HREF="slib_7.html#SEC220">7.2.7.1 Peano-Hilbert Space-Filling Curve</A>
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-<A NAME="TOC221" HREF="slib_7.html#SEC221">7.2.7.2 Sierpinski Curve</A>
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-<A NAME="TOC222" HREF="slib_7.html#SEC222">7.2.8 Soundex</A>
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-<A NAME="TOC223" HREF="slib_7.html#SEC223">7.2.9 String Search</A>
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-<A NAME="TOC224" HREF="slib_7.html#SEC224">7.2.10 Sequence Comparison</A>
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-<A NAME="TOC225" HREF="slib_7.html#SEC225">7.3 Procedures</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC226" HREF="slib_7.html#SEC226">7.3.1 Type Coercion</A>
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-<A NAME="TOC227" HREF="slib_7.html#SEC227">7.3.2 String-Case</A>
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-<A NAME="TOC228" HREF="slib_7.html#SEC228">7.3.3 String Ports</A>
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-<A NAME="TOC229" HREF="slib_7.html#SEC229">7.3.4 Line I/O</A>
-<BR>
-<A NAME="TOC230" HREF="slib_7.html#SEC230">7.3.5 Multi-Processing</A>
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-<A NAME="TOC231" HREF="slib_7.html#SEC231">7.3.6 Metric Units</A>
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-<A NAME="TOC232" HREF="slib_7.html#SEC232">7.3.6.1 SI Prefixes</A>
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-<A NAME="TOC233" HREF="slib_7.html#SEC233">7.3.6.2 Binary Prefixes</A>
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-<A NAME="TOC234" HREF="slib_7.html#SEC234">7.3.6.3 Unit Symbols</A>
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-</BLOCKQUOTE>
-<A NAME="TOC235" HREF="slib_7.html#SEC235">7.4 Standards Support</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC236" HREF="slib_7.html#SEC236">7.4.1 RnRS</A>
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-<A NAME="TOC237" HREF="slib_7.html#SEC237">7.4.2 With-File</A>
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-<A NAME="TOC238" HREF="slib_7.html#SEC238">7.4.3 Transcripts</A>
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-<A NAME="TOC239" HREF="slib_7.html#SEC239">7.4.4 Rev2 Procedures</A>
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-<A NAME="TOC240" HREF="slib_7.html#SEC240">7.4.5 Rev4 Optional Procedures</A>
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-<A NAME="TOC241" HREF="slib_7.html#SEC241">7.4.6 Multi-argument / and -</A>
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-<A NAME="TOC242" HREF="slib_7.html#SEC242">7.4.7 Multi-argument Apply</A>
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-<A NAME="TOC243" HREF="slib_7.html#SEC243">7.4.8 Rationalize</A>
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-<A NAME="TOC244" HREF="slib_7.html#SEC244">7.4.9 Promises</A>
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-<A NAME="TOC245" HREF="slib_7.html#SEC245">7.4.10 Dynamic-Wind</A>
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-<A NAME="TOC246" HREF="slib_7.html#SEC246">7.4.11 Eval</A>
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-<A NAME="TOC247" HREF="slib_7.html#SEC247">7.4.12 Values</A>
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-<A NAME="TOC248" HREF="slib_7.html#SEC248">7.4.13 SRFI</A>
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-<A NAME="TOC249" HREF="slib_7.html#SEC249">7.4.13.1 SRFI-1</A>
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-<A NAME="TOC260" HREF="slib_7.html#SEC260">7.4.13.2 SRFI-2</A>
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-<A NAME="TOC261" HREF="slib_7.html#SEC261">7.4.13.3 SRFI-8</A>
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-<A NAME="TOC262" HREF="slib_7.html#SEC262">7.4.13.4 SRFI-9</A>
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-<A NAME="TOC263" HREF="slib_7.html#SEC263">7.5 Session Support</A>
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-<BLOCKQUOTE>
-<A NAME="TOC264" HREF="slib_7.html#SEC264">7.5.1 Repl</A>
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-<A NAME="TOC265" HREF="slib_7.html#SEC265">7.5.2 Quick Print</A>
-<BR>
-<A NAME="TOC266" HREF="slib_7.html#SEC266">7.5.3 Debug</A>
-<BR>
-<A NAME="TOC267" HREF="slib_7.html#SEC267">7.5.4 Breakpoints</A>
-<BR>
-<A NAME="TOC268" HREF="slib_7.html#SEC268">7.5.5 Tracing</A>
-<BR>
-</BLOCKQUOTE>
-<A NAME="TOC269" HREF="slib_7.html#SEC269">7.6 System Interface</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC270" HREF="slib_7.html#SEC270">7.6.1 Directories</A>
-<BR>
-<A NAME="TOC271" HREF="slib_7.html#SEC271">7.6.2 Transactions</A>
-<BR>
-<A NAME="TOC275" HREF="slib_7.html#SEC275">7.6.3 CVS</A>
-<BR>
-</BLOCKQUOTE>
-<A NAME="TOC276" HREF="slib_7.html#SEC276">7.7 Extra-SLIB Packages</A>
-<BR>
-</BLOCKQUOTE>
-<A NAME="TOC277" HREF="slib_8.html#SEC277">8. About SLIB</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC278" HREF="slib_8.html#SEC278">8.1 Installation</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC279" HREF="slib_8.html#SEC279">8.1.1 Unpacking the SLIB Distribution</A>
-<BR>
-<A NAME="TOC280" HREF="slib_8.html#SEC280">8.1.2 Configure Scheme Implementation to Locate SLIB</A>
-<BR>
-<A NAME="TOC281" HREF="slib_8.html#SEC281">8.1.3 Loading SLIB Initialization File</A>
-<BR>
-<A NAME="TOC282" HREF="slib_8.html#SEC282">8.1.4 Build New SLIB Catalog for Implementation</A>
-<BR>
-<A NAME="TOC283" HREF="slib_8.html#SEC283">8.1.5 Implementation-specific Instructions</A>
-<BR>
-</BLOCKQUOTE>
-<A NAME="TOC284" HREF="slib_8.html#SEC284">8.2 Porting</A>
-<BR>
-<A NAME="TOC285" HREF="slib_8.html#SEC285">8.3 Coding Guidelines</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC286" HREF="slib_8.html#SEC286">8.3.1 Modifications</A>
-<BR>
-</BLOCKQUOTE>
-<A NAME="TOC287" HREF="slib_8.html#SEC287">8.4 Copyrights</A>
-<BR>
-<BLOCKQUOTE>
-<A NAME="TOC288" HREF="slib_8.html#SEC288">8.4.1 Putting code into the Public Domain</A>
-<BR>
-<A NAME="TOC289" HREF="slib_8.html#SEC289">8.4.2 Explicit copying terms</A>
-<BR>
-<A NAME="TOC290" HREF="slib_8.html#SEC290">8.4.3 Example: Company Copyright Disclaimer</A>
-<BR>
-</BLOCKQUOTE>
-<A NAME="TOC291" HREF="slib_8.html#SEC291">8.5 About this manual</A>
-<BR>
-</BLOCKQUOTE>
-<A NAME="TOC292" HREF="slib_9.html#SEC292">Procedure and Macro Index</A>
-<BR>
-<A NAME="TOC293" HREF="slib_10.html#SEC293">Variable Index</A>
-<BR>
-<A NAME="TOC294" HREF="slib_11.html#SEC294">Concept and Feature Index</A>
-<BR>
-</BLOCKQUOTE>
-<HR SIZE=1>
-<BR>
-<FONT SIZE="-1">
-This document was generated
-by <I>Steve Langasek</I> on <I>January, 10 2005</I>
-using <A HREF="http://texi2html.cvshome.org"><I>texi2html</I></A>
-</FONT>
-
-</BODY>
-</HTML>
diff --git a/solid.scm b/solid.scm
index 8b0ea56..f0b1666 100644
--- a/solid.scm
+++ b/solid.scm
@@ -1,5 +1,5 @@
;;; "solid.scm" Solid Modeling with VRML97
-; Copyright 2001 Aubrey Jaffer
+; Copyright 2001, 2004 Aubrey Jaffer
;
;Permission to copy this software, to modify it, to redistribute it,
;to distribute modified versions, and to use it for any purpose is
@@ -36,7 +36,7 @@
;;@ftindex solid-modeling
;;
;;@noindent
-;;@uref{http://swissnet.ai.mit.edu/~jaffer/Solid/#Example} gives an
+;;@uref{http://swiss.csail.mit.edu/~jaffer/Solid/#Example} gives an
;;example use of this package.
(define pi/180 (/ (* 4 (atan 1)) 180))
@@ -169,7 +169,7 @@
;;elements of @2, then the color at the zenith and nadir are taken from
;;the colors paired with the angles nearest them.
;;
-;;@0 fills horizontal bands with interpolated colors on the backgroud
+;;@0 fills horizontal bands with interpolated colors on the background
;;sphere encasing the world.
(define (scene:sphere colors angles)
(define seen0? 0)
@@ -233,7 +233,7 @@
(cons (car colors) ground-colors)
(cons (car angles) ground-angles))))))
-;;@body Returns a blue and brown backgroud sphere encasing the world.
+;;@body Returns a blue and brown background sphere encasing the world.
(define (scene:sky-and-dirt)
(scene:sphere
'((0.0 0.2 0.7)
@@ -245,7 +245,7 @@
(0.3 0.2 0.0))
'(90 15 0 0 -15 -70 -90)))
-;;@body Returns a blue and green backgroud sphere encasing the world.
+;;@body Returns a blue and green background sphere encasing the world.
(define (scene:sky-and-grass)
(scene:sphere
'((0.0 0.2 0.7)
@@ -281,8 +281,9 @@
latitude
(solar-hour julian-day hour)))
(phi_s (cadr theta_s))
- (sun-xyz (sunlight-CIEXYZ turbidity (car theta_s)))
- (sun-color (and sun-xyz (CIEXYZ->color sun-xyz))))
+ (sun-chroma (sunlight-chromaticity turbidity (car theta_s)))
+ (sun-color (and sun-chroma
+ (CIEXYZ->color (apply chromaticity->CIEXYZ sun-chroma)))))
(set! theta_s (car theta_s))
(set! strength (if (null? strength) 1 (car strength)))
(if (not strength) (set! strength 0))
@@ -317,8 +318,9 @@
latitude
(solar-hour julian-day hour)))
(phi_s (cadr theta_s))
- (sun-xyz (sunlight-CIEXYZ turbidity (car theta_s)))
- (sun-color (and sun-xyz (CIEXYZ->color sun-xyz)))
+ (sun-chroma (sunlight-chromaticity turbidity (car theta_s)))
+ (sun-color (and sun-chroma
+ (CIEXYZ->color (apply chromaticity->CIEXYZ sun-chroma))))
(color-func (overcast-sky-color-xyY turbidity (car theta_s))))
(set! theta_s (car theta_s))
(set! strength (if (null? strength) 1 (car strength)))
@@ -349,12 +351,14 @@
(define (scene:viewpoint name distance compass . pitch)
(set! pitch (* pi/180 (if (null? pitch) 0 (car pitch))))
(set! compass (* pi/180 compass))
- (let ((vp
- (sprintf #f "Viewpoint {description \"%s\" %s %s}"
- name
- (sprintf #f "position 0 0 %g" distance)
- (sprintf #f "orientation 1 0 0 %g" pitch))))
- (sprintf #f "Transform {rotation 0 -1 0 %g children [%s]}\\n" compass vp)))
+ (let ((level ;fieldOfView 0.785398 (pi/4)
+ (sprintf #f "Viewpoint {position 0 0 %g description %#a}"
+ distance name)))
+ (define tilt
+ (sprintf #f "Transform {rotation 1 0 0 %g children [%s]}\\n"
+ pitch level))
+ (sprintf #f "Transform {rotation 0 -1 0 %g children [%s]}\\n"
+ compass tilt)))
;;@body Returns 6 viewpoints, one at the center of each face of a cube
;;with sides 2 * @1, centered on the origin.
@@ -568,17 +572,21 @@
;;@args radius height appearance
;;@args radius height
-;;Returns a right cylinder with dimensions @1 and @code{(abs @2)}
+;;Returns a right cylinder with dimensions @code{(abs @1)} and @code{(abs @2)}
;;centered on the origin. If @2 is positive, then the cylinder ends
-;;will be capped. @3 determines the surface properties of the returned
+;;will be capped. If @1 is negative, then only the ends will appear.
+;;@3 determines the surface properties of the returned
;;object.
(define (solid:cylinder radius height . appearance)
(solid:node "Shape"
(if (null? appearance) "" (string-append (car appearance) " "))
"geometry "
(solid:node "Cylinder"
- (sprintf #f "height %g radius %g%s"
- (abs height) radius
+ (sprintf #f "height %g radius %g%s%s"
+ (abs height) (abs radius)
+ (if (negative? radius)
+ " side FALSE"
+ "")
(if (negative? height)
" bottom FALSE top FALSE"
"")))))
@@ -647,6 +655,44 @@
(apply solid:sphere .5 appearance)))
(else (slib:error 'solid:ellipsoid '? (cons geometry appearance)))))
+;;@args coordinates appearance
+;;@args coordinates
+;;@1 must be a list or vector of coordinate lists or vectors
+;;specifying the x, y, and z coordinates of points. @0 returns lines
+;;connecting successive pairs of points. If called with one argument,
+;;then the polyline will be white. If @2 is given, then the polyline
+;;will have its emissive color only; being black if @2 does not have
+;;an emissive color.
+;;
+;;The following code will return a red line between points at
+;;@code{(1 2 3)} and @code{(4 5 6)}:
+;;@example
+;;(solid:polyline '((1 2 3) (4 5 6)) (solid:color #f 0 #f 0 '(1 0 0)))
+;;@end example
+(define (solid:polyline coordinates . args)
+ (define coordslist (if (list? coordinates)
+ coordinates
+ (array->list coordinates)))
+ (solid:node
+ "Shape"
+ (case (length args)
+ ((1) (car args))
+ ((0) "")
+ (else (slib:error 'solid:indexed-polylines 'too-many-args)))
+ " geometry "
+ (solid:node
+ " IndexedLineSet"
+ (sprintf #f " coord Coordinate { point [%s] }\\n coordIndex [%s]"
+ (apply string-append
+ (map (lambda (lst)
+ (apply sprintf #f " %g %g %g,"
+ (if (vector? lst) (vector->list lst) lst)))
+ coordslist))
+ (do ((idx (+ -1 (length coordslist)) (+ -1 idx))
+ (lst '() (cons (sprintf #f " %g," idx) lst)))
+ ((negative? idx)
+ (apply string-append lst)))))))
+
;;@args width height depth colorray appearance
;;@args width height depth appearance
;;@args width height depth
@@ -677,12 +723,12 @@
'(-1 0 0) 90 (solid:bry width depth height args)))))
(define (solid:bry width heights depth args)
- (define shape (array-shape heights))
- (if (not (eqv? 2 (length shape)))
- (slib:error 'solid:basrelief 'rank? shape))
- (let ((xdim (- (cadadr shape) (caadr shape) -1))
- (zdim (- (cadar shape) (caar shape) -1)))
- (define elevs (solid:extract-elevations heights shape))
+ (define dimensions (array-dimensions heights))
+ (if (not (eqv? 2 (length dimensions)))
+ (slib:error 'solid:basrelief 'rank? dimensions))
+ (let ((xdim (cadr dimensions))
+ (zdim (car dimensions)))
+ (define elevs (solid:extract-elevations heights dimensions))
(solid:translation
(list (* -1/2 width) 0 (* -1/2 depth))
(solid:node
@@ -697,7 +743,7 @@
" ElevationGrid"
" solid FALSE"
(sprintf #f " xDimension %g xSpacing %g zDimension %g zSpacing %g\\n"
- xdim (/ width xdim) zdim (/ depth zdim))
+ xdim (/ width (+ -1 xdim)) zdim (/ depth (+ -1 zdim)))
(sprintf #f " height [%s]\\n" elevs)
(if (and (not (null? args)) (<= 2 (array-rank (car args))))
(case (length args)
@@ -705,35 +751,39 @@
((1 0) ""))
""))))))
-(define (solid:extract-elevations heights shape)
- (define zdim (- (cadar shape) (caar shape) -1))
+(define (solid:extract-elevations heights dimensions)
+ (define zdim (cadr dimensions))
(define cnt 0)
(define hts '())
(define lns '())
(array-for-each
(lambda (ht)
- (set! hts (cons (sprintf #f " %g" ht) hts))
(set! cnt (+ 1 cnt))
- (cond ((>= cnt zdim)
- (set! cnt 0)
- (set! lns (cons (sprintf #f " %s\\n"
- (apply string-append (reverse hts)))
- lns))
- (set! hts '()))))
+ (set! hts (cons (sprintf #f
+ (if (zero? (modulo cnt 8)) "\\n %g" " %g") ht)
+ hts))
+ (cond
+ ((>= cnt zdim)
+ (set! cnt 0)
+ (set! lns (cons (apply string-append
+ (cons " "
+ (reverse (cons (sprintf #f "\\n") hts))))
+ lns))
+ (set! hts '()))))
heights)
(if (not (null? hts)) (slib:error 'solid:extract-elevations 'leftover hts))
(apply string-append (reverse lns)))
(define (solid:extract-colors heights colora)
- (define hshape (array-shape heights))
- (define cshape (array-shape colora))
- (cond ((equal? hshape cshape))
- ((and (eqv? 2 (length cshape))
+ (define hdims (array-dimensions heights))
+ (define cdims (array-dimensions colora))
+ (cond ((equal? hdims cdims))
+ ((and (eqv? 2 (length cdims))
(equal? '(0 1 0 1) (map -
- (apply append hshape)
- (apply append cshape)))))
- (else (slib:error 'solid:basrelief 'mismatch 'shape hshape cshape)))
- (let ((ldim (- (cadadr cshape) (caadr cshape) -1))
+ (apply append hdims)
+ (apply append cdims)))))
+ (else (slib:error 'solid:basrelief 'mismatch 'dimensions hdims cdims)))
+ (let ((ldim (cadr cdims))
(cnt 0)
(sts '())
(lns '()))
@@ -749,9 +799,45 @@
(set! sts '()))))
colora)
(sprintf #f " colorPerVertex %s color Color {color [%s]}\\n"
- (if (equal? hshape cshape) "TRUE" "FALSE")
+ (if (equal? hdims cdims) "TRUE" "FALSE")
(apply string-append (reverse lns)))))
+;;@args fontstyle str len appearance
+;;@args fontstyle str len
+;;
+;;@1 must be a value returned by @code{solid:font}.
