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\input texinfo @c -*-texinfo-*-
@c %**start of header
@setfilename scm.info
@settitle SCM
@setchapternewpage on
@c Choices for setchapternewpage are {on,off,odd}.
@paragraphindent 2
@defcodeindex ft
@syncodeindex ft tp
@c @dircategory Scheme
@c @direntry
@c * SCM: (scm).                        A Scheme interpreter.
@c @end direntry

@c %**end of header

@iftex
@finalout
@c DL: lose the egregious vertical whitespace, esp. around examples
@c but paras in @defun-like things don't have parindent
@parskip 4pt plus 1pt
@end iftex

@titlepage
@title SCM
@subtitle Scheme Implementation
@subtitle Version 5b3
@subtitle May 1997
@author by Aubrey Jaffer

@page
@vskip 0pt plus 1filll
Copyright @copyright{} 1990, 1991, 1992, 1993, 1994, 1995, 1996, 1997 Free Software Foundation

Permission is granted to make and distribute verbatim copies of
this manual provided the copyright notice and this permission notice
are preserved on all copies.

Permission is granted to copy and distribute modified versions of this
manual under the conditions for verbatim copying, provided that the entire
resulting derived work is distributed under the terms of a permission
notice identical to this one.

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 titlepage

@node Top, Overview, (dir), (dir)


@ifinfo
This manual documents the SCM Scheme implementation.  The most recent
information about SCM can be found on SCM's @dfn{WWW} home page:
@center http://www-swiss.ai.mit.edu/~jaffer/SCM.html


Copyright (C) 1990, 1991, 1992, 1993, 1994, 1995, 1996, 1997 Free Software Foundation

Permission is granted to make and distribute verbatim copies of
this manual provided the copyright notice and this permission notice
are preserved on all copies.

@ignore
Permission is granted to process this file through TeX and print the
results, provided the printed document carries copying permission
notice identical to this one except for the removal of this paragraph
(this paragraph not being relevant to the printed manual).

@end ignore
Permission is granted to copy and distribute modified versions of this
manual under the conditions for verbatim copying, provided that the entire
resulting derived work is distributed under the terms of a permission
notice identical to this one.

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 ifinfo

@menu
* Overview::                    
* Installing SCM::              
* Operational Features::        
* The Language::                Reference.
* Packages::                    Optional Capabilities.
* The Implementation::          How it works.
* Procedure and Macro Index::   
* Variable Index::              
* Type Index::                  
@end menu

@node Overview, Installing SCM, Top, Top
@chapter Overview

@noindent
Scm is a portable Scheme implementation written in C.  Scm provides a
machine independent platform for [JACAL], a symbolic algebra system.

@iftex
@noindent
The most recent information about SCM can be found on SCM's @dfn{WWW}
home page:
@ifset html
<A HREF="http://www-swiss.ai.mit.edu/~jaffer/SCM.html">
@end ifset

@center http://www-swiss.ai.mit.edu/~jaffer/SCM.html

@ifset html
</A>
@end ifset
@end iftex

@menu
* Copying::                     
* SCM Features::                
* SCM Authors::                 
* Bibliography::                
@end menu

@node Copying, SCM Features, Overview, Overview
@section Copying

@center COPYRIGHT (c) 1989 BY
@center PARADIGM ASSOCIATES INCORPORATED, CAMBRIDGE, MASSACHUSETTS.
@center ALL RIGHTS RESERVED

@noindent
Permission to use, copy, modify, distribute and sell this software
and its documentation for any purpose and without fee is hereby
granted, provided that the above copyright notice appear in all copies
and that both that copyright notice and this permission notice appear
in supporting documentation, and that the name of Paradigm Associates
Inc not be used in advertising or publicity pertaining to distribution
of the software without specific, written prior permission.

@noindent
PARADIGM DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING
ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL
PARADIGM BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR
ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS,
WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION,
ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS
SOFTWARE.

@noindent
gjc@@paradigm.com
@flushright
Phone: 617-492-6079
@end flushright
@flushleft
Paradigm Associates Inc
29 Putnam Ave, Suite 6
Cambridge, MA 02138
@end flushleft

@sp 2

@center Copyright (C) 1990, 1991, 1992, 1993, 1994, 1995
@center Free Software Foundation, Inc.
@center 675 Mass Ave, Cambridge, MA 02139, USA

@noindent
Permission to use, copy, modify, distribute, and sell this software and
its documentation for any purpose is hereby granted without fee,
provided that the above copyright notice appear in all copies and that
both that copyright notice and this permission notice appear in
supporting documentation.

@center NO WARRANTY

@noindent
BECAUSE THE PROGRAM IS LICENSED FREE OF CHARGE, THERE IS NO WARRANTY FOR
THE PROGRAM, TO THE EXTENT PERMITTED BY APPLICABLE LAW.  EXCEPT WHEN
OTHERWISE STATED IN WRITING THE COPYRIGHT HOLDERS AND/OR OTHER PARTIES
PROVIDE THE PROGRAM "AS IS" WITHOUT WARRANTY OF ANY KIND, EITHER
EXPRESSED OR IMPLIED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.  THE
ENTIRE RISK AS TO THE QUALITY AND PERFORMANCE OF THE PROGRAM IS WITH
YOU.  SHOULD THE PROGRAM PROVE DEFECTIVE, YOU ASSUME THE COST OF ALL
NECESSARY SERVICING, REPAIR OR CORRECTION.

@noindent
IN NO EVENT UNLESS REQUIRED BY APPLICABLE LAW OR AGREED TO IN WRITING
WILL ANY COPYRIGHT HOLDER, OR ANY OTHER PARTY WHO MAY MODIFY AND/OR
REDISTRIBUTE THE PROGRAM AS PERMITTED ABOVE, BE LIABLE TO YOU FOR
DAMAGES, INCLUDING ANY GENERAL, SPECIAL, INCIDENTAL OR CONSEQUENTIAL
DAMAGES ARISING OUT OF THE USE OR INABILITY TO USE THE PROGRAM
(INCLUDING BUT NOT LIMITED TO LOSS OF DATA OR DATA BEING RENDERED
INACCURATE OR LOSSES SUSTAINED BY YOU OR THIRD PARTIES OR A FAILURE OF
THE PROGRAM TO OPERATE WITH ANY OTHER PROGRAMS), EVEN IF SUCH HOLDER OR
OTHER PARTY HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES.

@node SCM Features, SCM Authors, Copying, Overview
@section Features

@itemize @bullet
@item
Conforms to Revised^4 Report on the Algorithmic Language Scheme [R4RS]
and the [IEEE] P1178 specification.
@item
Support for [SICP], [R2RS], [R3RS], and (proposed) [R5RS] scheme code.
@item
Runs under Amiga, Atari-ST, MacOS, MS-DOS, OS/2, NOS/VE, Unicos, VMS,
Unix and similar systems.  Supports ASCII and EBCDIC character sets.
@item
Is fully documented in @TeX{}info form, allowing documentation to be
generated in info, @TeX{}, html, nroff, and troff formats.
@item
Supports inexact real and complex numbers, 30 bit immediate integers and
large precision integers.
@item
Many Common Lisp functions: @code{logand}, @code{logor}, @code{logxor},
@code{lognot}, @code{ash}, @code{logcount}, @code{integer-length},
@code{bit-extract}, @code{defmacro}, @code{macroexpand},
@code{macroexpand1}, @code{gentemp}, @code{defvar}, @code{force-output},
@code{software-type}, @code{get-decoded-time},
@code{get-internal-run-time}, @code{get-internal-real-time},
@code{delete-file}, @code{rename-file}, @code{copy-tree}, @code{acons},
and @code{eval}.
@item
@code{Char-code-limit}, @code{most-positive-fixnum},
@code{most-negative-fixnum}, @code{and internal-time-units-per-second}
constants.  @code{*Features*} and @code{*load-pathname*} variables.
@item
Arrays and bit-vectors.  String ports and software emulation ports.
I/O extensions providing ANSI C and POSIX.1 facilities.
@item
Interfaces to standard libraries including REGEX string regular
expression matching and the CURSES screen management package.
@item
Available add-on packages including an interactive debugger, database,
X-window graphics, BGI graphics, Motif, and Open-Windows packages.
@item
A compiler (HOBBIT, available separately) and dynamic linking of
compiled modules.
@item
User definable responses to interrupts and errors,
Process-syncronization primitives.  Setable levels of monitoring and
timing information printed interactively (the @code{verbose} function).
@code{Restart}, @code{quit}, and @code{exec}.
@end itemize

@node SCM Authors, Bibliography, SCM Features, Overview
@section Authors

@table @b
@item Aubrey Jaffer (jaffer@@ai.mit.edu)
Most of SCM.
@item Radey Shouman
Arrays. @code{gsubr}s, compiled closures, and records.
@item Jerry D. Hedden
Real and Complex functions.  Fast mixed type arithmetics.
@item Hugh Secker-Walker
Syntax checking and memoization of special forms by evaluator.  Storage
allocation strategy and parameters.
@item George Carrette
@dfn{Siod}, written by George Carrette, was the starting point for SCM.
The major innovations taken from Siod are the evaluator's use of the
C-stack and being able to garbage collect off the C-stack
(@pxref{Garbage Collection}).
@end table

@noindent
There are many other contributors to SCM.  They are acknowledged in the
file @file{ChangeLog}, a log of changes that have been made to scm.

@node Bibliography,  , SCM Authors, Overview
@section Bibliography

@table @asis
@item [IEEE]
@pindex IEEE
@cite{IEEE Standard 1178-1990.  IEEE Standard for the Scheme
Programming Language.}  IEEE, New York, 1991.

@item [Simply]
@pindex Simply
Brian Harvey and Matthew Wright.
@ifset html
<A HREF="http://HTTP.CS.Berkeley.EDU/~bh/simply-toc.html">
@end ifset
@cite{Simply Scheme: Introducing Computer Science}
@ifset html
</A>
@end ifset
MIT Press, 1994 ISBN 0-262-08226-8

@item [SICP]
@pindex SICP
Harold Abelson and Gerald Jay Sussman with Julie Sussman.
@cite{Structure and Interpretation of Computer Programs.}
MIT Press, Cambridge, 1985.

@item [R4RS]
@pindex R4RS
William Clinger and Jonathan Rees, Editors.
@ifset html
<A HREF="r4rs_toc.html">
@end ifset
Revised(4) Report on the Algorithmic Language Scheme.
@ifset html
</A>
@end ifset
@cite{ACM Lisp Pointers} Volume IV, Number 3 (July-September 1991),
pp. 1-55.
@ifinfo

@ref{Top, , , r4rs, Revised(4) Report on the Algorithmic Language
Scheme}.
@end ifinfo

@item [GUILE]
@pindex GUILE
Tom Lord.
@ifset html
<A HREF="http://www.cygnus.com/library/ctr/guile.html">
@end ifset
The Guile Architecture for Ubiquitous Computing.
@ifset html
</A>
@end ifset
@cite{Usenix Symposium on Tcl/Tk}, 1995.

@item [SLIB]
@pindex SLIB
Todd R. Eigenschink, Dave Love, and Aubrey Jaffer.
@ifset html
<A HREF="slib_toc.html">
@end ifset
SLIB, The Portable Scheme Library.
@ifset html
</A>
@end ifset
Version 2a3, June 1995.
@ifinfo

@ref{Top, , , slib, SLIB}.
@end ifinfo

@item [JACAL]
@pindex JACAL
Aubrey Jaffer.
@ifset html
<A HREF="jacal_toc.html">
@end ifset
JACAL Symbolic Mathematics System.
@ifset html
</A>
@end ifset
Version 1a5, April 1994.
@ifinfo

@ref{Top, , , jacal, JACAL}.
@end ifinfo
@end table

@table @file
@item scm.texi
@itemx scm.info
Documentation of @code{scm} extensions (beyond Scheme standards).
Documentation on the internal representation and how to extend or
include @code{scm} in other programs.
@end table

@node Installing SCM, Operational Features, Overview, Top
@chapter Installing SCM

@menu
* Making SCM::                  Bootstrapping.
* SLIB::                        REQUIREd reading.
* Building SCM::                
* Installing Dynamic Linking::  
* Configure Module Catalog::    
* Saving Images::               Make Fast-Booting Executables
* Automatic C Preprocessor Definitions::  
* Problems Compiling::          
* Problems Linking::            
* Problems Running::            
* Testing::                     
* Reporting Problems::          
@end menu

@node Making SCM, SLIB, Installing SCM, Installing SCM
@section Making SCM

The SCM distribution has @dfn{Makefile} which contains rules for making
@dfn{scmlit}, a ``bare-bones'' version of SCM sufficient for running
@file{build.scm}.  @file{build.scm} is used to compile (or create
scripts to compile) full featured versions.

Makefiles are not portable to the majority of platforms.  If
@file{Makefile} works for you, good; If not, I don't want to hear about
it.  If you need to compile SCM without build.scm, there are several
ways to proceed:

@itemize @bullet
@item
Use SCM on a different platform to run @file{build.scm} to create a
script to build SCM;

@item
Use another implementation of Scheme to run @file{build.scm} to create a
script to build SCM;

@item
Create your own script or @file{Makefile}.

@item
Buy a SCM executable from jaffer@@ai.mit.edu.  See the end of the
@file{ANNOUNCE} file in the distribution for details.

@item
Use scmconfig (From: bos@@scrg.cs.tcd.ie):

Build and install scripts using GNU @dfn{autoconf} are available from
@file{scmconfig4e3.tar.gz} in the distribution directories.  See
@file{README.unix} in @file{scmconfig4e3.tar.gz} for further
instructions.

@emph{Note:} The last release of scmconfig (4e3) was on March 20, 1996.
I am moving it to the OLD subdirectory until someone submits an update.
@end itemize


@node SLIB, Building SCM, Making SCM, Installing SCM
@section SLIB

@noindent
[SLIB] is a portable Scheme library meant to provide compatibility and
utility functions for all standard Scheme implementations.  Although
SLIB is not @emph{neccessary} to run SCM, I strongly suggest you obtain
and install it.  Bug reports about running SCM without SLIB have very
low priority.  SLIB is available from the same sites as SCM:

@ifclear html
@itemize @bullet
@item
ftp-swiss.ai.mit.edu:/pub/scm/slib2c0.tar.gz
@item
prep.ai.mit.edu:/pub/gnu/jacal/slib2c0.tar.gz
@item
ftp.maths.tcd.ie:pub/bosullvn/jacal/slib2c0.tar.gz
@item
ftp.cs.indiana.edu:/pub/scheme-repository/imp/slib2c0.tar.gz
@end itemize
@end ifclear

@ifset html
<A HREF="file://ftp-swiss.ai.mit.edu/pub/scm/slib2c0.tar.gz">
ftp-swiss.ai.mit.edu:/pub/scm/slib2c0.tar.gz
</A>
<A HREF="file://prep.ai.mit.edu/pub/gnu/jacal/slib2c0.tar.gz">
prep.ai.mit.edu:/pub/gnu/jacal/slib2c0.tar.gz
</A>
<A HREF="file://ftp.maths.tcd.ie/pub/bosullvn/jacal/slib2c0.tar.gz">
ftp.maths.tcd.ie:pub/bosullvn/jacal/slib2c0.tar.gz
</A>
<A HREF="file://ftp.cs.indiana.edu/pub/scheme-repository/code/lib/slib2c0.tar.gz">
ftp.cs.indiana.edu:/pub/scheme-repository/code/lib/slib2c0.tar.gz
</A>
@end ifset

@noindent
Unpack SLIB (@samp{tar xzf slib2c0.tar.gz} or @samp{unzip -ao
slib2c0.zip}) in an appropriate directory for your system; both
@code{tar} and @code{unzip} will create the directory @file{slib}.

@noindent
Then create a file @file{require.scm} in the SCM
@dfn{implementation-vicinity} (this is the same directory as where the
file @file{Init.scm} is installed).  @file{require.scm} should have the
contents:

@example
(define (library-vicinity) "/usr/local/lib/slib/")
(load (in-vicinity (library-vicinity) "require"))
@end example

@noindent
where the pathname string @file{/usr/local/lib/slib/} is to be replaced
by the pathname into which you installed SLIB.  Absolute pathnames are
recommended here; if you use a relative pathname, SLIB can get confused
when the working directory is changed (@pxref{I/O-Extensions, chmod}).
The way to specify a relative pathname is to append it to the
implementation-vicinity, which is absolute:

@example
(define library-vicinity
  (let ((lv (string-append (implementation-vicinity) "../slib/")))
    (lambda () lv)))
(load (in-vicinity (library-vicinity) "require"))
@end example

@noindent
Alternatively, you can set the (shell) environment variable
@code{SCHEME_LIBRARY_PATH} to the pathname of the SLIB directory
(@pxref{SCM Variables, SCHEME_LIBRARY_PATH, Environment Variables}).  If
set, the environment variable overrides @file{require.scm}.  Again,
absolute pathnames are recommended.


@node Building SCM, Installing Dynamic Linking, SLIB, Installing SCM
@section Building SCM

The file @dfn{build.scm} builds and runs a relational database of how to
compile and link SCM executables.  It has information for most platforms
which SCM has been ported to (of which I have been notified).  Some of
this information is old, incorrect, or incomplete.  Send corrections and
additions to jaffer@@ai.mit.edu.

@menu
* Invoking Build::              
* Build Options::               
* Compiling and Linking Custom Files::  
@end menu

@node Invoking Build, Build Options, Building SCM, Building SCM
@subsection Invoking Build

@noindent
The @emph{all} method will also work for MS-DOS and unix.  Use
the @emph{all} method if you encounter problems with @file{build.scm}.

@table @asis
@item MS-DOS
From the SCM source directory, type @samp{build} followed by up to 9
command line arguments.

@item unix
From the SCM source directory, type @samp{./build.scm} followed by command
line arguments.

@item @emph{all}
From the SCM source directory, start @samp{scm} or @samp{scmlit} and
type @code{(load "build.scm")}.  Alternatively, start @samp{scm} or
@samp{scmlit} with the command line argument @samp{-ilbuild}.

@end table

@noindent
Invoking build without the @samp{-F} option will build or create a shell
script with the @code{arrays}, @code{inexact}, and @code{bignums}
options as defaults.

@example
bash$ ./build.scm
@print{}
#!/bin/sh
rm -f scmflags.h
echo '#define IMPLINIT "/home/jaffer/scm/Init.scm"'>>scmflags.h
echo '#define BIGNUMS'>>scmflags.h
echo '#define FLOATS'>>scmflags.h
echo '#define ARRAYS'>>scmflags.h
gcc -O2 -c continue.c scm.c findexec.c script.c time.c repl.c scl.c \
        eval.c sys.c subr.c unif.c rope.c
gcc -rdynamic -o scm continue.o scm.o findexec.o script.o time.o \
        repl.o scl.o eval.o sys.o subr.o unif.o rope.o -lm -lc
@end example

@noindent
To cross compile for another platform, invoke build with the @samp{-p}
or @samp{---platform=} option.  This will create a script for the
platform named in the @samp{-p} or @samp{---platform=} option.

@example
bash$ ./build.scm -p vms
@print{}
$DELETE scmflags.h
$CREATE scmflags.h
$DECK
#define IMPLINIT "/home/jaffer/scm/Init.scm"
#define BIGNUMS
#define FLOATS
#define ARRAYS
$EOD
$ cc continue scm findexec script time repl scl eval sys subr unif rope
$ macro setjump
$ link continue,scm,findexec,script,time,repl,scl,eval,sys,subr,unif,rope,setjump,sys$input/opt
    -lc,sys$share:vaxcrtl/share
$RENAME continue.exe scm.exe
@end example


@node Build Options, Compiling and Linking Custom Files, Invoking Build, Building SCM
@subsection Build Options

@noindent
The options to @dfn{build} specify what, where, and how to build a SCM
program or dynamically linked module.  These options are unrelated to
the SCM command line options.

@deffn {Build Option} -p @var{platform-name}
@deffnx {Build Option} ---platform=@var{platform-name}
specifies that the compilation should be for a computer/operating-system
combination called @var{platform-name}.  @emph{Note:} The case of
@var{platform-name} is distinguised.  The current @var{platform-name}s
are all lower-case.

The platforms defined by table @dfn{platform} in @file{build.scm} are:
@end deffn
@example
name              processor         operating-system  compiler
symbol            processor-family  operating-system  symbol
symbol            atom              symbol            symbol
================= ================= ================= =================
*unknown*         *unknown*         unix              *unknown*
acorn-unixlib     acorn             *unknown*         *unknown*
aix               powerpc           aix               *unknown*
amiga-aztec       m68000            amiga             aztec
amiga-dice-c      m68000            amiga             dice-c
amiga-gcc         m68000            amiga             gcc
amiga-sas/c-5.10  m68000            amiga             sas/c
atari-st-gcc      m68000            atari.st          gcc
atari-st-turbo-c  m68000            atari.st          turbo-c
borland-c-3.1     8086              ms-dos            borland-c
djgpp             i386              ms-dos            gcc
gcc               *unknown*         unix              gcc
highc.31          i386              ms-dos            highc
hp-ux             hp-risc           hp-ux             *unknown*
linux             i386              linux             gcc
linux-aout        i386              linux             gcc
microsoft-c       8086              ms-dos            microsoft-c
microsoft-c-nt    i386              ms-dos            microsoft-c
microsoft-quick-c 8086              ms-dos            microsoft-quick-c
ms-dos            8086              ms-dos            *unknown*
os/2-cset         i386              os/2              c-set++
os/2-emx          i386              os/2              gcc
sunos             sparc             sunos             *unknown*
svr4              *unknown*         unix              *unknown*
turbo-c-2         8086              ms-dos            turbo-c
unicos            cray              unicos            *unknown*
unix              *unknown*         unix              *unknown*
vms               vax               vms               *unknown*
vms-gcc           vax               vms               gcc
watcom-9.0        i386              ms-dos            watcom
@end example

@deffn {Build Option} -o @var{filename}
@deffnx {Build Option} ---outname=@var{filename}
specifies that the compilation should produce an executable or object
name of @var{filename}.  The default is @samp{scm}.  Executable suffixes
will be added if neccessary, e.g. @samp{scm} @result{} @samp{scm.exe}.
@end deffn

@deffn {Build Option} -l @var{libname} @dots{}
@deffnx {Build Option} ---libraries=@var{libname}
specifies that the @var{libname} should be linked with the executable
produced.  If compile flags or include directories (@samp{-I}) are
needed, they are automatically supplied for compilations.  The @samp{c}
library is always included.  SCM @dfn{features} specify any libraries
they need; so you shouldn't need this option often.
@end deffn

@deffn {Build Option} -D @var{definition} @dots{}
@deffnx {Build Option} ---defines=@var{definition}
specifies that the @var{definition} should be made in any C source
compilations.  If compile flags or include directories (@samp{-I}) are
needed, they are automatically supplied for compilations.  SCM
@dfn{features} specify any flags they need; so you shouldn't need this
option often.
@end deffn

@deffn {Build Option} ---compiler-options=@var{flag}
specifies that that @var{flag} will be put on compiler command-lines.
@end deffn

@deffn {Build Option} ---linker-options=@var{flag}
specifies that that @var{flag} will be put on linker command-lines.
@end deffn

@deffn {Build Option} -s @var{pathname}
@deffnx {Build Option} ---scheme-initial=@var{pathname}
specifies that @var{pathname} should be the default location of the SCM
initialization file @file{Init.scm}.  SCM tries several likely locations
before resorting to @var{pathname} (@pxref{File-System Habitat}).
If not specified, the current directory (where build is building) is
used.
@end deffn

@deffn {Build Option} -c @var{pathname} @dots{}
@deffnx {Build Option} ---c-source-files=@var{pathname}
specifies that the C source files @var{pathname} @dots{} are to be
compiled.
@end deffn

@deffn {Build Option} -j @var{pathname} @dots{}
@deffnx {Build Option} ---object-files=@var{pathname}
specifies that the object files @var{pathname} @dots{} are to be linked.
@end deffn

@deffn {Build Option} -i @var{call} @dots{}
@deffnx {Build Option} ---initialization=@var{call}
specifies that the C functions @var{call} @dots{} are to be
invoked during initialization.
@end deffn

@deffn {Build Option} -t @var{build-what}
@deffnx {Build Option} ---type=@var{build-what}
specifies in general terms what sort of thing to build.  The choices
are:
@table @samp
@item exe
executable program.
@item lib
library module.
@item dlls
archived dynamically linked library object files.
@item dll
dynamically linked library object file.
@end table

The default is to build an executable.
@end deffn

@deffn {Build Option} -h @var{batch-syntax}
@deffnx {Build Option} --batch-dialect=@var{batch-syntax}
specifies how to build.  The default is to create a batch file for the
host system.  The SLIB file @file{batch.scm} knows how to create batch
files for:
@itemize @bullet
@item
unix
@item
dos
@item
vms
@item
system

This option executes the compilation and linking commands through the
use of the @code{system} procedure.
@item
*unknown*

This option outputs Scheme code.
@end itemize
@end deffn

@deffn {Build Option} -w @var{batch-filename}
@deffnx {Build Option} --script-name=@var{batch-filename}
specifies where to write the build script.  The default is to display it
on @code{(current-output-port)}.
@end deffn

@deffn {Build Option} -F @var{feature} @dots{}
@deffnx {Build Option} ---features=@var{feature}
specifies to build the given features into the executable.  The defined
features are:

@table @dfn
@item lit
@itemx none
Lightweight -- no features

@item cautious
Normally, the number of arguments arguments to interpreted closures
 (from LAMBDA) are checked if the function part of a form is not a
symbol or only the first time the form is executed if the function part
is a symbol.  defining @samp{reckless} disables any checking.  If you
want to have SCM always check the number of arguments to interpreted
closures define feature @samp{cautious}.