+;;
+;;@2 must be a string or list of strings.
+;;
+;;@3 must be #f, a nonnegative integer, or list of nonnegative
+;;integers.
+;;
+;;@4, if given, determines the surface properties of the returned
+;;object.
+;;
+;;@0 returns a two-sided, flat text object positioned in the Z=0 plane
+;;of the local coordinate system
+(define (solid:text fontstyle str lengths . appearance)
+ (solid:node
+ "Shape"
+ (if (null? appearance) "" (string-append (car appearance) " "))
+ "geometry "
+ (solid:node
+ "Text"
+ (sprintf #f "fontStyle %s string [ %s ]%s"
+ fontstyle
+ (apply string-append
+ (map (lambda (st) (sprintf #f " %#a" st))
+ (if (string? str) (list str) str)))
+ (cond ((not lengths) "")
+ ((number? lengths)
+ (sprintf #f " maxExtent %g" lengths))
+ (else
+ (sprintf #f " length [ %s ]"
+ (apply string-append
+ (map (lambda (x) (sprintf #f " %g" x))
+ lengths)))))))))
+
;;@subheading Surface Attributes
;;@args diffuseColor ambientIntensity specularColor shininess emissiveColor transparency
@@ -839,6 +925,63 @@
(coordinates2string translation))
""))))))
+;;; X11 foundry-family-weight-slant-setwidth-style-pixelSize-pointSize-Xresolution-Yresolution-spacing-averageWidth-registry-encoding
+
+;;@body
+;;Returns a fontstyle object suitable for passing as an argument to
+;;@code{solid:text}. Any of the arguments may be #f, in which case
+;;its default value, which is first in each list of allowed values, is
+;;used.
+;;
+;;@1 is a case-sensitive string naming a font; @samp{SERIF},
+;;@samp{SANS}, and @samp{TYPEWRITER} are supported at the minimum.
+;;
+;;@2 is a case-sensitive string @samp{PLAIN}, @samp{BOLD},
+;;@samp{ITALIC}, or @samp{BOLDITALIC}.
+;;
+;;@3 is a case-sensitive string @samp{FIRST}, @samp{BEGIN},
+;;@samp{MIDDLE}, or @samp{END}; or a list of one or two case-sensitive
+;;strings (same choices). The mechanics of @3 get complicated; it is
+;;explained by tables 6.2 to 6.7 of
+;;@url{http://www.web3d.org/x3d/specifications/vrml/ISO-IEC-14772-IS-VRML97WithAmendment1/part1/nodesRef.html#Table6.2}
+;;
+;;
+;;@4 is the extent, in the non-advancing direction, of the text.
+;;@4 defaults to 1.
+;;
+;;@5 is the ratio of the line (or column) offset to @4.
+;;@5 defaults to 1.
+;;
+;;@6 is the RFC-1766 language name.
+;;
+;;@7 is a list of two numbers: @w{@code{(@var{x} @var{y})}}. If
+;;@w{@code{(> (abs @var{x}) (abs @var{y}))}}, then the text will be
+;;arrayed horizontally; otherwise vertically. The direction in which
+;;characters are arrayed is determined by the sign of the major axis:
+;;positive @var{x} being left-to-right; positive @var{y} being
+;;top-to-bottom.
+(define (solid:font family style justify size spacing language direction)
+ (define (field name value)
+ (if value (sprintf #f " %s %#a" name value) ""))
+ (define (bfield name boolean)
+ (sprintf #f " %s %s" name (if boolean "TRUE" "FALSE")))
+ (solid:node "FontStyle"
+ (field "family" family)
+ (field "style" style)
+ (if (list? justify)
+ (apply sprintf #f " %s [%#a %#a]" "justify" justify)
+ (field "justify" justify))
+ (field "size" size)
+ (field "spacing" spacing)
+ (field "language" language)
+ (if direction
+ (string-append
+ (bfield "horizontal" (> (abs (car direction))
+ (abs (cadr direction))))
+ (bfield "leftToRight" (positive? (car direction)))
+ (bfield "topToBottom" (positive? (cadr direction))))
+ "")))
+
;;@subheading Aggregating Objects
;;@body Returns a row of @1 @2 objects spaced evenly @3 apart.
diff --git a/solid.txi b/solid.txi
index 102214f..3058e75 100644
--- a/solid.txi
+++ b/solid.txi
@@ -10,7 +10,7 @@
@ftindex solid-modeling
@noindent
-@uref{http://swissnet.ai.mit.edu/~jaffer/Solid/#Example} gives an
+@uref{http://swiss.csail.mit.edu/~jaffer/Solid/#Example} gives an
example use of this package.
@@ -19,20 +19,24 @@ Returns the VRML97 string (including header) of the concatenation
of strings @var{nodes}, @dots{}.
@end defun
+
@defun vrml-append node1 node2 @dots{}
Returns the concatenation with interdigitated newlines of
strings @var{node1}, @var{node2}, @dots{}.
@end defun
+
@defun vrml-to-file file node @dots{}
Writes to file named @var{file} the VRML97 string (including header) of
the concatenation of strings @var{nodes}, @dots{}.
@end defun
+
@defun world:info title info @dots{}
Returns a VRML97 string setting the title of the file in which
it appears to @var{title}. Additional strings @var{info}, @dots{} are comments.
@end defun
+
@noindent
VRML97 strings passed to @code{vrml} and @code{vrml-to-file} as
@@ -48,6 +52,7 @@ Specifies the distant images on the inside faces of the cube
enclosing the virtual world.
@end defun
+
@defun scene:sphere colors angles
@@ -60,18 +65,21 @@ between 0.0 and 1.0.
elements of @var{angles}, then the color at the zenith and nadir are taken from
the colors paired with the angles nearest them.
-@code{scene:sphere} fills horizontal bands with interpolated colors on the backgroud
+@code{scene:sphere} fills horizontal bands with interpolated colors on the background
sphere encasing the world.
@end defun
+
@defun scene:sky-and-dirt
-Returns a blue and brown backgroud sphere encasing the world.
+Returns a blue and brown background sphere encasing the world.
@end defun
+
@defun scene:sky-and-grass
-Returns a blue and green backgroud sphere encasing the world.
+Returns a blue and green background sphere encasing the world.
@end defun
+
@defun scene:sun latitude julian-day hour turbidity strength
@@ -87,6 +95,7 @@ in @xref{Daylight, turbidity}.
(default 1).
@end defun
+
@defun scene:overcast latitude julian-day hour turbidity strength
@@ -100,6 +109,7 @@ in @xref{Daylight, turbidity}.
@code{scene:overcast} returns an overcast sky as it might look at @var{hour} on @var{julian-day} at @var{latitude}. If @var{strength}
is positive, included is an ambient light source of @var{strength} (default 1).
@end defun
+
@noindent
Viewpoints are objects in the virtual world, and can be transformed
individually or with solid objects.
@@ -115,10 +125,12 @@ number from -90 to 90, defaulting to 0, specifying the angle from the
horizontal.
@end defun
+
@defun scene:viewpoints proximity
Returns 6 viewpoints, one at the center of each face of a cube
with sides 2 * @var{proximity}, centered on the origin.
@end defun
+
@subheading Light Sources
@noindent
@@ -155,6 +167,7 @@ defaulting to @samp{1}.
(or 1 if omitted).
@end defun
+
@defun light:directional color direction intensity
@@ -181,6 +194,7 @@ shine down.
shining from @var{direction}.
@end defun
+
@defun light:beam attenuation radius aperture peak
@@ -201,6 +215,7 @@ light's axis through which it sheds some light. @var{peak} is a real number
between 0 and 90, the angle of greatest illumination.
@end defun
+
@defun light:point location color intensity beam
@@ -224,6 +239,7 @@ defaulting to @samp{1}. @var{beam} is a structure returned by
To make it so, place an object with emissive appearance at @var{location}.
@end defun
+
@defun light:spot location direction color intensity beam
@@ -255,6 +271,7 @@ then the default color will be used.
@var{color}. Note that the spotlight itself is not visible. To make it so,
place an object with emissive appearance at @var{location}.
@end defun
+
@subheading Object Primitives
@@ -269,16 +286,19 @@ centered on the origin. @var{appearance} determines the surface properties of t
returned object.
@end defun
+
@defun solid:cylinder radius height appearance
@defunx solid:cylinder radius height
-Returns a right cylinder with dimensions @var{radius} and @code{(abs @var{height})}
+Returns a right cylinder with dimensions @code{(abs @var{radius})} and @code{(abs @var{height})}
centered on the origin. If @var{height} is positive, then the cylinder ends
-will be capped. @var{appearance} determines the surface properties of the returned
+will be capped. If @var{radius} is negative, then only the ends will appear.
+@var{appearance} determines the surface properties of the returned
object.
@end defun
+
@defun solid:disk radius thickness appearance
@@ -288,6 +308,7 @@ with dimensions @var{radius} and @var{thickness} centered on the origin. @var{a
surface properties of the returned object.
@end defun
+
@defun solid:cone radius height appearance
@@ -297,6 +318,7 @@ the origin. @var{appearance} determines the surface properties of the returned
object.
@end defun
+
@defun solid:pyramid side height appearance
@@ -306,6 +328,7 @@ the origin. @var{appearance} determines the surface properties of the returned
object.
@end defun
+
@defun solid:sphere radius appearance
@@ -314,6 +337,7 @@ Returns a sphere of radius @var{radius} centered on the origin. @var{appearance
the surface properties of the returned object.
@end defun
+
@defun solid:ellipsoid geometry appearance
@@ -324,6 +348,26 @@ Otherwise, @code{solid:ellipsoid} returns an ellipsoid with diameters @var{geome
origin. @var{appearance} determines the surface properties of the returned object.
@end defun
+
+@defun solid:polyline coordinates appearance
+
+
+@defunx solid:polyline coordinates
+@var{coordinates} must be a list or vector of coordinate lists or vectors
+specifying the x, y, and z coordinates of points. @code{solid:polyline} returns lines
+connecting successive pairs of points. If called with one argument,
+then the polyline will be white. If @var{appearance} is given, then the polyline
+will have its emissive color only; being black if @var{appearance} does not have
+an emissive color.
+
+The following code will return a red line between points at
+@code{(1 2 3)} and @code{(4 5 6)}:
+@example
+(solid:polyline '((1 2 3) (4 5 6)) (solid:color #f 0 #f 0 '(1 0 0)))
+@end example
+@end defun
+
+
@defun solid:basrelief width height depth colorray appearance
@@ -348,6 +392,27 @@ corresponding vertex of @var{height}. If @var{colorray} has all dimensions one
than @var{height}, then each element of @var{colorray} paints the corresponding face of
@var{height}. Other dimensions for @var{colorray} are in error.
@end defun
+
+
+@defun solid:text fontstyle str len appearance
+
+
+@defunx solid:text fontstyle str len
+
+@var{fontstyle} must be a value returned by @code{solid:font}.
+
+@var{str} must be a string or list of strings.
+
+@var{len} must be #f, a nonnegative integer, or list of nonnegative
+integers.
+
+@var{appearance}, if given, determines the surface properties of the returned
+object.
+
+@code{solid:text} returns a two-sided, flat text object positioned in the Z=0 plane
+of the local coordinate system
+@end defun
+
@subheading Surface Attributes
@@ -372,6 +437,7 @@ and 1. @var{diffuseColor}, @var{specularColor}, and @var{emissiveColor} are obj
If a color argument is omitted or #f, then the default color will be used.
@end defun
+
@defun solid:texture image color scale rotation center translation
@@ -398,6 +464,44 @@ rotate @var{image}. @var{center} must be #f or a list or vector of 2 numbers sp
the center of @var{image} relative to the @var{image} dimensions. @var{translation} must be #f or a
list or vector of 2 numbers specifying the translation to apply to @var{image}.
@end defun
+
+
+@defun solid:font family style justify size spacing language direction
+
+Returns a fontstyle object suitable for passing as an argument to
+@code{solid:text}. Any of the arguments may be #f, in which case
+its default value, which is first in each list of allowed values, is
+used.
+
+@var{family} is a case-sensitive string naming a font; @samp{SERIF},
+@samp{SANS}, and @samp{TYPEWRITER} are supported at the minimum.
+
+@var{style} is a case-sensitive string @samp{PLAIN}, @samp{BOLD},
+@samp{ITALIC}, or @samp{BOLDITALIC}.
+
+@var{justify} is a case-sensitive string @samp{FIRST}, @samp{BEGIN},
+@samp{MIDDLE}, or @samp{END}; or a list of one or two case-sensitive
+strings (same choices). The mechanics of @var{justify} get complicated; it is
+explained by tables 6.2 to 6.7 of
+@url{http://www.web3d.org/x3d/specifications/vrml/ISO-IEC-14772-IS-VRML97WithAmendment1/part1/nodesRef.html#Table6.2}
+
+
+@var{size} is the extent, in the non-advancing direction, of the text.
+@var{size} defaults to 1.
+
+@var{spacing} is the ratio of the line (or column) offset to @var{size}.
+@var{spacing} defaults to 1.
+
+@var{language} is the RFC-1766 language name.
+
+@var{direction} is a list of two numbers: @w{@code{(@var{x} @var{y})}}. If
+@w{@code{(> (abs @var{x}) (abs @var{y}))}}, then the text will be
+arrayed horizontally; otherwise vertically. The direction in which
+characters are arrayed is determined by the sign of the major axis:
+positive @var{x} being left-to-right; positive @var{y} being
+top-to-bottom.
+@end defun
+
@subheading Aggregating Objects
@@ -405,14 +509,17 @@ list or vector of 2 numbers specifying the translation to apply to @var{image}.
Returns a row of @var{number} @var{solid} objects spaced evenly @var{spacing} apart.
@end defun
+
@defun solid:center-array-of number-a number-b solid spacing-a spacing-b
Returns @var{number-b} rows, @var{spacing-b} apart, of @var{number-a} @var{solid} objects @var{spacing-a} apart.
@end defun
+
@defun solid:center-pile-of number-a number-b number-c solid spacing-a spacing-b spacing-c
Returns @var{number-c} planes, @var{spacing-c} apart, of @var{number-b} rows, @var{spacing-b} apart, of @var{number-a} @var{solid} objects @var{spacing-a} apart.
@end defun
+
@defun solid:arrow center
@var{center} must be a list or vector of three numbers. Returns an upward
@@ -422,6 +529,7 @@ pointing metallic arrow centered at @var{center}.
@defunx solid:arrow
Returns an upward pointing metallic arrow centered at the origin.
@end defun
+
@subheading Spatial Transformations
@@ -430,12 +538,15 @@ Returns an upward pointing metallic arrow centered at the origin.
aggregate of @var{solids}, @dots{} with their origin moved to @var{center}.
@end defun
+
@defun solid:scale scale solid @dots{}
@var{scale} must be a number or a list or vector of three numbers. @code{solid:scale}
Returns an aggregate of @var{solids}, @dots{} scaled per @var{scale}.
@end defun
+
@defun solid:rotation axis angle solid @dots{}
@var{axis} must be a list or vector of three numbers. @code{solid:rotation} Returns an
aggregate of @var{solids}, @dots{} rotated @var{angle} degrees around the axis @var{axis}.
@end defun
+
diff --git a/sort.scm b/sort.scm
index c46cf3c..b2199a9 100644
--- a/sort.scm
+++ b/sort.scm
@@ -19,13 +19,14 @@
(define (sorted? seq less?)
(cond ((null? seq) #t)
((array? seq)
- (let ((shape (array-shape seq)))
- (or (<= (- (cadar shape) (caar shape)) 0)
- (do ((i (+ 1 (caar shape)) (+ i 1)))
- ((or (= i (cadar shape))
+ (let ((dims (array-dimensions seq)))
+ (define dimax (+ -1 (car dims)))
+ (or (<= dimax 0)
+ (do ((i 1 (+ i 1)))
+ ((or (= i dimax)
(less? (array-ref seq i)
(array-ref seq (- i 1))))
- (= i (cadar shape)))))))
+ (= i dimax))))))
(else
(let loop ((last (car seq)) (next (cdr seq)))
(or (null? next)
@@ -117,10 +118,10 @@
(else
'())))
(cond ((array? seq)
- (let ((shape (array-shape seq))
+ (let ((dims (array-dimensions seq))
(vec seq))
(set! seq (rank-1-array->list seq))
- (do ((p (step (+ 1 (cadar shape))) (cdr p))
+ (do ((p (step (car dims)) (cdr p))
(i 0 (+ i 1)))
((null? p) vec)
(array-set! vec (car p) i))))
@@ -128,10 +129,10 @@
(step (length seq)))))
(define (rank-1-array->list array)
- (define shape (array-shape array))
- (do ((idx (cadar shape) (+ -1 idx))
+ (define dimensions (array-dimensions array))
+ (do ((idx (+ -1 (car dimensions)) (+ -1 idx))
(lst '() (cons (array-ref array idx) lst)))
- ((< idx (caar shape)) lst)))
+ ((< idx 0) lst)))
;;; (sort sequence less?)
;;; sorts a array, string, or list non-destructively. It does this
@@ -146,8 +147,8 @@
((string? seq)
(list->string (sort:sort! (string->list seq) less?)))
((array? seq)
- (let ((shape (array-shape seq)))
- (define newra (apply create-array seq shape))
+ (let ((dimensions (array-dimensions seq)))
+ (define newra (apply make-array seq dimensions))
(do ((sorted (sort:sort! (rank-1-array->list seq) less?)
(cdr sorted))
(i 0 (+ i 1)))
diff --git a/soundex.scm b/soundex.scm
index 6d73341..9853401 100644
--- a/soundex.scm
+++ b/soundex.scm
@@ -3,44 +3,44 @@
;
; This code is in the public domain.
-;Date: Mon, 2 May 94 13:45:39 -0500
-
; Taken from Knuth, Vol. 3 "Sorting and searching", pp 391--2
+;;; 2003-01-26 L.J. Buitinck converted to use dotted pairs for codes.