@item careful-interrupt-masking
Define this for extra checking of interrupt masking.  This is for
debugging C code in @file{sys.c} and @file{repl.c}.

@item debug
Turns on features @samp{cautious} @samp{careful-interrupt-masking}
@samp{stack-limit} and uses @code{-g} flags for debugging SCM source
code.

@item reckless
If your scheme code runs without any errors you can disable almost all
error checking by compiling all files with @samp{reckless}.

@item stack-limit
Use to enable checking for stack overflow.  Define value of the C
preprocessor variable @var{STACK_LIMIT} to be the size to which SCM
should allow the stack to grow.  STACK_LIMIT should be less than the
maximum size the hardware can support, as not every routine checks the
stack.

@item bignums
Large precision integers.

@item arrays
Use if you want arrays, uniform-arrays and uniform-vectors.

@item array-for-each
array-map! and array-for-each (arrays must also be defined).

@item inexact
Use if you want floating point numbers.

@item engineering-notation
Use if you want floats to display in engineering notation (exponents
always multiples of 3) instead of scientific notation.

@item single-precision-only
Use if you want all inexact real numbers to be single precision.  This
only has an effect if SINGLES is also defined (which is the default).
This does not affect complex numbers.

@item sicp
Use if you want to run code from:

H. Abelson, G. J. Sussman, and J. Sussman,
Structure and Interpretation of Computer Programs,
The MIT Press, Cambridge, Massachusetts, USA

@code{(eq? '() '#f)} is the major difference.

@item rev2-procedures
These procedures were specified in the @cite{Revised^2 Report on Scheme}
but not in @cite{R4RS}.

@item record
The Record package provides a facility for user to define their own
record data types.  See SLIB for documentation.

@item compiled-closure
Use if you want to use compiled closures.

@item generalized-c-arguments
@code{make_gsubr} for arbitrary (< 11) arguments to C functions.

@item tick-interrupts
Use if you want the ticks and ticks-interrupt functions.

@item i/o-extensions
Commonly available I/O extensions: @dfn{exec}, line I/O, file
positioning, file delete and rename, and directory functions.

@item turtlegr
@dfn{Turtle} graphics calls for both Borland-C and X11 from
sjm@@ee.tut.fi.

@item curses
For the @dfn{curses} screen management package.

@item edit-line
interface to the editline or GNU readline library.

@item regex
String regular expression matching.

@item socket
BSD @dfn{socket} interface.

@item posix
Posix functions available on all @dfn{Unix-like} systems.  fork and
process functions, user and group IDs, file permissions, and @dfn{link}.

@item unix
Those unix features which have not made it into the Posix specs: nice,
acct, lstat, readlink, symlink, mknod and sync.

@item windows
Microsoft Windows executable.

@item dynamic-linking
Be able to load compiled files while running.

@item dump
Convert a running scheme program into an executable file.

@item heap-can-shrink
Use if you want segments of unused heap to not be freed up after garbage
collection.  This may reduce time in GC for *very* large working sets.

@item cheap-continuations
If you only need straight stack continuations, executables compile with
this feature will run faster and use less storage than not having it.
Machines with unusual stacks @emph{need} this.  Also, if you incorporate
new C code into scm which uses VMS system services or library routines
(which need to unwind the stack in an ordrly manner) you may need to
use this feature.

@item macro
C level support for hygienic and referentially transparent macros (R4RS
macros).

@end table
@end deffn

@node Compiling and Linking Custom Files,  , Build Options, Building SCM
@subsection Compiling and Linking Custom Files

@noindent
A correspondent asks:

@quotation
How can we link in our own c files to the SCM interpreter so that we can
add our own functionality?  (e.g. we have a bunch of tcp functions we
want access to).  Would this involve changing build.scm or the Makefile
or both?
@end quotation

@noindent
(@pxref{Changing Scm} has instructions describing the C code format).
@cindex foo.c
Suppose a C file @dfn{foo.c} has functions you wish to add to SCM.  To
compile and link your file at compile time, use the @samp{-c} and
@samp{-i} options to build:

@example
bash$ build -c foo.c -i init_foo
@print{}
#!/bin/sh
rm -f scmflags.h
echo '#define IMPLINIT "/home/jaffer/scm/Init.scm"'>>scmflags.h
echo '#define COMPILED_INITS init_foo();'>>scmflags.h
echo '#define BIGNUMS'>>scmflags.h
echo '#define FLOATS'>>scmflags.h
echo '#define ARRAYS'>>scmflags.h
gcc -O2 -c continue.c scm.c findexec.c script.c time.c repl.c scl.c \
        eval.c sys.c subr.c unif.c rope.c foo.c
gcc -rdynamic -o scm continue.o scm.o findexec.o script.o time.o \
        repl.o scl.o eval.o sys.o subr.o unif.o rope.o foo.o -lm -lc
@end example

@noindent
To make a dynamically loadable object file use the @code{-t dll} option:

@example
bash$ build -t dll -c foo.c
@print{}
#!/bin/sh
rm -f scmflags.h
echo '#define IMPLINIT "/home/jaffer/scm/Init.scm"'>>scmflags.h
echo '#define BIGNUMS'>>scmflags.h
echo '#define FLOATS'>>scmflags.h
echo '#define ARRAYS'>>scmflags.h
echo '#define DLL'>>scmflags.h
gcc -O2 -fpic -c foo.c
gcc -shared -o foo.so foo.o -lm -lc
@end example

@noindent
Once @file{foo.c} compiles correctly (and your SCM build supports
dynamic-loading), you can load the compiled file with the Scheme command
@code{(load "./foo.so")}.  @xref{Configure Module Catalog} for how to
add a compiled dll file to SLIB's catalog.

@node Installing Dynamic Linking, Configure Module Catalog, Building SCM, Installing SCM
@section Installing Dynamic Linking

@noindent
Dynamic linking has not been ported to all platforms.  Operating systems
in the BSD family (a.out binary format) can usually be ported to
@dfn{DLD}.  The @dfn{dl} library (@code{#define SUN_DL} for SCM) was a
proposed POSIX standard and may be available on other machines with
@dfn{COFF} binary format.  For notes about porting to MS-Windows and
finishing the port to VMS @ref{Finishing Dynamic Linking}.

@noindent
@dfn{DLD} is a library package of C functions that performs @dfn{dynamic
link editing} on Linux, VAX (Ultrix), Sun 3 (SunOS 3.4 and 4.0),
SPARCstation (SunOS 4.0), Sequent Symmetry (Dynix), and Atari ST.  It is
available from:

@ifclear html
@itemize @bullet
@item
prep.ai.mit.edu:pub/gnu/dld-3.3.tar.gz
@end itemize
@end ifclear

@ifset html
<A HREF="ftp://prep.ai.mit.edu/pub/gnu/dld-3.3.tar.gz">
prep.ai.mit.edu:pub/gnu/dld-3.3.tar.gz
</A>
@end ifset

@noindent
These notes about using libdl on SunOS are from @file{gcc.info}:

@quotation
On a Sun, linking using GNU CC fails to find a shared library and
reports that the library doesn't exist at all.

This happens if you are using the GNU linker, because it does only
static linking and looks only for unshared libraries.  If you have
a shared library with no unshared counterpart, the GNU linker
won't find anything.

We hope to make a linker which supports Sun shared libraries, but
please don't ask when it will be finished--we don't know.

Sun forgot to include a static version of @file{libdl.a} with some
versions of SunOS (mainly 4.1).  This results in undefined symbols when
linking static binaries (that is, if you use @samp{-static}).  If you
see undefined symbols @samp{_dlclose}, @samp{_dlsym} or @samp{_dlopen}
when linking, compile and link against the file
@file{mit/util/misc/dlsym.c} from the MIT version of X windows.
@end quotation


@node Configure Module Catalog, Saving Images, Installing Dynamic Linking, Installing SCM
@section Configure Module Catalog

@noindent
The SLIB module @dfn{catalog} can be extended to define other
@code{require}-able packages by adding calls to the Scheme source file
@file{mkimpcat.scm}.  Within @file{mkimpcat.scm}, the following
procedures are defined.

@defun add-link feature object-file lib1 @dots{}
@var{feature} should be a symbol.  @var{object-file} should be a string
naming a file containing compiled @dfn{object-code}.  Each @var{lib}n
argument should be either a string naming a library file or @code{#f}.

If @var{object-file} exists, the @code{add-link} procedure registers
symbol @var{feature} so that the first time @code{require} is called
with the symbol @var{feature} as its argument, @var{object-file} and the
@var{lib1} @dots{} are dynamically linked into the executing SCM
session.

If @var{object-file} exists, @code{add-link} returns @code{#t},
otherwise it returns @code{#f}.

For example, to install a compiled dll @file{foo}, add these lines to
@file{mkimpcat.scm}:

@example
        (add-link 'foo
                  (in-vicinity (implementation-vicinity) "foo"
                               link:able-suffix))
@end example


@end defun

@defun add-alias alias feature
@var{alias} and @var{feature} are symbols.  The procedure
@code{add-alias} registers @var{alias} as an alias for @var{feature}.
An unspecified value is returned.

@code{add-alias} causes @code{(require '@var{alias})} to behave like
@code{(require '@var{feature})}.
@end defun

@defun add-source feature filename
@var{feature} is a symbol.  @var{filename} is a string naming a file
containing Scheme source code.  The procedure @code{add-source}
registers @var{feature} so that the first time @code{require} is called
with the symbol @var{feature} as its argument, the file @var{filename}
will be @code{load}ed.  An unspecified value is returned.
@end defun

@noindent
Remember to delete the file @file{slibcat} after modifying the file
@file{mkimpcat.scm} in order to force SLIB to rebuild its cache.

@node Saving Images, Automatic C Preprocessor Definitions, Configure Module Catalog, Installing SCM
@section Saving Images

@noindent
In SCM, the ability to save running program images is called @dfn{dump}
(@pxref{Dump}).  In order to make @code{dump} available to SCM, build
with feature @samp{dump}.  @code{dump}ed executables are compatible with
dynamic linking.

@noindent
Most of the code for @dfn{dump} is taken from
@file{emacs-19.34/src/unex*.c}.  No modifications to the emacs source
code were required to use @file{unexelf.c}.  Dump has not been ported to
all platforms.  If @file{unexec.c} or @file{unexelf.c} don't work for
you, try using the appropriate @file{unex*.c} file from emacs.



@node Automatic C Preprocessor Definitions, Problems Compiling, Saving Images, Installing SCM
@section Automatic C Preprocessor Definitions

These @samp{#defines} are automatically provided by preprocessors of
various C compilers.  SCM uses the presence or absence of these
definitions to configure @dfn{include file} locations and aliases for
library functions.  If the definition(s) corresponding to your system
type is missing as your system is configured, add @code{-D@var{flag}} to
the compilation command lines or add a @code{#define @var{flag}} line to
@file{scmfig.h} or the beginning of @file{scmfig.h}.

@example
#define         Platforms:
-------         ----------
ARM_ULIB        Huw Rogers free unix library for acorn archimedes
AZTEC_C         Aztec_C 5.2a
_DCC            Dice C on AMIGA
__GNUC__        Gnu CC (and DJGPP)
__EMX__         Gnu C port (gcc/emx 0.8e) to OS/2 2.0
__HIGHC__       MetaWare High C
__IBMC__        C-Set++ on OS/2 2.1
_MSC_VER        MS VisualC++ 4.2
MWC             Mark Williams C on COHERENT
_QC             Microsoft QuickC
__STDC__        ANSI C compliant
__TURBOC__      Turbo C and Borland C
__WATCOMC__     Watcom C on MS-DOS
__ZTC__         Zortech C

_AIX            AIX operating system
AMIGA           SAS/C 5.10 or Dice C on AMIGA
__amigados__    Gnu CC on AMIGA
atarist         ATARI-ST under Gnu CC
GNUDOS          DJGPP (obsolete in version 1.08)
__GO32__        DJGPP (future?)
hpux            HP-UX
linux           Linux
MCH_AMIGA       Aztec_c 5.2a on AMIGA
MSDOS           Microsoft C 5.10 and 6.00A
__MSDOS__       Turbo C, Borland C, and DJGPP
nosve           Control Data NOS/VE
SVR2            System V Revision 2.
__svr4__        SunOS
THINK_C         developement environment for the Macintosh
ultrix          VAX with ULTRIX operating system.
unix            most Unix and similar systems and DJGPP (!?)
__unix__        Gnu CC and DJGPP
_UNICOS         Cray operating system
vaxc            VAX C compiler
VAXC            VAX C compiler
vax11c          VAX C compiler
VAX11           VAX C compiler
_Windows        Borland C 3.1 compiling for Windows
_WIN32          MS VisualC++ 4.2 under Windows-NT
vms             (and VMS) VAX-11 C under VMS.

__alpha         DEC Alpha processor
__alpha__       DEC Alpha processor
hp9000s800      HP RISC processor
__i386__        DJGPP
i386            DJGPP
MULTIMAX        Encore computer
pyr             Pyramid 9810 processor
__sgi__         Silicon Graphics Inc.
sparc           SPARC processor
sequent         Sequent computer
tahoe           CCI Tahoe processor
vax             VAX processor
@end example

@node Problems Compiling, Problems Linking, Automatic C Preprocessor Definitions, Installing SCM
@section Problems Compiling

@table @asis
@item FILE: PROBLEM
HOW TO FIX
@item *.c: include file not found
Correct the status of STDC_HEADERS in @file{scmfig.h}

fix #include statement or add #define for system type to
@file{scmfig.h}.
@item *.c: Function should return a value in @dots{}
@itemx *.c: Parameter '@dots{}' is never used in @dots{}
@itemx *.c: Condition is always false in @dots{}
@itemx *.c: Unreachable code in function @dots{}
Ignore.
@item scm.c: assignment between incompatible types
change SIGRETTYPE in @file{scm.c}.
@item time.c: CLK_TCK redefined
incompatablility between <stdlib.h> and <sys/types.h>.  remove
STDC_HEADERS in @file{scmfig.h}.

edit <sys/types.h> to remove incompatability.
@item subr.c: Possibly incorrect assignment in function lgcd
Ignore.
@item sys.c: statement not reached
@itemx sys.c: constant in conditional expression
ignore
@item sys.c: `???' undeclared, outside of functions
#undef STDC_HEADERS in @file{scmfig.h}.
@item scl.c: syntax error
#define SYSTNAME to your system type in @file{scl.c} (softtype)
@end table

@node Problems Linking, Problems Running, Problems Compiling, Installing SCM
@section Problems Linking

@table @asis
@item PROBLEM
HOW TO FIX
@item _sin etc. missing.
uncomment LIBS in makefile
@end table

@node Problems Running, Testing, Problems Linking, Installing SCM
@section Problems Running

@table @asis
@item PROBLEM
HOW TO FIX
@item Opening message and then machine crashes.
Change memory model option to C compiler (or makefile).

Make sure @code{sizet} definition is correct in @file{scmfig.h}.

Reduce size of HEAP_SEG_SIZE in @file{setjump.h}.
@item Input hangs
#define NOSETBUF
@item ERROR: heap: need larger initial
Need to increase the initial heap allocation using -a<kb> or
INIT_HEAP_SIZE.
@item ERROR: Could not allocate @dots{}
Check @code{sizet} definition.

Use 32 bit compiler mode.

Don't try to run as subproccess
@item remove @dots{} in scmfig.h and recompile scm
@itemx add @dots{} in scmfig.h and recompile scm
Do it and recompile files.
@item ERROR: @file{Init.scm} not found
Assign correct IMPLINIT in makefile or @file{scmfig.h} or define
environment variable @code{SCM_INIT_PATH} to be the full pathname of
@file{Init.scm} (@pxref{Installing SCM}).
@item WARNING: require.scm not found
define environment variable @code{SCHEME_LIBRARY_PATH} to be the full
pathname of the scheme library [SLIB] or change @code{library-vicinity} in
@file{Init.scm} to point to library or remove. @xref{Installation, , , slib,
SLIB}.

Make sure the value of @code{(library-vicinity)} has a trailing file
separator (like @key{/} or @key{\}).
@end table

@node Testing, Reporting Problems, Problems Running, Installing SCM
@section Testing

@noindent
Loading @file{r4rstest.scm} in the distribution will run an [R4RS]
conformance test on @code{scm}.

@example
> (load "r4rstest.scm")
@print{}
;loading "r4rstest.scm"
SECTION(2 1)
SECTION(3 4)
 #<primitive-procedure boolean?>
    #<primitive-procedure char?>
       #<primitive-procedure null?>
          #<primitive-procedure number?>
@dots{}
@end example

@noindent
Loading @file{pi.scm} in the distribution will enable you to compute
digits of pi.

@example
> (load "pi")
;loading "pi"
;done loading "pi.scm"
;Evaluation took 20 mSec (0 in gc) 767 cells work, 233 bytes other
#<unspecified>
> (pi 100 5)
00003 14159 26535 89793 23846 26433 83279 50288 41971 69399
37510 58209 74944 59230 78164 06286 20899 86280 34825 34211
70679
;Evaluation took 550 mSec (60 in gc) 36976 cells work, 1548 bytes other
#<unspecified>
@end example

@noindent
Loading @file{bench.scm} will compute and display performance statistics
of SCM running @file{pi.scm}.  @samp{make bench} or @samp{make benchlit}
appends the performance report to the file @file{BenchLog}, facilitating
tracking effects of changes to SCM on performance.

@table @asis
@item PROBLEM
HOW TO FIX
@item Runs some and then machine crashes.
See above under machine crashes.
@item Runs some and then ERROR: @dots{} (after a GC has happened)
Remove optimization option to C compiler and recompile.

@code{#define SHORT_ALIGN} in @file{scmfig.h}.
@item Some symbol names print incorrectly.
Change memory model option to C compiler (or makefile).

Check that @code{HEAP_SEG_SIZE} fits within @code{sizet}.

Increase size of @code{HEAP_SEG_SIZE} (or @code{INIT_HEAP_SIZE} if it is
smaller than @code{HEAP_SEG_SIZE}).
@item ERROR: Rogue pointer in Heap.
See above under machine crashes.
@item Newlines don't appear correctly in output files.
Check file mode (define OPEN_@dots{} in @file{Init.scm}
@item Spaces or control characters appear in symbol names
Check character defines in @file{scmfig.h}.
@item Negative numbers turn positive.
Check SRS in @file{scmfig.h}.
@item VMS: Couldn't unwind stack
@itemx VAX: botched longjmp
@code{#define CHEAP_CONTIUATIONS} in @file{scmfig.h}.
@item Sparc(SUN-4) heap is growing out of control
You are experiencing a GC problem peculiar to the Sparc.  The problem is
that SCM doesn't know how to clear register windows.  Every location
which is not reused still gets marked at GC time.  This causes lots of
stuff which should be collected to not be.  This will be a problem with
any @emph{conservative} GC until we find what instruction will clear the
register windows.  This problem is exacerbated by using lots of
call-with-current-continuations.
@end table

@node Reporting Problems,  , Testing, Installing SCM
@section Reporting Problems

@noindent
Reported problems and solutions are grouped under Compiling, Linking,
Running, and Testing.  If you don't find your problem listed there, you
can send a bug report to @code{jaffer@@ai.mit.edu}.  The bug report
should include:

@enumerate
@item
The version of SCM (printed when SCM is invoked with no arguments).
@item
The type of computer you are using.
@item
The name and version of your computer's operating system.
@item
The values of the environment variables @code{SCM_INIT_PATH} and
@code{SCHEME_LIBRARY_PATH}.
@item
The name and version of your C compiler.
@item
If you are using an executable from a distribution, the name, vendor,
and date of that distribution.  In this case, corresponding with the
vendor is recommended.
@end enumerate

@node Operational Features, The Language, Installing SCM, Top
@chapter Operational Features

@menu
* Invoking SCM::                
* SCM Options::                 
* Invocation Examples::         
* SCM Variables::               
* SCM Session::                 
* Editing Scheme Code::         
* Debugging Scheme Code::       
* Errors::                      
* Memoized Expressions::        
* Internal State::              
* Shell Scripts::               
@end menu

@node Invoking SCM, SCM Options, Operational Features, Operational Features
@section Invoking SCM

@quotation
@exdent @b{ scm } [-a @i{kbytes}] [-ibvqmu] [-p @i{number}]
@w{[-c @i{expression}]} @w{[-e @i{expression}]} @w{[-f @i{filename}]}
@w{[-l @i{filename}]} @w{[-r @i{feature}]} @w{[-- | - | -s]}
@w{[@i{filename}]} @w{[@i{arguments} @dots{}]}
@end quotation

@noindent
Upon startup @code{scm} loads the file specified by by the environment
variable @var{SCM_INIT_PATH}.

@noindent
If @var{SCM_INIT_PATH} is not defined or if the file it names is not
present, @code{scm} tries to find the directory containing the
executable file.  If it is able to locate the executable, @code{scm}
looks for the initialization file (usually @file{Init.scm}) in
platform-dependent directories relative to this directory.
@xref{File-System Habitat} for a blow-by-blow description.

@noindent
As a last resort (if initialization file cannot be located), the C
compile parameter @var{IMPLINIT} (defined in the makefile or
@file{scmfig.h}) is tried.

@noindent
Unless the option @code{-no-init-file} or @code{--no-init-file} occurs
in the command line, @file{Init.scm} checks to see if there is file
@file{ScmInit.scm} in the path specified by the environment variable
@var{HOME} (or in the current directory if @var{HOME} is undefined). If
it finds such a file it is loaded.

@noindent
@file{Init.scm} then looks for command input from one of three sources:
From an option on the command line, from a file named on the command
line, or from standard input.

@noindent
This explanation applies to SCMLIT or other builds of SCM.

@noindent
Scheme-code files can also invoke SCM and its variants.  @xref{Syntax
Extensions, #!}.

@node SCM Options, Invocation Examples, Invoking SCM, Operational Features
@section Options

@noindent
The options are processed in the order specified on the command line.

@deffn {Command Option} -a kb
specifies that @code{scm} should allocate an initial heapsize of
@var{kb} kilobytes. This option, if present, must be the first on
the command line.  If not specified, the default is
@code{INIT_HEAP_SIZE} in source file @file{setjump.h} which the
distribution sets at @code{25000*sizeof(cell)}.
@end deffn

@deffn {Command Option} -no-init-file
@deffnx {Command Option} --no-init-file
Inhibits the loading of @file{ScmInit.scm} as described above.
@end deffn

@deffn {Command Option} -e expression
@deffnx {Command Option} -c expression
specifies that the scheme expression @var{expression} is to be
evaluated. These options are inspired by @code{perl} and @code{sh}
respectively. On Amiga systems the entire option and argument need to be
enclosed in quotes. For instance @samp{"-e(newline)"}.
@end deffn

@deffn {Command Option} -r feature
requires @var{feature}. This will load a file from [SLIB] if that
@var{feature} is not already supported. If @var{feature} is 2, 3, 4, or
5 @code{scm} will require the features neccessary to support [R2RS],
[R3RS], [R4RS], or proposed [R5RS], respectively.
@end deffn

@deffn {Command Option} -l filename
@deffnx {Command Option} -f filename
loads @var{filename}. @code{Scm} will load the first (unoptioned) file
named on the command line if no @code{-c}, @code{-e}, @code{-f},
@code{-l},  or @code{-s} option preceeds
it.
@end deffn

@deffn {Command Option} -p level
sets the prolixity (verboseness) to @var{level}. This is the same as
the @code{scm} command (verobse @var{level}).
@end deffn

@deffn {Command Option} -v
(verbose mode) specifies that @code{scm} will print prompts, evaluation
times, notice of loading files, and garbage collection statistics. This
is the same as @code{-p3}.
@end deffn

@deffn {Command Option} -q
(quiet mode) specifies that @code{scm} will print no extra
information. This is the same as @code{-p0}.
@end deffn

@deffn {Command Option} -m
specifies that subsequent loads, evaluations, and user interactions will
be with [R4RS] macro capability. To use a specific [R4RS] macro
implementation from [SLIB] (instead of [SLIB]'s default) put @code{-r}
@var{macropackage} before @code{-m} on the command line.
@end deffn

@deffn {Command Option} -u
specifies that subsequent loads, evaluations, and user interactions will
be without [R4RS] macro capability. [R4RS] macro capability can
be restored by a subsequent @code{-m} on the command line or from Scheme
code.
@end deffn

@deffn {Command Option} -i
specifies that @code{scm} should run interactively. That means that
@code{scm} will not terminate until the @code{(quit)} or @code{(exit)}
command is given, even if there are errors. It also sets the prolixity
level to 2 if it is less than 2. This will print prompts, evaluation
times, and notice of loading files. The prolixity level can be set by
subsequent options. If @code{scm} is started from a tty, it will assume
that it should be interactive unless given a subsequent @code{-b}
option.
@end deffn

@deffn {Command Option} -b
specifies that @code{scm} should run non-interactively. That means that
@code{scm} will terminate after processing the command line or if there
are errors.
@end deffn

@deffn {Command Option} -s
specifies, by analogy with @code{sh}, that further options are to be
treated as program aguments.
@end deffn

@deffn {Command Option} -
@deffnx {Command Option} --
specifies that there are no more options on the command line.
@end deffn

@deffn {Command Option} -d filename
loads SLIB database-utilities and opens @var{filename} as a database.
@end deffn

@deffn {Command Option} -o filename
saves the current SCM session as the executable program @file{filename}.
This option works only in SCM builds supporting @code{dump}
(@pxref{Dump}).

If options appear on the command line after @samp{-o @var{filename}},
then the saved session will continue with processing those options when
it is invoked.  Otherwise the (new) command line is processed as usual
when the saved image is invoked.
@end deffn

@deffn {Command Option} --help
prints usage information and URL; then exit.
@end deffn

@deffn {Command Option} --version
prints version information and exit.
@end deffn

@node Invocation Examples, SCM Variables, SCM Options, Operational Features
@section Invocation Examples

@table @code
@item % scm foo.scm
Loads and executes the contents of @file{foo.scm} and then enters
interactive session.

@item % scm -f foo.scm arg1 arg2 arg3
Parameters @code{arg1}, @code{arg2}, and @code{arg3} are stored in the
global list @code{*argv*}; Loads and executes the contents of
@file{foo.scm} and exits.

@item % scm -s foo.scm arg1 arg2
Sets *argv* to @code{("foo.scm" "arg1" "arg2")} and enters interactive
session.

@item % scm -e `(write (list-ref *argv* *optind*))' bar
Prints @samp{"bar"}.

@item % scm -rpretty-print -r format -i
Loads @code{pretty-print} and @code{format} and enters interactive
session.

@item % scm -r5
Loads @code{dynamic-wind}, @code{values}, and [R4RS] macros and enters
interactive (with macros) session.

@item % scm -r5 -r4
Like above but @code{rev4-optional-procedures} are also loaded.
@end table

@node SCM Variables, SCM Session, Invocation Examples, Operational Features
@section Environment Variables

@defvr {Environment Variable} SCM_INIT_PATH
is the pathname where @code{scm} will look for its initialization
code. The default is the file @file{Init.scm} in the source directory.
@end defvr

@defvr {Environment Variable} SCHEME_LIBRARY_PATH
is the [SLIB] Scheme library directory.
@end defvr

@defvr {Environment Variable} HOME
is the directory where @file{Init.scm} will look for the user
initialization file @file{ScmInit.scm}.
@end defvr

@defvr {Environment Variable} EDITOR
is the name of the program which @code{ed} will call.  If @var{EDITOR}
is not defined, the default is @samp{ed}.
@end defvr

@section Scheme Variables

@defvar *argv*
contains the list of arguments to the program. @code{*argv*} can change
during argument processing. This list is suitable for use as an argument
to [SLIB] @code{getopt}.
@end defvar

@defvar *R4RS-macro*
controls whether loading and interaction support [R4RS] macros. Define
this in @file{ScmInit.scm} or files specified on the command line. This
can be overridden by subsequent @code{-m} and @code{-u} options.
@end defvar

@defvar *interactive*
controls interactivity as explained for the @code{-i} and @code{-b}
options. Define this in @file{ScmInit.scm} or files specified on the
command line. This can be overridden by subsequent @code{-i} and
@code{-b} options.
@end defvar

@node SCM Session, Editing Scheme Code, SCM Variables, Operational Features
@section SCM Session

@itemize @bullet
@item
Options, file loading and features can be specified from the command
line.  @xref{System interface, , , scm, SCM}.  @xref{Require, , , slib,
SLIB}.
@item
Typing the end-of-file character at the top level session (while SCM is
not waiting for parenthesis closure) causes SCM to exit.
@item
Typing the interrupt character aborts evaluation of the current form
and resumes the top level read-eval-print loop.
@end itemize

@defun quit
@defunx quit n
@defunx exit
@defunx exit n
Aliases for @code{exit} (@pxref{System, exit, , slib, SLIB}).  On many
systems, SCM can also tail-call another program.  @xref{I/O-Extensions,
execp}.
@end defun

@defun program-arguments
Returns a list of strings of the arguments scm was called with.
@end defun

@noindent
For documentation of the procedures @code{getenv} and @code{system}
@xref{System Interface, , , slib, SLIB}.

@defun vms-debug
If SCM is compiled under VMS this @code{vms-debug} will invoke the VMS
debugger.
@end defun


@node Editing Scheme Code, Debugging Scheme Code, SCM Session, Operational Features
@section Editing Scheme Code

@defun ed arg1 @dots{}
The value of the environment variable @code{EDITOR} (or just @code{ed}
if it isn't defined) is invoked as a command with arguments @var{arg1}
@dots{}.

@defunx ed filename
If SCM is compiled under VMS @code{ed} will invoke the editor with a
single the single argument @var{filename}.
@end defun


@table @asis
@item Gnu Emacs:
Editing of Scheme code is supported by emacs.  Buffers holding files
ending in .scm are automatically put into scheme-mode.  EMACS for MS-DOS
and MS-Windows systems is available (free) from:

@ifclear html
@itemize @bullet
@item
http://simtel.coast.net/SimTel/gnu/demacs.html
@end itemize
@end ifclear

@ifset html
<A HREF="http://simtel.coast.net/SimTel/gnu/demacs.html">
http://simtel.coast.net/SimTel/gnu/demacs.html
</A>
@end ifset

If your Emacs can run a process in a buffer you can use the Emacs
command @samp{M-x run-scheme} with SCM.  Otherwise, use the emacs
command @samp{M-x suspend-emacs}; or see ``other systems'' below.

@item Epsilon (MS-DOS):
There is lisp (and scheme) mode available by use of the package
@samp{LISP.E}.  It offers several different indentation formats.  With
this package, buffers holding files ending in @samp{.L}, @samp{.LSP},
@samp{.S}, and @samp{.SCM} (my modification) are automatically put into
lisp-mode.

It is possible to run a process in a buffer under Epsilon.  With Epsilon
5.0 the command line options @samp{-e512 -m0} are neccessary to manage
RAM properly.  It has been reported that when compiling SCM with Turbo
C, you need to @samp{#define NOSETBUF} for proper operation in a process
buffer with Epsilon 5.0.

One can also call out to an editor from SCM if RAM is at a premium; See
``under other systems'' below.

@item other systems:
Define the environment variable @samp{EDITOR} to be the name of the
editing program you use.  The SCM procedure @code{(ed arg1 @dots{})}
will invoke your editor and return to SCM when you exit the editor.  The
following definition is convenient:

@example
(define (e) (ed "work.scm") (load "work.scm"))
@end example

Typing @samp{(e)} will invoke the editor with the file of interest.
After editing, the modified file will be loaded.
@end table

@node Debugging Scheme Code, Errors, Editing Scheme Code, Operational Features
@section Debugging Scheme Code

@noindent
The @code{cautious} and @code{stack-limit} options of @code{build}
(@pxref{Build Options}) support debugging in Scheme.

@table @dfn
@item CAUTIOUS
If SCM is built with the @samp{CAUTIOUS} flag, then when an error
occurs, a @dfn{stack trace} of certain pending calls are printed as part
of the default error response.  A (memoized) expression and newline are
printed for each partially evaluated combination whose procedure is not
builtin.  @xref{Memoized Expressions} for how to read memoized
expressions.

Also as the result of the @samp{CAUTIOUS} flag, both @code{error} and
@code{user-interrupt} (invoked by @key{C-c}) to print stack traces and
conclude by calling @code{breakpoint} (@pxref{Breakpoints, , , slib,
SLIB}) instead of aborting to top level.  Under either condition,
program execution can be resumed by @code{(continue)}.

In this configuration one can interrupt a running Scheme program with
@key{C-c}, inspect or modify top-level values, trace or untrace
procedures, and continue execution with @code{(continue)}.

@item STACK_LIMIT
If SCM is built with the @samp{STACK_LIMIT} flag, the interpreter will
check stack size periodically.  If the size of stack exceeds a certain
amount (default is @code{HEAP_SEG_SIZE/2}), SCM generates a
@code{segment violation} interrupt.

The usefulness of @samp{STACK_LIMIT} depends on the user.  I don't use
it; but the user I added this feature for got primarily this type of
error.
@end table

@noindent
There are several SLIB macros which so useful that SCM automatically
loads the appropriate module from SLIB if they are invoked.

@defmac trace proc1 @dots{}
Traces the top-level named procedures given as arguments.
@defmacx 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.
@end defmac

@defmac untrace proc1 @dots{}
Turns tracing off for its arguments.
@defmacx untrace
With no arguments, untraces all currently traced identifiers and returns
a list of these formerly traced identifiers.
@end defmac

The routines I use most frequently for debugging are:

@deffn Procedure print arg1 @dots{}
@code{Print} writes all its arguments, separated by spaces.
@code{Print} outputs a @code{newline} at the end and returns the value
of the last argument.

One can just insert @samp{(print '<proc-name>} and @samp{)} around an
expression in order to see its value as a program operates.
@end deffn

@deffn Syntax print-args name1 @dots{}
Writes @var{name1} @dots{} (separated by spaces) and then writes the
values of the closest lexical bindings enclosing the call to
@code{Print-args}.

@example
(define (foo a b) (print-args foo) (+ a b))
(foo 3 6)
@print{} In foo: a = 3; b = 6; 
@result{} 9
@end example
@end deffn

@noindent
Sometimes more elaborate measures are needed to print values in a useful
manner.  When the values to be printed may have very large (or infinite)
external representations, @ref{Quick Print, , , slib, SLIB}, can be
used.

When @code{trace} is not sufficient to find program flow problems,
@ifset html
<A HREF="http://www.cs.tut.fi/staff/pk/scheme/psd/article/article.html">
@end ifset
SLIB-PSD, the Portable Scheme Debugger
@ifset html
</A>
@end ifset
offers source code debugging from
GNU Emacs.  PSD runs slowly, so start by instrumenting only a few
functions at a time.
@lisp
ftp-swiss.ai.mit.edu:pub/scm/slib-psd1-3.tar.gz
prep.ai.mit.edu:pub/gnu/jacal/slib-psd1-3.tar.gz
ftp.maths.tcd.ie:pub/bosullvn/jacal/slib-psd1-3.tar.gz
ftp.cs.indiana.edu:/pub/scheme-repository/utl/slib-psd1-3.tar.gz
@end lisp


@node Errors, Memoized Expressions, Debugging Scheme Code, Operational Features
@section Errors

@noindent
A computer-language implementation designer faces choices of how
reflexive to make the implementation in handling exceptions and errors;
that is, how much of the error and exception routines should be written
in the language itself.  The design of a portable implementation is
further constrained by the need to have (almost) all errors print
meaningful messages, even when the implementation itself is not
functioning correctly.  Therefore, SCM implements much of its error
response code in C.

@noindent
The following common error and conditions are handled by C code.  Those
with callback names after them can also be handled by Scheme code
(@pxref{Interrupts}).  If the callback identifier is not defined at top
level, the default error handler (C code) is invoked.  There are many
other error messages which are not treated specially.

@enumerate 0
@item
Wrong type in arg 0
@item
Wrong type in arg 1
@item
Wrong type in arg 2
@item
Wrong type in arg 3
@item
Wrong type in arg 4
@item
Wrong type in arg 5
@item
Wrong number of args
@item
numerical overflow
@item
Argument out of range
@item
Could not allocate @code{(out-of-storage)}
@item
EXIT @code{(end-of-program)}
@item
hang up @code{(hang-up)}
@item
user interrupt @code{(user-interrupt)}
@item
arithmetic error @code{(arithmetic-error)}
@item
bus error
@item
segment violation
@item
alarm @code{(alarm-interrupt)}
@end enumerate

@defvar errobj
When SCM encounters a non-fatal error, it aborts evaluation of the
current form, prints a message explaining the error, and resumes the top
level read-eval-print loop.  The value of @var{errobj} is the offending
object if appropriate.  The builtin procedure @code{error} does
@emph{not} set @var{errobj}.
@end defvar

@noindent
@code{errno} and @code{perror} report ANSI C errors encountered during a
call to a system or library function.

@defun errno
@defunx errno n
With no argument returns the current value of the system variable
@code{errno}.  When given an argument, @code{errno} sets the system
variable @code{errno} to @var{n} and returns the previous value of
@code{errno}.  @code{(errno 0)} will clear outstanding errors.  This is
recommended after @code{try-load} returns @code{#f} since this occurs
when the file could not be opened.
@end defun

@defun perror string
Prints on standard error output the argument @var{string}, a colon,
followed by a space, the error message corresponding to the current
value of @code{errno} and a newline.  The value returned is unspecified.
@end defun

@noindent
@code{warn} and @code{error} provide a uniform way for Scheme code to
signal warnings and errors.

@defun warn arg1 arg2 arg3 @dots{}
Alias for @ref{System, slib:warn, , slib, SLIB}.  Outputs an error
message containing the arguments.  @code{warn} is defined in
@file{Init.scm}.
@end defun

@defun error arg1 arg2 arg3 @dots{}
Alias for @ref{System, slib:error, , slib, SLIB}.  Outputs an error
message containing the arguments, aborts evaluation of the current form
and resumes the top level read-eval-print loop.  @code{Error} is defined
in @file{Init.scm}.
@end defun

@noindent
If SCM is built with the @samp{CAUTIOUS} flag, then when an error
occurs, a @dfn{stack trace} of certain pending calls are printed as part
of the default error response.  A (memoized) expression and newline are
printed for each partially evaluated combination whose procedure is not
builtin.  @xref{Memoized Expressions} for how to read memoized
expressions.

@noindent
Also as the result of the @samp{CAUTIOUS} flag, both @code{error} and
@code{user-interrupt} (invoked by @key{C-c}) are defined to print stack
traces and conclude by calling @code{breakpoint} (@pxref{Breakpoints, ,
, slib, SLIB}).  This allows the user to interract with SCM as with Lisp
systems.

@defun stack-trace
Prints information describing the stack of partially evaluated
expressions.  @code{stack-trace} returns @code{#t} if any lines were
printed and @code{#f} otherwise.  See @file{Init.scm} for an example of
the use of @code{stack-trace}.
@end defun

@node Memoized Expressions, Internal State, Errors, Operational Features
@section Memoized Expressions

@noindent
SCM memoizes the address of each occurence of an identifier's value when
first encountering it in a source expression.  Subsequent executions of
that memoized expression is faster because the memoized reference
encodes where in the top-level or local environment its value is.

@noindent
When procedures are displayed, the memoized locations appear in a format
different from references which have not yet been executed.  I find this
a convenient aid to locating bugs and untested expressions.

@itemize @bullet
@item
The names of memoized lexically bound identifiers are replaced with
@r{#@@}@i{<m>}@r{-}@i{<n>}, where @i{<m>} is the number of binding
contours back and @i{<n>} is the index of the value in that
binding countour.
@item
The names of identifiers which are not lexiallly bound but defined at
top-level have @r{#@@} prepended.
@end itemize

@noindent
For instance, @code{open-input-file} is defined as follows in
@file{Init.scm}:

@example
(define (open-input-file str)
  (or (open-file str OPEN_READ)
      (and (procedure? could-not-open) (could-not-open) #f)
      (error "OPEN-INPUT-FILE couldn't open file " str)))
@end example

@noindent
If @code{open-input-file} has not yet been used, the displayed procedure
is similar to the original definition (lines wrapped for readability):

@example
open-input-file @result{}
#<CLOSURE (str) (or (open-file str open_read)
 (and (procedure? could-not-open) (could-not-open) #f)
 (error "OPEN-INPUT-FILE couldn't open file " str))>
@end example

@noindent
If we open a file using @code{open-input-file}, the sections of code
used become memoized:

@example
(open-input-file "r4rstest.scm") @result{} #<input-port 3>
open-input-file @result{}
#<CLOSURE (str) (#@@or (#@@open-file #@@0+0 #@@open_read)
 (and (procedure? could-not-open) (could-not-open) #f)
 (error "OPEN-INPUT-FILE couldn't open file " str))>
@end example

@noindent
If we cause @code{open-input-file} to execute other sections of code,
they too become memoized:

@example
(open-input-file "foo.scm") @result{}

ERROR: No such file or directory
ERROR: OPEN-INPUT-FILE couldn't open file  "foo.scm"

open-input-file @result{}
#<CLOSURE (str) (#@@or (#@@open-file #@@0+0 #@@open_read)
 (#@@and (#@@procedure? #@@could-not-open) (could-not-open) #f)
 (#@@error "OPEN-INPUT-FILE couldn't open file " #@@0+0))>
@end example


@node Internal State, Shell Scripts, Memoized Expressions, Operational Features
@section Internal State

@defvar *interactive*
The variable @var{*interactive*} determines whether the SCM session is
interactive, or should quit after the command line is processed.
@var{*interactive*} is controlled directly by the command-line options
@samp{-b}, @samp{-i}, and @samp{-s} (@pxref{Invoking SCM}).  If none of
these options are specified, the rules to determine interactivity are
more complicated; see @file{Init.scm} for details.
@end defvar

@defun abort
Resumes the top level Read-Eval-Print loop.
@end defun

@defun restart
Restarts the SCM program with the same arguments as it was originally
invoked.  All @samp{-l} loaded files are loaded again; If those files
have changed, those changes will be reflected in the new session.

@emph{Note:} When running a saved executable (@pxref{Dump}),
@code{restart} is redefined to be @code{exec-self}.
@end defun

@defun exec-self
Exits and immediately re-invokes the same executable with the same
arguments.  If the executable file has been changed or replaced since
the beginning of the current session, the @emph{new} executable will be
invoked.  This differentiates @code{exec-self} from @code{restart}.
@end defun

@defun verbose n
Controls how much monitoring information is printed.
If @var{n} is:

@table @asis
@item 0
no prompt or information is printed.
@item >= 1
a prompt is printed.
@item >= 2
the CPU time is printed after each top level form evaluated.
@item >= 3
messages about heap growth are printed.
@item >= 4
garbage collection (@pxref{Garbage Collection}) messages are printed.
@item >= 5
a warning will be printed for each top-level symbol which is defined
more than one time.
@end table
@end defun

@defun gc
Scans all of SCM objects and reclaims for further use those that are
no longer accessible.
@end defun

@defun room
@defunx room #t
Prints out statistics about SCM's current use of storage.  @code{(room #t)}
also gives the hexadecimal heap segment and stack bounds.
@end defun

@defvr Constant *scm-version*
Contains the version string (e.g. @file{5b3}) of SCM.
@end defvr

@subsection Executable path

@noindent
In order to dump a saved executable or to dynamically-link using DLD,
SCM must know where its executable file is.  Sometimes SCM
(@pxref{Executable Pathname}) guesses incorrectly the location of the
currently running executable.  In that case, the correct path can be set
by calling @code{execpath} with the pathname.

@defun execpath
Returns the path (string) which SCM uses to find the executable file
whose invocation the currently running session is, or #f if the path is
not set.
@defunx execpath #f
@defunx execpath newpath
Sets the path to @code{#f} or @var{newpath}, respectively.  The old path
is returned.
@end defun

@noindent
For other configuration constants and procedures @xref{Configuration, ,
, slib, SLIB}.


@node Shell Scripts,  , Internal State, Operational Features
@section Shell Scripts

@menu
* Unix Shell Scripts::          Same old same old
* SCSH scripts::                From Olin Shivers' Scheme Shell
* MS-DOS Compatible Scripts::   Run under both MS-DOS and Unix
@end menu

@node Unix Shell Scripts, SCSH scripts, Shell Scripts, Shell Scripts
@subsection Unix Shell Scripts

@noindent
In reading this section, keep in mind that the first line of a script
file has (different) meanings to SCM and the operating system
(@code{execve}).

@deftp file #! interpreter
@deftpx file #! interpreter arg

@tindex Shell Script
@tindex Shell-Script
On unix systems, a @dfn{Shell-Script} is a file (with execute
permissions) whose first two characters are @samp{#!}.  The
@var{interpreter} argument must be the pathname of the program to
process the rest of the file.  The directories named by environment
variable @code{PATH} are @emph{not} searched to find @var{interpreter}.
The @var{arg} is an optional argument encapsulating the rest of the
first line's contents, if not just whitespace.