+
(require 'common-list-functions)
;@
(define SOUNDEX
(let* ((letters-to-omit
- (list #\A #\E #\H #\I #\O #\U #\W #\Y))
+ '(#\A #\E #\H #\I #\O #\U #\W #\Y))
(codes
- (list (list #\B #\1)
- (list #\F #\1)
- (list #\P #\1)
- (list #\V #\1)
- ;;
- (list #\C #\2)
- (list #\G #\2)
- (list #\J #\2)
- (list #\K #\2)
- (list #\Q #\2)
- (list #\S #\2)
- (list #\X #\2)
- (list #\Z #\2)
- ;;
- (list #\D #\3)
- (list #\T #\3)
- ;;
- (list #\L #\4)
- ;;
- (list #\M #\5)
- (list #\N #\5)
- ;;
- (list #\R #\6)))
+ '((#\B . #\1)
+ (#\F . #\1)
+ (#\P . #\1)
+ (#\V . #\1)
+ ;;
+ (#\C . #\2)
+ (#\G . #\2)
+ (#\J . #\2)
+ (#\K . #\2)
+ (#\Q . #\2)
+ (#\S . #\2)
+ (#\X . #\2)
+ (#\Z . #\2)
+ ;;
+ (#\D . #\3)
+ (#\T . #\3)
+ ;;
+ (#\L . #\4)
+ ;;
+ (#\M . #\5)
+ (#\N . #\5)
+ ;;
+ (#\R . #\6)))
(xform
(lambda (c)
(let ((code (assv c codes)))
(if code
- (cadr code)
+ (cdr code)
c)))))
(lambda (name)
(let ((char-list
@@ -78,5 +78,3 @@
(loop (cons #\0 rev-chars)))
((< 4 len)
(loop (cdr rev-chars))))))))))))
-
-
diff --git a/srcdir.mk b/srcdir.mk
deleted file mode 100644
index befa6a7..0000000
--- a/srcdir.mk
+++ /dev/null
@@ -1,2 +0,0 @@
-srcdir = /home/devel/release/slib-3a1/
-
diff --git a/srfi-1.scm b/srfi-1.scm
index d0f436f..c479491 100644
--- a/srfi-1.scm
+++ b/srfi-1.scm
@@ -1,6 +1,7 @@
;;; "srfi-1.scm" SRFI-1 list-processing library -*-scheme-*-
;; Copyright 2001 Aubrey Jaffer
;; Copyright 2003 Sven Hartrumpf
+;; Copyright 2003-2004 Lars Buitinck
;
;Permission to copy this software, to modify it, to redistribute it,
;to distribute modified versions, and to use it for any purpose is
@@ -38,11 +39,13 @@
;;@subheading Constructors
-;;@body @code{(define (xcons d a) (cons a d))}.
+;;@body
+;; @code{(define (xcons d a) (cons a d))}.
(define (xcons d a) (cons a d))
-;;@body Returns a list of length @1. Element @var{i} is @code{(@2
-;;@var{i})} for 0 <= @var{i} < @1.
+;;@body
+;; Returns a list of length @1. Element @var{i} is
+;;@code{(@2 @var{i})} for 0 <= @var{i} < @1.
(define (list-tabulate len proc)
(do ((i (- len 1) (- i 1))
(ans '() (cons (proc i) ans)))
@@ -122,23 +125,24 @@
(define third caddr)
;;@args pair
(define fourth cadddr)
-;;@args pair
-(define (fifth obj) (car (cddddr obj)))
-(define (sixth obj) (cadr (cddddr obj)))
-(define (seventh obj) (caddr (cddddr obj)))
-(define (eighth obj) (cadddr (cddddr obj)))
-(define (ninth obj) (car (cddddr (cddddr obj))))
-(define (tenth obj) (cadr (cddddr (cddddr obj))))
+;;@body
+(define (fifth pair) (car (cddddr pair)))
+(define (sixth pair) (cadr (cddddr pair)))
+(define (seventh pair) (caddr (cddddr pair)))
+(define (eighth pair) (cadddr (cddddr pair)))
+(define (ninth pair) (car (cddddr (cddddr pair))))
+(define (tenth pair) (cadr (cddddr (cddddr pair))))
;;@body
(define (car+cdr pair) (values (car pair) (cdr pair)))
-;;@body
+;;@args lst k
(define (drop lst k) (nthcdr k lst))
(define (take lst k) (butnthcdr k lst))
-;;@args lst k
-(define take! take)
-
+(define (take! lst k)
+ (if (or (null? lst) (<= k 0))
+ '()
+ (begin (set-cdr! (drop (- k 1) lst) '()) lst)))
;;@args lst k
(define take-right last)
;;@args lst k
@@ -146,13 +150,21 @@
;;@args lst k
(define drop-right! drop-right)
-;;@args lst k
-(define (split-at lst k) (values (take lst k) (drop lst k)))
-;;@args lst k
-(define split-at! split-at)
+;;@body
+(define (split-at lst k)
+ (let loop ((l '()) (r lst) (k k))
+ (if (or (null? r) (= k 0))
+ (values (reverse! l) r)
+ (loop (cons (car r) l) (cdr r) (- k 1)))))
+(define (split-at! lst k)
+ (if (= k 0)
+ (values '() lst)
+ (let* ((half (drop lst (- k 1)))
+ (r (cdr half)))
+ (set-cdr! half '())
+ (values lst r))))
-;;@args lst
-;;(car (last-pair lst))
+;;@body
(define (last lst . k)
(if (null? k)
(car (last-pair lst))
@@ -161,7 +173,7 @@
;;@subheading Miscellaneous
;;@body
-(define (length+ obj) (and (list? obj) (length obj)))
+(define (length+ clist) (and (list? clist) (length clist)))
;;Append and append! are provided by R4RS and rev2-procedures.
@@ -214,42 +226,83 @@
;;@subheading Fold and Unfold
+;;@args kons knil clist1 clist2 ...
+(define (fold f z l1 . l)
+ (set! l (cons l1 l))
+ (if (any null? l)
+ z
+ (apply fold (cons* f (apply f (append! (map car l) (list z)))
+ (map cdr l)))))
+;;@args kons knil clist1 clist2 ...
+(define (fold-right f z l1 . l)
+ (set! l (cons l1 l))
+ (if (any null? l)
+ z
+ (apply f (append! (map car l)
+ (list (apply fold-right (cons* f z (map cdr l))))))))
+;;@args kons knil clist1 clist2 ...
+(define (pair-fold f z l) ;XXX should be multi-arg
+ (if (null? l)
+ z
+ (let ((tail (cdr l)))
+ (pair-fold f (f l z) tail))))
+;;@args kons knil clist1 clist2 ...
+(define (pair-fold-right f z l) ;XXX should be multi-arg
+ (if (null? l)
+ z
+ (f l (pair-fold-right f z (cdr l)))))
-;;; We stop when LIS1 runs out, not when any list runs out.
-;;@args f list1 clist2 ...
-(define (map! f lis1 . lists)
+;;@body
+(define (reduce f ridentity list)
+ (if (null? list) ridentity (fold f (car list) (cdr list))))
+(define (reduce-right f ridentity list)
+ (if (null? list)
+ ridentity
+ (let red ((l (cdr list)) (ridentity (car list)))
+ (if (null? list)
+ ridentity
+ (f ridentity (red (cdr list) (car list)))))))
+
+;;; We stop when CLIST1 runs out, not when any list runs out.
+;;@args f clist1 clist2 ...
+(define (map! f clist1 . lists)
(if (pair? lists)
- (let lp ((lis1 lis1) (lists lists))
- (if (not (null-list? lis1))
+ (let lp ((clist1 clist1) (lists lists))
+ (if (not (null-list? clist1))
(call-with-values ; expanded a receive call
(lambda () (%cars+cdrs/no-test lists))
(lambda (heads tails)
- (set-car! lis1 (apply f (car lis1) heads))
- (lp (cdr lis1) tails)))))
-
+ (set-car! clist1 (apply f (car clist1) heads))
+ (lp (cdr clist1) tails)))))
;; Fast path.
- (pair-for-each (lambda (pair) (set-car! pair (f (car pair)))) lis1))
- lis1)
-
+ (pair-for-each (lambda (pair) (set-car! pair (f (car pair)))) clist1))
+ clist1)
;;@args f clist1 clist2 ...
-(define (pair-for-each proc lis1 . lists)
+(define (pair-for-each proc clist1 . lists)
(if (pair? lists)
- (let lp ((lists (cons lis1 lists)))
+ (let lp ((lists (cons clist1 lists)))
(let ((tails (%cdrs lists)))
(if (pair? tails)
(begin (apply proc lists)
(lp tails)))))
;; Fast path.
- (let lp ((lis lis1))
+ (let lp ((lis clist1))
(if (not (null-list? lis))
(let ((tail (cdr lis))) ; Grab the cdr now,
(proc lis) ; in case PROC SET-CDR!s LIS.
(lp tail))))))
+(define (filter-map f l1 . l)
+ (let loop ((l (cons l1 l)) (r '()))
+ (if (any null? l)
+ (reverse! r)
+ (let ((x (apply f (map car l))))
+ (loop (map! cdr l) (if x (cons x r) r))))))
+
;;@subheading Filtering and Partitioning
-;;@body
+;;@args pred list
(define (filter pred lis) ; Sleazing with EQ? makes this one faster.
(let recur ((lis lis))
(if (null-list? lis) lis ; Use NOT-PAIR? to handle dotted lists.
@@ -260,32 +313,10 @@
(if (eq? tail new-tail) lis
(cons head new-tail)))
(recur tail)))))) ; this one can be a tail call.
-;;@body
-(define (filter! pred l)
- (if (null? l)
- l
- (let ((l2 l)
- (l3 (cdr l)))
- (do ((end #f)
- (result '()))
- (end result)
- (cond ((pred (car l2)) ; keep the first element of l2
- (cond ((null? result)
- (set! result l2))) ; first pair of remaining elements
- (cond ((pair? l3)
- (set! l2 l3)
- (set! l3 (cdr l2)))
- (else
- (set! end #t))))
- (else ; remove the first element of l2
- (cond ((pair? l3)
- (set-car! l2 (car l3))
- (set! l3 (cdr l3))
- (set-cdr! l2 l3))
- (else
- (cond ((pair? result)
- (list-remove-last! result)))
- (set! end #t)))))))))
+;;@args pred list
+(define (filter! p? l)
+ (call-with-values (lambda () (partition! p? l))
+ (lambda (x y) x)))
;;@args pred list
(define (partition pred lis)
@@ -300,24 +331,61 @@
(values (if (pair? out) (cons elt in) lis) out)
(values in (if (pair? in) (cons elt out) lis)))))))))
-;;@subheading Searching
-
;;@args pred list
-(define find find-if)
-
-;;@args pred list
-(define find-tail member-if)
-
-;;@body
(define remove
(let ((comlist:remove remove))
(lambda (pred l)
(if (procedure? pred)
(filter (lambda (x) (not (pred x))) l)
(comlist:remove pred l))))) ; 'remove' has incompatible semantics in comlist of SLIB!
-;;@body
+
+;;@args pred list
+(define (partition! p? l)
+ (if (null? l)
+ (values l l)
+ (let ((p-ptr (cons '*unused* l)) (not-ptr (cons '*unused* l)))
+ (let loop ((l l) (p-prev p-ptr) (not-prev not-ptr))
+ (cond ((null? l) (values (cdr p-ptr) (cdr not-ptr)))
+ ((p? (car l)) (begin (set-cdr! not-prev (cdr l))
+ (loop (cdr l) l not-prev)))
+ (else (begin (set-cdr! p-prev (cdr l))
+ (loop (cdr l) p-prev l))))))))
+
+;;@args pred list
(define (remove! pred l) (filter! (lambda (x) (not (pred x))) l))
+
+;;@subheading Searching
+
+;;@args pred clist
+(define find find-if)
+;;@args pred clist
+(define find-tail member-if)
+
+;;@args pred list
+(define (span pred lis)
+ (let recur ((lis lis))
+ (if (null-list? lis) (values '() '())
+ (let ((x (car lis)))
+ (if (pred x)
+ (call-with-values ; eliminated a receive call
+ (lambda () (recur (cdr lis)))
+ (lambda (prefix suffix)
+ (values (cons x prefix) suffix)))
+ (values '() lis))))))
+
+;;@args pred list
+(define (span! p? lst)
+ (let loop ((l lst) (prev (cons '*unused* lst)))
+ (cond ((null? l) (values lst '()))
+ ((p? (car l)) (loop (cdr l) l))
+ (else (begin (set-cdr! prev '()) (values lst l))))))
+
+;;@args pred list
+(define (break p? l) (span (lambda (x) (not (p? x))) l))
+;;@args pred list
+(define (break! p? l) (span! (lambda (x) (not (p? x))) l))
+
;;@args pred clist1 clist2 ...
(define (any pred lis1 . lists)
(if (pair? lists)
@@ -339,7 +407,6 @@
(if (null-list? tail)
(pred head) ; Last PRED app is tail call.
(or (pred head) (lp (car tail) (cdr tail))))))))
-
;;@args pred clist1 clist2 ...
(define (list-index pred lis1 . lists)
(if (pair? lists)
@@ -356,27 +423,8 @@
(and (not (null-list? lis))
(if (pred (car lis)) n (lp (cdr lis) (+ n 1)))))))
-;;@args pred list
-(define (span pred lis)
- (let recur ((lis lis))
- (if (null-list? lis) (values '() '())
- (let ((x (car lis)))
- (if (pred x)
- (call-with-values ; eliminated a receive call
- (lambda () (recur (cdr lis)))
- (lambda (prefix suffix)
- (values (cons x prefix) suffix)))
- (values '() lis))))))
-
-;;@args obj list pred
+;;@args obj list =
;;@args obj list
-;;
-;;@0 returns the first sublist of @2 whose car is @1, where the sublists
-;;of @2 are the non-empty lists returned by @t{(list-tail @2 @var{k})}
-;;for @var{k} less than the length of @2. If @1 does not occur in @2,
-;;then @t{#f} (not the empty list) is returned. The procedure @3 is
-;;used for testing equality. If @3 is not provided, @samp{equal?} is
-;;used.
(define member
(let ((old-member member))
(lambda (obj list . pred)
@@ -387,16 +435,22 @@
;;@subheading Deleting
+;;@args x list =
+;;@args x list
+(define (delete-duplicates l =?)
+ (let loop ((l l) (r '()))
+ (if (null? l)
+ (reverse! r)
+ (loop (cdr l)
+ (if (member (car l) r =?) r (cons (car l) r))))))
+;;@args x list =
+;;@args x list
+(define delete-duplicates! delete-duplicates)
+
;;@subheading Association lists
;;@args obj alist pred
;;@args obj alist
-;;
-;;@2 (for ``association list'') must be a list of pairs. These
-;;procedures find the first pair in @2 whose car field is @1, and
-;;returns that pair. If no pair in @2 has @1 as its car, then @t{#f}
-;;(not the empty list) is returned. The procedure @3 is used for
-;;testing equality. If @3 is not provided, @samp{equal?} is used.
(define assoc
(let ((old-assoc assoc))
(lambda (obj alist . pred)
@@ -405,8 +459,140 @@
(let ((pred (car pred)))
(find (lambda (pair) (pred obj (car pair))) alist))))))
+;; XXX maybe define the following in alist and require that module here?
+
+;;@args key datum alist
+(define (alist-cons k d l) (cons (cons k d) l))
+
+;;@args alist
+(define (alist-copy l)
+ (map (lambda (x) (cons (car x) (cdr x))) l))
+
+;;@args key alist =
+;;@args key alist
+(define (alist-delete k l . opt)
+ (let ((key=? (if (pair? opt) (car opt) equal?)))
+ (remove (lambda (x) (key=? (car x) k)) l)))
+;;@args key alist =
+;;@args key alist
+(define (alist-delete! k l . opt)
+ (let ((key=? (if (pair? opt) (car opt) equal?)))
+ (remove! (lambda (x) (key=? (car x) k)) l)))
+
;;@subheading Set operations
+;;@args = list1 @dots{}
+;;Determine if a transitive subset relation exists between the lists @2
+;;@dots{}, using @1 to determine equality of list members.
+(define (lset<= =? . l)
+ (or (null? l)
+ (letrec ((subset? (lambda (l1 l2)
+ (or (eq? l1 l2)
+ (every (lambda (x) (member x l2)) l1)))))
+ (let loop ((l1 (car l)) (l (cdr l)))
+ (or (null? l)
+ (let ((l2 (car l)))
+ (and (subset? l1 l2)
+ (loop l2 (cdr l)))))))))
+
+;;@args = list1 list2 @dots{}
+(define (lset= =? . l)
+ (or (null? l)
+ (let loop ((l1 (car l)) (l (cdr l)))
+ (or (null? l)
+ (let ((l2 (car l)))
+ (and (lset<= =? l1 l2)
+ (lset<= =? l2 l1)
+ (loop (if (< (length l1) (length l2)) l1 l2)
+ (cdr l))))))))
+
+;;@args list elt1 @dots{}
+(define (lset-adjoin =? l1 . l2)
+ (let ((adjoin (lambda (x l)
+ (if (member x l =?) l (cons x l)))))
+ (fold adjoin l1 l2)))
+
+;;@args = list1 @dots{}
+(define (lset-union =? . l)
+ (let ((union (lambda (l1 l2)
+ (if (or (null? l2) (eq? l1 l2))
+ l1
+ (apply lset-adjoin (cons* =? l2 l1))))))
+ (fold union '() l)))
+
+;;@args = list1 list2 @dots{}
+(define (lset-intersection =? l1 . l)
+ (let loop ((l l) (r l1))
+ (cond ((null? l) r)
+ ((null? (car l)) '())
+ (else (loop (cdr l)
+ (filter (lambda (x) (member x (car l) =?)) r))))))
+
+;;@args = list1 list2 ...
+(define (lset-difference =? l1 . l)
+ (call-with-current-continuation
+ (lambda (return)
+ (let ((diff (lambda (l1 l2)
+ (cond ((null? l2) (return '()))
+ ((null? l1) l2)
+ (else (remove (lambda (x) (member x l1 =?))
+ l2))))))
+ (fold diff l1 l)))))
+
+;; Alternatively definition of lset-difference, for large numbers of sets.
+;(define (lset-difference =? l1 . l)
+; (set! l (cdr (delete-duplicates! (cons l1 l) eq?)))
+; (case (length l)
+; ((0) l1)
+; ((1) (remove (lambda (x) (member x l1 =?)) (car l)))
+; (else (apply (lset-difference! (cons* =? (list-copy l1) l))))))
+
+;;@args = list1 ...
+(define (lset-xor =? . l)
+ (let ((xor (lambda (l1 l2) (lset-union =? (lset-difference =? l1 l2)
+ (lset-difference =? l2 l1)))))
+ (fold xor '() l)))
+
+;;@args = list1 list2 ...
+(define (lset-diff+intersection =? l1 . l)
+ (let ((u (apply lset-union (cons =? l))))
+ (values (lset-difference =? l1 u)
+ (lset-intersection =? l1 u))))
+
+;;@noindent
+;;These are linear-update variants. They are allowed, but not
+;;required, to use the cons cells in their first list parameter to
+;;construct their answer. @code{lset-union!} is permitted to recycle
+;;cons cells from any of its list arguments.
+
+;;@args = list1 list2 ...
+(define lset-intersection! lset-intersection)
+;;@args = list1 list2 ...
+(define (lset-difference! =? l1 . l)
+ (let loop ((l l) (d l1))
+ (if (or (null? l) (null? d))
+ d
+ (loop (cdr l)
+ (let ((l1 (car l)))
+ (if (null? l1) d (remove! (lambda (x) (member x l1 =?)) d)))))))
+
+;;@args = list1 ...
+(define (lset-union! =? . l)
+ (let loop ((l l) (u '()))
+ (if (null? l)
+ u
+ (loop (cdr l)
+ (cond ((null? (car l)) u)
+ ((eq? (car l) u) u)
+ ((null? u) (car l))
+ (else (append-reverse! (lset-difference! =? (car l) u)
+ u)))))))
+;;@args = list1 ...
+(define lset-xor! lset-xor)
+
+;;@args = list1 list2 ...
+(define lset-diff+intersection! lset-diff+intersection)
+
;;;; helper functions from the reference implementation:
diff --git a/srfi-1.txi b/srfi-1.txi
index 4b2ed74..4849703 100644
--- a/srfi-1.txi
+++ b/srfi-1.txi
@@ -11,22 +11,28 @@ at @url{http://srfi.schemers.org/srfi-1/srfi-1.html}
@defun xcons d a
-@code{(define (xcons d a) (cons a d))}.
+
+ @code{(define (xcons d a) (cons a d))}.
@end defun
+
@defun list-tabulate len proc
-Returns a list of length @var{len}. Element @var{i} is @code{(@var{proc}
-@var{i})} for 0 <= @var{i} < @var{len}.
+
+ Returns a list of length @var{len}. Element @var{i} is
+@code{(@var{proc} @var{i})} for 0 <= @var{i} < @var{len}.
@end defun
+
@defun cons* obj1 obj2
@end defun
+
@defun list-copy flist
@end defun
+
@defun iota count start step
@@ -36,10 +42,12 @@ Returns a list of length @var{len}. Element @var{i} is @code{(@var{proc}
Returns a list of @var{count} numbers: (@var{start}, @var{start}+@var{step}, @dots{}, @var{start}+(@var{count}-1)*@var{step}).
@end defun
+
@defun circular-list obj1 obj2 @dots{}
Returns a circular list of @var{obj1}, @var{obj2}, @dots{}.
@end defun
+
@subheading Predicates
@@ -47,25 +55,31 @@ Returns a circular list of @var{obj1}, @var{obj2}, @dots{}.
@end defun
+
@defun circular-list? x
@end defun
+
@defun dotted-list? obj
@end defun
+
@defun null-list? obj
@end defun
+
@defun not-pair? obj
@end defun
+
@defun list= =pred list @dots{}
@end defun
+
@subheading Selectors
@@ -73,89 +87,99 @@ Returns a circular list of @var{obj1}, @var{obj2}, @dots{}.
@end defun
+
@defun second pair
@end defun
+
@defun third pair
@end defun
+
@defun fourth pair
@end defun
+
@defun fifth pair
-@defunx sixth obj
-@defunx seventh obj
-@defunx eighth obj
-@defunx ninth obj
-@defunx tenth obj
+@defunx sixth pair
+@defunx seventh pair
+@defunx eighth pair
+@defunx ninth pair
+@defunx tenth pair
@end defun
+
@defun car+cdr pair
@end defun
+
@defun drop lst k
@defunx take lst k
+@defunx take! lst k
@end defun
-@deffn {Procedure} take! lst k
-
-@end deffn
@defun take-right lst k
@end defun
+
@defun drop-right lst k
@end defun
+
@deffn {Procedure} drop-right! lst k
@end deffn
+
@defun split-at lst k
+@defunx split-at! lst k
@end defun
-@deffn {Procedure} split-at! lst k
-@end deffn
-
-@defun last lst
+@defun last lst k @dots{}
-(car (last-pair lst))
@end defun
+
@subheading Miscellaneous
-@defun length+ obj
+@defun length+ clist
@end defun
+
@defun concatenate lists
@defunx concatenate! lists
@end defun
+
@deffn {Procedure} reverse! lst
@end deffn
+
@defun append-reverse rev-head tail
@defunx append-reverse! rev-head tail
@end defun
+
@defun zip list1 list2 @dots{}
@end defun
+
@defun unzip1 lst
@defunx unzip2 lst
@defunx unzip3 lst
@@ -164,77 +188,145 @@ Returns a circular list of @var{obj1}, @var{obj2}, @dots{}.
@end defun
+
@defun count pred list1 list2 @dots{}
@end defun
+
@subheading Fold and Unfold
-@deffn {Procedure} map! f list1 clist2 @dots{}
+@defun fold kons knil clist1 clist2 @dots{}
+
+@end defun
+
+
+@defun fold-right kons knil clist1 clist2 @dots{}
+
+@end defun
+
+
+@defun pair-fold kons knil clist1 clist2 @dots{}
+
+@end defun
+
+
+@defun pair-fold-right kons knil clist1 clist2 @dots{}
+
+@end defun
+
+
+@defun reduce f ridentity list
+@defunx reduce-right f ridentity list
+
+@end defun
+
+
+@deffn {Procedure} map! f clist1 clist2 @dots{}
@end deffn
+
@defun pair-for-each f clist1 clist2 @dots{}
@end defun
+
@subheading Filtering and Partitioning
-@defun filter pred lis
+@defun filter pred list
@end defun
-@deffn {Procedure} filter! pred l
+
+@deffn {Procedure} filter! pred list
@end deffn
+
@defun partition pred list
@end defun
+
+
+@defun remove pred list
+
+@end defun
+
+
+@deffn {Procedure} partition! pred list
+
+@end deffn
+
+
+@deffn {Procedure} remove! pred list
+
+@end deffn
+
@subheading Searching
-@defun find pred list
+@defun find pred clist
@end defun
-@defun find-tail pred list
+
+@defun find-tail pred clist
@end defun
-@defun remove pred l
+
+@defun span pred list
@end defun
-@deffn {Procedure} remove! pred l
+
+@deffn {Procedure} span! pred list
@end deffn
+
+@defun break pred list
+
+@end defun
+
+
+@deffn {Procedure} break! pred list
+
+@end deffn
+
+
@defun any pred clist1 clist2 @dots{}
@end defun
+
@defun list-index pred clist1 clist2 @dots{}
@end defun
-@defun span pred list
+@defun member obj list =
+
+
+@defunx member obj list
@end defun
-@defun member obj list pred
+@subheading Deleting
-@defunx member obj list
+@defun delete-duplicates x list =
-@code{member} returns the first sublist of @var{list} whose car is @var{obj}, where the sublists
-of @var{list} are the non-empty lists returned by @t{(list-tail @var{list} @var{k})}
-for @var{k} less than the length of @var{list}. If @var{obj} does not occur in @var{list},
-then @t{#f} (not the empty list) is returned. The procedure @var{pred} is
-used for testing equality. If @var{pred} is not provided, @samp{equal?} is
-used.
+
+@defunx delete-duplicates x list
@end defun
-@subheading Deleting
+
+
+@deffn {Procedure} delete-duplicates! x list =
+
+
+@deffnx {Procedure} delete-duplicates! x list
+@end deffn
@subheading Association lists
@@ -243,12 +335,104 @@ used.
@defunx assoc obj alist
+@end defun
+
+
+@defun alist-cons key datum alist
-@var{alist} (for ``association list'') must be a list of pairs. These
-procedures find the first pair in @var{alist} whose car field is @var{obj}, and
-returns that pair. If no pair in @var{alist} has @var{obj} as its car, then @t{#f}
-(not the empty list) is returned. The procedure @var{pred} is used for
-testing equality. If @var{pred} is not provided, @samp{equal?} is used.
@end defun
+
+
+@defun alist-copy alist
+
+@end defun
+
+
+@defun alist-delete key alist =
+
+
+@defunx alist-delete key alist
+@end defun
+
+
+@deffn {Procedure} alist-delete! key alist =
+
+
+@deffnx {Procedure} alist-delete! key alist
+@end deffn
+
@subheading Set operations
+
+@defun lset<= = list1 @dots{}
+
+Determine if a transitive subset relation exists between the lists @var{list1}
+@dots{}, using @var{=} to determine equality of list members.
+@end defun
+
+
+@defun lset= = list1 list2 @dots{}
+
+@end defun
+
+
+@defun lset-adjoin list elt1 @dots{}
+
+@end defun
+
+
+@defun lset-union = list1 @dots{}
+
+@end defun
+
+
+@defun lset-intersection = list1 list2 @dots{}
+
+@end defun
+
+
+@defun lset-difference = list1 list2 @dots{}
+
+@end defun
+
+
+@defun lset-xor = list1 @dots{}
+
+@end defun
+
+
+@defun lset-diff+intersection = list1 list2 @dots{}
+
+@end defun
+
+@noindent
+These are linear-update variants. They are allowed, but not
+required, to use the cons cells in their first list parameter to
+construct their answer. @code{lset-union!} is permitted to recycle
+cons cells from any of its list arguments.
+
+
+@deffn {Procedure} lset-intersection! = list1 list2 @dots{}
+
+@end deffn
+
+
+@deffn {Procedure} lset-difference! = list1 list2 @dots{}
+
+@end deffn
+
+
+@deffn {Procedure} lset-union! = list1 @dots{}
+
+@end deffn
+
+
+@deffn {Procedure} lset-xor! = list1 @dots{}
+
+@end deffn
+
+
+@deffn {Procedure} lset-diff+intersection! = list1 list2 @dots{}
+
+@end deffn
+
diff --git a/srfi-2.txi b/srfi-2.txi
index b5d1b68..5b43293 100644
--- a/srfi-2.txi
+++ b/srfi-2.txi
@@ -6,3 +6,4 @@
@url{http://srfi.schemers.org/srfi-2/srfi-2.html}
@end defmac
+
diff --git a/srfi-8.txi b/srfi-8.txi
index bdf149b..b2d8618 100644
--- a/srfi-8.txi
+++ b/srfi-8.txi
@@ -6,3 +6,4 @@
@url{http://srfi.schemers.org/srfi-8/srfi-8.html}
@end defspec
+
diff --git a/srfi.txi b/srfi.txi
index 52d2dbb..2ef0bc8 100644
--- a/srfi.txi
+++ b/srfi.txi
@@ -40,3 +40,4 @@ error is signaled.
SLIB @code{cond-expand} is an extension of SRFI-0,
@url{http://srfi.schemers.org/srfi-0/srfi-0.html}.
@end defmac
+
diff --git a/strcase.scm b/strcase.scm
index 71daba4..d099bb6 100644
--- a/strcase.scm
+++ b/strcase.scm
@@ -7,6 +7,8 @@
; SYMBOL-APPEND and StudlyCapsExpand added by A. Jaffer 2001.
; Authors of the original version were Ken Dickey and Aubrey Jaffer.
+(require 'rev4-optional-procedures) ;string-copy
+
;string-upcase, string-downcase, string-capitalize
; are obvious string conversion procedures and are non destructive.
;string-upcase!, string-downcase!, string-capitalize!
diff --git a/strsrch.scm b/strsrch.scm
index 7773e51..13edb65 100644
--- a/strsrch.scm
+++ b/strsrch.scm
@@ -6,7 +6,7 @@
; This code is in the public domain.
;;;@ Return the index of the first occurence of chr in str, or #f
-(define (strsrch:string-index str chr)
+(define (string-index str chr)
(define len (string-length str))
(do ((pos 0 (+ 1 pos)))
((or (>= pos len) (char=? chr (string-ref str pos)))
@@ -34,7 +34,7 @@
(cond ((zero? patlen) 0) ; trivial match
((>= patlen strlen) (and (= patlen strlen) (string=? pat str) 0))
;; use faster string-index to match a single-character pattern
- ((= 1 patlen) (strsrch:string-index str (string-ref pat 0)))
+ ((= 1 patlen) (string-index str (string-ref pat 0)))
((or (<= strlen (+ patlen patlen (quotient char-code-limit 2)))
(<= patlen 4))
(subloop pat patlen str strlen char=?))
@@ -55,7 +55,7 @@
(define strlen (string-length str))
(cond ((zero? patlen) 0) ; trivial match
((>= patlen strlen) (and (= patlen strlen) (string-ci=? pat str) 0))
- ((= 1 patlen) (strsrch:string-index-ci str (string-ref pat 0)))
+ ((= 1 patlen) (string-index-ci str (string-ref pat 0)))
((or (<= strlen (+ patlen patlen (quotient char-code-limit 2)))
(<= patlen 4))
(subloop pat patlen str strlen char-ci=?))
diff --git a/subarray.scm b/subarray.scm
index 69b18c4..152ccbb 100644
--- a/subarray.scm
+++ b/subarray.scm
@@ -65,64 +65,39 @@
(loop sels (cdr args) (cons (car args) lst))))
((number? (car sels))
(loop (cdr sels) args (cons (car sels) lst)))
+ ((list? (car sels))
+ (loop (cdr sels)
+ (cdr args)
+ (cons (+ (car args) (caar sels)) lst)))
(else
(loop (cdr sels) (cdr args) (cons (car args) lst))))))
(let loop ((sels selects)
- (shp (array-shape array))
- (nshp '()))
- (cond ((null? shp)
+ (dims (array-dimensions array))
+ (ndims '()))
+ (cond ((null? dims)
(if (null? sels)
- (reverse nshp)
- (slib:error 'subarray 'rank (array-rank array) 'mismatch selects)))
+ (reverse ndims)
+ (slib:error
+ 'subarray 'rank (array-rank array) 'mismatch selects)))
((null? sels)
- (loop sels (cdr shp) (cons (car shp) nshp)))
+ (loop sels (cdr dims) (cons (car dims) ndims)))
+ ((number? (car sels))
+ (loop (cdr sels) (cdr dims) ndims))
((not (car sels))
- (loop (cdr sels) (cdr shp) (cons (car shp) nshp)))
- ((integer? (car sels))
- (loop (cdr sels) (cdr shp) nshp))
+ (loop (cdr sels) (cdr dims) (cons (car dims) ndims)))
+ ((list? (car sels))
+ (loop (cdr sels)
+ (cdr dims)
+ (cons (list 0 (- (cadar sels) (caar sels))) ndims)))
(else
- (loop (cdr sels) (cdr shp) (cons (car sels) nshp)))))))
+ (loop (cdr sels) (cdr dims) (cons (car sels) ndims)))))))
;;@body
-;;Behaves like @r{subarray}, but @r{align}s the returned array origin to
-;;0 @dots{}.
-(define (subarray0 array . selects)
- (define ra (apply subarray array selects))
- (apply array-align ra (map (lambda (x) 0) (array-shape ra))))
+;;Legacy alias for @r{subarray}.
+(define subarray0 subarray)
;;@body
;;
-;;Returns an array shared with @1 but with a different origin. The @2
-;;are the exact integer coordinates of the new origin. Indexes
-;;corresponding to missing or #f coordinates are not realigned.
-;;
-;;For example:
-;;@example
-;;(define ra2 (create-array '#(5) '(5 9) '(-4 0)))
-;;(array-shape ra2) @result{} ((5 9) (-4 0))
-;;(array-shape (array-align ra2 0 0)) @result{} ((0 4) (0 4))
-;;(array-shape (array-align ra2 0)) @result{} ((0 4) (-4 0))
-;;(array-shape (array-align ra2)) @result{} ((5 9) (-4 0))
-;;(array-shape (array-align ra2 0 #f)) @result{} ((0 4) (-4 0))
-;;(array-shape (array-align ra2 #f 0)) @result{} ((5 9) (0 4))
-;;@end example
-(define (array-align array . coords)
- (let* ((shape (array-shape array))
- (offs (let recur ((shp shape)
- (crd coords))
- (cond ((null? shp) '())
- ((null? crd) (map (lambda (x) 0) shp))
- ((not (car crd)) (cons 0 (recur (cdr shp) (cdr crd))))
- (else (cons (- (car crd) (caar shp))
- (recur (cdr shp) (cdr crd))))))))
- (apply make-shared-array
- array (lambda inds (map - inds offs))
- (map (lambda (spec off)
- (list (+ (car spec) off) (+ (cadr spec) off)))
- shape offs))))
-
-;;@body
-;;
;;Returns a subarray sharing contents with @1 except for slices removed
;;from either side of each dimension. Each of the @2 is an exact
;;integer indicating how much to trim. A positive @var{s} trims the
@@ -132,41 +107,32 @@
;;
;;For example:
;;@example
-;;(array-trim '#(0 1 2 3 4) 1) @result{} #1A(1 2 3 4) ;; shape is ((0 3))
-;;(array-trim '#(0 1 2 3 4) -1) @result{} #1A(0 1 2 3) ;; shape is ((1 4))
+;;(array-trim '#(0 1 2 3 4) 1) @result{} #1A(1 2 3 4)
+;;(array-trim '#(0 1 2 3 4) -1) @result{} #1A(0 1 2 3)
;;
;;(require 'array-for-each)
;;(define (centered-difference ra)
-;; (array-map - (array-trim ra 1) (array-trim ra -1)))
-;;(define (forward-difference ra)
-;; (array-map - (array-trim ra 1) ra))
-;;(define (backward-difference ra)
-;; (array-map - ra (array-trim ra -1)))
+;; (array-map ra - (array-trim ra 1) (array-trim ra -1)))
;;
;;(centered-difference '#(0 1 3 5 9 22))
-;; @result{} #1A(3 4 6 17) ;;shape is ((1 4))
-;;(backward-difference '#(0 1 3 5 9 22))
-;; @result{} #1A(1 2 2 4 13) ;; shape is ((1 5))
-;;(forward-difference '#(0 1 3 5 9 22))
-;; @result{} #(1 2 2 4 13) ;; shape is ((0 4))
+;; @result{} #(1 2 2 4 13)
;;@end example
(define (array-trim array . trims)
- (let* ((shape (array-shape array))
- (trims (let recur ((shp shape)
- (ss trims))
- (cond ((null? shp) '())
- ((null? ss) (map (lambda (x) 0) shp))
- ((integer? (car ss))
- (cons (car ss) (recur (cdr shp) (cdr ss))))
- (else
- (slib:error 'array-trim 'bad 'trim (car ss)))))))
- (apply make-shared-array
- array
- (lambda inds (map + inds trims))
- (map (lambda (spec trim)
- (cond ((negative? trim)
- (cons (- (car spec) trim) (cdr spec)))
- ((positive? trim)
- (list (car spec) (- (cadr spec) trim)))
- (else spec)))
- shape trims))))
+ (define (loop dims trims shps)
+ (cond ((null? trims)
+ (if (null? dims)
+ (reverse shps)
+ (loop (cdr dims)
+ '()
+ (cons (list 0 (+ -1 (car dims))) shps))))
+ ((null? dims)
+ (slib:error 'array-trim 'too 'many 'trims trims))
+ ((negative? (car trims))
+ (loop (cdr dims)
+ (cdr trims)
+ (cons (list 0 (+ (car trims) (car dims) -1)) shps)))
+ (else
+ (loop (cdr dims)
+ (cdr trims)
+ (cons (list (car trims) (+ -1 (car dims))) shps)))))
+ (apply subarray array (loop (array-dimensions array) trims '())))
diff --git a/subarray.txi b/subarray.txi
index 7d62ed6..1a0545f 100644
--- a/subarray.txi
+++ b/subarray.txi
@@ -36,31 +36,12 @@ shared.