When executing a shell-script, the operating system invokes
@var{interpreter} with (if present) @var{arg}, the pathname of the shell
script file, and then any arguments which the shell-script was invoked
with.
@end deftp

@deffn {Read syntax} #! ignored
When the first two characters of the file being loaded are @code{#!},
the first line of that file will be ignored.
@end deffn

@noindent
This combination of interpretatons allows SCM source files to be used as
POSIX shell-scripts if the first line is:

@example
#!/usr/local/bin/scm
@end example
or
@example
#!/usr/local/bin/scm -l
@end example

@noindent
When such a file is invoked, /usr/local/bin/scm is executed with the
name of this file as the first argument.
@example
#!/usr/local/bin/scm
(print (program-arguments))
(quit)
@result{} ("scm" "./script")
@end example

@example
#!/usr/local/bin/scm -l
(print (program-arguments))
@result{} ("scm" "-l" "./script")
@end example

@noindent
The following shell-script will print factorial of its argument:
@example
#!/usr/local/bin/scm -l
(define (fact n) (if (< n 2) 1 (* n (fact (+ -1 n)))))
(print (fact (string->number (cadddr (program-arguments)))))
@end example

@example
./fact 6
@result{} 720 
@end example

@noindent
Shell-scripts suffer from several drawbacks:
@itemize @bullet
@item
Some Unixes limit the length of the @samp{#!} interpreter line to the
size of an object file header, which can be as small as 32 bytes.
@item
A full, explicit pathname must be specified, perhaps requiring more than
32 bytes and making scripts vulnerable to breakage when programs are
moved.
@item
At most one argument is parsed from the first line of the shell-script.
Its position is fixed between the interpreter and any command line
arguments.
@end itemize

@noindent
The following approach solves these problems at the expense of slower
startup.  Make @samp{#!/bin/sh} the first line and prepend every
subsequent line to be executed by the shell with @code{:;} (@code{type;}
in older versions).  The last line to be executed by the shell should
contain an @dfn{exec} command; @code{exec} tail-calls its argument.

@noindent
@code{/bin/sh} is thus invoked with the name of the script file, which
it executes as a *sh script.  Usually the second line starts
@samp{:;exec scm -f$0}, which executes scm, which in turn loads the
script file.  When SCM loads the script file, it ignores the first and
second lines, and evaluates the rest of the file as Scheme source code.

@noindent
The second line of the script file does not have the length restriction
mentioned above.  Also, @code{/bin/sh} searches the directories listed
in the `PATH' environment variable for @samp{scm}, eliminating the need
to use absolute locations in order to invoke a program.

@example
#!/bin/sh
:;exec scm -l$0 $*
(define (fact n) (if (< n 2) 1 (* n (fact (+ -1 n)))))
(print (fact (string->number (caddr (program-arguments)))))
@end example

@example
./fact 6
@result{} 720 
@end example

@node SCSH scripts, MS-DOS Compatible Scripts, Unix Shell Scripts, Shell Scripts
@subsection SCSH scripts

@noindent
Olin Shivers' @dfn{Scheme Shell} project solves the one-argument
limitation by introducing @samp{\} as a @dfn{meta-argument}.  This
extensions is also supported by SCM.

@deftp file #! interpreter \

@tindex Shell Script
@tindex shell-script
@tindex meta-argument
This is an enhancement to the shell-script format.  When the optional
@var{arg} is @samp{\}, the @var{interpreter} substitutes the second
line of @var{file} for @samp{\}, then appends any arguments given on
the command line invoking this shell-script.
@end deftp

@deffn {Read syntax} #! ignored !#
When the first two characters of the file being loaded are @code{#!} and
a @samp{\} is present before a newline in the file, all characters up
to @samp{!#} will be ignored by SCM @code{read}.
@end deffn

@noindent
This combination of interpretatons allows SCM source files to be used as
POSIX shell-scripts if the first line is:

@example
#!/usr/local/bin/scm \
@end example

@noindent
The following shell-script will print its expanded argument list, then
factorial of its argument:

@example
#!/usr/local/bin/scm \
  -p0 -l !#
(print (program-arguments))
(define (fact n) (if (< n 2) 1 (* n (fact (+ -1 n)))))
(print (fact (string->number (list-ref (program-arguments) *optind*))))
@end example

@example
./fact 5
@result{} ("scm" "-p0" "-l" "./fact" "5") 
120 
@end example


@node MS-DOS Compatible Scripts,  , SCSH scripts, Shell Scripts
@subsection MS-DOS Compatible Scripts

@noindent
It turns out that we can create shell-scripts which run both under unix
and MS-DOS.  To implement this, I have written the MS-DOS programs:
@code{#!.bat} and @code{!#.exe}.
@pindex !#
@pindex !#.exe
@pindex #!
@pindex #!.bat

@noindent
With these two programs installed in a @code{PATH} directory, we have
the following syntax for @var{<program>.BAT} files.

@deftp file #! interpreter \ %0 %1 %2 %3 %4 %5 %6 %7 %8

@tindex Shell Script
@tindex shell-script
The first two characters of the shell-script are @samp{#!}.  The
@var{interpreter} can be either a unix style program path (using
@samp{/} between filename components) or a DOS program name or path.
The rest of the first line of the shell-script should be literally
@samp{\ %0 %1 %2 %3 %4 %5 %6 %7 %8}, as shown.

If @var{interpreter} has @samp{/} in it, @var{interpreter} is converted
to a DOS style filename (@samp{/} @result{} @samp{\}).

In looking for an executable named @var{interpreter}, @code{#!} first
checks this (converted) filename; if @var{interpreter} doesn't exist, it
then tries to find a program named like the string starting after the
last @samp{\} (or @samp{/}) in @var{interpreter}.  When searching for
executables, @code{#!} tries all directories named by environment
variable @code{PATH}.

Once the @var{interpreter} executable path is found, arguments are
processed in the manner of scheme-shell, with the all the text after the
@samp{\} taken as part of the meta-argument.  More precisely, @code{#!}
calls @var{interpreter} with any options on the second line of the
shell-script up to @samp{!#}, the name of the shell-script file, and
then any of at most 8 arguments given on the command line invoking this
shell-script.
@end deftp

@noindent
The following shell-script will print its expanded argument list, then
factorial of its argument.  This shell-script in both MS-DOS and unix
systems.

@example
#! /usr/local/bin/scm \ %0 %1 %2 %3 %4 %5 %6 %7 %8
 -p1 -l !#
(print (program-arguments))
(define (fact n) (if (< n 2) 1 (* n (fact (+ -1 n)))))
(print (fact (string->number (list-ref (program-arguments) *optind*))))
@end example


@node The Language, Packages, Operational Features, Top
@chapter The Language

@menu
* Standards Compliance::        Links to sections in [R4RS] and [SLIB]
* Miscellaneous Procedures::    
* Time::                        Both real time and processor time
* Interrupts::                  and exceptions
* Process Synchronization::     Because interrupts are preemptive
* Files and Ports::             
* Soft Ports::                  Emulate I/O devices
* Syntax Extensions::           
* Low Level Syntactic Hooks::   
* Syntactic Hooks for Hygienic Macros::  
@end menu

@node Standards Compliance, Miscellaneous Procedures, The Language, The Language
@section Standards Compliance

@noindent
Scm conforms to the
@ifset html
[IEEE],
@end ifset
@cite{IEEE Standard 1178-1990.  IEEE Standard for the Scheme Programming
Language.}
@ifclear html
(@pxref{Bibliography}),
@end ifclear
and
@ifset html
[R4RS], <A HREF="r4rs_toc.html">
@end ifset
@cite{Revised(4) Report on the Algorithmic Language Scheme}.
@ifset html
</A>
@end ifset
@ifinfo
@ref{Top, , , r4rs, Revised(4) Report on the Algorithmic Language
Scheme}.
@end ifinfo
All the required features of these specifications are supported.
Many of the optional features are supported as well.

@subheading Optionals of [R4RS] Supported by SCM

@table @asis
@item two clause @code{if}: @code{(if <test> <consequent>)}
@xref{Conditionals, , , r4rs, Revised(4) Scheme}.
@item @code{let*}
@itemx named @code{let}
@xref{Binding constructs, , , r4rs, Revised(4) Scheme}.
@item @code{do}
@xref{Iteration, , , r4rs, Revised(4) Scheme}.
@item All varieties of @code{define}
@xref{Definitions, , , r4rs, Revised(4) Scheme}.
@item @code{list-tail}
@xref{Pairs and lists, , , r4rs, Revised(4) Scheme}.
@item @code{string-copy}
@itemx @code{string-fill!}
@xref{Strings, , , r4rs, Revised(4) Scheme}.
@item @code{make-vector} of two arguments
@itemx @code{vector-fill!}
@xref{Vectors, , , r4rs, Revised(4) Scheme}.
@item @code{apply} of more than 2 arguments
@xref{Control features, , , r4rs, Revised(4) Scheme}.
@item @code{-} and @code{/} of more than 2 arguments
@itemx @code{exp}
@itemx @code{log}
@itemx @code{sin}
@itemx @code{cos}
@itemx @code{tan}
@itemx @code{asin}
@itemx @code{acos}
@itemx @code{atan}
@itemx @code{sqrt}
@itemx @code{expt}
@itemx @code{make-rectangular}
@itemx @code{make-polar}
@itemx @code{real-part}
@itemx @code{imag-part}
@itemx @code{magnitude}
@itemx @code{angle}
@itemx @code{exact->inexact}
@itemx @code{inexact->exact}
@xref{Numerical operations, , , r4rs, Revised(4) Scheme}.
@item @code{delay}
@itemx @code{force}
@xref{Control features, , , r4rs, Revised(4) Scheme}.
@itemx @code{with-input-from-file}
@itemx @code{with-output-to-file}
@xref{Ports, , , r4rs, Revised(4) Scheme}.
@itemx @code{char-ready?}
@xref{Input, , , r4rs, Revised(4) Scheme}.
@itemx @code{transcript-on}
@itemx @code{transcript-off}
@xref{System interface, , , r4rs, Revised(4) Scheme}.
@end table

@subheading Optionals of [R4RS] not Supported by SCM

@table @asis
@item @code{numerator}
@itemx @code{denominator}
@itemx @code{rationalize}
@xref{Numerical operations, , , r4rs, Revised(4) Scheme}.
@item [R4RS] appendix Macros
@xref{Macros, , , r4rs, Revised(4) Scheme}.
@end table

@subheading [SLIB] Features of SCM and SCMLIT

@table @code
@item delay
@itemx full-continuation
@itemx ieee-p1178
@itemx object-hash
@itemx rev4-report
@itemx source
See SLIB file @file{Template.scm}.
@item current-time
@xref{Time, , , slib, SLIB}.
@item defmacro
@xref{Defmacro, , , slib, SLIB}.
@item dynamic-wind
@xref{Dynamic-Wind, , , slib, SLIB}.
@item eval
@xref{System, , , slib, SLIB}.
@item getenv
@itemx system
@xref{System Interface, , , slib, SLIB}.
@item hash
@xref{Hashing, , , slib, SLIB}.
@item logical
@xref{Bit-Twiddling, , , slib, SLIB}.
@item multiarg-apply
@xref{Multi-argument Apply, , , slib, SLIB}.
@item multiarg/and-
@xref{Multi-argument / and -, , , slib, SLIB}.
@item rev4-optional-procedures
@xref{Rev4 Optional Procedures, , , slib, SLIB}.
@item string-port
@xref{String Ports, , , slib, SLIB}.
@item tmpnam
@xref{Input/Output, , , slib, SLIB}.
@item transcript
@xref{Transcripts, , , slib, SLIB}.
@item vicinity
@xref{Vicinity, , , slib, SLIB}.
@item with-file
@xref{With-File, , , slib, SLIB}.
@end table

@subheading [SLIB] Features of SCM

@table @code
@item array
@xref{Arrays, , , slib, SLIB}.
@item array-for-each
@xref{Array Mapping, , , slib, SLIB}.
@item bignum
@itemx complex
@itemx inexact
@itemx rational
@itemx real
@xref{Require, , , slib, SLIB}.
@end table

@node Miscellaneous Procedures, Time, Standards Compliance, The Language
@section Miscellaneous Procedures

@defun try-load filename
If the string @var{filename} names an existing file, the try-load
procedure reads Scheme source code expressions and definitions from the
file and evaluates them sequentially and returns @code{#t}.  If not,
try-load returns @code{#f}.  The try-load procedure does not affect the
values returned by @code{current-input-port} and
@code{current-output-port}.
@end defun

@defvar *load-pathname*
Is set to the pathname given as argument to @code{load},
@code{try-load}, and @code{dyn:link} (@pxref{Compiling And Linking}).
@code{*load-pathname*} is used to compute the value of @ref{Vicinity,
program-vicinity, , slib, SLIB}.
@end defvar

@defun line-number
Returns the current line number of the file currently being loaded.
@end defun

@defun eval obj
Alias for @ref{System, eval, , slib, SLIB}.
@end defun

@defun eval-string str
Returns the result of reading an expression from @var{str} and
evaluating it.  @code{eval-string} does not change
@code{*load-pathname*} or  @code{line-number}.
@end defun

@defun load-string str
Reads and evaluates all the expressions from @var{str}.  As with
@code{load}, the value returned is unspecified.  @code{eval-string} does
not change @code{*load-pathname*} or @code{line-number}.
@end defun

@defun vector-set-length! object length
Change the length of string, vector, bit-vector, or uniform-array
@var{object} to @var{length}.  If this shortens @var{object} then the
remaining contents are lost.  If it enlarges @var{object} then the
contents of the extended part are undefined but the original part is
unchanged.  It is an error to change the length of literal datums.  The
new object is returned.
@end defun

@defun copy-tree obj
@defunx @@copy-tree obj
@xref{Tree Operations, copy-tree, , slib, SLIB}.  This extends the SLIB
version by also copying vectors.  Use @code{@@copy-tree} if you
depend on this feature; @code{copy-tree} could get redefined.
@end defun

@defun acons obj1 obj2 obj3
Returns (cons (cons obj1 obj2) obj3).  The expression (set! a-list
(acons key datum a-list)) adds a new association to a-list.
@end defun

@defun terms
This command displays the GNU General Public License.
@end defun

@defun list-file filename
Displays the text contents of @var{filename}.
@end defun

@deffn Procedure print arg1 @dots{}
@code{Print} writes all its arguments, separated by spaces.
@code{Print} outputs a @code{newline} at the end and returns the value
of the last argument.
@end deffn

@node Time, Interrupts, Miscellaneous Procedures, The Language
@section Time

@defvr Constant internal-time-units-per-second

Is the integer number of internal time units in a second.
@end defvr

@defun get-internal-run-time
Returns the integer run time in internal time units from an unspecified
starting time.  The difference of two calls to
@code{get-internal-run-time} divided by
@code{internal-time-units-per-second} will give elapsed run time in
seconds.
@end defun

@defun get-internal-real-time
Returns the integer time in internal time units from an unspecified
starting time.  The difference of two calls to
@code{get-internal-real-time} divided by
@code{interal-time-units-per-second} will give elapsed real time in
seconds.
@end defun

@defun current-time
Returns the time since 00:00:00 GMT, January 1, 1970, measured in
seconds.  @xref{Time, current-time, , slib, SLIB}.  @code{current-time} is
used in @ref{Time, , , slib, SLIB}.
@end defun

@node Interrupts, Process Synchronization, Time, The Language
@section Interrupts

@defun ticks n
Returns the number of ticks remaining till the next tick interrupt.
Ticks are an arbitrary unit of evaluation.  Ticks can vary greatly in
the amount of time they represent.

If @var{n} is 0, any ticks request is canceled.  Otherwise a
@code{ticks-interrupt} will be signaled @var{n} from the current time.
@code{ticks} is supported if SCM is compiled with the @code{ticks} flag
defined.
@end defun

@deffn {Callback procedure} ticks-interrupt @dots{}
Establishes a response for tick interrupts.  Another tick interrupt will
not occur unless @code{ticks} is called again.  Program execution will
resume if the handler returns.  This procedure should (abort) or some
other action which does not return if it does not want processing to
continue.
@end deffn

@defun alarm secs
Returns the number of seconds remaining till the next alarm interrupt.
If @var{secs} is 0, any alarm request is canceled.  Otherwise an
@code{alarm-interrupt} will be signaled @var{secs} from the current
time.  ALARM is not supported on all systems.
@end defun

@deffn {Callback procedure} user-interrupt @dots{}
@deffnx {Callback procedure} alarm-interrupt @dots{}
Establishes a response for @code{SIGINT} (control-C interrupt) and
@code{SIGALRM} interrupts.  Program execution will resume if the handler
returns.  This procedure should @code{(abort)} or some other action
which does not return if it does not want processing to continue after
it returns.

Interrupt handlers are disabled during execution @code{system} and
@code{ed} procedures.

To unestablish a response for an interrupt set the handler symbol to
@code{#f}.  For instance, @code{(set! user-interrupt #f)}.
@end deffn

@deffn {Callback procedure} out-of-storage @dots{}
@deffnx {Callback procedure} could-not-open @dots{}
@deffnx {Callback procedure} end-of-program @dots{}
@deffnx {Callback procedure} hang-up @dots{}
@deffnx {Callback procedure} arithmetic-error @dots{}
Establishes a response for storage allocation error, file opening
error, end of program, SIGHUP (hang up interrupt) and arithmetic
errors respectively.  This procedure should (abort) or some other
action which does not return if it does not want the default error
message to also be displayed.  If no procedure is defined for @var{hang-up}
then @var{end-of-program} (if defined) will be called.

To unestablish a response for an error set the handler symbol to
@code{#f}.  For instance, @code{(set! could-not-open #f)}.
@end deffn

@node Process Synchronization, Files and Ports, Interrupts, The Language
@section Process Synchronization

@defun make-arbiter name

Returns an object of type arbiter and name @var{name}.  Its state is
initially unlocked.
@end defun

@defun try-arbiter arbiter

Returns @code{#t} and locks @var{arbiter} if @var{arbiter} was unlocked.
Otherwise, returns @code{#f}.
@end defun

@defun release-arbiter arbiter

Returns @code{#t} and unlocks @var{arbiter} if @var{arbiter} was locked.
Otherwise, returns @code{#f}.
@end defun

@node Files and Ports, Soft Ports, Process Synchronization, The Language
@section Files and Ports

@noindent
These procedures generalize and extend the standard capabilities in
@ref{Ports, , ,r4rs, Revised(4) Scheme}.

@defun open-file string modes
Returns a port capable of receiving or delivering characters as
specified by the @var{modes} string.  If a file cannot be opened
@code{#f} is returned.
@end defun

@defvr Constant open_read
@defvrx Constant open_write
@defvrx Constant open_both
Contain modes strings specifying that a file is to be opened for
reading, writing, and both reading and writing respectively.
@end defvr

@defun _ionbf modestr
Returns a version of modestr which when open-file is called with it as
the second argument will return an unbuffered port.  A non-file
input-port must be unbuffered in order for char-ready? to work correctly
on it.  The initial value of (current-input-port) is unbuffered if the
platform supports it.
@end defun

@defun close-port port
Closes @var{port}.  The same as close-input-port and close-output-port.
@end defun

@defun open-io-file filename
@defunx close-io-port port
These functions are analogous to the standard scheme file functions.
The ports are open to @var{filename} in read/write mode.  Both input and
output functions can be used with io-ports.  An end of file must be read
or a file-set-position done on the port between a read operation and a
write operation or vice-versa.
@end defun

@defun current-error-port
Returns the current port to which diagnostic output is directed.
@end defun

@defun with-error-to-file string thunk
@var{thunk} must be a procedure of no arguments, and string must be a
string naming a file.  The file is opened for output, an output port
connected to it is made the default value returned by
current-error-port, and the @var{thunk} is called with no arguments.  When
the thunk returns, the port is closed and the previous default is
restored.  With-error-to-file returns the value yielded by @var{thunk}.
@end defun

@defun with-input-from-port port thunk
@defunx with-output-to-port port thunk
@defunx with-error-to-port port thunk
These routines differ from with-input-from-file, with-output-to-file,
and with-error-to-file in that the first argument is a port, rather
than a string naming a file.
@end defun

@deffn {procedure} char-ready?
@deffnx {procedure} char-ready? port

Returns @code{#t} if a character is ready on the input @var{port} and
returns @code{#f} otherwise.  If @code{char-ready?} returns @code{#t}
then
@findex char-ready
the next @code{read-char} operation on the given @var{port} is
guaranteed
@findex read-char
not to hang.  If the @var{port} is at end of file then
@code{char-ready?} returns @code{#t}.
@findex char-ready?
@var{Port} may be omitted, in which case it defaults to
the value returned by @code{current-input-port}.
@findex current-input-port

@emph{Rationale:}  @code{Char-ready?} exists to make it possible for a program to
@findex char-ready?
accept characters from interactive ports without getting stuck waiting
for input.  Any input editors associated with such ports must ensure
that characters whose existence has been asserted by @code{char-ready?}
@findex char-ready?
cannot be rubbed out.  If @code{char-ready?} were to return @code{#f} at
end of file, a port at end of file would be indistinguishable from an
interactive port that has no ready characters.
@c end rationale
@end deffn


@node Soft Ports, Syntax Extensions, Files and Ports, The Language
@section Soft Ports

@noindent
A @dfn{soft-port} is a port based on a vector of procedures capable of
accepting or delivering characters.  It allows emulation of I/O ports.

@defun make-soft-port vector modes
Returns a port capable of receiving or delivering characters as
specified by the @var{modes} string (@pxref{Files and Ports,
open-file}).  @var{vector} must be a vector of length 6.  Its components
are as follows:

@enumerate 0
@item
procedure accepting one character for output
@item
procedure accepting a string for output
@item
thunk for flushing output
@item
thunk for getting one character
@item
thunk for closing port (not by garbage collection)
@end enumerate

For an output-only port only elements 0, 1, 2, and 4 need be
procedures.  For an input-only port only elements 3 and 4 need be
procedures.  Thunks 2 and 4 can instead be @code{#f} if there is no useful
operation for them to perform.

If thunk 3 returns @code{#f} or an @code{eof-object} (@pxref{Input,
eof-object?, ,r4rs, Revised(4) Scheme}) it indicates that the port has
reached end-of-file.  For example:

@example
(define stdout (current-output-port))
(define p (make-soft-port
           (vector
            (lambda (c) (write c stdout))
            (lambda (s) (display s stdout))
            (lambda () (display "." stdout))
            (lambda () (char-upcase (read-char)))
            (lambda () (display "@@" stdout)))
           "rw"))

(write p p) @result{} #<input-output-soft#\space45d10#\>
@end example
@end defun

@node Syntax Extensions, Low Level Syntactic Hooks, Soft Ports, The Language
@section Syntax Extensions

@deffn {procedure} procedure-documentation proc
Returns the documentation string of @var{proc} if it exists, or
@code{#f} if not.

If the body of a @code{lambda} (or the definition of a procedure) has
more than one expression, and the first expression (preceeding any
internal definitions) is a string, then that string is the
@dfn{documentation string} of that procedure.
@cindex documentation string

@example
(procedure-documentation (lambda (x) "Identity" x)) @result{} "Identity"
(define (square x)
    "Return the square of X."
    (* x x))
@result{} #<unspecified>
(procedure-documentation square) @result{} "Return the square of X."
@end example
@end deffn

@deffn {Read syntax} #. expression
Is read as the object resulting from the evaluation of @var{expression}.
This substitution occurs even inside quoted structure.

In order to allow compiled code to work with @code{#.} it is good
practice to define those symbols used inside of @var{expression} with
@code{#.(define @dots{})}.  For example:

@example
#.(define foo 9)                        @result{} #<unspecified>
'(#.foo #.(+ foo foo))                  @result{} (9 18)
@end example
@end deffn

@deffn {Read syntax} #+ feature form
If feature is @code{provided?} (by @code{*features*}) then @var{form} is
read as a scheme expression.  If not, then @var{form} is treated as
whitespace.

Feature is a boolean expression composed of symbols and @code{and},
@code{or}, and @code{not} of boolean expressions.

For more information on @code{provided?} and @code{*features*},
@xref{Require, , , slib, SLIB}.
@end deffn

@deffn {Read syntax} #- feature form
is equivalent to @code{#+(not feature) expression}.
@end deffn

@deffn {Read syntax} #' form
is equivalent to @var{form} (for compatibility with common-lisp).
@end deffn

@deffn {Read syntax} #| any thing |#
Is a balanced comment.  Everything up to the matching @code{|#} is
ignored by the @code{read}.  Nested @code{#|@dots{}|#} can occur inside
@var{any thing}.
@end deffn

@noindent
A similar read syntax @dfn{#!} (exclamation rather than vertical bar) is
supported for Posix shell-scripts (@pxref{Shell Scripts}).