@end example
@end defun
-@defun subarray0 array select @dots{}
-Behaves like @r{subarray}, but @r{align}s the returned array origin to
-0 @dots{}.
-@end defun
-
-@defun array-align array coord @dots{}
+@defvar subarray0
+Legacy alias for @r{subarray}.
+@end defvar
-Returns an array shared with @var{array} but with a different origin. The @var{coords}
-are the exact integer coordinates of the new origin. Indexes
-corresponding to missing or #f coordinates are not realigned.
-
-For example:
-@example
-(define ra2 (create-array '#(5) '(5 9) '(-4 0)))
-(array-shape ra2) @result{} ((5 9) (-4 0))
-(array-shape (array-align ra2 0 0)) @result{} ((0 4) (0 4))
-(array-shape (array-align ra2 0)) @result{} ((0 4) (-4 0))
-(array-shape (array-align ra2)) @result{} ((5 9) (-4 0))
-(array-shape (array-align ra2 0 #f)) @result{} ((0 4) (-4 0))
-(array-shape (array-align ra2 #f 0)) @result{} ((5 9) (0 4))
-@end example
-@end defun
-
@defun array-trim array trim @dots{}
@@ -73,22 +54,15 @@ bound.
For example:
@example
-(array-trim '#(0 1 2 3 4) 1) @result{} #1A(1 2 3 4) ;; shape is ((0 3))
-(array-trim '#(0 1 2 3 4) -1) @result{} #1A(0 1 2 3) ;; shape is ((1 4))
+(array-trim '#(0 1 2 3 4) 1) @result{} #1A(1 2 3 4)
+(array-trim '#(0 1 2 3 4) -1) @result{} #1A(0 1 2 3)
(require 'array-for-each)
(define (centered-difference ra)
- (array-map - (array-trim ra 1) (array-trim ra -1)))
-(define (forward-difference ra)
- (array-map - (array-trim ra 1) ra))
-(define (backward-difference ra)
- (array-map - ra (array-trim ra -1)))
+ (array-map ra - (array-trim ra 1) (array-trim ra -1)))
(centered-difference '#(0 1 3 5 9 22))
- @result{} #1A(3 4 6 17) ;;shape is ((1 4))
-(backward-difference '#(0 1 3 5 9 22))
- @result{} #1A(1 2 2 4 13) ;; shape is ((1 5))
-(forward-difference '#(0 1 3 5 9 22))
- @result{} #(1 2 2 4 13) ;; shape is ((0 4))
+ @result{} #(1 2 2 4 13)
@end example
@end defun
+
diff --git a/t3.init b/t3.init
index 2b317b8..d5665d0 100644
--- a/t3.init
+++ b/t3.init
@@ -14,7 +14,10 @@
(define (scheme-implementation-type) 'T)
-(define (scheme-implementation-version) "3.1")
+(define (scheme-implementation-version)
+ (string-append (number->string (quotient *T-VERSION-NUMBER* 1000))
+ "."
+ (number->string (modulo *T-VERSION-NUMBER* 1000))))
;;; (scheme-implementation-home-page) should return a (string) URI
;;; (Uniform Resource Identifier) for this scheme implementation's home
@@ -45,35 +48,114 @@
;;; customize a computer environment for a user.
(define (home-vicinity) #f)
-;;; *FEATURES* should be set to a list of symbols describing features
-;;; of this implementation. See Template.scm for the list of feature
-;;; names.
+(define in-vicinity string-append)
+;@
+(define (user-vicinity)
+ (case (software-type)
+ ((VMS) "[.]")
+ (else "")))
+
+(define *load-pathname* #f)
+;@
+(define vicinity:suffix?
+ (let ((suffi
+ (case (software-type)
+ ((AMIGA) '(#\: #\/))
+ ((MACOS THINKC) '(#\:))
+ ((MS-DOS WINDOWS ATARIST OS/2) '(#\\ #\/))
+ ((NOSVE) '(#\: #\.))
+ ((UNIX COHERENT PLAN9) '(#\/))
+ ((VMS) '(#\: #\]))
+ (else
+ (slib:warn "require.scm" 'unknown 'software-type (software-type))
+ "/"))))
+ (lambda (chr) (and (memv chr suffi) #t))))
+;;; What is this early definition doing??
+(define program-vicinity
+ (make-simple-switch 'program-vicinity
+ (lambda (x) (or (string? x) (false? x)))
+ '#f))
+;@
+(define (pathname->vicinity pathname)
+ (let loop ((i (- (string-length pathname) 1)))
+ (cond ((negative? i) "")
+ ((vicinity:suffix? (string-ref pathname i))
+ (substring pathname 0 (+ i 1)))
+ (else (loop (- i 1))))))
+(define (program-vicinity)
+ (if *load-pathname*
+ (pathname->vicinity *load-pathname*)
+ (slib:error 'program-vicinity " called; use slib:load to load")))
+;@
+(define sub-vicinity
+ (case (software-type)
+ ((VMS) (lambda
+ (vic name)
+ (let ((l (string-length vic)))
+ (if (or (zero? (string-length vic))
+ (not (char=? #\] (string-ref vic (- l 1)))))
+ (string-append vic "[" name "]")
+ (string-append (substring vic 0 (- l 1))
+ "." name "]")))))
+ (else (let ((*vicinity-suffix*
+ (case (software-type)
+ ((NOSVE) ".")
+ ((MACOS THINKC) ":")
+ ((MS-DOS WINDOWS ATARIST OS/2) "\\")
+ ((UNIX COHERENT PLAN9 AMIGA) "/"))))
+ (lambda (vic name)
+ (string-append vic name *vicinity-suffix*))))))
+;@
+(define (make-vicinity <pathname>) <pathname>)
+;@
+(define with-load-pathname
+ (let ((exchange
+ (lambda (new)
+ (let ((old *load-pathname*))
+ (set! *load-pathname* new)
+ old))))
+ (lambda (path thunk)
+ (let* ((old (exchange path))
+ (val (thunk)))
+ (exchange old)
+ val))))
+
+;;@ *FEATURES* is a list of symbols naming the (SLIB) features
+;;; initially supported by this implementation.
(define *features*
'(
source ;can load scheme source files
- ;(slib:load-source "filename")
+ ;(SLIB:LOAD-SOURCE "filename")
compiled ;can load compiled files
- ;(slib:load-compiled "filename")
+ ;(SLIB:LOAD-COMPILED "filename")
+ vicinity
+ srfi-59
;; Scheme report features
+ ;; R5RS-compliant implementations should provide all 9 features.
-; r5rs ;conforms to
-; eval ;R5RS two-argument eval
-; values ;R5RS multiple values
-; dynamic-wind ;R5RS dynamic-wind
-; macro ;R5RS high level macros
+;;; r5rs ;conforms to
+;;; eval ;R5RS two-argument eval
+;;; values ;R5RS multiple values
+;;; dynamic-wind ;R5RS dynamic-wind
+;;; macro ;R5RS high level macros
delay ;has DELAY and FORCE
multiarg-apply ;APPLY can take more than 2 args.
char-ready?
+ rev4-optional-procedures ;LIST-TAIL, STRING-COPY,
+ ;STRING-FILL!, and VECTOR-FILL!
+
+ ;; These four features are optional in both R4RS and R5RS
+
+ multiarg/and- ;/ and - can take more than 2 args.
rationalize
- rev4-optional-procedures ;LIST-TAIL, STRING->LIST,
- ;LIST->STRING, STRING-COPY,
- ;STRING-FILL!, LIST->VECTOR,
- ;VECTOR->LIST, and VECTOR-FILL!
+ transcript ;TRANSCRIPT-ON and TRANSCRIPT-OFF
+ with-file ;has WITH-INPUT-FROM-FILE and
+ ;WITH-OUTPUT-TO-FILE
-; r4rs ;conforms to
+;;; r4rs ;conforms to
-; ieee-p1178 ;conforms to
+;;; ieee-p1178 ;conforms to
r3rs ;conforms to
@@ -84,36 +166,32 @@
;-1+, <?, <=?, =?, >?, >=?
object-hash ;has OBJECT-HASH
- multiarg/and- ;/ and - can take more than 2 args.
- with-file ;has WITH-INPUT-FROM-FILE and
- ;WITH-OUTPUT-TO-FILE
- transcript ;TRANSCRIPT-ON and TRANSCRIPT-OFF
-; ieee-floating-point ;conforms to IEEE Standard 754-1985
+ full-continuation ;can return multiple times
+;;; ieee-floating-point ;conforms to IEEE Standard 754-1985
;IEEE Standard for Binary
;Floating-Point Arithmetic.
- full-continuation ;can return multiple times
;; Other common features
-; srfi ;srfi-0, COND-EXPAND finds all srfi-*
-; sicp ;runs code from Structure and
+;;; srfi ;srfi-0, COND-EXPAND finds all srfi-*
+;;; sicp ;runs code from Structure and
;Interpretation of Computer
;Programs by Abelson and Sussman.
-; defmacro ;has Common Lisp DEFMACRO
-; record ;has user defined data structures
-; string-port ;has CALL-WITH-INPUT-STRING and
+;;; defmacro ;has Common Lisp DEFMACRO
+;;; record ;has user defined data structures
+;;; string-port ;has CALL-WITH-INPUT-STRING and
;CALL-WITH-OUTPUT-STRING
-; sort
+;;; sort
pretty-print
-; object->string
+;;; object->string
format ;Common-lisp output formatting
trace ;has macros: TRACE and UNTRACE
-; compiler ;has (COMPILER)
-; ed ;(ED) is editor
-; system ;posix (system <string>)
-; getenv ;posix (getenv <string>)
+;;; compiler ;has (COMPILER)
+;;; ed ;(ED) is editor
+;;; system ;posix (system <string>)
+;;; getenv ;posix (getenv <string>)
program-arguments ;returns list of strings (argv)
-; current-time ;returns time in seconds since 1/1/1970
+;;; current-time ;returns time in seconds since 1/1/1970
;; Implementation Specific features
@@ -273,18 +351,7 @@
(define (defmacro:load <pathname>)
(slib:eval-load <pathname> defmacro:eval))
-
-(define (slib:eval-load <pathname> evl)
- (if (not (file-exists? <pathname>))
- (set! <pathname> (string-append <pathname> (scheme-file-suffix))))
- (call-with-input-file <pathname>
- (lambda (port)
- (let ((old-load-pathname *load-pathname*))
- (set! *load-pathname* <pathname>)
- (do ((o (read port) (read port)))
- ((eof-object? o))
- (evl o))
- (set! *load-pathname* old-load-pathname)))))
+;; slib:eval-load definition moved to "require.scm"
(define slib:warn
(lambda args
@@ -308,15 +375,8 @@
(define (1- n) (+ n -1))
;(define (-1+ n) (+ n -1))
-(define program-vicinity
- (make-simple-switch 'program-vicinity
- (lambda (x) (or (string? x) (false? x)))
- '#f))
-
-(define in-vicinity string-append)
-
;;; Define SLIB:EXIT to be the implementation procedure to exit or
-;;; return if exitting not supported.
+;;; return if exiting not supported.
(define slib:exit (lambda args (exit))
(define (string . args) (apply string-append (map char->string args)))
diff --git a/timecore.scm b/timecore.scm
new file mode 100644
index 0000000..4393cdd
--- /dev/null
+++ b/timecore.scm
@@ -0,0 +1,202 @@
+;;;; "timecore.scm" Core time conversion routines
+;;; Copyright (C) 1994, 1997, 2004, 2005 Aubrey Jaffer
+;
+;Permission to copy this software, to modify it, to redistribute it,
+;to distribute modified versions, and to use it for any purpose is
+;granted, subject to the following restrictions and understandings.
+;
+;1. Any copy made of this software must include this copyright notice
+;in full.
+;
+;2. I have made no warranty or representation that the operation of
+;this software will be error-free, and I am under no obligation to
+;provide any services, by way of maintenance, update, or otherwise.
+;
+;3. In conjunction with products arising from the use of this
+;material, there shall be no use of my name in any advertising,
+;promotional, or sales literature without prior written consent in
+;each case.
+
+;;; No, it doesn't do leap seconds.
+
+(define time:days/month
+ '#(#(31 28 31 30 31 30 31 31 30 31 30 31) ; Normal years.
+ #(31 29 31 30 31 30 31 31 30 31 30 31)))
+
+(define (leap-year? year)
+ (and (zero? (remainder year 4))
+ (or (not (zero? (remainder year 100)))
+ (zero? (remainder year 400))))) ; Leap years.
+
+;;; Returns the `struct tm' representation of T,
+;;; offset TM_GMTOFF seconds east of UCT.
+;@
+(define (time:split t tm_isdst tm_gmtoff tm_zone)
+ (define tms (inexact->exact
+ (round (- (difftime t time:year-70) tm_gmtoff))))
+ (let* ((secs (modulo tms 86400)) ; SECS/DAY
+ (days (+ (quotient tms 86400) ; SECS/DAY
+ (if (and (negative? tms) (positive? secs)) -1 0))))
+ (let ((tm_hour (quotient secs 3600))
+ (secs (remainder secs 3600))
+ (tm_wday (modulo (+ 4 days) 7))) ; January 1, 1970 was a Thursday.
+ (let loop ((tm_year 1970)
+ (tm_yday days))
+ (let ((diy (if (leap-year? tm_year) 366 365)))
+ (cond
+ ((negative? tm_yday) (loop (+ -1 tm_year) (+ tm_yday diy)))
+ ((>= tm_yday diy) (loop (+ 1 tm_year) (- tm_yday diy)))
+ (else
+ (let ((mv (vector-ref time:days/month (- diy 365))))
+ (do ((tm_mon 0 (+ 1 tm_mon))
+ (tm_mday tm_yday (- tm_mday (vector-ref mv tm_mon))))
+ ((< tm_mday (vector-ref mv tm_mon))
+ (vector
+ (remainder secs 60) ; Seconds. [0-61] (2 leap seconds)
+ (quotient secs 60) ; Minutes. [0-59]
+ tm_hour ; Hours. [0-23]
+ (+ tm_mday 1) ; Day. [1-31]
+ tm_mon ; Month. [0-11]
+ (- tm_year 1900) ; Year - 1900.
+ tm_wday ; Day of week. [0-6]
+ tm_yday ; Days in year. [0-365]
+ tm_isdst ; DST. [-1/0/1]
+ tm_gmtoff ; Seconds west of UTC.
+ tm_zone ; Timezone abbreviation.
+ )))))))))))
+
+(define time:year-70
+ (let ((t (current-time)))
+ (offset-time t (- (difftime t 0)))))
+;@
+(define (time:invert decoder target)
+ (let* ((times '#(1 60 3600 86400 2678400 32140800))
+ (trough ; rough time for target
+ (do ((i 5 (+ i -1))
+ (trough time:year-70
+ (offset-time trough (* (vector-ref target i)
+ (vector-ref times i)))))
+ ((negative? i) trough))))
+;;; (print 'trough trough 'target target)
+ (let loop ((guess trough)
+ (j 0)
+ (guess-tm (decoder trough)))
+;;; (print 'guess guess 'guess-tm guess-tm)
+ (do ((i 5 (+ i -1))
+ (rough time:year-70
+ (offset-time rough (* (vector-ref guess-tm i)
+ (vector-ref times i))))
+ (sign (let ((d (- (vector-ref target 5)
+ (vector-ref guess-tm 5))))
+ (and (not (zero? d)) d))
+ (or sign
+ (let ((d (- (vector-ref target i)
+ (vector-ref guess-tm i))))
+ (and (not (zero? d)) d)))))
+ ((negative? i)
+ (let ((distance (abs (difftime trough rough))))
+ (cond ((and (zero? distance) sign)
+;;; (print "trying to jump")
+ (set! distance (if (negative? sign) -86400 86400)))
+ ((and sign (negative? sign)) (set! distance (- distance))))
+ (set! guess (offset-time guess distance))
+;;; (print 'distance distance 'sign sign)
+ (cond ((zero? distance) guess)
+ ((> j 5) #f) ;to prevent inf loops.