@defspec defined? symbol
Equivalent to @code{#t} if @var{symbol} is a syntactic keyword (such as
@code{if}) or a symbol with a value in the top level environment
(@pxref{Variables and regions, , ,r4rs, Revised(4) Scheme}).  Otherwise
equivalent to @code{#f}.
@end defspec

@defspec defvar identifier initial-value
If @var{identifier} is unbound in the top level environment, then
@var{identifier} is @code{define}d to the result of evaluating the form
@var{initial-value} as if the @code{defvar} form were instead the form
@code{(define identifier initial-value)} .  If @var{identifier} already
has a value, then @var{initial-value} is @emph{not} evaluated and
@var{identifier}'s value is not changed.
@end defspec

@noindent
SCM also supports the following constructs from Common Lisp:
@code{defmacro}, @code{macroexpand}, @code{macroexpand-1}, and
@code{gentemp}.  @xref{Defmacro, , , slib, SLIB}.


@node Low Level Syntactic Hooks, Syntactic Hooks for Hygienic Macros, Syntax Extensions, The Language
@section Low Level Syntactic Hooks

@deffn {Callback procedure} read:sharp c port
If a @key{#} followed by a character (for a non-standard syntax) is
encountered by @code{read}, @code{read} will call the value of the
symbol @code{read:sharp} with arguments the character and the port being
read from.  The value returned by this function will be the value of
@code{read} for this expression unless the function returns
@code{#<unspecified>} in which case the expression will be treated as
whitespace.  @code{#<unspecified>} is the value returned by the
expression @code{(if #f #f)}.

@emph{Note:} When adding new @key{#} syntaxes, have your code save the
previous value of @code{read:sharp} when defining it.  Call this saved
value if an invocation's syntax is not recognized.  This will allow
@code{#+}, @code{#-}, @code{#!}, and @ref{Uniform Array}s to still be
supported (as they use @code{read:sharp}).
@end deffn

@defun procedure->syntax proc
Returns a @dfn{macro} which, when a symbol defined to this value appears
as the first symbol in an expression, returns the result of applying
@var{proc} to the expression and the environment.
@end defun

@defun procedure->macro proc
@defunx procedure->memoizing-macro proc
Returns a @dfn{macro} which, when a symbol defined to this value appears
as the first symbol in an expression, evaluates the result of applying
@var{proc} to the expression and the environment.  The value returned
from @var{proc} which has been passed to
@code{PROCEDURE->MEMOIZING-MACRO} replaces the form passed to
@var{proc}.  For example:

@example
(define trace
  (procedure->macro
   (lambda (x env) `(set! ,(cadr x) (tracef ,(cadr x) ',(cadr x))))))

(trace @i{foo}) @equiv{} (set! @i{foo} (tracef @i{foo} '@i{foo})).
@end example

An @dfn{environment} is a list of @dfn{environment frames}.  There are 2
types of environment frames:

@table @code
@item ((lambda (variable1 @dots{}) @dots{}) value1 @dots{})
@itemx (let ((variable1 value1) (variable2 value2) @dots{}) @dots{})
@itemx (letrec ((variable1 value1)  @dots{}) @dots{})
result in a single enviroment frame:
@example
((variable1 @dots{}) value1 @dots{})
@end example

@item (let ((variable1 value1)) @dots{})
@itemx (let* ((variable1 value1) @dots{}) @dots{})
result in an environment frame for each variable:
@example
(variable1 . value1) (variable2 .  value2) @dots{}
@end example
@end table
@end defun

@defspec @@apply procedure argument-list
Returns the result of applying procedure to argument-list.  (apply
procedure argument-list) will produce the same result.
@end defspec

@defspec @@call-with-current-continuation procedure)
Returns the result of applying @var{procedure} to the current
continuation.  A @dfn{continuation} is a SCM object of type
@code{contin} (@pxref{Continuations}).  The procedure
@code{(call-with-current-continuation @var{procedure})} is defined to
have the same effect as @code{(@@call-with-current-continuation
procedure)}.
@end defspec

@node Syntactic Hooks for Hygienic Macros,  , Low Level Syntactic Hooks, The Language
@section Syntactic Hooks for Hygienic Macros

SCM provides a synthetic identifier type for efficient implementation of
hygienic macros (for example, @code{syntax-rules} @pxref{Macros, , ,
r4rs, Revised(4) Scheme}) A synthetic identifier may be inserted in
Scheme code by a macro expander in any context where a symbol would
normally be used.  Collectively, symbols and synthetic identifiers are
@emph{identifiers}.

@defun identifier? obj
Returns @code{#t} if @var{obj} is a symbol or a synthetic
identifier, and @code{#f} otherwise.
@end defun

If it is necessary to distinguish between symbols and synthetic identifiers,
use the predicate @code{symbol?}.

A synthetic identifier includes two data: a parent, which is an
identifier, and an environment, which is either @code{#f} or a lexical
environment which has been passed to a macro expander
(a procedure passed as an argument to @code{procedure->macro},
@code{procedure->memoizing-macro}, or @code{procedure->syntax}).

@defun renamed-identifier parent env
Returns a synthetic identifier.  @var{parent} must be an identifier, and
@var{env} must either be @code{#f} or a lexical environment passed to a
macro expander.  @code{renamed-identifier} returns a distinct object for
each call, even if passed identical arguments.
@end defun

There is no direct way to access the data internal to a synthetic
identifier, those data are used during variable lookup.  If a synthetic
identifier is inserted as quoted data then during macro expansion it
will be repeatedly replaced by its parent, until a symbol is obtained.

@subsection Use of synthetic identifiers
@code{renamed-identifier} may be used as a replacement for @code{gentemp}:
@lisp
(define gentemp
  (let ((name (string->symbol "An unlikely variable")))
    (lambda ()
      (renamed-identifier name #f))))
@end lisp        

If an identifier returned by this version of @code{gentemp} is inserted
in a binding position as the name of a variable then it is guaranteed
that no other identifier may denote that variable.  If an identifier
returned by @code{gentemp} is inserted free, then it will denote the
top-level value bound to its parent, the symbol named ``An unlikely
variable''.  This behavior, of course, is meant to be put to good use:

@lisp
(define top-level-foo
  (procedure->memoizing-macro
   (lambda (exp env)
     (renamed-identifier 'foo #f))))
@end lisp

Defines a macro which may always be used to refer to the top-level binding
of @code{foo}.

@lisp
(define foo 'top-level)
(let ((foo 'local))
  (top-level-foo))  @result{} top-level
@end lisp

In other words, we can avoid capturing @code{foo}.

If a lexical environment is passed as the second argument to
@code{renamed-identifier} then if the identifier is inserted free
its parent will be looked up in that environment, rather than in 
the top-level environment.  The use of such an identifier @emph{must}
be restricted to the lexical scope of its environment.

There is another restriction imposed for implementation convenience:
Macros passing their lexical environments to @code{renamed-identifier}
may be lexically bound only by the special forms @code{@@let-syntax} or
@code{@@letrec-syntax}.  No error is signaled if this restriction is not
met, but synthetic identifier lookup will not work properly.

@defspec @@let-syntax
@defspecx @@letrec-syntax
Behave as @code{let} and @code{letrec}, but may also put extra
information in the lexical environment so that @code{renamed-identifier}
will work properly during expansion of the macros bound by these forms.
@end defspec

In order to maintain referential transparency it is necessary to
determine whether two identifiers have the same denotation.  With
synthetic identifiers it is not necessary that two identifiers be
@code{eq?} in order to denote the same binding.

@defun identifier-equal? id1 id2 env
Returns @code{#t} if identifiers @var{id1} and @var{id2} denote the same
binding in lexical environment @var{env}, and @code{#f} otherwise.
@var{env} must be a lexical environment passed to a macro transformer
during macro expansion.

For example,
@lisp
(define top-level-foo?
  (procedure->memoizing-macro
   (let ((foo-name (renamed-identifier 'foo #f)))
     (lambda (exp env)
       (identifier-equal? (cadr exp) foo-name env)))))

(top-level-foo? foo)  @result{} #t

(let ((foo 'local))
  (top-level-foo? foo))  @result{} #f
@end lisp
@end defun

@defspec syntax-quote obj
Synthetic identifiers are converted to their parent symbols by @code{quote}
and @code{quasiquote} so that literal data in macro definitions will be
properly transcribed.  @code{syntax-quote} behaves like @code{quote}, but
preserves synthetic identifier intact.
@end defspec

@defspec the-macro mac
@code{the-macro} is the simplest of all possible macro transformers:
@var{mac} may be a syntactic keyword (macro name) or an expression
evaluating to a macro, otherwise an error is signaled.  @var{mac} is
evaluated and returned once only, after which the same memoizied value is
returned.

@code{the-macro} may be used to protect local copies of macros against
redefinition, for example:
@lisp
(@@let-syntax ((let (the-macro let)))
   ;; code that will continue to work even if LET is redefined.
        @dots{})
@end lisp
@end defspec

@node Packages, The Implementation, The Language, Top
@chapter Packages

@menu
* Compiling And Linking::       Hobbit
* Dynamic Linking::             
* Dump::                        Create Fast-Booting Executables
* Numeric::                     Numeric Language Extensions
* Arrays::                      As in APL
* I/O-Extensions::              'i/o-extensions
* Posix Extensions::            'posix
* Regular Expression Pattern Matching::  'regex
* Line Editing::                'edit-line
* Curses::                      Screen Control
* Sockets::                     Cruise the Net
@end menu

@node Compiling And Linking, Dynamic Linking, Packages, Packages
@section Compiling And Linking

@defun compile-file name1 name2 @dots{}
If the HOBBIT compiler is installed in the
@code{(implementation-vicinity)}, compiles the files @var{name1}
@var{name2} @dots{} to an object file name @var{name1}<object-suffix>,
where <object-suffix> is the object file suffix for your computer (for
instance, @file{.o}).  @var{name1} must be in the current directory;
@var{name2} @dots{} can be in other directories.
@end defun

@defun link-named-scm name module1 @dots{}
Creates a new SCM executable with name @var{name}.  @var{name} will
include the object modules @var{module1} @dots{} which can be produced
with @code{compile-file}.

@example
cd ~/scm/
scm -e'(link-named-scm"cute""cube")'
(delete-file "scmflags.h")
(call-with-output-file
  "scmflags.h"
  (lambda (fp)
    (for-each
      (lambda (string) (write-line string fp))
      '("#define IMPLINIT \"/home/jaffer/scm/Init.scm\""
        "#define COMPILED_INITS init_cube();"
        "#define BIGNUMS"
        "#define FLOATS"
        "#define ARRAYS"))))
(system "gcc -Wall -O2 -c continue.c findexec.c time.c
 repl.c scl.c eval.c sys.c subr.c unif.c rope.c scm.c")
@dots{}
scm.c: In function `scm_init_extensions':
scm.c:95: warning: implicit declaration of function `init_cube'
scm.c: In function `scm_cat_path':
scm.c:589: warning: implicit declaration of function `realloc'
scm.c:594: warning: implicit declaration of function `malloc'
scm.c: In function `scm_try_path':
scm.c:612: warning: implicit declaration of function `free'
(system "cc -o cute continue.o findexec.o time.o repl.o scl.o
 eval.o sys.o subr.o unif.o rope.o scm.o cube.o  -lm -lc")

Compilation finished at Sun Jul 21 00:59:17
@end example
@end defun

@node Dynamic Linking, Dump, Compiling And Linking, Packages
@section Dynamic Linking

@noindent
If SCM has been compiled with @file{dynl.c} then the additional
properties of load and ([SLIB]) require specified here are supported.
The @code{require} form is preferred.

@defun require feature
If the symbol @var{feature} has not already been given as an argument to
@code{require}, then the object and library files associated with
@var{feature} will be dynamically-linked, and an unspecified value
returned.  If @var{feature} is not found in @code{*catalog*}, then an
error is signaled.
@end defun

@defun usr:lib lib
Returns the pathname of the C library named @var{lib}.  For example:
@code{(usr:lib "m")} returns @code{"/usr/lib/libm.a"}, the path of the C
math library.
@end defun

@defun x:lib lib
Returns the pathname of the X library named @var{lib}.  For example:
@code{(x:lib "X11")} returns @code{"/usr/X11/lib/libX11.sa"}, the path
of the X11 library.
@end defun

@defun load filename lib1 @dots{}
In addition to the [R4RS] requirement of loading Scheme expressions if
@var{filename} is a Scheme source file, @code{load} will also
dynamically load/link object files (produced by @code{compile-file}, for
instance).  The object-suffix need not be given to load.  For example,

@example
(load (in-vicinity (implementation-vicinity) "sc2"))
or (load (in-vicinity (implementation-vicinity) "sc2.o"))
or (require 'rev2-procedures)
@ftindex rev2-procedures
or (require 'rev3-procedures)
@ftindex rev3-procedures
@end example

will load/link @file{sc2.o} if it exists.

The @var{lib1} @dots{} pathnames specify additional libraries which may
be needed for object files not produced by the Hobbit compiler.  For
instance, crs is linked on Linux by

@example
(load (in-vicinity (implementation-vicinity) "crs.o")
      (usr:lib "ncurses") (usr:lib "c"))
or (require 'curses)
@ftindex curses
@end example

Turtlegr graphics library is linked by:

@example
(load (in-vicinity (implementation-vicinity) "turtlegr")
      (usr:lib "X11") (usr:lib "c") (usr:lib "m"))
or (require 'turtle-graphics)
@ftindex turtle-graphics
@end example

And the string regular expression (@pxref{Regular Expression Pattern
Matching}) package is linked by:

@example
(load (in-vicinity (implementation-vicinity) "rgx") (usr:lib "c"))
@end example
or
@example
(require 'regex)
@ftindex regex
@end example
@end defun

@noindent
The following functions comprise the low-level Scheme interface to
dynamic linking.  See the file @file{Link.scm} in the SCM distribution
for an example of their use.

@defun dyn:link filename
@var{filename} should be a string naming an @dfn{object} or
@dfn{archive} file, the result of C-compiling.  The @code{dyn:link}
procedure links and loads @var{filename} into the current SCM session.
If successfull, @code{dyn:link} returns a @dfn{link-token} suitable for
passing as the second argument to @code{dyn:call}.  If not successful,
@code{#f} is returned.
@end defun

@defun dyn:call name link-token
@var{link-token} should be the value returned by a call to
@code{dyn:link}.  @var{name} should be the name of C function of no
arguments defined in the file named @var{filename} which was succesfully
@code{dyn:link}ed in the current SCM session.  The @code{dyn:call}
procedure calls the C function corresponding to @var{name}.  If
successful, @code{dyn:call} returns @code{#t}; If not successful,
@code{#f} is returned.

@code{dyn:call} is used to call the @dfn{init_@dots{}} function after
loading SCM object files.  The init_@dots{} function then makes the
identifiers defined in the file accessible as Scheme procedures.
@end defun

@defun dyn:main-call name link-token arg1 @dots{}
@var{link-token} should be the value returned by a call to
@code{dyn:link}.  @var{name} should be the name of C function of 2
arguments, @code{(int argc, char **argv)}, defined in the file named
@var{filename} which was succesfully @code{dyn:link}ed in the current
SCM session.  The @code{dyn:main-call} procedure calls the C function
corresponding to @var{name} with @code{argv} style arguments, such as
are given to C @code{main} functions.  If successful,
@code{dyn:main-call} returns the integer returned from the call to
@var{name}.

@code{dyn:main-call} can be used to call a @code{main} procedure from
SCM.  For example, I link in and @code{dyn:main-call} a large C program,
the low level routines of which callback (@pxref{Callbacks}) into SCM
(which emulates PCI hardware).
@end defun

@defun dyn:unlink link-token
@var{link-token} should be the value returned by a call to
@code{dyn:link}.  The @code{dyn:unlink} procedure removes the previously
loaded file from the current SCM session.  If successful,
@code{dyn:unlink} returns @code{#t}; If not successful, @code{#f} is
returned.
@end defun


@node Dump, Numeric, Dynamic Linking, Packages
@section Dump

@ftindex dump
@ftindex unexec
@dfn{Dump}, (also known as @dfn{unexec}), saves the continuation of an
entire SCM session to an executable file, which can then be invoked as a
program.  Dumped executables start very quickly, since no Scheme code
has to be loaded.

@noindent
There are constraints on which sessions are savable using @code{dump}

@itemize @bullet
@item
Saved continuations are invalid in subsequent invocations; they cause
segmentation faults and other unpleasant side effects.
@item
Although DLD (@pxref{Dynamic Linking}) can be used to load compiled
modules both before and after dumping, @samp{SUN_DL} ELF systems can
load compiled modules only after dumping.  This can be worked around by
compiling in those features you wish to @code{dump}.
@item
Ports (other than @code{current-input-port}, @code{current-output-port},
@code{current-error-port}), X windows, etc. are invalid in subsequent
invocations.

This restriction could be removed; @xref{Improvements To Make}.
@item
@code{Dump} should only be called from a loading file when the call to
dump is the last expression in that file.
@item
@code{Dump} can be called from the command line.
@end itemize

@defun dump newpath
@defunx dump newpath #f
@defunx dump newpath #t
@defunx dump newpath thunk
@itemize @bullet
@item
Calls @code{gc}.
@item
Creates an executable program named @var{newpath} which continues the
state of the current SCM session when invoked.  The optional argument
@var{thunk}, if provided, should be a procedure of no arguments.  This
procedure will be called in the restored executable.

If the optional argument is missing or a boolean, SCM's standard command
line processing will be called in the restored executable.

If the second argument to @code{dump} is @code{#t}, argument processing
will continue from the command line passed to the dumping session.  If
the second argument is missing or @code{#f} then the command line
arguments of the restoring invocation will be processed.
@item
Resumes the top level Read-Eval-Print loop.  This is done instead of
continuing normally to avoid creating a saved continuation in the dumped
executable.
@end itemize

@code{dump} may set the values of @code{boot-tail}, @code{*argv*},
@code{restart}, and @var{*interactive*}.  @code{dump} returns an
unspecified value.
@end defun

When a dumped executable is invoked, the variable @var{*interactive*}
(@pxref{Internal State}) has the value it possessed when @code{dump}
created it.  Calling @code{dump} with a single argument sets
@var{*interactive*} to @code{#f}, which is the state it has at the
beginning of command line processing.

The procedure @code{program-arguments} returns the command line
arguments for the curent invocation.  More specifically,
@code{program-arguments} for the restored session are @emph{not} saved
from the dumping session.  Command line processing is done on
the value of the identifier @code{*argv*}.

The thunk @code{boot-tail} is called by SCM to process command line
arguments.  @code{dump} sets @code{boot-tail} to the @var{thunk} it is
called with.

The following example shows how to create @samp{rscm}, which is like
regular scm, but which loads faster and has the @samp{random} package
alreadly provided.

@example
bash$ scm -rrandom
> (dump "rscm")
#<unspecified>
> (quit)
bash$ ./rscm -lpi.scm -e"(pi (random 200) 5)"
00003 14159 26535 89793 23846 26433 83279 50288 41971 69399
37510 58209 74944 59230 78164 06286 20899 86280 34825 34211
70679 82148 08651 32823 06647 09384 46095 50582 23172 53594
08128 48111 74502 84102 70193 85211 05559 64462 29489 
bash$ 
@end example

This task can also be accomplished using the @samp{-o} command line
option (@pxref{SCM Options}).

@example
bash$ scm -rrandom -o rscm
> (quit)
bash$ ./rscm -lpi.scm -e"(pi (random 200) 5)"
00003 14159 26535 89793 23846 26433 83279 50288 41971 69399
37510 58209 74944 59230 78164 06286 20899 86280 34825 34211
70679 82148 08651 32823 06647 09384 46095 50582 23172 53594
08128 48111 74502 84102 70193 85211 05559 64462 29489 
bash$ 
@end example

@node Numeric, Arrays, Dump, Packages
@section Numeric

@defvr Constant most-positive-fixnum
The immediate integer closest to positive infinity.
@xref{Configuration, , , slib, SLIB}.
@end defvr

@defvr Constant most-negative-fixnum
The immediate integer closest to negative infinity.
@end defvr

@noindent
These procedures augment the standard capabilities in @ref{Numerical
operations, , ,r4rs, Revised(4) Scheme}.

@defun sinh z
@defunx cosh z
@defunx tanh z
Return the hyperbolic sine, cosine, and tangent of @var{z}
@end defun

@defun asinh z
@defunx acosh z
@defunx atanh z
Return the inverse hyperbolic sine, cosine, and tangent of @var{z}
@end defun

@defun $sqrt x
@defunx $abs x
@defunx $exp x
@defunx $log x
@defunx $sin x
@defunx $cos x
@defunx $tan x
@defunx $asin x
@defunx $acos x
@defunx $atan x

@defunx $sinh x
@defunx $cosh x
@defunx $tanh x
@defunx $asinh x
@defunx $acosh x
@defunx $atanh x
Real-only versions of these popular functions.  The argument @var{x}
must be a real number.  It is an error if the value which should be
returned by a call to these procedures is @emph{not} real.
@end defun

@defun $log10 x
Real-only base 10 logarithm.
@end defun

@defun $atan2 y x
Computes @code{(angle (make-rectangular x y))} for real numbers @var{y}
and @var{x}.
@end defun

@defun $expt x1 x2
Returns real number @var{x1} raised to the real power @var{x2}.  It is
an error if the value which should be returned by a call to @code{$expt}
is not real.
@end defun

@node Arrays, I/O-Extensions, Numeric, Packages
@section Arrays

@menu
* Conventional Arrays::         
* Array Mapping::               
* Uniform Array::               
* Bit Vectors::                 
@end menu

@node Conventional Arrays, Array Mapping, Arrays, Arrays
@subsection Conventional Arrays

@dfn{Arrays} read and write as a @code{#} followed by the @dfn{rank}
(number of dimensions) followed by what appear as lists (of lists) of
elements.  The lists must be nested to the depth of the rank.  For each
depth, all lists must be the same length.
@example
(make-array 'ho 3 3) @result{}
#2((ho ho ho) (ho ho ho) (ho ho ho))
@end example

Unshared conventional (not uniform) 0-based arrays of rank 1 (dimension)
are equivalent to (and can't be distinguished from) vectors.
@example
(make-array 'ho 3) @result{} (ho ho ho)
@end example

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
(make-array 'foo 3 3) @equiv{} (make-array 'foo '(0 2) '(0 2))
@end example

@defun array? obj
Returns @code{#t} if the @var{obj} is an array, and @code{#f} if not.
@end defun

@defun make-array initial-value bound1 bound2 @dots{}
Creates and returns an array that has as many dimensions as there are
@var{bound}s and fills it with @var{initial-value}.
@end defun

@defun array-ref array index1 index2 @dots{}
Returns the @var{index1}, @var{index2}, @dots{}'th element of
@var{array}.
@end defun

@defun array-in-bounds? array index1 index2 @dots{}
Returns @code{#t} if its arguments would be acceptable to @var{array-ref}.
@end defun

@defun array-set! array new-value index1 index2 @dots{}
Sets the @var{index1}, @var{index2}, @dots{}'th element of @var{array}
to @var{new-value}.  The value returned by @code{array-set!} is
unspecified.
@end defun

@defun make-shared-array array mapper bound1 bound2 @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 transpose-array array dim0 dim1 @dots{}
Returns an array sharing contents with @var{array}, but with dimensions
arranged in a different order.  There must be one @var{dim} argument for
each dimension of @var{array}.  @var{dim0}, @var{dim1}, @dots{} should
be integers between 0 and the rank of the array to be returned.  Each
integer in that range must appear at least once in the argument list.

The values of @var{dim0}, @var{dim1}, @dots{} correspond to dimensions
in the array to be returned, their positions in the argument list to
dimensions of @var{array}.  Several @var{dim}s may have the same value,
in which case the returned array will have smaller rank than
@var{array}.

examples:
@example
(transpose-array '#2((a b) (c d)) 1 0) @result{} #2((a c) (b d))
(transpose-array '#2((a b) (c d)) 0 0) @result{} #1(a d)
(transpose-array '#3(((a b c) (d e f)) ((1 2 3) (4 5 6))) 1 1 0) @result{}
                #2((a 4) (b 5) (c 6))
@end example
@end defun

@defun enclose-array array dim0 dim1 @dots{}
@var{dim0}, @var{dim1} @dots{} should be nonnegative integers less than
the rank of @var{array}.  @var{enclose-array} returns an array
resembling an array of shared arrays.  The dimensions of each shared
array are the same as the @var{dim}th dimensions of the original array,
the dimensions of the outer array are the same as those of the original
array that did not match a @var{dim}.

An enclosed array is not a general Scheme array.  Its elements may not
be set using @code{array-set!}.  Two references to the same element of
an enclosed array will be @code{equal?} but will not in general be
@code{eq?}.  The value returned by @var{array-prototype} when given an
enclosed array is unspecified.

examples:
@example
(enclose-array '#3(((a b c) (d e f)) ((1 2 3) (4 5 6))) 1) @result{}
   #<enclosed-array (#1(a d) #1(b e) #1(c f)) (#1(1 4) #1(2 5) #1(3 6))>

(enclose-array '#3(((a b c) (d e f)) ((1 2 3) (4 5 6))) 1 0) @result{}
   #<enclosed-array #2((a 1) (d 4)) #2((b 2) (e 5)) #2((c 3) (f 6))>
@end example
@end defun

@defun array-shape array
Returns a list of inclusive bounds of integers.
@example
(array-shape (make-array 'foo '(-1 3) 5)) @result{} ((-1 3) (0 4))
@end example
@end defun

@defun array-dimensions array
@code{Array-dimensions} is similar to @code{array-shape} but replaces
elements with a @code{0} minimum with one greater than the maximum. So:
@example
(array-dimensions (make-array 'foo '(-1 3) 5)) @result{} ((-1 3) 5)
@end example
@end defun

@defun array-rank obj
Returns the number of dimensions of @var{obj}.  If @var{obj} is not an
array, @code{0} is returned.
@end defun

@defun array->list array
Returns a list consisting of all the elements, in order, of @var{array}.
@end defun

@defun array-copy! source destination
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 defun

@defun serial-array-copy! source destination
Same as @code{array-copy!} but guaranteed to copy in row-major order.
@end defun

@defun array-fill! array fill
Stores @var{fill} in every element of @var{array}.  The value returned
is unspecified.
@end defun

@defun array-equal? array0 array1 @dots{}
Returns @code{#t} iff all arguments are arrays with the same shape, the
same type, and have corresponding elements which are either
@code{equal?}  or @code{array-equal?}.  This function differs from
@code{equal?} in that a one dimensional shared array may be
@var{array-equal?} but not @var{equal?} to a vector or uniform vector.
@end defun

@defun array-contents array
@defunx array-contents array strict
If @var{array} may be @dfn{unrolled} into a one dimensional shared array
without changing their order (last subscript changing fastest), then
@code{array-contents} returns that shared array, otherwise it returns
@code{#f}.  All arrays made by @var{make-array} and
@var{make-uniform-array} may be unrolled, some arrays made by
@var{make-shared-array} may not be.

If the optional argument @var{strict} is provided, a shared array will
be returned only if its elements are stored internally contiguous in
memory.
@end defun

@node Array Mapping, Uniform Array, Conventional Arrays, Arrays
@subsection Array Mapping

@code{(require 'array-for-each)}
@ftindex array-for-each

@defun array-map! array0 proc array1 @dots{}

If @var{array1}, @dots{} are arrays, they must have the same number of
dimensions as @var{array0} and have a range for each index which
includes the range for the corresponding index in @var{array0}.
If they are scalars, that is, not arrays, vectors, or strings, then
they will be converted internally to arrays of the appropriate shape.
@var{proc} is applied to each tuple of elements of @var{array1} @dots{}
and the result is stored as the corresponding element in @var{array0}.
The value returned is unspecified.  The order of application is
unspecified.

@end defun

@defun serial-array-map! array0 proc array1 @dots{}
Same as @var{array-map!}, but guaranteed to apply @var{proc} in
row-major order.
@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-index-map! array proc
applies @var{proc} to the indices of each element of @var{array} in
turn, storing the result in the corresponding element.  The value
returned and the order of application are unspecified.

One can implement @var{array-indexes} as
@example
(define (array-indexes array)
    (let ((ra (apply make-array #f (array-shape array))))
      (array-index-map! ra (lambda x x))
      ra))
@end example
Another example:
@example
(define (apl:index-generator n)
    (let ((v (make-uniform-vector n 1)))
      (array-index-map! v (lambda (i) i))
      v))
@end example
@end defun

@defun scalar->array scalar array prototype
Returns a uniform array of the same shape as @var{array}, having only
one shared element, which is @code{eqv?} to @var{scalar}.
If the optional argument @var{prototype} is supplied it will be used
as the prototype for the returned array.  Otherwise the returned array
will be of the same type as @code{array} if that is possible, and
a conventional array if it is not.  This function is used internally
by @code{array-map!} and friends to handle scalar arguments.
@end defun

@node Uniform Array, Bit Vectors, Array Mapping, Arrays
@subsection Uniform Array

@noindent
@dfn{Uniform Arrays} and vectors are arrays whose elements are all of
the same type.  Uniform vectors occupy less storage than conventional
vectors.  Uniform Array procedures also work on vectors,
uniform-vectors, bit-vectors, and strings.

@noindent
@var{prototype} arguments in the following procedures are interpreted
according to the table:

@example
prototype       type                             display prefix

#t              boolean (bit-vector)                    #b
#\a             char (string)                           #a
integer >0      unsigned integer                        #u
integer <0      signed integer                          #e
1.0             float (single precision)                #s
1/3             double (double precision float)         #i
+i              complex (double precision)              #c
()              conventional vector                     #
@end example

@noindent
Unshared uniform character 0-based arrays of rank 1 (dimension)
are equivalent to (and can't be distinguished from) strings.
@example
(make-uniform-array #\a 3) @result{} "$q2"
@end example

@noindent
Unshared uniform boolean 0-based arrays of rank 1 (dimension) are
equivalent to (and can't be distinguished from) @ref{Bit Vectors,
bit-vectors}.
@example
(make-uniform-array #t 3) @result{} #*000
@equiv{}
#b(#f #f #f) @result{} #*000
@equiv{}
#1b(#f #f #f) @result{} #*000
@end example

@noindent
Other uniform vectors are written in a form similar to that of vectors,
except that a single character from the above table is put between
@code{#} and @code{(}.  For example, @code{'#e(3 5 9)} returns a uniform
vector of signed integers.

@defun uniform-vector-ref uve index
Returns the element at the @var{index} element in @var{uve}.
@end defun

@defun uniform-vector-set! uve index new-value
Sets the element at the @var{index} element in @var{uve} to
@var{new-value}.  The value returned by @code{uniform-vector-set!} is
unspecified.
@end defun

@defun array? obj prototype
Returns @code{#t} if the @var{obj} is an array of type corresponding to
@var{prototype}, and @code{#f} if not.
@end defun

@defun make-uniform-array prototype bound1 bound2 @dots{}
Creates and returns a uniform array of type corresponding to
@var{prototype} that has as many dimensions as there are @var{bound}s
and fills it with @var{prototype}.
@end defun

@defun array-prototype array
Returns an object that would produce an array of the same type as
@var{array}, if used as the @var{prototype} for
@code{make-uniform-array}.
@end defun

@defun list->uniform-array rank prot lst
@defunx list->uniform-vector prot lst
Returns a uniform array of the type indicated by prototype @var{prot}
with elements the same as those of @var{lst}.  Elements must be of the
appropriate type, no coercions are done.
@end defun

@defun uniform-vector-fill! uve fill
Stores @var{fill} in every element of @var{uve}.  The value returned is
unspecified.
@end defun

@defun uniform-vector-length uve
Returns the number of elements in @var{uve}.
@end defun

@defun dimensions->uniform-array dims prototype fill
@defunx dimensions->uniform-array dims prototype
@defunx make-uniform-vector length prototype fill
@defunx make-uniform-vector length prototype
Creates and returns a uniform array or vector of type corresponding to
@var{prototype} with dimensions @var{dims} or length @var{length}.  If
the @var{fill} argument is supplied, the returned array is filled with
this value.
@end defun

@defun uniform-array-read! ura
@defunx uniform-array-read! ura port
@defunx uniform-vector-read! uve
@defunx uniform-vector-read! uve port
Attempts to read all elements of @var{ura}, in lexicographic order, as
binary objects from @var{port}.  If an end of file is encountered during
uniform-array-read! the objects up to that point only are put into @var{ura}
(starting at the beginning) and the remainder of the array is
unchanged.

@code{uniform-array-read!} returns the number of objects read.
@var{port} may be omitted, in which case it defaults to the value
returned by @code{(current-input-port)}.
@end defun

@defun uniform-array-write ura
@defunx uniform-array-write ura port
@defunx uniform-vector-write uve
@defunx uniform-vector-write uve port
Writes all elements of @var{ura} as binary objects to @var{port}. The
number of of objects actually written is returned. @var{port} may be
omitted, in which case it defaults to the value returned by
@code{(current-output-port)}.
@end defun

@node Bit Vectors,  , Uniform Array, Arrays
@subsection Bit Vectors

@noindent
Bit vectors can be written and read as a sequence of @code{0}s and
@code{1}s prefixed by @code{#*}.

@example
#b(#f #f #f #t #f #t #f) @result{} #*0001010
@end example

@noindent
Some of these operations will eventually be generalized to other
uniform-arrays.

@defun bit-count bool bv
Returns the number occurrences of @var{bool} in @var{bv}.
@end defun

@defun bit-position bool bv k
Returns the minimum index of an occurrence of @var{bool} in @var{bv}
which is at least @var{k}.  If no @var{bool} occurs within the specified
range @code{#f} is returned.
@end defun

@defun bit-invert! bv
Modifies @var{bv} by replacing each element with its negation.
@end defun

@defun bit-set*! bv uve bool
If uve is a bit-vector @var{bv} and uve must be of the same length.  If
@var{bool} is @code{#t}, uve is OR'ed into @var{bv}; If @var{bool} is @code{#f}, the
inversion of uve is AND'ed into @var{bv}.

If uve is a unsigned integer vector all the elements of uve must be
between 0 and the @code{LENGTH} of @var{bv}.  The bits of @var{bv}
corresponding to the indexes in uve are set to @var{bool}.

The return value is unspecified.
@end defun

@defun bit-count* bv uve bool
Returns
@example
(bit-count (bit-set*! (if bool bv (bit-invert! bv)) uve #t) #t).
@end example
@var{bv} is not modified.
@end defun


@node I/O-Extensions, Posix Extensions, Arrays, Packages
@section I/O-Extensions

@noindent
If @code{'i/o-extensions} is provided (by linking in @file{ioext.o}),
@ref{Line I/O, , , slib, SLIB}, and the following functions are defined:

@defun isatty? port
Returns @code{#t} if @var{port} is input or output to a serial non-file device.
@end defun

@defun stat <port-or-string>
Returns a vector of integers describing the argument.  The argument
can be either a string or an open input port. If the argument is an
open port then the returned vector describes the file to which the
port is opened; If the argument is a string then the returned vector
describes the file named by that string.  If there exists no file with
the name string, or if the file cannot be accessed @code{#f} is returned.
The elements of the returned vector are as follows:


@table @r
@item 0  st_dev
ID of device containing a directory entry for this file
@item 1  st_ino
Inode number
@item 2  st_mode
File type, attributes, and access control summary
@item 3  st_nlink
Number of links
@item 4  st_uid
User ID of file owner
@item 5  st_gid
Group ID of file group
@item 6  st_rdev
Device ID; this entry defined only for char or blk spec files
@item 7  st_size
File size (bytes)
@item 8  st_atime
Time of last access
@item 9  st_mtime
Last modification time
@item 10 st_ctime
Last file status change time
@end table
@end defun

@defun getpid
Returns the process ID of the current process.
@end defun

@defun file-position port
Returns the current position of the character in @var{port} which will
next be read or written.  If @var{port} is not open to a file the result
is unspecified.
@end defun

@defun file-set-position port integer
Sets the current position in @var{port} which will next be read or
written.  If @var{port} is not open to a file the action of
@code{file-set-position} is unspecified.  The result of
@code{file-set-position} is unspecified.
@end defun

@defun reopen-file filename modes port
Closes port @var{port} and reopens it with @var{filename} and
@var{modes}.  @code{reopen-file} returns @code{#t} if successful,
@code{#f} if not.
@end defun

@defun duplicate-port port modes
Creates and returns a @dfn{duplicate} port from @var{port}.  Duplicate
@emph{unbuffered} ports share one file position.  @var{modes} are as for
@ref{Files and Ports, open-file}.
@end defun

@defun redirect-port! from-port to-port
Closes @var{to-port} and makes @var{to-port} be a duplicate of
@var{from-port}.  @code{redirect-port!} returns @var{to-port} if
successful, @code{#f} if not.  If unsuccessful, @var{to-port} is not
closed.
@end defun

@defun opendir dirname
Returns a @dfn{directory} object corresponding to the file system
directory named @var{dirname}.  If unsuccessful, returns @code{#f}.
@end defun

@defun readdir dir
Returns the string name of the next entry from the directory @var{dir}.
If there are no more entries in the directory, @code{readdir} returns a
@code{#f}.
@end defun

@defun rewinddir dir
Reinitializes @var{dir} so that the next call to @code{readdir} with
@var{dir} will return the first entry in the directory again.
@end defun

@defun closedir dir
Closes @var{dir} and returns @code{#t}.  If @var{dir} is already
closed,, @code{closedir} returns a @code{#f}.
@end defun

@defun mkdir path mode
The @code{mkdir} function creates a new, empty directory whose name is
@var{path}.  The integer argument @var{mode} specifies the file
permissions for the new directory.  @xref{The Mode Bits for Access
Permission, , , libc, Gnu C Library}, for more information about this.

@code{mkdir} returns if successful, @code{#f} if not.
@end defun

@defun rmdir path
The @code{rmdir} function deletes the directory @var{path}.  The
directory must be empty before it can be removed.  @code{rmdir} returns
if successful, @code{#f} if not.
@end defun

@defun chdir filename
Changes the current directory to @var{filename}.  If @var{filename} does not
exist or is not a directory, @code{#f} is returned.  Otherwise, @code{#t} is
returned.
@end defun

@defun getcwd
The function @code{getcwd} returns a string containing the absolute file
name representing the current working directory.  If this string cannot
be obtained, @code{#f} is returned.
@end defun

@defun rename-file oldfilename newfilename
Renames the file specified by @var{oldfilename} to @var{newfilename}.
If the renaming is successful, @code{#t} is returned.  Otherwise,
@code{#f} is returned.
@end defun

@defun chmod file mode
The function @code{chmod} sets the access permission bits for the file
named by @var{file} to @var{mode}.  The @var{file} argument may be a
string containing the filename or a port open to the file.

@code{chmod} returns if successful, @code{#f} if not.
@end defun

@defun utime pathname acctime modtime
Sets the file times associated with the file named @var{pathname} to
have access time @var{acctime} and modification time @var{modtime}.
@code{utime} returns if successful, @code{#f} if not.
@end defun

@defun umask mode
The function @code{umask} sets the file creation mask of the current
process to @var{mask}, and returns the previous value of the file
creation mask.
@end defun

@defun fileno port
Returns the integer file descriptor associated with the port @var{port}.
If an error is detected, @code{#f} is returned.
@end defun

@defun access pathname how
Returns @code{#t} if the file named by @var{pathname} can be accessed in
the way specified by the @var{how} argument.  The @var{how} argument can
be the @code{logior} of the flags:

@enumerate 0
@item
File-exists?
@item
File-is-executable?
@item
File-is-writable?
@end enumerate
@enumerate 4
@item
File-is-readable?
@end enumerate

Or the @var{how} argument can be a string of 0 to 3 of the following
characters in any order.  The test performed is the @code{and} of the
associated tests and @code{file-exists?}.

@table @key
@item x
File-is-executable?
@item w
File-is-writable?
@item r
File-is-readable?
@end table
@end defun

@defun execl command arg0 @dots{}
@defunx execlp command arg0 @dots{}
Transfers control to program @var{command} called with arguments
@var{arg0} @dots{}.  For @code{execl}, @var{command} must be an exact
pathname of an executable file.  @code{execlp} searches for
@var{command} in the list of directories specified by the environment
variable @var{PATH}.  The convention is that @var{arg0} is the same name
as @var{command}.

If successful, this procedure does not return.  Otherwise an error
message is printed and the integer @code{errno} is returned.

@defunx execv command arglist
@defunx execvp command arglist
Like @code{execl} and @code{execlp} except that the set of arguments to
@var{command} is @var{arglist}.
@end defun

@defun putenv string
adds or removes definitions from the @dfn{environment}. If the
@var{string} is of the form @samp{NAME=VALUE}, the definition is added
to the environment.  Otherwise, the @var{string} is interpreted as the
name of an environment variable, and any definition for this variable in
the environment is removed.

Names of environment variables are case-sensitive and must not contain
the character @code{=}.  System-defined environment variables are
invariably uppercase.

@code{Putenv} is used to set up the environment before calls to
@code{execl}, @code{execlp}, @code{execv}, @code{execvp}, @code{system},
or @code{open-pipe} (@pxref{I/O-Extensions, open-pipe}).

To access environment variables, use @code{getenv} (@pxref{System
Interface, getenv, , slib, SLIB}).
@end defun

@node Posix Extensions, Regular Expression Pattern Matching, I/O-Extensions, Packages
@section Posix Extensions

@noindent
If @code{'posix} is provided (by linking in @file{posix.o}), the
following functions are defined:

@defun open-pipe string modes
If the string @var{modes} contains an @key{r}, returns an input port
capable of delivering characters from the standard output of the system
command @var{string}.  Otherwise, returns an output port capable of
receiving characters which become the standard input of the system
command @var{string}.  If a pipe cannot be created @code{#f} is
returned.
@end defun

@defun open-input-pipe string
Returns an input port capable of delivering characters from the
standard output of the system command @var{string}.  If a pipe cannot be
created @code{#f} is returned.
@end defun

@defun open-output-pipe string
Returns an output port capable of receiving characters which become
the standard input of the system command @var{string}.  If a pipe cannot
be created @code{#f} is returned.
@end defun

@defun close-port pipe
Closes the @var{pipe}, rendering it incapable of delivering or accepting
characters.  This routine has no effect if the pipe has already been
closed.  The value returned is unspecified.
@end defun

@defun pipe
Returns @code{(cons @var{rd} @var{wd})} where @var{rd} and @var{wd} are
the read and write (port) ends of a @dfn{pipe} respectively.
@end defun

@defun fork
Creates a copy of the process calling @code{fork}.  Both processes
return from @code{fork}, but the calling (@dfn{parent}) process's
@code{fork} returns the @dfn{child} process's ID whereas the child
process's @code{fork} returns 0.
@end defun

@noindent
For a discussion of @dfn{ID}s @xref{Process Persona, , , GNU C Library,
libc}.

@defun getppid
Returns the process ID of the parent of the current process.
For a process's own ID @xref{I/O-Extensions, getpid}.
@end defun

@defun getuid
Returns the real user ID of this process.
@end defun

@defun getgid
Returns the real group ID of this process.
@end defun

@defun getegid
Returns the effective group ID of this process.
@end defun

@defun geteuid
Returns the effective user ID of this process.
@end defun

@defun setuid id
Sets the real user ID of this process to @var{id}.
Returns @code{#t} if successful, @code{#f} if not.
@end defun

@defun setgid id
Sets the real group ID of this process to @var{id}.
Returns @code{#t} if successful, @code{#f} if not.
@end defun

@defun setegid id
Sets the effective group ID of this process to @var{id}.
Returns @code{#t} if successful, @code{#f} if not.
@end defun

@defun seteuid id
Sets the effective user ID of this process to @var{id}.
Returns @code{#t} if successful, @code{#f} if not.
@end defun

@defun kill pid sig
The @code{kill} function sends the signal @var{signum} to the process or
process group specified by @var{pid}.  Besides the signals listed in
@ref{Standard Signals, , ,libc , GNU C Library}, @var{signum} can also
have a value of zero to check the validity of the @var{pid}.

The @var{pid} specifies the process or process group to receive the
signal:

@table @asis
@item > 0
The process whose identifier is @var{pid}.

@item 0
All processes in the same process group as the sender.  The
sender itself does not receive the signal.

@item -1
If the process is privileged, send the signal to all
processes except for some special system processes.
Otherwise, send the signal to all processes with the same
effective user ID.

@item < -1
The process group whose identifier is @code{(abs @var{pid})}.
@end table

A process can send a signal to itself with @code{(kill (getpid)
@var{signum})}.  If @code{kill} is used by a process to send a signal to
itself, and the signal is not blocked, then @code{kill} delivers at
least one signal (which might be some other pending unblocked signal
instead of the signal @var{signum}) to that process before it returns.

The return value from @code{kill} is zero if the signal can be sent
successfully.  Otherwise, no signal is sent, and a value of @code{-1} is
returned.  If @var{pid} specifies sending a signal to several processes,
@code{kill} succeeds if it can send the signal to at least one of them.
There's no way you can tell which of the processes got the signal or
whether all of them did.
@end defun

@defun waitpid pid options

The @code{waitpid} function suspends execution of the current process
until a child as specified by the @var{pid} argument has exited, or until a
signal is deliverd whose action is to terminate the current process or
to call a signal handling function.  If a child as requested by @var{pid} has
already exited by the time of the call (a so-called @dfn{zombie}
process), the function returns immediately.  Any system resources used
by the child are freed.

The value of @var{pid} can be one of:

@table @asis
@item < -1
which means to wait for any child process whose process group ID is
equal to the absolute value of

@item -1
which means to wait for any child process whose process group ID is
equal to the @code{(abs @var{pid})}.

@item -1
which means to wait for any child process; this is the same behaviour
which wait exhibits.

@item 0
which means to wait for any child process whose process group ID is
equal to that of the calling process.

@item > 0
which means to wait for the child whose process ID is equal to the value
of @var{pid}.
@end table

The value of @var{options} is one of the following:

@enumerate 0
@item
Nothing special.

@item
(@code{WNOHANG}) which means to return immediately if no child is there
to be waited for.

@item
(@code{WUNTRACED}) which means to also return for children which are
stopped, and whose status has not been reported.

@item
Which means both of the above.
@end enumerate

The return value is normally the process ID of the child process whose
status is reported.  If the @code{WNOHANG} option was specified and no
child process is waiting to be noticed, the value is zero.  A value of
@code{#f} is returned in case of error and @code{errno} is set.  For
information about the @code{errno} codes @xref{Process Completion, , ,
GNU C Library, libc}.
@end defun

@defun uname
You can use the @code{uname} procedure to find out some information
about the type of computer your program is running on.

Returns a vector of strings.  These strings are:

@enumerate 0
@item
The name of the operating system in use.
@item
The network name of this particular computer.
@item
The current release level of the operating system implementation.
@item
The current version level within the release of the operating system.
@item
Description of the type of hardware that is in use.