+ (else
+ (loop guess
+ (+ 1 j)
+ (decoder guess))))))))))
+;@
+(define (time:gmtime tm)
+ (time:split tm 0 0 "GMT"))
+
+;;;; Use the timezone
+
+(define (tzrule->caltime year previous-gmt-offset
+ tr-month tr-week tr-day tr-time)
+ (define leap? (leap-year? year))
+ (define gmmt
+ (time:invert time:gmtime
+ (vector 0 0 0 1 (if tr-month (+ -1 tr-month) 0) year #f #f 0)))
+ (offset-time
+ gmmt
+ (+ tr-time previous-gmt-offset
+ (* 3600 24
+ (if tr-month
+ (let ((fdow (vector-ref (time:gmtime gmmt) 6)))
+ (case tr-week
+ ((1 2 3 4) (+ (modulo (- tr-day fdow) 7)
+ (* 7 (+ -1 tr-week))))
+ ((5)
+ (do ((mmax (vector-ref
+ (vector-ref time:days/month (if leap? 1 0))
+ (+ -1 tr-month)))
+ (d (modulo (- tr-day fdow) 7) (+ 7 d)))
+ ((>= d mmax) (+ -7 d))))
+ (else (slib:error 'tzrule->caltime
+ "week out of range" tr-week))))
+ (+ tr-day
+ (if (and (not tr-week) (>= tr-day 60) (leap-year? year))
+ 1 0)))))))
+;@
+(define (tz:params caltime tz)
+ (case (vector-ref tz 0)
+ ((tz:fixed) (list 0 (vector-ref tz 3) (vector-ref tz 2)))
+ ((tz:rule)
+ (let* ((year (vector-ref (time:gmtime caltime) 5))
+ (ttime0 (apply tzrule->caltime
+ year (vector-ref tz 4) (vector-ref tz 6)))
+ (ttime1 (apply tzrule->caltime
+ year (vector-ref tz 5) (vector-ref tz 7)))
+ (dst (if (and (not (negative? (difftime caltime ttime0)))
+ (negative? (difftime caltime ttime1)))
+ 1 0)))
+ (list dst (vector-ref tz (+ 4 dst)) (vector-ref tz (+ 2 dst)))
+ ;;(for-each display (list (gtime ttime0) (gtime caltime) (gtime ttime1)))
+ ))
+ ((tz:file) (let ((zone-spec (tzfile:get-zone-spec caltime tz)))
+ (list (if (vector-ref zone-spec 2) 1 0)
+ (- (vector-ref zone-spec 1))
+ (vector-ref zone-spec 0))))
+ (else (slib:error 'tz:params "unknown timezone type" tz))))
+
+(define (tzfile:transition-index time zone)
+ (define times (difftime time time:year-70))
+ (and zone
+ (apply
+ (lambda (path mode-table leap-seconds transition-times transition-types)
+ (let ((ntrns (vector-length transition-times)))
+ (if (zero? ntrns) -1
+ (let loop ((lidx (quotient (+ 1 ntrns) 2))
+ (jmp (quotient (+ 1 ntrns) 4)))
+ (let* ((idx (max 0 (min lidx (+ -1 ntrns))))
+ (idx-time (vector-ref transition-times idx)))
+ (cond ((<= jmp 0)
+ (+ idx (if (>= times idx-time) 0 -1)))
+ ((= times idx-time) idx)
+ ((and (zero? idx) (< times idx-time)) -1)
+ ((and (not (= idx lidx)) (not (< times idx-time))) idx)
+ (else
+ (loop ((if (< times idx-time) - +) idx jmp)
+ (if (= 1 jmp) 0 (quotient (+ 1 jmp) 2))))))))))
+ (cdr (vector->list zone)))))
+(define (tzfile:get-std-spec mode-table)
+ (do ((type-idx 0 (+ 1 type-idx)))
+ ((or (>= type-idx (vector-length mode-table))
+ (not (vector-ref (vector-ref mode-table type-idx) 2)))
+ (if (>= type-idx (vector-length mode-table))
+ (vector-ref mode-table 0)
+ (vector-ref mode-table type-idx)))))
+
+(define (tzfile:get-zone-spec time zone)
+ (apply
+ (lambda (path mode-table leap-seconds transition-times transition-types)
+ (let ((trans-idx (tzfile:transition-index time zone)))
+ (if (zero? (vector-length transition-types))
+ (vector-ref mode-table 0)
+ (if (negative? trans-idx)
+ (tzfile:get-std-spec mode-table)
+ (vector-ref mode-table
+ (vector-ref transition-types trans-idx))))))
+ (cdr (vector->list zone))))
diff --git a/timezone.scm b/timezone.scm
index 89f85c8..2d35dd7 100644
--- a/timezone.scm
+++ b/timezone.scm
@@ -49,35 +49,33 @@
;; Sat Nov 15 00:15:33 1997 Aubrey Jaffer
(require 'scanf)
+(require 'time-core)
(require-if 'compiling 'tzfile)
-;@
-(define daylight? #f)
-(define *timezone* 0)
-(define tzname '#("UTC" "???"))
-
-(define tz:default #f)
;;; This definition is here so that READ-TZFILE can verify the
;;; existence of these files before loading tzfile.scm to actually
;;; read them.
(define tzfile:vicinity (make-vicinity
- (if (file-exists? "/usr/share/zoneinfo/.")
+ (if (file-exists? "/usr/share/zoneinfo/GMT")
"/usr/share/zoneinfo/"
"/usr/lib/zoneinfo/")))
(define (read-tzfile path)
+ (define (existing path) (and (file-exists? path) path))
(let ((realpath
- (cond ((not path) (in-vicinity tzfile:vicinity "localtime"))
+ (cond ((not path)
+ (or (existing (in-vicinity tzfile:vicinity "localtime"))
+ (existing "/etc/localtime")))
((or (char-alphabetic? (string-ref path 0))
(char-numeric? (string-ref path 0)))
(in-vicinity tzfile:vicinity path))
(else path))))
- (and (file-exists? realpath)
- (let ((zone #f))
- (require 'tzfile)
- (set! zone (tzfile:read realpath))
- (if zone (list->vector (cons 'tz:file zone))
- (slib:error 'read-tzfile realpath))))))
+ (or (and (file-exists? realpath)
+ (let ((zone #f))
+ (require 'tzfile)
+ (set! zone (tzfile:read realpath))
+ (and zone (list->vector (cons 'tz:file zone)))))
+ (slib:error 'read-tzfile realpath))))
;;; Parse Posix TZ string.
@@ -148,117 +146,10 @@
(else #f))))
;@
(define (time-zone tz)
- (cond ((not tz) (read-tzfile #f))
- ((vector? tz) tz)
- ((eqv? #\: (string-ref tz 0))
- (read-tzfile (substring tz 1 (string-length tz))))
+ (cond ((vector? tz) tz)
+ ((or (not tz)
+ (eqv? #\: (string-ref tz 0)))
+ (let ()
+ (require 'tzfile)
+ (read-tzfile (and tz (substring tz 1 (string-length tz))))))
(else (string->time-zone tz))))
-
-;;; Use the timezone
-
-(define (tzrule->caltime year previous-gmt-offset
- tr-month tr-week tr-day tr-time)
- (define leap? (leap-year? year))
- (define gmmt
- (time:invert time:gmtime
- (vector 0 0 0 1 (if tr-month (+ -1 tr-month) 0) year #f #f 0)))
- (offset-time
- gmmt
- (+ tr-time previous-gmt-offset
- (* 3600 24
- (if tr-month
- (let* ((fdow (vector-ref (time:gmtime gmmt) 6)))
- (case tr-week
- ((1 2 3 4) (+ (modulo (- tr-day fdow) 7)
- (* 7 (+ -1 tr-week))))
- ((5)
- (do ((mmax (vector-ref
- (vector-ref time:days/month (if leap? 1 0))
- (+ -1 tr-month)))
- (d (modulo (- tr-day fdow) 7) (+ 7 d)))
- ((>= d mmax) (+ -7 d))))
- (else (slib:error 'tzrule->caltime
- "week out of range" tr-week))))
- (+ tr-day
- (if (and (not tr-week) (>= tr-day 60) (leap-year? year))
- 1 0)))))))
-;@
-(define (tz:params caltime tz)
- (case (vector-ref tz 0)
- ((tz:fixed) (list 0 (vector-ref tz 3) (vector-ref tz 2)))
- ((tz:rule)
- (let* ((year (vector-ref (time:gmtime caltime) 5))
- (ttime0 (apply tzrule->caltime
- year (vector-ref tz 4) (vector-ref tz 6)))
- (ttime1 (apply tzrule->caltime
- year (vector-ref tz 5) (vector-ref tz 7)))
- (dst (if (and (not (negative? (difftime caltime ttime0)))
- (negative? (difftime caltime ttime1)))
- 1 0)))
- (list dst (vector-ref tz (+ 4 dst)) (vector-ref tz (+ 2 dst)))
- ;;(for-each display (list (gtime ttime0) (gtime caltime) (gtime ttime1)))
- ))
- ((tz:file) (let ((zone-spec (tzfile:get-zone-spec caltime tz)))
- (list (if (vector-ref zone-spec 2) 1 0)
- (- (vector-ref zone-spec 1))
- (vector-ref zone-spec 0))))
- (else (slib:error 'tz:params "unknown timezone type" tz))))
-;@
-(define (tz:std-offset zone)
- (case (vector-ref zone 0)
- ((tz:fixed) (vector-ref zone 3))
- ((tz:rule) (vector-ref zone 4))
- ((tz:file)
- (let ((mode-table (vector-ref zone 2)))
- (do ((type-idx 0 (+ 1 type-idx)))
- ((or (>= type-idx (vector-length mode-table))
- (not (vector-ref (vector-ref mode-table type-idx) 2)))
- (if (>= type-idx (vector-length mode-table))
- (vector-ref (vector-ref mode-table 0) 1)
- (- (vector-ref (vector-ref mode-table type-idx) 1)))))))
- (else (slib:error 'tz:std-offset "unknown timezone type" tz))))
-
-;;;@ Interpret the TZ envariable.
-(define (tzset . opt-tz)
- (define tz (if (null? opt-tz)
- (getenv "TZ")
- (car opt-tz)))
- (if (or (not tz:default)
- (and (string? tz) (not (string-ci=? tz (vector-ref tz:default 1)))))
- (set! tz:default (or (time-zone tz) '#(tz:fixed "UTC" "GMT" 0))))
- (case (vector-ref tz:default 0)
- ((tz:fixed)
- (set! tzname (vector (vector-ref tz:default 2) "???"))
- (set! daylight? #f)
- (set! *timezone* (vector-ref tz:default 3)))
- ((tz:rule)
- (set! tzname (vector (vector-ref tz:default 2)
- (vector-ref tz:default 3)))
- (set! daylight? #t)
- (set! *timezone* (vector-ref tz:default 4)))
- ((tz:file)
- (let ((mode-table (vector-ref tz:default 2))
- (transition-types (vector-ref tz:default 5)))
- (set! daylight? #f)
- (set! *timezone* (vector-ref (vector-ref mode-table 0) 1))
- (set! tzname (make-vector 2 #f))
- (do ((type-idx 0 (+ 1 type-idx)))
- ((>= type-idx (vector-length mode-table)))
- (let ((rec (vector-ref mode-table type-idx)))
- (if (vector-ref rec 2)
- (set! daylight? #t)
- (set! *timezone* (- (vector-ref rec 1))))))
-
- (do ((transition-idx (+ -1 (vector-length transition-types))
- (+ -1 transition-idx)))
- ((or (negative? transition-idx)
- (and (vector-ref tzname 0) (vector-ref tzname 1))))
- (let ((rec (vector-ref mode-table
- (vector-ref transition-types transition-idx))))
- (if (vector-ref rec 2)
- (if (not (vector-ref tzname 1))
- (vector-set! tzname 1 (vector-ref rec 0)))
- (if (not (vector-ref tzname 0))
- (vector-set! tzname 0 (vector-ref rec 0))))))))
- (else (slib:error 'tzset "unknown timezone type" tz)))
- tz:default)
diff --git a/top-refs.scm b/top-refs.scm
index 29e25dc..3647dc4 100644
--- a/top-refs.scm
+++ b/top-refs.scm
@@ -74,12 +74,13 @@
(define (top-refs:include filename)
(cond ((not (and (string? filename) (file-exists? filename)))
(top-refs:warn 'top-refs:include 'skipping filename))
- (else (fluid-let ((*load-pathname* filename))
- (call-with-input-file filename
- (lambda (port)
- (do ((exp (read port) (read port)))
- ((eof-object? exp))
- (top-refs:top-level exp))))))))
+ (else (call-with-input-file filename
+ (lambda (port)
+ (with-load-pathname filename
+ (lambda ()
+ (do ((exp (read port) (read port)))
+ ((eof-object? exp))
+ (top-refs:top-level exp)))))))))
(define (top-refs:top-level exp)
(cond ((not (and (pair? exp) (list? exp)))
@@ -238,7 +239,7 @@
;;@dots{} (info) indexes of @1. The identifiers have the case that
;;the implementation's @code{read} uses for symbols. Identifiers
;;containing spaces (eg. @code{close-base on base-table}) are
-;;@emph{not} included.
+;;@emph{not} included. #f is returned if the index is not found.
;;
;;Each info index is headed by a @samp{* Menu:} line. To list the
;;symbols in the first and third info indexes do:
@@ -266,20 +267,23 @@
(do ((line (read-line port) (read-line port)))
((or (eof-object? line)
(not (and (> (string-length line) 5)
- (string=? "* " (substring line 0 2)))))
+ (or (string=? "* " (substring line 0 2))
+ (substring? "(line " line)))))
(loop (read-line port) (+ 1 iidx) (cdr ndxs)))
- (let ((<n> (substring? " <" line)))
- (define csi (or (and <n>
- (> (string-length line) (+ 3 <n>))
- (string-index
- "0123456789"
- (string-ref line (+ 2 <n>)))
- <n>)
- (substring? ": " line)))
- (and
- csi
- (let ((str (substring line 2 csi)))
- (if (and (not (substring? " " str))
- (not (memq (string-ci->symbol str) exports)))
- (set! exports (cons (string-ci->symbol str) exports))))))))
+ (and
+ (string=? "* " (substring line 0 2))
+ (let ((<n> (substring? " <" line)))
+ (define csi (or (and <n>
+ (> (string-length line) (+ 3 <n>))
+ (string-index
+ "0123456789"
+ (string-ref line (+ 2 <n>)))
+ <n>)
+ (substring? ": " line)))
+ (and
+ csi
+ (let ((str (substring line 2 csi)))
+ (if (and (not (substring? " " str))
+ (not (memq (string-ci->symbol str) exports)))
+ (set! exports (cons (string-ci->symbol str) exports)))))))))
(else (loop (read-line port) (+ 1 iidx) ndxs))))))))
diff --git a/top-refs.txi b/top-refs.txi
index 11944bb..dd231c8 100644
--- a/top-refs.txi
+++ b/top-refs.txi
@@ -18,6 +18,7 @@ Returns a list of the top-level variables referenced by the Scheme
expression @var{obj}.
@end defun
+
@defun top-refs<-file filename
@var{filename} should be a string naming an existing file containing Scheme
@@ -33,6 +34,7 @@ constant or composed of combinations of vicinity functions and
string literal constants; and the resulting file exists (possibly
with ".scm" appended).
@end defun
+
@noindent
The following function parses an @dfn{Info} Index.
@cindex Info
@@ -54,7 +56,7 @@ info -f slib2d6.info -n "Index" -o slib-index.info
@dots{} (info) indexes of @var{file}. The identifiers have the case that
the implementation's @code{read} uses for symbols. Identifiers
containing spaces (eg. @code{close-base on base-table}) are
-@emph{not} included.
+@emph{not} included. #f is returned if the index is not found.
Each info index is headed by a @samp{* Menu:} line. To list the
symbols in the first and third info indexes do:
@@ -63,3 +65,4 @@ symbols in the first and third info indexes do:
(exports<-info-index "slib.info" 1 3)
@end example
@end defun
+
diff --git a/trace.scm b/trace.scm
index a075c77..0aa9ab5 100644
--- a/trace.scm
+++ b/trace.scm
@@ -50,8 +50,8 @@
(eq? eq?) (+ +) (zero? zero?) (modulo modulo)
(apply apply) (display display) (qpn qpn) (list list) (cons cons)
- (CALL (string->symbol "CALL"))
- (RETN (string->symbol "RETN")))
+ (CALL 'CALL) ;(string->symbol "CALL")
+ (RETN 'RETN)) ;(string->symbol "RETN")
(lambda (how function . optname)
(set! trace:indent 0)
(let ((name (if (null? optname) function (car optname))))
diff --git a/transact.scm b/transact.scm
index 59a06fe..83b37a7 100644
--- a/transact.scm
+++ b/transact.scm
@@ -90,7 +90,7 @@
"~$" (substring file (min 2 (max 0 (- filen 10))) filen)))))
(define (word-lock:certificate lockpath)
- (define iport (open-file lockpath "rb"))
+ (define iport (and (file-exists? lockpath) (open-file lockpath 'rb)))
(and
iport
(call-with-open-ports
@@ -143,7 +143,7 @@
(cond ((and conflict (substring? "-> " conflict))
=> (lambda (idx)
(substring conflict (+ 3 idx) (string-length conflict))))
- (conflict (slib:error 'bad 'emacs 'lock lockpath conflict))
+ ((and conflict (not (equal? conflict ""))) (slib:error 'bad 'emacs 'lock lockpath conflict))
(else #f)))
(define (file-lock:certificate path)
@@ -165,13 +165,13 @@
(define at (substring? "@" email))
(let ((user (substring email 0 at))
(hostname (substring email (+ 1 at) (string-length email)))
- (oport (open-file lockpath "wb")))
+ (oport (open-file lockpath 'wb)))
(define userlen (string-length user))
(and oport (call-with-open-ports
oport (lambda (oport)
(define pos 1)
(define (nulls cnt)
- (display (make-bytes cnt 0) oport)
+ (write-bytes (make-bytes cnt 0) cnt oport)
(set! pos (+ cnt pos)))
(define (write-field field)
(define len (string-length field))
@@ -227,7 +227,8 @@
(case (software-type)
((UNIX COHERENT PLAN9)
;; file-system may not support symbolic links.
- (or (emacs:lock! path email) wl))
+ (or (and (provided? 'current-time) (emacs:lock! path email))
+ wl))
(else wl)))))
;;@body
@@ -434,7 +435,7 @@
(sscanf line " Workstation Domain %s" workgroup)
(sscanf line " Workgroup %s" workgroup)
(sscanf line " User name %s" user)))))))
-
+
(and netdir (not (and user hostname))
(set! netdir (string-append netdir "\\system.ini"))
(file-exists? netdir)
diff --git a/transact.txi b/transact.txi
index 5e3ff8f..4dec378 100644
--- a/transact.txi
+++ b/transact.txi
@@ -55,6 +55,7 @@ Returns the string @samp{@var{user}@@@var{hostname}} associated with
the lock owner of file @var{path} if locked; and #f otherwise.
@end defun
+
@deffn {Procedure} file-lock! path email
@@ -69,6 +70,7 @@ unlocked, then @code{file-lock!} returns the certificate string associated with
new lock for file @var{path}.