Some examples are @samp{"i386-ANYTHING"}, @samp{"m68k-hp"},
@samp{"sparc-sun"}, @samp{"m68k-sun"}, @samp{"m68k-sony"} and @samp{"mips-dec"}.
@end enumerate
@end defun

@defun getpw name
@defunx getpw uid
@defunx getpw
Returns a vector of information for the entry for @code{NAME},
@code{UID}, or the next entry if no argument is given.  The
information is:

@enumerate 0
@item
The user's login name.
@item
The encrypted password string.
@item
The user ID number.
@item
The user's default group ID number.
@item
A string typically containing the user's real name, and
possibly other information such as a phone number.
@item
The user's home directory, initial working directory, or @code{#f}, in
which case the interpretation is system-dependent.
@item
The user's default shell, the initial program run when the user logs in,
or @code{#f}, indicating that the system default should be used.
@end enumerate
@end defun

@defun setpwent #t
Rewinds the pw entry table back to the begining.

@defunx setpwent #f
@defunx setpwent
Closes the pw table.
@end defun


@defun getgr name
@defunx getgr uid
@defunx getgr
Returns a vector of information for the entry for @code{NAME},
@code{UID}, or the next entry if no argument is given.  The
information is:

@enumerate 0
@item
The name of the group.
@item
The encrypted password string.
@item
The group ID number.
@item
A list of (string) names of users in the group.
@end enumerate
@end defun

@defun setgrent #t
Rewinds the group entry table back to the begining.

@defunx setgrent #f
@defunx setgrent
Closes the group table.
@end defun

@defun getgroups
Returns a vector of all the supplementary group IDs of the process.
@end defun


@defun link oldname newname
The @code{link} function makes a new link to the existing file named by
@var{oldname}, under the new name @var{newname}.

@code{link} returns a value of @code{#t} if it is successful and
@code{#f} on failure.
@end defun

@defun chown filename owner group
The @code{chown} function changes the owner of the file @var{filename}
to @var{owner}, and its group owner to @var{group}.

@code{chown} returns a value of @code{#t} if it is successful and
@code{#f} on failure.
@end defun

@defun ttyname port
If port @var{port} is associated with a terminal device, returns a
string containing the file name of termainal device; otherwise
@code{#f}.
@end defun

@section Unix Extensions

@noindent
If @code{'unix} is provided (by linking in @file{unix.o}), the following
functions are defined:

@noindent
These @dfn{priveledged} and symbolic link functions are not in Posix:

@defun symlink oldname newname
The @code{symlink} function makes a symbolic link to @var{oldname} named
@var{newname}.

@code{symlink} returns a value of @code{#t} if it is successful and
@code{#f} on failure.
@end defun

@defun readlink filename
Returns the value of the symbolic link @var{filename} or @code{#f} for
failure.
@end defun

@defun lstat filename
The @code{lstat} function is like @code{stat}, except that it does not
follow symbolic links.  If @var{filename} is the name of a symbolic
link, @code{lstat} returns information about the link itself; otherwise,
@code{lstat} works like @code{stat}.  @xref{I/O-Extensions}.
@end defun

@defun nice increment
Increment the priority of the current process by @var{increment}.
@code{chown} returns a value of @code{#t} if it is successful and
@code{#f} on failure.
@end defun

@defun acct filename
When called with the name of an exisitng file as argument, accounting is
turned on, records for each terminating pro-cess are appended to
@var{filename} as it terminates.  An argument of @code{#f} causes
accounting to be turned off.

@code{acct} returns a value of @code{#t} if it is successful and
@code{#f} on failure.
@end defun

@defun mknod filename mode dev
The @code{mknod} function makes a special file with name @var{filename}
and modes @var{mode} for device number @var{dev}.

@code{mknod} returns a value of @code{#t} if it is successful and
@code{#f} on failure.
@end defun

@defun sync
@code{sync} first commits inodes to buffers, and then buffers to disk.
sync() only schedules the writes, so it may return before the actual
writing is done.  The value returned is unspecified.
@end defun

@node Regular Expression Pattern Matching, Line Editing, Posix Extensions, Packages
@section Regular Expression Pattern Matching

These functions are defined in @file{rgx.c} using a POSIX or GNU
@dfn{regex} library.  If your computer does not support regex, a package
is available via ftp from
@file{prep.ai.mit.edu:/pub/gnu/regex-0.12.tar.gz}.  For a description of
regular expressions, @xref{syntax, , , regex, "regex" regular expression
matching library}.

@defun regcomp @var{pattern} [@var{flags}]
Compile a @dfn{regular expression}.  Return a compiled regular
expression, or an integer error code suitable as an argument to
@code{regerror}.

@var{flags} in @code{regcomp} is a string of option letters used to
control the compilation of the regular expression. The letters may
consist of:

@table @samp
@item n
newlines won't be matched by @code{.} or hat lists; ( @code{[^...]} )
@item i
ignore case.
@exdent only when compiled with @var{_GNU_SOURCE}:
@item 0
allows dot to match a null character.
@item f
enable GNU fastmaps.
@end table
@end defun

@defun regerror @var{errno}
Returns a string describing the integer @var{errno} returned when
@code{regcomp} fails.
@end defun

@defun regexec @var{re} @var{string}
Returns @code{#f} or a vector of integers.  These integers are in
doublets.  The first of each doublet is the index of @var{string} of
the start of the matching expression or sub-expression (delimited by
parentheses in the pattern).  The last of each doublet is index of
@var{string} of the end of that expression.  @code{#f} is returned if
the string does not match.
@end defun

@defun regmatch? @var{re} @var{string}
Returns @code{#t} if the @var{pattern} such that @var{regexp} = (regcomp
@var{pattern}) matches @var{string} as a POSIX extended regular
expressions.  Returns @code{#f} otherwise.
@end defun

@defun regsearch  @var{re} @var{string} [@var{start} [@var{len}]]
@defunx regsearchv @var{re} @var{string} [@var{start} [@var{len}]]
@defunx regmatch   @var{re} @var{string} [@var{start} [@var{len}]]
@defunx regmatchv  @var{re} @var{string} [@var{start} [@var{len}]]
@code{Regsearch} searches for the pattern within the string.

@code{Regmatch} anchors the pattern and begins matching it against
string.

@code{Regsearch} returns the character position where @var{re} starts,
or @code{#f} if not found.

@code{Regmatch} returns the number of characters matched, @code{#f} if
not matched.

@code{Regsearchv} and @code{regmatchv} return the match vector is
returned if @var{re} is found, @code{#f} otherwise.

@table @var
@item re
may be either:
@enumerate
@item
a compiled regular expression returned by @code{regcomp};
@item
a string representing a regular expression;
@item
a list of a string and a set of option letters.
@end enumerate
@item string
The string to be operated upon.
@item start
The character position at which to begin the search or match. If absent,
the default is zero.

@exdent @emph{Compiled _GNU_SOURCE and using GNU libregex only:}

When searching, if @var{start} is negative, the absolute value of
@var{start} will be used as the start location and reverse searching
will be performed.

@item len
The search is allowed to examine only the first @var{len} characters of
@var{string}. If absent, the entire string may be examined.
@end table
@end defun

@defun string-split  @var{re} @var{string}
@defunx string-splitv @var{re} @var{string}
@code{String-split} splits a string into substrings that are separated
by @var{re}, returning a vector of substrings.

@code{String-splitv} returns a vector of string positions that indicate
where the substrings are located.
@end defun

@defun string-edit  @var{re} @var{edit-spec} @var{string} [@var{count}]
Returns the edited string.

@table @var
@item edit-spec
Is a string used to replace occurances of @var{re}.  Backquoted integers
in the range of 1-9 may be used to insert subexpressions in @var{re}, as
in @code{sed}.
@item count
The number of substitutions for @code{string-edit} to perform.  If
@code{#t}, all occurances of @var{re} will be replaced.  The default is
to perform one substitution.
@end table
@end defun

@node Line Editing, Curses, Regular Expression Pattern Matching, Packages
@section Line Editing

@noindent
These procedures provide input line editing and recall.

@noindent
These functions are defined in @file{edline.c} and @file{Iedline.scm}
using the @dfn{editline} or GNU @dfn{readline} (@pxref{Top, , Overview
,readline ,GNU Readline Library}) libraries available from:

@itemize @bullet
@item
@ifset html
<A HREF="ftp://ftp.sys.toronto.edu/pub/rc/editline.shar">
@end ifset
@code{ftp.sys.toronto.edu:/pub/rc/editline.shar}
@ifset html
</A>
@end ifset
@item
@ifset html
<A HREF="ftp://prep.ai.mit.edu/pub/gnu/readline-2.0.tar.gz">
@end ifset
@code{prep.ai.mit.edu:/pub/gnu/readline-2.0.tar.gz}
@ifset html
</A>
@end ifset
@end itemize

@noindent
When @file{Iedline.scm} is loaded, if the current input port is the
default input port and the environment variable @var{EMACS} is not
defined, line-editing mode will be entered.

@defun default-input-port
Returns the initial @code{current-input-port} SCM was invoked with
(stdin).
@end defun

@defun default-output-port
Returns the initial @code{current-output-port} SCM was invoked with
(stdout).
@end defun

@defun make-edited-line-port
Returns an input/output port that allows command line editing and
retrieval of history.
@end defun

@defun line-editing
Returns the current edited line port or @code{#f}.

@defunx line-editing bool
If @var{bool} is false, exits line-editing mode and returns the previous
value of @code{(line-editing)}.  If @var{bool} is true, sets the current
input and output ports to an edited line port and returns the previous
value of @code{(line-editing)}.
@end defun

@node Curses, Sockets, Line Editing, Packages
@section Curses

@noindent
These functions are defined in @file{crs.c} using the @dfn{curses}
library.  Unless otherwise noted these routines return @code{#t} for
successful completion and @code{#f} for failure.

@defun initscr
Returns a port for a full screen window.  This routine must be called to
initialize curses.
@end defun

@defun endwin
A program should call @code{endwin} before exiting or escaping from
curses mode temporarily, to do a system call, for example.  This routine
will restore termio modes, move the cursor to the lower left corner of
the screen and reset the terminal into the proper non-visual mode.  To
resume after a temporary escape, call @ref{Window Manipulation,
refresh}.
@end defun

@menu
* Output Options Setting::      
* Terminal Mode Setting::       
* Window Manipulation::         
* Output::                      
* Input::                       
* Curses Miscellany::           
@end menu

@node Output Options Setting, Terminal Mode Setting, Curses, Curses
@subsection Output Options Setting

@noindent
These routines set options within curses that deal with output.  All
options are initially @code{#f}, unless otherwise stated.  It is not
necessary to turn these options off before calling @code{endwin}.

@defun clearok win bf
If enabled (@var{bf} is @code{#t}), the next call to @code{force-output}
or @code{refresh} with @var{win} will clear the screen completely and
redraw the entire screen from scratch.  This is useful when the contents
of the screen are uncertain, or in some cases for a more pleasing visual
effect.
@end defun

@defun idlok win bf
If enabled (@var{bf} is @code{#t}), curses will consider using the
hardware ``insert/delete-line'' feature of terminals so equipped.  If
disabled (@var{bf} is @code{#f}), curses will very seldom use this
feature.  The ``insert/delete-character'' feature is always considered.
This option should be enabled only if your application needs
``insert/delete-line'', for example, for a screen editor.  It is
disabled by default because

``insert/delete-line'' tends to be visually annoying when used in
applications where it is not really needed.  If ``insert/delete-line''
cannot be used, curses will redraw the changed portions of all lines.
@end defun

@defun leaveok win bf
Normally, the hardware cursor is left at the location of the window
cursor being refreshed.  This option allows the cursor to be left
wherever the update happens to leave it.  It is useful for
applications where the cursor is not used, since it reduces the need
for cursor motions.  If possible, the cursor is made invisible when
this option is enabled.
@end defun

@defun scrollok win bf
This option controls what happens when the cursor of window @var{win} is
moved off the edge of the window or scrolling region, either from a
newline on the bottom line, or typing the last character of the last
line.  If disabled (@var{bf} is @code{#f}), the cursor is left on the
bottom line at the location where the offending character was entered.
If enabled (@var{bf} is @code{#t}), @code{force-output} is called on the
window @var{win}, and then the physical terminal and window @var{win}
are scrolled up one line.

@emph{Note:} in order to get the physical scrolling effect on the
terminal, it is also necessary to call @code{idlok}.
@end defun

@defun nodelay win bf
This option causes wgetch to be a non-blocking call.  If no input is
ready, wgetch will return an eof-object. If disabled, wgetch will hang
until a key is pressed.
@end defun

@node Terminal Mode Setting, Window Manipulation, Output Options Setting, Curses
@subsection Terminal Mode Setting

@noindent
These routines set options within curses that deal with input.  The
options involve using ioctl(2) and therefore interact with curses
routines.  It is not necessary to turn these options off before
calling @code{endwin}.  The routines in this section all return an
unspecified value.

@defun cbreak
@defunx nocbreak
These two routines put the terminal into and out of @code{CBREAK} mode,
respectively.  In @code{CBREAK} mode, characters typed by the user are
immediately available to the program and erase/kill character
processing is not performed.  When in @code{NOCBREAK} mode, the tty driver
will buffer characters typed until a @key{LFD} or @key{RET} is typed.
Interrupt and flowcontrol characters are unaffected by this mode.
Initially the terminal may or may not be in @code{CBREAK} mode, as it is
inherited, therefore, a program should call @code{cbreak} or @code{nocbreak}
explicitly.  Most interactive programs using curses will set @code{CBREAK}
mode.

@emph{Note:} @code{cbreak} overrides @code{raw}.  For a discussion of
how these routines interact with @code{echo} and @code{noecho}
@xref{Input, read-char}.
@end defun

@defun raw
@defunx noraw
The terminal is placed into or out of @code{RAW} mode.  @code{RAW} mode
is similar to @code{CBREAK} mode, in that characters typed are
immediately passed through to the user program.  The differences are
that in @code{RAW} mode, the interrupt, quit, suspend, and flow control
characters are passed through uninterpreted, instead of generating a
signal.  @code{RAW} mode also causes 8-bit input and output.  The
behavior of the @code{BREAK} key depends on other bits in the terminal
driver that are not set by curses.
@end defun

@defun echo
@defunx noecho
These routines control whether characters typed by the user are echoed
by @code{read-char} as they are typed.  Echoing by the tty driver is
always disabled, but initially @code{read-char} is in @code{ECHO} mode,
so characters typed are echoed.  Authors of most interactive programs
prefer to do their own echoing in a controlled area of the screen, or
not to echo at all, so they disable echoing by calling @code{noecho}.
For a discussion of how these routines interact with @code{echo} and
@code{noecho} @xref{Input, read-char}.
@end defun

@defun nl
@defunx nonl
These routines control whether @key{LFD} is translated into @key{RET}
and @code{LFD} on output, and whether @key{RET} is translated into
@key{LFD} on input.  Initially, the translations do occur.  By disabling
these translations using @code{nonl}, curses is able to make better use
of the linefeed capability, resulting in faster cursor motion.
@end defun

@defun resetty
@defunx savetty
These routines save and restore the state of the terminal modes.
@code{savetty} saves the current state of the terminal in a buffer and
@code{resetty} restores the state to what it was at the last call to
@code{savetty}.
@end defun

@node Window Manipulation, Output, Terminal Mode Setting, Curses
@subsection Window Manipulation

@defun newwin nlines ncols begy begx
Create and return a new window with the given number of lines (or rows),
@var{nlines}, and columns, @var{ncols}.  The upper left corner of the
window is at line @var{begy}, column @var{begx}.  If either @var{nlines}
or @var{ncols} is 0, they will be set to the value of
@code{LINES}-@var{begy} and @code{COLS}-@var{begx}.  A new full-screen
window is created by calling @code{newwin(0,0,0,0)}.
@end defun

@defun subwin orig nlines ncols begy begx
Create and return a pointer to a new window with the given number of
lines (or rows), @var{nlines}, and columns, @var{ncols}.  The window is
at position (@var{begy}, @var{begx}) on the screen.  This position is
relative to the screen, and not to the window @var{orig}.  The window is
made in the middle of the window @var{orig}, so that changes made to one
window will affect both windows.  When using this routine, often it will
be necessary to call @code{touchwin} or @code{touchline} on @var{orig}
before calling @code{force-output}.
@end defun

@defun close-port win
Deletes the window @var{win}, freeing up all memory associated with it.
In the case of sub-windows, they should be deleted before the main
window @var{win}.
@end defun

@defun refresh
@defunx force-output win
These routines are called to write output to the terminal, as most other
routines merely manipulate data structures.  @code{force-output} copies
the window @var{win} to the physical terminal screen, taking into
account what is already there in order to minimize the amount of
information that's sent to the terminal (called optimization).  Unless
@code{leaveok} has been enabled, the physical cursor of the terminal is
left at the location of window @var{win}'s cursor.  With @code{refresh},
the number of characters output to the terminal is returned.
@end defun

@defun mvwin win y x
Move the window @var{win} so that the upper left corner will be at position
(@var{y}, @var{x}).  If the move would cause the window @var{win} to be off the
screen, it is an error and the window @var{win} is not moved.
@end defun

@defun overlay srcwin dstwin
@defunx overwrite srcwin dstwin

These routines overlay @var{srcwin} on top of @var{dstwin}; that is, all
text in @var{srcwin} is copied into @var{dstwin}.  @var{srcwin} and
@var{dstwin} need not be the same size; only text where the two windows
overlap is copied.  The difference is that @code{overlay} is
non-destructive (blanks are not copied), while @code{overwrite} is
destructive.
@end defun

@defun touchwin win
@defunx touchline win start count
Throw away all optimization information about which parts of the window
@var{win} have been touched, by pretending that the entire window
@var{win} has been drawn on.  This is sometimes necessary when using
overlapping windows, since a change to one window will affect the other
window, but the records of which lines have been changed in the other
window will not reflect the change.  @code{touchline} only pretends that
@var{count} lines have been changed, beginning with line @var{start}.
@end defun

@defun wmove win y x
The cursor associated with the window @var{win} is moved to line (row) @var{y},
column @var{x}.  This does not move the physical cursor of the terminal
until @code{refresh} (or @code{force-output}) is called.  The position
specified is relative to the upper left corner of the window @var{win},
which is (0, 0).
@end defun

@node Output, Input, Window Manipulation, Curses
@subsection Output

@noindent
These routines are used to @dfn{draw} text on windows

@defun display ch win
@defunx display str win
@defunx wadd win ch
@defunx wadd win str
The character @var{ch} or characters in @var{str} are put into the
window @var{win} at the current cursor position of the window and the
position of @var{win}'s cursor is advanced.  At the right margin, an
automatic newline is performed.  At the bottom of the scrolling region,
if scrollok is enabled, the scrolling region will be scrolled up one
line.

If @var{ch} is a @key{TAB}, @key{LFD}, or backspace, the cursor will be
moved appropriately within the window @var{win}.  A @key{LFD} also does a
@code{wclrtoeol} before moving.  @key{TAB} characters are considered to
be at every eighth column.  If @var{ch} is another control character, it
will be drawn in the @kbd{C-x} notation.  (Calling @code{winch} after
adding a control character will not return the control character, but
instead will return the representation of the control character.)

Video attributes can be combined with a character by or-ing them into
the parameter.  This will result in these attributes also being set.
The intent here is that text, including attributes, can be copied from
one place to another using inch and display.  See @code{standout},
below.

@emph{Note:} For @code{wadd} @var{ch} can be an integer and will insert
the character of the corresponding value.
@end defun

@defun werase win
This routine copies blanks to every position in the window @var{win}.
@end defun

@defun wclear win
This routine is like @code{werase}, but it also calls @ref{Output
Options Setting, clearok}, arranging that the screen will be cleared
completely on the next call to @code{refresh} or @code{force-output} for
window @var{win}, and repainted from scratch.
@end defun

@defun wclrtobot win
All lines below the cursor in window @var{win} are erased.  Also, the
current line to the right of the cursor, inclusive, is erased.
@end defun

@defun wclrtoeol win
The current line to the right of the cursor, inclusive, is erased.
@end defun

@defun wdelch win
The character under the cursor in the window @var{win} is deleted.  All
characters to the right on the same line are moved to the left one
position and the last character on the line is filled with a blank.  The
cursor position does not change.  This does not imply use of the
hardware ``delete-character'' feature.
@end defun

@defun wdeleteln win
The line under the cursor in the window @var{win} is deleted.  All lines
below the current line are moved up one line.  The bottom line @var{win}
is cleared.  The cursor position does not change.  This does not imply
use of the hardware ``deleteline'' feature.
@end defun

@defun winsch win ch
The character @var{ch} is inserted before the character under the
cursor.  All characters to the right are moved one @key{SPC} to the
right, possibly losing the rightmost character of the line.  The cursor
position does not change .  This does not imply use of the hardware
``insertcharacter'' feature.
@end defun

@defun winsertln win
A blank line is inserted above the current line and the bottom line is
lost.  This does not imply use of the hardware ``insert-line'' feature.
@end defun

@defun scroll win
The window @var{win} is scrolled up one line.  This involves moving the
lines in @var{win}'s data structure.  As an optimization, if @var{win}
is stdscr and the scrolling region is the entire window, the physical
screen will be scrolled at the same time.
@end defun

@node Input, Curses Miscellany, Output, Curses
@subsection Input

@defun read-char win
A character is read from the terminal associated with the window
@var{win}.  Depending on the setting of @code{cbreak}, this will be
after one character (@code{CBREAK} mode), or after the first newline
(@code{NOCBREAK} mode).  Unless @code{noecho} has been set, the
character will also be echoed into @var{win}.

When using @code{read-char}, do not set both @code{NOCBREAK} mode
(@code{nocbreak}) and @code{ECHO} mode (@code{echo}) at the same time.
Depending on the state of the terminal driver when each character is
typed, the program may produce undesirable results.
@end defun

@defun winch win
The character, of type chtype, at the current position in window
@var{win} is returned.  If any attributes are set for that position,
their values will be OR'ed into the value returned.
@end defun

@defun getyx win
A list of the y and x coordinates of the cursor position of the window
@var{win} is returned
@end defun

@node Curses Miscellany,  , Input, Curses
@subsection Curses Miscellany

@defun wstandout win
@defunx wstandend win

These functions set the current attributes of the window @var{win}.  The
current attributes of @var{win} are applied to all characters that are
written into it.  Attributes are a property of the character, and move
with the character through any scrolling and insert/delete
line/character operations.  To the extent possible on the particular
terminal, they will be displayed as the graphic rendition of characters
put on the screen.

@code{wstandout} sets the current attributes of the window @var{win} to
be visibly different from other text.  @code{wstandend} turns off the
attributes.
@end defun

@defun box win vertch horch
A box is drawn around the edge of the window @var{win}.  @var{vertch}
and @var{horch} are the characters the box is to be drawn with.  If
@var{vertch} and @var{horch} are 0, then appropriate default characters,
@code{ACS_VLINE} and @code{ACS_HLINE}, will be used.

@emph{Note:} @var{vertch} and @var{horch} can be an integers and will
insert the character (with attributes) of the corresponding values.
@end defun

@defun unctrl c
This macro expands to a character string which is a printable
representation of the character @var{c}.  Control characters are
displayed in the @kbd{C-x} notation.  Printing characters are displayed
as is.
@end defun

@node Sockets,  , Curses, Packages
@section Sockets

@noindent
These procedures (defined in @file{socket.c}) provide a Scheme interface
to most of the C @dfn{socket} library.  For more information on sockets,
@xref{Sockets, , , libc, The GNU C Library Reference Manual}.