@end deffn
+
@deffn {Procedure} file-unlock! path certificate
@var{path} must be a string naming the file to be unlocked. @var{certificate} must be the
@@ -78,6 +80,7 @@ If @var{path} is locked with @var{certificate}, then @code{file-unlock!} removes
@samp{#t}. Otherwise, @code{file-unlock!} leaves the file system unaltered and returns
@samp{#f}.
@end deffn
+
@subsubheading File Transactions
@@ -104,6 +107,7 @@ the string "@var{path}.bak"
@end table
@end defun
+
@defun transact-file-replacement proc path backup-style certificate
@@ -140,6 +144,7 @@ returns a string, then @var{path} is renamed to it.
Finally, the temporary file is renamed @var{path}.
@code{transact-file-replacement} returns #t if @var{path} was successfully replaced; and #f otherwise.
@end defun
+
@subsubheading Identification
@@ -148,3 +153,4 @@ Finally, the temporary file is renamed @var{path}.
@code{user-email-address} returns a string of the form @samp{username@r{@@}hostname}. If
this e-mail address cannot be obtained, #f is returned.
@end defun
+
diff --git a/tree.txi b/tree.txi
index 3164ae5..ee81d1d 100644
--- a/tree.txi
+++ b/tree.txi
@@ -31,6 +31,7 @@ Examples:
@end lisp
@end defun
+
@defun copy-tree tree
Makes a copy of the nested list structure @var{tree} using new pairs and
@@ -46,3 +47,4 @@ Example:
@result{} #f
@end lisp
@end defun
+
diff --git a/tsort.txi b/tsort.txi
index 559c092..090e6b4 100644
--- a/tsort.txi
+++ b/tsort.txi
@@ -51,3 +51,4 @@ tie or his belt.) @code{tsort} gives the correct order of dressing:
(socks undershorts pants shoes watch shirt belt tie jacket)
@end example
@end defun
+
diff --git a/tzfile.scm b/tzfile.scm
index f5be145..9354743 100644
--- a/tzfile.scm
+++ b/tzfile.scm
@@ -1,5 +1,5 @@
; "tzfile.scm", Read sysV style (binary) timezone file.
-; Copyright (c) 1997 Aubrey Jaffer
+; Copyright (C) 1997 Aubrey Jaffer
;
;Permission to copy this software, to modify it, to redistribute it,
;to distribute modified versions, and to use it for any purpose is
@@ -36,7 +36,6 @@
(if (eof-object? c) c (if (zero? (char->integer c)) #f #t))))
;@
(define (tzfile:read path)
- (define null (integer->char 0))
(call-with-open-ports
(open-file path 'rb)
(lambda (port)
@@ -69,7 +68,7 @@
(abbrevs (do ((ra (make-bytes charcnt 0))
(idx 0 (+ 1 idx)))
((>= idx charcnt) ra)
- (string-set! ra idx (read-char port))))
+ (byte-set! ra idx (read-byte port))))
(leap-seconds (tzfile:read-longs (* 2 leapcnt) port)))
(cond ((not (or (eqv? 0 ttisstdcnt) (eqv? typecnt ttisstdcnt)))
(slib:warn 'tzfile:read "format error" ttisstdcnt typecnt)))
@@ -90,49 +89,9 @@
(let ((rec (vector-ref mode-table idx)))
(vector-set!
rec 0 (let loop ((pos (vector-ref rec 0)))
- (cond ((>= pos (string-length abbrevs))
+ (cond ((>= pos (bytes-length abbrevs))
(slib:warn 'tzfile:read "format error" abbrevs) #f)
- ((char=? null (string-ref abbrevs pos))
+ ((zero? (byte-ref abbrevs pos))
(substring abbrevs (vector-ref rec 0) pos))
(else (loop (+ 1 pos))))))))
(list path mode-table leap-seconds transition-times transition-types)))))
-
-(define (tzfile:transition-index time zone)
- (and zone
- (apply
- (lambda (path mode-table leap-seconds transition-times transition-types)
- (let ((ntrns (vector-length transition-times)))
- (if (zero? ntrns) -1
- (let loop ((lidx (quotient (+ 1 ntrns) 2))
- (jmp (quotient (+ 1 ntrns) 4)))
- (let* ((idx (max 0 (min lidx (+ -1 ntrns))))
- (idx-time (vector-ref transition-times idx)))
- (cond ((<= jmp 0)
- (+ idx (if (>= time idx-time) 0 -1)))
- ((= time idx-time) idx)
- ((and (zero? idx) (< time idx-time)) -1)
- ((and (not (= idx lidx)) (not (< time idx-time))) idx)
- (else
- (loop ((if (< time idx-time) - +) idx jmp)
- (if (= 1 jmp) 0 (quotient (+ 1 jmp) 2))))))))))
- (cdr (vector->list zone)))))
-
-(define (tzfile:get-std-spec mode-table)
- (do ((type-idx 0 (+ 1 type-idx)))
- ((or (>= type-idx (vector-length mode-table))
- (not (vector-ref (vector-ref mode-table type-idx) 2)))
- (if (>= type-idx (vector-length mode-table))
- (vector-ref mode-table 0)
- (vector-ref mode-table type-idx)))))
-;@
-(define (tzfile:get-zone-spec time zone)
- (apply
- (lambda (path mode-table leap-seconds transition-times transition-types)
- (let* ((trans-idx (tzfile:transition-index time zone)))
- (if (zero? (vector-length transition-types))
- (vector-ref mode-table 0)
- (if (negative? trans-idx)
- (tzfile:get-std-spec mode-table)
- (vector-ref mode-table
- (vector-ref transition-types trans-idx))))))
- (cdr (vector->list zone))))
diff --git a/umbscheme.init b/umbscheme.init
index 605878c..9794d80 100644
--- a/umbscheme.init
+++ b/umbscheme.init
@@ -54,62 +54,149 @@
;;; directory, the directory which typically contains files which
;;; customize a computer environment for a user.
(define (home-vicinity) "")
-
-;;; *FEATURES* should be set to a list of symbols describing features
-;;; of this implementation. Suggestions for features are:
+;@
+(define in-vicinity string-append)
+;@
+(define (user-vicinity)
+ (case (software-type)
+ ((VMS) "[.]")
+ (else "")))
+
+(define *load-pathname* #f)
+;@
+(define vicinity:suffix?
+ (let ((suffi
+ (case (software-type)
+ ((AMIGA) '(#\: #\/))
+ ((MACOS THINKC) '(#\:))
+ ((MS-DOS WINDOWS ATARIST OS/2) '(#\\ #\/))
+ ((NOSVE) '(#\: #\.))
+ ((UNIX COHERENT PLAN9) '(#\/))
+ ((VMS) '(#\: #\]))
+ (else
+ (slib:warn "require.scm" 'unknown 'software-type (software-type))
+ "/"))))
+ (lambda (chr) (and (memv chr suffi) #t))))
+;@
+(define (pathname->vicinity pathname)
+ (let loop ((i (- (string-length pathname) 1)))
+ (cond ((negative? i) "")
+ ((vicinity:suffix? (string-ref pathname i))
+ (substring pathname 0 (+ i 1)))
+ (else (loop (- i 1))))))
+(define (program-vicinity)
+ (if *load-pathname*
+ (pathname->vicinity *load-pathname*)
+ (slib:error 'program-vicinity " called; use slib:load to load")))
+;@
+(define sub-vicinity
+ (case (software-type)
+ ((VMS) (lambda
+ (vic name)
+ (let ((l (string-length vic)))
+ (if (or (zero? (string-length vic))
+ (not (char=? #\] (string-ref vic (- l 1)))))
+ (string-append vic "[" name "]")
+ (string-append (substring vic 0 (- l 1))
+ "." name "]")))))
+ (else (let ((*vicinity-suffix*
+ (case (software-type)
+ ((NOSVE) ".")
+ ((MACOS THINKC) ":")
+ ((MS-DOS WINDOWS ATARIST OS/2) "\\")
+ ((UNIX COHERENT PLAN9 AMIGA) "/"))))
+ (lambda (vic name)
+ (string-append vic name *vicinity-suffix*))))))
+;@
+(define (make-vicinity <pathname>) <pathname>)
+;@
+(define with-load-pathname
+ (let ((exchange
+ (lambda (new)
+ (let ((old *load-pathname*))
+ (set! *load-pathname* new)
+ old))))
+ (lambda (path thunk)
+ (let* ((old (exchange path))
+ (val (thunk)))
+ (exchange old)
+ val))))
+
+;;@ *FEATURES* is a list of symbols naming the (SLIB) features
+;;; initially supported by this implementation.
(define *features*
'(
source ;can load scheme source files
- ;(slib:load-source "filename")
-; compiled ;can load compiled files
- ;(slib:load-compiled "filename")
-; r4rs ;conforms to
-; r3rs ;conforms to
+ ;(SLIB:LOAD-SOURCE "filename")
+;;; compiled ;can load compiled files
+ ;(SLIB:LOAD-COMPILED "filename")
+ vicinity
+ srfi-59
+
+ ;; Scheme report features
+ ;; R5RS-compliant implementations should provide all 9 features.
+
+ r5rs ;conforms to
+;;; eval ;SLIB:EVAL is single argument eval
+;;; values ;R5RS multiple values
+;;; dynamic-wind ;R5RS dynamic-wind
+;;; macro ;R5RS high level macros
+ delay ;has DELAY and FORCE
+ multiarg-apply ;APPLY can take more than 2 args.
+ char-ready?
+ rev4-optional-procedures ;LIST-TAIL, STRING-COPY,
+ ;STRING-FILL!, and VECTOR-FILL!
+
+ ;; These four features are optional in both R4RS and R5RS
+
+ multiarg/and- ;/ and - can take more than 2 args.
+ rationalize
+ transcript ;TRANSCRIPT-ON and TRANSCRIPT-OFF
+ with-file ;has WITH-INPUT-FROM-FILE and
+ ;WITH-OUTPUT-TO-FILE
+
+;;; r4rs ;conforms to
+
ieee-p1178 ;conforms to
-; srfi ;srfi-0, COND-EXPAND finds all srfi-*
-; sicp ;runs code from Structure and
- ;Interpretation of Computer
- ;Programs by Abelson and Sussman.
- rev4-optional-procedures ;LIST-TAIL, STRING->LIST,
- ;LIST->STRING, STRING-COPY,
- ;STRING-FILL!, LIST->VECTOR,
- ;VECTOR->LIST, and VECTOR-FILL!
-; rev2-procedures ;SUBSTRING-MOVE-LEFT!,
+
+;;; r3rs ;conforms to
+
+;;; rev2-procedures ;SUBSTRING-MOVE-LEFT!,
;SUBSTRING-MOVE-RIGHT!,
;SUBSTRING-FILL!,
;STRING-NULL?, APPEND!, 1+,
;-1+, <?, <=?, =?, >?, >=?
- multiarg/and- ;/ and - can take more than 2 args.
- multiarg-apply ;APPLY can take more than 2 args.
- rationalize
- delay ;has DELAY and FORCE
- with-file ;has WITH-INPUT-FROM-FILE and
- ;WITH-OUTPUT-TO-FILE
-; string-port ;has CALL-WITH-INPUT-STRING and
- ;CALL-WITH-OUTPUT-STRING
- transcript ;TRANSCRIPT-ON and TRANSCRIPT-OFF
- char-ready?
-; macro ;has R4RS high level macros
- defmacro ;has Common Lisp DEFMACRO
-; eval ;SLIB:EVAL is single argument eval
-; record ;has user defined data structures
-; values ;proposed multiple values
-; dynamic-wind ;proposed dynamic-wind
-; ieee-floating-point ;conforms to
+;;; object-hash ;has OBJECT-HASH
+
full-continuation ;can return multiple times
-; object-hash ;has OBJECT-HASH
-
-; sort
-; pretty-print
-; object->string
-; format
-; trace ;has macros: TRACE and UNTRACE
-; compiler ;has (COMPILER)
-; ed ;(ED) is editor
+ ieee-floating-point ;conforms to IEEE Standard 754-1985
+ ;IEEE Standard for Binary
+ ;Floating-Point Arithmetic.
+
+ ;; Other common features
+
+;;; srfi ;srfi-0, COND-EXPAND finds all srfi-*
+;;; sicp ;runs code from Structure and
+ ;Interpretation of Computer
+ ;Programs by Abelson and Sussman.
+ defmacro ;has Common Lisp DEFMACRO
+;;; record ;has user defined data structures
+;;; string-port ;has CALL-WITH-INPUT-STRING and
+ ;CALL-WITH-OUTPUT-STRING
+;;; sort
+;;; pretty-print
+;;; object->string
+;;; format
+;;; trace ;has macros: TRACE and UNTRACE
+;;; compiler ;has (COMPILER)
+;;; ed ;(ED) is editor
system ;posix (system <string>)
-; getenv ;posix (getenv <string>)
-; program-arguments ;returns list of strings (argv)
-; current-time ;returns time in seconds since 1/1/1970
+;;; getenv ;posix (getenv <string>)
+;;; program-arguments ;returns list of strings (argv)
+;;; current-time ;returns time in seconds since 1/1/1970
+
+ ;; Implementation Specific features
+
))
;;; (OUTPUT-PORT-WIDTH <port>)
@@ -220,18 +307,7 @@
(define (defmacro:load <pathname>)
(slib:eval-load <pathname> defmacro:eval))
-
-(define (slib:eval-load <pathname> evl)
- (if (not (file-exists? <pathname>))
- (set! <pathname> (string-append <pathname> (scheme-file-suffix))))
- (call-with-input-file <pathname>
- (lambda (port)
- (let ((old-load-pathname *load-pathname*))
- (set! *load-pathname* <pathname>)
- (do ((o (read port) (read port)))
- ((eof-object? o))
- (evl o))
- (set! *load-pathname* old-load-pathname)))))
+;; slib:eval-load definition moved to "require.scm"
(define slib:warn
(lambda args
@@ -261,10 +337,8 @@
;(define (-1+ n) (+ n -1))
;(define 1- -1+)
-(define in-vicinity string-append)
-
;;; Define SLIB:EXIT to be the implementation procedure to exit or
-;;; return if exitting not supported.
+;;; return if exiting not supported.
(define slib:exit (lambda args #f))
;;; Here for backward compatability
diff --git a/uri.scm b/uri.scm
index 6a02827..9a0db0b 100644
--- a/uri.scm
+++ b/uri.scm
@@ -207,10 +207,10 @@
(if idx-at
(substring authority (+ 1 idx-at) (string-length authority))
authority))
- (idx-: (string-index hostport #\:))
- (host (if idx-: (substring hostport 0 idx-:) hostport))
- (port (and idx-:
- (substring hostport (+ 1 idx-:) (string-length hostport)))))
+ (cdx (string-index hostport #\:))
+ (host (if cdx (substring hostport 0 cdx) hostport))
+ (port (and cdx
+ (substring hostport (+ 1 cdx) (string-length hostport)))))
(if (or userinfo port)
(list userinfo host (or (string->number port) port))
host)))
@@ -269,10 +269,10 @@
uri)))
(if front
(let* ((len (string-length front))
- (idx-: (string-index front #\:))
- (scheme (and idx-: (substring front 0 idx-:)))
- (path (if idx-:
- (substring front (+ 1 idx-:) len)
+ (cdx (string-index front #\:))
+ (scheme (and cdx (substring front 0 cdx)))
+ (path (if cdx
+ (substring front (+ 1 cdx) len)
front)))
(cond ((eqv? 0 (substring? "//" path))
(set! len (string-length path))
diff --git a/uri.txi b/uri.txi
index 8e785a7..18fdef1 100644
--- a/uri.txi
+++ b/uri.txi
@@ -22,11 +22,13 @@ described in RFC 2396.
Returns a Uniform Resource Identifier string from component arguments.
@end defun
+
@defun uri:make-path path
Returns a URI string combining the components of list @var{path}.
@end defun
+
@defun html:anchor name
Returns a string which defines this location in the (HTML) file
as @var{name}. The hypertext @samp{<A HREF="#@var{name}">} will link to this point.
@@ -38,6 +40,7 @@ as @var{name}. The hypertext @samp{<A HREF="#@var{name}">} will link to this po
@end example
@end defun
+
@defun html:link uri highlighted
Returns a string which links the @var{highlighted} text to @var{uri}.
@@ -48,17 +51,20 @@ Returns a string which links the @var{highlighted} text to @var{uri}.
@end example
@end defun
+
@defun html:base uri
Returns a string specifying the @dfn{base} @var{uri} of a document, for
@cindex base
inclusion in the HEAD of the document (@pxref{HTML, head}).
@end defun
+
@defun html:isindex prompt
Returns a string specifying the search @var{prompt} of a document, for
inclusion in the HEAD of the document (@pxref{HTML, head}).
@end defun
+
@defun uri->tree uri-reference base-tree
@@ -87,17 +93,20 @@ string.
@end example
@end defun
+
@defun uri:split-fields txt chr
Returns a list of @var{txt} split at each occurrence of @var{chr}. @var{chr} does not
appear in the returned list of strings.
@end defun
+
@defun uri:decode-query query-string
Converts a @dfn{URI} encoded @var{query-string} to a query-alist.
@cindex URI
@end defun
+
@noindent @code{uric:} prefixes indicate procedures dealing with
URI-components.
@@ -110,17 +119,20 @@ Returns a copy of the string @var{uri-component} in which all @dfn{unsafe} octet
@code{uric:decode} decodes strings encoded by @code{uric:encode}.
@end defun
+
@defun uric:decode uri-component
Returns a copy of the string @var{uri-component} in which each @samp{%} escaped
characters in @var{uri-component} is replaced with the character it encodes. This
routine is useful for showing URI contents on error pages.
@end defun
+
@defun uri:path->keys path-list ptypes
@var{path-list} is a path-list as returned by @code{uri:split-fields}. @code{uri:path->keys}
returns a list of items returned by @code{uri:decode-path}, coerced
to types @var{ptypes}.
@end defun
+
@subheading File-system Locators and Predicates
@@ -128,6 +140,7 @@ to types @var{ptypes}.
Returns a URI-string for @var{path} on the local host.
@end defun
+
@defun absolute-uri? str
Returns #t if @var{str} is an absolute-URI as indicated by a
syntactically valid (per RFC 2396) @dfn{scheme}; otherwise returns
@@ -135,20 +148,24 @@ syntactically valid (per RFC 2396) @dfn{scheme}; otherwise returns
#f.
@end defun
+
@defun absolute-path? file-name
Returns #t if @var{file-name} is a fully specified pathname (does not
depend on the current working directory); otherwise returns #f.
@end defun
+
@defun null-directory? str
Returns #t if changing directory to @var{str} would leave the current
directory unchanged; otherwise returns #f.
@end defun
+
@defun glob-pattern? str
Returns #t if the string @var{str} contains characters used for
specifying glob patterns, namely @samp{*}, @samp{?}, or @samp{[}.
@end defun
+
@noindent
Before RFC 2396, the @dfn{File Transfer Protocol} (FTP) served a
@cindex File Transfer Protocol
@@ -176,3 +193,4 @@ remote-site
remote-directory
@end enumerate
@end defun
+
diff --git a/version.txi b/version.txi
index 647e5b6..5d88497 100644
--- a/version.txi
+++ b/version.txi
@@ -1,2 +1,2 @@
-@set SLIBVERSION 3a1
-@set SLIBDATE November 2003
+@set SLIBVERSION 3a2
+@set SLIBDATE June 2005
diff --git a/vet.scm b/vet.scm
index 56b13cb..31cd032 100644
--- a/vet.scm
+++ b/vet.scm
@@ -26,36 +26,35 @@
(define r4rs-symbols
'(* + - -> / < <= = => > >= ... abs acos and angle append apply asin
- assoc assq assv atan begin boolean? caaaar caaadr caaar caadar caaddr
- caadr caar cadaar cadadr cadar caddar cadddr caddr cadr
+ assoc assq assv atan begin boolean? caaaar caaadr caaar caadar
+ caaddr caadr caar cadaar cadadr cadar caddar cadddr caddr cadr
call-with-current-continuation call-with-input-file
- call-with-output-file car case cdaaar cdaadr cdaar cdadar cdaddr cdadr
- cdar cddaar cddadr cddar cdddar cddddr cdddr cddr cdr ceiling
- char->integer char-alphabetic? char-ci<=? char-ci<? char-ci=?
- char-ci>=? char-ci>? char-downcase char-lower-case? char-numeric?
- char-ready? char-upcase char-upper-case? char-whitespace? char<=?
- char<? char=? char>=? char>? char? close-input-port
- close-output-port complex? cond cons cos current-input-port
- current-output-port define denominator display do else eof-object?
- eq? equal? eqv? even? exact->inexact exact? exp expt floor
- for-each force gcd if imag-part implementation-vicinity in-vicinity
- inexact->exact inexact? input-port? integer->char integer? lambda
- lcm length let let* letrec library-vicinity list list->string
- list->vector list-ref list-tail list? load log magnitude make-polar
- make-rectangular make-string make-vector make-vicinity map max member
- memq memv min modulo negative? newline not null? number->string
- number? numerator odd? open-input-file open-output-file or
- output-port? pair? peek-char positive? procedure? quasiquote
- quotient rational? rationalize read read-char real-part real?
- remainder reverse round set! set-car! set-cdr! sin sqrt string
- string->list string->number string->symbol string-append string-ci<=?
- string-ci<? string-ci=? string-ci>=? string-ci>? string-copy
- string-fill! string-length string-ref string-set! string<=?
- string<? string=? string>=? string>? string? sub-vicinity
- substring symbol->string symbol? tan transcript-off transcript-on
- truncate unquote unquote-splicing user-vicinity vector vector->list
- vector-fill! vector-length vector-ref vector-set! vector?
- with-input-from-file with-output-to-file write write-char zero? ))
+ call-with-output-file car case cdaaar cdaadr cdaar cdadar cdaddr
+ cdadr cdar cddaar cddadr cddar cdddar cddddr cdddr cddr cdr
+ ceiling char->integer char-alphabetic? char-ci<=? char-ci<?
+ char-ci=? char-ci>=? char-ci>? char-downcase char-lower-case?
+ char-numeric? char-ready? char-upcase char-upper-case?
+ char-whitespace? char<=? char<? char=? char>=? char>? char?
+ close-input-port close-output-port complex? cond cons cos
+ current-input-port current-output-port define display do else
+ eof-object? eq? equal? eqv? even? exact->inexact exact? exp expt
+ floor for-each gcd if imag-part implementation-vicinity
+ in-vicinity inexact->exact inexact? input-port? integer->char
+ integer? lambda lcm length let let* letrec library-vicinity list
+ list-ref list->string list->vector list? load log magnitude
+ make-polar make-rectangular make-string make-vector
+ make-vicinity map max member memq memv min modulo negative?
+ newline not null? number->string number? odd? open-input-file
+ open-output-file or output-port? pair? peek-char positive?
+ procedure? quasiquote quotient rational? read read-char
+ real-part real? remainder reverse round set! set-car! set-cdr!
+ sin sqrt string string->list string->number string->symbol
+ string-append string-ci<=? string-ci<? string-ci=? string-ci>=?
+ string-ci>? string-length string-ref string-set! string<=?
+ string<? string=? string>=? string>? string? sub-vicinity
+ substring symbol->string symbol? tan truncate unquote
+ unquote-splicing user-vicinity vector vector->list vector-length
+ vector-ref vector-set! vector? write write-char zero? ))
(define (path<-entry entry)
(define (findit path)
@@ -130,10 +129,10 @@
(set! cur (+ 1 objl cur))))))
lst)))
-;;@body
+;;@args file1 @dots{}
;;Using the procedures in the @code{top-refs} and @code{manifest}
-;;modules, @0 analyzes each SLIB module, reporting about any
-;;procedure or macro defined whether it is:
+;;modules, @0 analyzes each SLIB module and @1, @dots{}, reporting
+;;about any procedure or macro defined whether it is:
;;
;;@table @asis
;;
@@ -159,7 +158,10 @@
;;never-executed branches, transitive require assumptions, spelling
;;errors, undocumented procedures, missing procedures, and cyclic
;;dependencies in SLIB.
-(define (vet-slib)
+;;
+;;The optional arguments @1, @dots{} provide a simple way to vet
+;;prospective SLIB modules.
+(define (vet-slib . files)
(define infos
(exports<-info-index (in-vicinity (library-vicinity) "slib.info") 1 2))
(define r4rs+slib #f)
@@ -203,16 +205,20 @@
(show missings 'missing)
)))))
(set! r4rs+slib (union r4rs-symbols slib-exports))
- (for-each (lambda (entry)
- (set! export-alist
- (cons (cons (car entry)
- (feature->exports (car entry) slib:catalog))
- export-alist)))
- slib:catalog)
- (for-each (lambda (entry)
- (define path (path<-entry entry))
- (and path (dopath path)))
- slib:catalog)
+ (let ((catalog
+ (append (map (lambda (file) (cons (string->symbol file) file))
+ files)
+ slib:catalog)))
+ (for-each (lambda (entry)
+ (set! export-alist
+ (cons (cons (car entry)
+ (feature->exports (car entry) slib:catalog))
+ export-alist)))
+ catalog)
+ (for-each (lambda (entry)
+ (define path (path<-entry entry))
+ (and path (dopath path)))
+ catalog))
(write '("SLIB"))
(show (set-difference infos (union r4rs+slib all-exports))
'documented-unexports))
diff --git a/vet.txi b/vet.txi
index fe645ac..8b87970 100644
--- a/vet.txi
+++ b/vet.txi
@@ -2,11 +2,11 @@
@ftindex vet
-@defun vet-slib
+@defun vet-slib file1 @dots{}
Using the procedures in the @code{top-refs} and @code{manifest}
-modules, @code{vet-slib} analyzes each SLIB module, reporting about any
-procedure or macro defined whether it is:
+modules, @code{vet-slib} analyzes each SLIB module and @var{file1}, @dots{}, reporting
+about any procedure or macro defined whether it is:
@table @asis
@@ -32,4 +32,8 @@ This straightforward analysis caught three full days worth of
never-executed branches, transitive require assumptions, spelling
errors, undocumented procedures, missing procedures, and cyclic
dependencies in SLIB.
+
+The optional arguments @var{file1}, @dots{} provide a simple way to vet
+prospective SLIB modules.
@end defun
+
diff --git a/vscm.init b/vscm.init
index 840df39..5bfd8fb 100644
--- a/vscm.init
+++ b/vscm.init
@@ -86,75 +86,148 @@
home
(string-append home "/")))
(else home)))))
+;@
+(define in-vicinity string-append)
+;@
+(define (user-vicinity)
+ (case (software-type)
+ ((VMS) "[.]")
+ (else "")))
-;;; *FEATURES* should be set to a list of symbols describing features
-;;; of this implementation. Suggestions for features are:
+(define *load-pathname* #f)
+;@
+(define vicinity:suffix?
+ (let ((suffi
+ (case (software-type)
+ ((AMIGA) '(#\: #\/))
+ ((MACOS THINKC) '(#\:))
+ ((MS-DOS WINDOWS ATARIST OS/2) '(#\\ #\/))
+ ((NOSVE) '(#\: #\.))
+ ((UNIX COHERENT PLAN9) '(#\/))
+ ((VMS) '(#\: #\]))
+ (else
+ (slib:warn "require.scm" 'unknown 'software-type (software-type))
+ "/"))))
+ (lambda (chr) (and (memv chr suffi) #t))))
+;@
+(define (pathname->vicinity pathname)
+ (let loop ((i (- (string-length pathname) 1)))
+ (cond ((negative? i) "")
+ ((vicinity:suffix? (string-ref pathname i))
+ (substring pathname 0 (+ i 1)))
+ (else (loop (- i 1))))))
+(define (program-vicinity)
+ (if *load-pathname*
+ (pathname->vicinity *load-pathname*)
+ (slib:error 'program-vicinity " called; use slib:load to load")))
+;@
+(define sub-vicinity
+ (case (software-type)
+ ((VMS) (lambda
+ (vic name)
+ (let ((l (string-length vic)))
+ (if (or (zero? (string-length vic))
+ (not (char=? #\] (string-ref vic (- l 1)))))
+ (string-append vic "[" name "]")
+ (string-append (substring vic 0 (- l 1))
+ "." name "]")))))
+ (else (let ((*vicinity-suffix*
+ (case (software-type)
+ ((NOSVE) ".")
+ ((MACOS THINKC) ":")
+ ((MS-DOS WINDOWS ATARIST OS/2) "\\")
+ ((UNIX COHERENT PLAN9 AMIGA) "/"))))
+ (lambda (vic name)
+ (string-append vic name *vicinity-suffix*))))))
+;@
+(define (make-vicinity <pathname>) <pathname>)
+;@
+(define with-load-pathname
+ (let ((exchange
+ (lambda (new)
+ (let ((old *load-pathname*))
+ (set! *load-pathname* new)
+ old))))
+ (lambda (path thunk)
+ (let* ((old (exchange path))
+ (val (thunk)))
+ (exchange old)
+ val))))
+
+;;@ *FEATURES* is a list of symbols naming the (SLIB) features
+;;; initially supported by this implementation.
(define *features*
'(
source ;can load scheme source files
- ;(slib:load-source "filename")
-; compiled ;can load compiled files
- ;(slib:load-compiled "filename")
-
+ ;(SLIB:LOAD-SOURCE "filename")
+;;; compiled ;can load compiled files
+ ;(SLIB:LOAD-COMPILED "filename")
+ vicinity
+ srfi-59
;; Scheme report features
+ ;; R5RS-compliant implementations should provide all 9 features.
-; r5rs ;conforms to
-; eval ;R5RS 2-argument eval
+;;; r5rs ;conforms to
+;;; eval ;R5RS two-argument eval
values ;R5RS multiple values
-; dynamic-wind ;R5RS dynamic-wind
-; macro ;R5RS high level macros
+;;; dynamic-wind ;R5RS dynamic-wind
+;;; macro ;R5RS high level macros
delay ;has DELAY and FORCE
multiarg-apply ;APPLY can take more than 2 args.
-; char-ready?
+;;; char-ready?
+ rev4-optional-procedures ;LIST-TAIL, STRING-COPY,
+ ;STRING-FILL!, and VECTOR-FILL!
+
+ ;; These four features are optional in both R4RS and R5RS
+
+ multiarg/and- ;/ and - can take more than 2 args.
rationalize
- rev4-optional-procedures ;LIST-TAIL, STRING->LIST,
- ;LIST->STRING, STRING-COPY,
- ;STRING-FILL!, LIST->VECTOR,
- ;VECTOR->LIST, and VECTOR-FILL!
+;;; transcript ;TRANSCRIPT-ON and TRANSCRIPT-OFF
+ with-file ;has WITH-INPUT-FROM-FILE and
+ ;WITH-OUTPUT-TO-FILE
r4rs ;conforms to
ieee-p1178 ;conforms to
-; r3rs ;conforms to
+;;; r3rs ;conforms to
-; rev2-procedures ;SUBSTRING-MOVE-LEFT!,
+;;; rev2-procedures ;SUBSTRING-MOVE-LEFT!,
;SUBSTRING-MOVE-RIGHT!,
;SUBSTRING-FILL!,
;STRING-NULL?, APPEND!, 1+,
;-1+, <?, <=?, =?, >?, >=?
-; object-hash ;has OBJECT-HASH
+;;; object-hash ;has OBJECT-HASH
- multiarg/and- ;/ and - can take more than 2 args.
- with-file ;has WITH-INPUT-FROM-FILE and
- ;WITH-OUTPUT-TO-FILE
-; transcript ;TRANSCRIPT-ON and TRANSCRIPT-OFF
+ full-continuation ;can return multiple times
ieee-floating-point ;conforms to IEEE Standard 754-1985
;IEEE Standard for Binary
;Floating-Point Arithmetic.
- full-continuation ;can return multiple times
;; Other common features
-; srfi ;srfi-0, COND-EXPAND finds all srfi-*
-; sicp ;runs code from Structure and
+;;; srfi ;srfi-0, COND-EXPAND finds all srfi-*
+;;; sicp ;runs code from Structure and
;Interpretation of Computer
;Programs by Abelson and Sussman.
defmacro ;has Common Lisp DEFMACRO
-; record ;has user defined data structures
+;;; record ;has user defined data structures
string-port ;has CALL-WITH-INPUT-STRING and
;CALL-WITH-OUTPUT-STRING
-; sort
-; pretty-print
+;;; sort
+;;; pretty-print
object->string
-; format ;Common-lisp output formatting
-; trace ;has macros: TRACE and UNTRACE
-; compiler ;has (COMPILER)
-; ed ;(ED) is editor
+;;; format ;Common-lisp output formatting
+;;; trace ;has macros: TRACE and UNTRACE
+;;; compiler ;has (COMPILER)
+;;; ed ;(ED) is editor
system ;posix (system <string>)
getenv ;posix (getenv <string>)
program-arguments ;returns list of strings (argv)
-; current-time ;returns time in seconds since 1/1/1970
+;;; current-time ;returns time in seconds since 1/1/1970
+
+ ;; Implementation Specific features
+
))
;;; (OBJECT->STRING obj) -- analogous to WRITE
@@ -349,18 +422,7 @@
(define (defmacro:load <pathname>)
(slib:eval-load <pathname> defmacro:eval))
-
-(define (slib:eval-load <pathname> evl)
- (if (not (file-exists? <pathname>))
- (set! <pathname> (string-append <pathname> (scheme-file-suffix))))
- (call-with-input-file <pathname>
- (lambda (port)
- (let ((old-load-pathname *load-pathname*))
- (set! *load-pathname* <pathname>)
- (do ((o (read port) (read port)))
- ((eof-object? o))
- (evl o))
- (set! *load-pathname* old-load-pathname)))))
+;; slib:eval-load definition moved to "require.scm"
(define slib:warn
(lambda args
@@ -389,10 +451,8 @@
(define (-1+ n) (+ n -1))
(define 1- -1+)
-(define in-vicinity string-append)
-
;;; Define SLIB:EXIT to be the implementation procedure to exit or
-;;; return if exitting not supported.
+;;; return if exiting not supported.
(define slib:exit
(lambda args
(cond ((null? args) (quit))
diff --git a/wttree.scm b/wttree.scm
index 238d372..7d3e010 100644
--- a/wttree.scm
+++ b/wttree.scm
@@ -63,21 +63,6 @@
;;
;;(declare (usual-integrations))
-(define error:error
- (case (scheme-implementation-type)
- ((MITScheme) error)
- (else slib:error)))
-(define error:wrong-type-argument
- (case (scheme-implementation-type)
- ((MITScheme) error:wrong-type-argument)
- (else (lambda (arg1 arg2 arg3)
- (slib:error 'wrong-type-argument arg1 arg2 arg3)))))
-(define error:bad-range-argument
- (case (scheme-implementation-type)
- ((MITScheme) error:bad-range-argument)
- (else (lambda (arg1 arg2)
- (slib:error 'bad-range-argument arg1 arg2)))))
-
;;;
;;; Interface to this package.
;;;
@@ -369,11 +354,11 @@
(if (or (< index 0)
(>= index bound)
(not (fix:fixnum? index)))
- (error:bad-range-argument index 'node/index)
+ (slib:error 'bad-range-argument index 'node/index)
(loop node index))))
(define (error:empty owner)
- (error:error "Operation requires non-empty tree:" owner))
+ (slib:error "Operation requires non-empty tree:" owner))
(define (local:make-wt-tree-type key<?)
@@ -567,7 +552,7 @@
((pair? alist) (loop (cdr alist)
(node/add node (caar alist) (cdar alist))))
(else
- (error:wrong-type-argument alist "alist" 'alist->tree))))
+ (slib:error 'wrong-type-argument alist "alist" 'alist->tree))))
(%make-wt-tree my-type (loop alist empty)))
(define (tree/get tree key default)
@@ -607,18 +592,20 @@
(define (guarantee-tree tree procedure)
(if (not (wt-tree? tree))
- (error:wrong-type-argument tree "weight-balanced tree" procedure)))
+ (slib:error 'wrong-type-argument
+ tree "weight-balanced tree" procedure)))
(define (guarantee-tree-type type procedure)
(if (not (tree-type? type))
- (error:wrong-type-argument type "weight-balanced tree type" procedure)))
+ (slib:error 'wrong-type-argument
+ type "weight-balanced tree type" procedure)))
(define (guarantee-compatible-trees tree1 tree2 procedure)
(guarantee-tree tree1 procedure)
(guarantee-tree tree2 procedure)
(if (not (eq? (tree/type tree1) (tree/type tree2)))
- (error:error "The trees" tree1 'and tree2 'have 'incompatible 'types
- (tree/type tree1) 'and (tree/type tree2))))
+ (slib:error "The trees" tree1 'and tree2 'have 'incompatible 'types
+ (tree/type tree1) 'and (tree/type tree2))))
;;;______________________________________________________________________
;;;