@menu
* Host Data::                   
* Internet Addresses and Socket Names::  
* Socket::                      
@end menu

@node Host Data, Internet Addresses and Socket Names, Sockets, Sockets
@subsection Host Data, Network, Protocol, and Service Inquiries

@defvr Constant af_inet
@defvrx Constant af_unix
Integer family codes for Internet and Unix sockets, respectively.
@end defvr

@defun gethost host-spec
@defunx gethost
Returns a vector of information for the entry for @code{HOST-SPEC} or the
next entry if @code{HOST-SPEC} isn't given.  The information is:

@enumerate 0
@item
host name string
@item
list of host aliases strings
@item
integer address type (@code{AF_INET})
@item
integer size of address entries (in bytes)
@item
list of integer addresses
@end enumerate
@end defun

@defun sethostent stay-open
@defunx sethostent
Rewinds the host entry table back to the begining if given an argument.
If the argument @var{stay-open} is @code{#f} queries will be be done
using @code{UDP} datagrams.  Otherwise, a connected @code{TCP} socket
will be used.  When called without an argument, the host table is
closed.
@end defun

@defun getnet name-or-number
@defunx getnet
Returns a vector of information for the entry for @var{name-or-number} or
the next entry if an argument isn't given.  The information is:

@enumerate 0
@item
official network name string
@item
list of network aliases strings
@item
integer network address type (@code{AF_INET})
@item
integer network number
@end enumerate
@end defun

@defun setnetent stay-open
@defunx setnetent
Rewinds the network entry table back to the begining if given an
argument.  If the argument @var{stay-open} is @code{#f} the table will be closed
between calls to getnet.  Otherwise, the table stays open.  When
called without an argument, the network table is closed.
@end defun

@defun getproto name-or-number
@defunx getproto
Returns a vector of information for the entry for @var{name-or-number} or
the next entry if an argument isn't given.  The information is:

@enumerate
@item
official protocol name string
@item
list of protocol aliases strings
@item
integer protocol number
@end enumerate
@end defun

@defun setprotoent stay-open
@defunx setprotoent
Rewinds the protocol entry table back to the begining if given an
argument.  If the argument @var{stay-open} is @code{#f} the table will be closed
between calls to getproto.  Otherwise, the table stays open.  When
called without an argument, the protocol table is closed.
@end defun

@defun getserv name-or-port-number protocol
@defunx getserv
Returns a vector of information for the entry for @var{name-or-port-number}
and @var{protocol} or the next entry if arguments aren't given.  The
information is:

@enumerate 0
@item
official service name string
@item
list of service aliases strings
@item
integer port number
@item
protocol
@end enumerate
@end defun

@defun setservent stay-open
@defunx setservent
Rewinds the service entry table back to the begining if given an
argument.  If the argument @var{stay-open} is @code{#f} the table will be closed
between calls to getserv.  Otherwise, the table stays open.  When
called without an argument, the service table is closed.
@end defun

@node Internet Addresses and Socket Names, Socket, Host Data, Sockets
@subsection Internet Addresses and Socket Names

@defun inet:string->address string
Returns the host address number (integer) for host @var{string} or
@code{#f} if not found.
@end defun

@defun inet:address->string address
Converts an internet (integer) address to a string in numbers and dots
notation.  This is an inverse function to inet:address.
@end defun

@defun inet:network address
Returns the network number (integer) specified from @var{address} or
@code{#f} if not found.
@end defun

@defun inet:local-network-address address
Returns the integer for the address of @var{address} within its local
network or @code{#f} if not found.
@end defun

@defun inet:make-address network local-address
Returns the Internet address of @var{local-address} in @var{network}.
@end defun

@noindent
The type @dfn{socket-name} is used for inquiries about open sockets in
the following procedures:

@defun getsockname socket
Returns the socket-name of @var{socket}.  Returns @code{#f} if
unsuccessful or @var{socket} is closed.
@end defun

@defun getpeername socket
Returns the socket-name of the socket connected to @var{socket}.
Returns @code{#f} if unsuccessful or @var{socket} is closed.
@end defun

@defun socket-name:family socket-name
Returns the integer code for the family of @var{socket-name}.
@end defun

@defun socket-name:port-number socket-name
Returns the integer port number of @var{socket-name}.
@end defun

@defun socket-name:address socket-name
Returns the integer Internet address for @var{socket-name}.
@end defun


@node Socket,  , Internet Addresses and Socket Names, Sockets
@subsection Socket

@noindent
When a port is returned from one of these calls it is unbuffered.
This allows both reading and writing to the same port to work.  If you
want buffered ports you can (assuming sock-port is a socket i/o port):
@example
(require 'i/o-extensions)
@ftindex i/o-extensions
(define i-port (duplicate-port sock-port "r"))
(define o-port (duplicate-port sock-port "w"))
@end example

@defun make-stream-socket family
@defunx make-stream-socket family protocol

Returns a @code{SOCK_STREAM} socket of type @var{family} using
@var{protocol}.  If @var{family} has the value @code{AF_INET},
@code{SO_REUSEADDR} will be set.  The integer argument @var{protocol}
corresponds to the integer protocol numbers returned (as vector
elements) from @code{(getproto)}.  If the @var{protocol} argument is not
supplied, the default (0) for the specified @var{family} is used.  SCM
sockets look like ports opened for neither reading nor writing.
@end defun

@defun make-stream-socketpair family
@defunx make-stream-socketpair family protocol

Returns a pair (cons) of connected @code{SOCK_STREAM} (socket) ports of
type @var{family} using @var{protocol}.  Many systems support only
socketpairs of the @code{af-unix} @var{family}.  The integer argument
@var{protocol} corresponds to the integer protocol numbers returned (as
vector elements) from (getproto).  If the @var{protocol} argument is
not supplied, the default (0) for the specified @var{family} is used.
@end defun

@defun socket:shutdown socket how
Makes @var{socket} no longer respond to some or all operations depending on
the integer argument @var{how}:

@enumerate 0
@item
Further input is disallowed.
@item
Further output is disallowed.
@item
Further input or output is disallowed.
@end enumerate

@code{Socket:shutdown} returns @var{socket} if successful, @code{#f} if
not.
@end defun

@defun socket:connect inet-socket host-number port-number
@defunx socket:connect unix-socket pathname
Returns @var{socket} (changed to a read/write port) connected to the
Internet socket on host @var{host-number}, port @var{port-number} or
the Unix socket specified by @var{pathname}.  Returns @code{#f} if not
successful.
@end defun

@defun socket:bind inet-socket port-number
@defunx socket:bind unix-socket pathname
Returns @var{inet-socket} bound to the integer @var{port-number} or the
@var{unix-socket} bound to new socket in the file system at location
@var{pathname}.  Returns @code{#f} if not successful. Binding a
@var{unix-socket} creates a socket in the file system that must be
deleted by the caller when it is no longer needed (using
@code{delete-file}).
@end defun

@defun socket:listen socket backlog
The bound (@pxref{Socket, bind}) @var{socket} is readied to
accept connections.  The positive integer @var{backlog} specifies how
many pending connections will be allowed before further connection
requests are refused.  Returns @var{socket} (changed to a read-only
port) if successful, @code{#f} if not.
@end defun

@defun char-ready? listen-socket
The input port returned by a successful call to @code{socket:listen} can
be polled for connections by @code{char-ready?} (@pxref{Files and Ports,
char-ready?}).  This avoids blocking on connections by
@code{socket:accept}.
@end defun

@defun socket:accept socket
Accepts a connection on a bound, listening @var{socket}.  Returns an
input/output port for the connection.
@end defun

@noindent
The following example is not too complicated, yet shows the use of
sockets for multiple connections without input blocking.

@example
;;;; Scheme chat server

;;; This program implements a simple `chat' server which accepts
;;; connections from multiple clients, and sends to all clients any
;;; characters received from any client.

;;; To connect to chat `telnet localhost 8001'

(require 'socket)
@ftindex socket
(require 'i/o-extensions)
@ftindex i/o-extensions

(let ((listener-socket (socket:bind (make-stream-socket af_inet) 8001))
      (connections '()))
  (socket:listen listener-socket 5)
  (do () (#f)
    (cond ((char-ready? listener-socket)
           (let ((con (socket:accept listener-socket)))
             (display "accepting connection from ")
             (display (getpeername con))
             (newline)
             (set! connections (cons con connections))
             (display "connected" con)
             (newline con))))
    (set! connections
          (let next ((con-list connections))
            (cond ((null? con-list) '())
                  (else
                   (let ((con (car con-list)))
                     (cond ((char-ready? con)
                            (let ((c (read-char con)))
                              (cond ((eof-object? c)
                                     (display "closing connection from ")
                                     (display (getpeername con))
                                     (newline)
                                     (close-port con)
                                     (next (cdr con-list)))
                                    (else
                                     (for-each (lambda (con)
                                                 (file-set-position con 0)
                                                 (write-char c con)
                                                 (file-set-position con 0))
                                               connections)
                                     (cons con (next (cdr con-list)))))))
                           (else (cons con (next (cdr con-list))))))))))))
@end example

@noindent
You can use @samp{telnet localhost 8001} to connect to the chat server,
or you can use a client written in scheme:

@example
;;;; Scheme chat client

;;; this program connects to socket 8001.  It then sends all
;;; characters from current-input-port to the socket and sends all
;;; characters from the socket to current-output-port.

(require 'socket)
@ftindex socket
(require 'i/o-extensions)
@ftindex i/o-extensions

(define con (make-stream-socket af_inet))
(set! con (socket:connect con (inet:string->address "localhost") 8001))

(do ((cs #f (and (char-ready? con) (read-char con)))
     (ct #f (and (char-ready?) (read-char))))
    ((or (eof-object? cs) (eof-object? ct))
     (close-port con))
  (cond (cs (display cs)))
  (cond (ct (file-set-position con 0)
            (display ct con)
            (file-set-position con 0))))
@end example


@node The Implementation, Procedure and Macro Index, Packages, Top
@chapter The Implementation

@menu
* Data Types::                  
* Operations::                  
* Program Self-Knowledge::      What SCM needs to know about itself.
* Improvements To Make::        
@end menu

@node Data Types, Operations, The Implementation, The Implementation
@section Data Types

@noindent
In the descriptions below it is assumed that @code{long int}s are 32
bits in length.  Acutally, SCM is written to work with any @code{long
int} size larger than 31 bits.  With some modification, SCM could work
with word sizes as small as 24 bits.

@noindent
All SCM objects are represented by type @dfn{SCM}.  Type @code{SCM} come
in 2 basic flavors, Immediates and Cells:

@menu
* Immediates::                  
* Cells::                       Non-Immediate types
* Header Cells::                Malloc objects
* Subr Cells::                  Built-in and Compiled Procedures
* Ptob Cells::                  I/O ports
* Smob Cells::                  Miscellaneous datatypes
* Data Type Representations::   How they all fit together
@end menu

@node Immediates, Cells, Data Types, Data Types
@subsection Immediates

@noindent
An @dfn{immediate} is a data type contained in type @code{SCM}
(@code{long int}).  The type codes distinguishing immediate types from
each other vary in length, but reside in the low order bits.

@defmac IMP x
@defmacx NIMP x
Return non-zero if the @code{SCM} object @var{x} is an immediate or
non-immediate type, respectively.
@end defmac

@deftp Immediate inum
immediate 30 bit signed integer.  An INUM is flagged by a @code{1} in
the second to low order bit position.  The high order 30 bits are used
for the integer's value.

@defmac INUMP x
@defmacx NINUMP x
Return non-zero if the @code{SCM} @var{x} is an immediate integer or not
an immediate integer, respectively.
@end defmac

@defmac INUM x
Returns the C @code{long integer} corresponding to @code{SCM} @var{x}.
@end defmac

@defmac MAKINUM x
Returns the @code{SCM} inum corresponding to C @code{long integer} x.
@end defmac

@defvr {Immediate Constant} INUM0
is equivalent to @code{MAKINUM(0)}.
@end defvr

Computations on INUMs are performed by converting the arguments to C
integers (by a shift), operating on the integers, and converting the
result to an inum.  The result is checked for overflow by converting
back to integer and checking the reverse operation.

The shifts used for conversion need to be signed shifts.  If the C
implementation does not support signed right shift this fact is detected
in a #if statement in @file{scmfig.h} and a signed right shift,
@code{SRS}, is constructed in terms of unsigned right shift.
@end deftp

@deftp Immediate ichr
characters.

@defmac ICHRP x
Return non-zero if the @code{SCM} object @var{x} is a character.
@end defmac

@defmac ICHR x
Returns corresponding @code{unsigned char}.
@end defmac

@defmac MAKICHR x
Given @code{char} @var{x}, returns @code{SCM} character.
@end defmac

@end deftp

@deftp Immediate iflags
These are frequently used immediate constants.
@deftypevr {Immediate Constant} SCM BOOL_T
@code{#t}
@end deftypevr
@deftypevr {Immediate Constant} SCM BOOL_F
@code{#f}
@end deftypevr
@deftypevr {Immediate Constant} SCM EOL
@code{()}.  If @code{SICP} is @code{#define}d, @code{EOL} is
@code{#define}d to be identical with @code{BOOL_F}.  In this case, both
print as @code{#f}.
@end deftypevr
@deftypevr {Immediate Constant} SCM EOF_VAL
end of file token, @code{#<eof>}.
@end deftypevr
@deftypevr {Immediate Constant} SCM UNDEFINED
@code{#<undefined>} used for variables which have not been defined and
absent optional arguments.
@end deftypevr
@deftypevr {Immediate Constant} SCM UNSPECIFIED
@code{#<unspecified>} is returned for those procedures whose return
values are not specified.
@end deftypevr

@end deftp

@defmac IFLAGP n
Returns non-zero if @var{n} is an ispcsym, isym or iflag.
@end defmac

@defmac ISYMP n
Returns non-zero if @var{n} is an ispcsym or isym.
@end defmac

@defmac ISYMNUM n
Given ispcsym, isym, or iflag @var{n}, returns its index in the C array
@code{isymnames[]}.
@end defmac

@defmac ISYMCHARS n
Given ispcsym, isym, or iflag @var{n}, returns its @code{char *}
representation (from @code{isymnames[]}).
@end defmac

@defmac MAKSPCSYM n
Returns @code{SCM} ispcsym @var{n}.
@end defmac

@defmac MAKISYM n
Returns @code{SCM} iisym @var{n}.
@end defmac

@defmac MAKIFLAG n
Returns @code{SCM} iflag @var{n}.
@end defmac

@defvar isymnames
An array of strings containing the external representations of all the
ispcsym, isym, and iflag immediates.  Defined in @file{repl.c}.
@end defvar

@defvr Constant NUM_ISPCSYM
@defvrx Constant NUM_ISYMS
The number of ispcsyms and ispcsyms+isyms, respectively.  Defined in
@file{scm.h}.
@end defvr

@deftp Immediate isym
@code{and}, @code{begin}, @code{case}, @code{cond}, @code{define},
@code{do}, @code{if}, @code{lambda}, @code{let}, @code{let*},
@code{letrec}, @code{or}, @code{quote}, @code{set!}, @code{#f},
@code{#t}, @code{#<undefined>}, @code{#<eof>}, @code{()}, and
@code{#<unspecified>}.

@deftpx {CAR Immediate} ispcsym
special symbols: syntax-checked versions of first 14 isyms
@end deftp

@deftp {CAR Immediate} iloc
indexes to a variable's location in environment
@end deftp

@deftp {CAR Immediate} gloc
pointer to a symbol's value cell
@end deftp

@deftp Immediate CELLPTR
pointer to a cell (not really an immediate type, but here for
completeness).  Since cells are always 8 byte aligned, a pointer to a
cell has the low order 3 bits @code{0}.

There is one exception to this rule, @emph{CAR Immediate}s, described
next.
@end deftp

@noindent
A @dfn{CAR Immediate} is an Immediate point which can only occur in the
@code{CAR}s of evaluated code (as a result of @code{ceval}'s memoization
process).

@node Cells, Header Cells, Immediates, Data Types
@subsection Cells

@noindent
@dfn{Cell}s represent all SCM objects other than immediates.  A cell has
a @code{CAR} and a @code{CDR}.  Low-order bits in @code{CAR} identify
the type of object.  The rest of @code{CAR} and @code{CDR} hold object
data.  The number after @code{tc} specifies how many bits are in the
type code.  For instance, @code{tc7} indicates that the type code is 7
bits.

@defmac NEWCELL x
Allocates a new cell and stores a pointer to it in @code{SCM} local
variable @var{x}.

Care needs to be taken that stores into the new cell pointed to by
@var{x} do not create an inconsistent object.  @xref{Signals}.
@end defmac

@noindent
All of the C macros decribed in this section assume that their argument
is of type @code{SCM} and points to a cell (@code{CELLPTR}).

@defmac CAR x
@defmacx CDR x
Returns the @code{car} and @code{cdr} of cell @var{x}, respectively.
@end defmac

@defmac TYP3 x
@defmacx TYP7 x
@defmacx TYP16 x
Returns the 3, 7, and 16 bit type code of a cell.
@end defmac

@deftp Cell tc3_cons
scheme cons-cell returned by (cons arg1 arg2).

@defmac CONSP x
@defmacx NCONSP x
Returns non-zero if @var{x} is a @code{tc3_cons} or isn't, respectively.
@end defmac
@end deftp

@deftp Cell tc3_closure
applicable object returned by (lambda (args) @dots{}).
@code{tc3_closure}s have a pointer to other the body of the procedure in
the @code{CAR} and a pointer to the environment in the @code{CDR}.

@defmac CLOSUREP x
Returns non-zero if @var{x} is a @code{tc3_closure}.
@end defmac

@defmac CODE x
@defmacx ENV x
Returns the code body or environment of closure @var{x}, respectively.
@end defmac

@end deftp

@node Header Cells, Subr Cells, Cells, Data Types
@subsection Header Cells

@noindent
@dfn{Header}s are Cells whose @code{CDR}s point elsewhere in memory,
such as to memory allocated by @code{malloc}.

@deftp Header spare
spare @code{tc7} type code
@end deftp

@deftp Header tc7_vector
scheme vector.

@defmac VECTORP x
@defmacx NVECTORP x
Returns non-zero if @var{x} is a @code{tc7_vector} or if not, respectively.
@end defmac

@defmac VELTS x
@defmacx LENGTH x
Returns the C array of @code{SCM}s holding the elements of vector
@var{x} or its length, respectively.
@end defmac
@end deftp

@deftp Header tc7_ssymbol
static scheme symbol (part of initial system)

@deftpx Header tc7_msymbol
@code{malloc}ed scheme symbol (can be GCed)

@defmac SYMBOLP x
Returns non-zero if @var{x} is a @code{tc7_ssymbol} or
@code{tc7_msymbol}.
@end defmac

@defmac CHARS x
@defmacx UCHARS x
@defmacx LENGTH x
Returns the C array of @code{char}s or as @code{unsigned char}s holding
the elements of symbol @var{x} or its length, respectively.
@end defmac
@end deftp

@deftp Header tc7_string
scheme string

@defmac STRINGP x
@defmacx NSTRINGP x
Returns non-zero if @var{x} is a @code{tc7_string} or isn't,
respectively.
@end defmac

@defmac CHARS x
@defmacx UCHARS x
@defmacx LENGTH x
Returns the C array of @code{char}s or as @code{unsigned char}s holding
the elements of string @var{x} or its length, respectively.
@end defmac
@end deftp

@deftp Header tc7_bvect
uniform vector of booleans (bit-vector)
@end deftp

@deftp Header tc7_ivect
uniform vector of integers
@end deftp

@deftp Header tc7_uvect
uniform vector of non-negative integers
@end deftp

@deftp Header tc7_fvect
uniform vector of short inexact real numbers
@end deftp

@deftp Header tc7_dvect
uniform vector of double precision inexact real numbers
@end deftp

@deftp Header tc7_cvect
uniform vector of double precision inexact complex numbers
@end deftp

@deftp Header tc7_contin
applicable object produced by call-with-current-continuation
@end deftp

@deftp Header tc7_cclo
Subr and environment for compiled closure

A cclo is similar to a vector (and is GCed like one), but can be applied
as a function:

@enumerate
@item
the cclo itself is consed onto the head of the argument list
@item
the first element of the cclo is applied to that list.  Cclo invocation
is currently not tail recursive when given 2 or more arguments.
@end enumerate

@defun makcclo proc len
makes a closure from the @emph{subr} @var{proc} with @var{len}-1 extra
locations for @code{SCM} data.  Elements of a @var{cclo} are referenced
using @code{VELTS(cclo)[n]} just as for vectors.
@end defun
@end deftp

@node Subr Cells, Ptob Cells, Header Cells, Data Types
@subsection Subr Cells

@noindent
A @dfn{Subr} is a header whose @code{CDR} points to a C code procedure.
Scheme primitive procedures are subrs.  Except for the arithmetic
@code{tc7_cxr}s, the C code procedures will be passed arguments (and
return results) of type @code{SCM}.

@deftp Subr tc7_asubr
associative C function of 2 arguments.  Examples are @code{+}, @code{-},
@code{*}, @code{/}, @code{max}, and @code{min}.
@end deftp

@deftp Subr tc7_subr_0
C function of no arguments.
@end deftp

@deftp Subr tc7_subr_1
C function of one argument.
@end deftp

@deftp Subr tc7_cxr
These subrs are handled specially.  If inexact numbers are enabled, the
@code{CDR} should be a function which takes and returns type
@code{double}.  Conversions are handled in the interpreter.

@code{floor}, @code{ceiling}, @code{truncate}, @code{round},
@code{$sqrt}, @code{$abs}, @code{$exp}, @code{$log}, @code{$sin},
@code{$cos}, @code{$tan}, @code{$asin}, @code{$acos}, @code{$atan},
@code{$sinh}, @code{$cosh}, @code{$tanh}, @code{$asinh}, @code{$acosh},
@code{$atanh}, and @code{exact->inexact} are defined this way.

If the @code{CDR} is @code{0} (@code{NULL}), the name string of the
procedure is used to control traversal of its list structure argument.

@code{car}, @code{cdr}, @code{caar}, @code{cadr}, @code{cdar},
@code{cddr}, @code{caaar}, @code{caadr}, @code{cadar}, @code{caddr},
@code{cdaar}, @code{cdadr}, @code{cddar}, @code{cdddr}, @code{caaaar},
@code{caaadr}, @code{caadar}, @code{caaddr}, @code{cadaar},
@code{cadadr}, @code{caddar}, @code{cadddr}, @code{cdaaar},
@code{cdaadr}, @code{cdadar}, @code{cdaddr}, @code{cddaar},
@code{cddadr}, @code{cdddar}, and @code{cddddr} are defined this way.
@end deftp

@deftp Subr tc7_subr_3
C function of 3 arguments.
@end deftp

@deftp Subr tc7_subr_2
C function of 2 arguments.
@end deftp

@deftp Subr tc7_rpsubr
transitive relational predicate C function of 2 arguments.  The C
function should return either @code{BOOL_T} or @code{BOOL_F}.
@end deftp

@deftp Subr tc7_subr_1o
C function of one optional argument.  If the optional argument is not
present, @code{UNDEFINED} is passed in its place.
@end deftp

@deftp Subr tc7_subr_2o
C function of 1 required and 1 optional argument.  If the optional
argument is not present, @code{UNDEFINED} is passed in its place.
@end deftp

@deftp Subr tc7_lsubr_2
C function of 2 arguments and a list of (rest of) @code{SCM} arguments.
@end deftp

@deftp Subr tc7_lsubr
C function of list of @code{SCM} arguments.
@end deftp

@node Ptob Cells, Smob Cells, Subr Cells, Data Types
@subsection Ptob Cells

@noindent
A @dfn{ptob} is a port object, capable of delivering or accepting
characters.  @xref{Ports, , , r4rs, Revised(4) Report on the Algorithmic
Language Scheme}.  Unlike the types described so far, new varieties of
ptobs can be defined dynamically (@pxref{Defining Ptobs}).  These are
the initial ptobs:

@deftp ptob tc16_inport
input port.
@end deftp

@deftp ptob tc16_outport
output port.
@end deftp

@deftp ptob tc16_ioport
input-output port.
@end deftp

@deftp ptob tc16_inpipe
input pipe created by @code{popen()}.
@end deftp

@deftp ptob tc16_outpipe
output pipe created by @code{popen()}.
@end deftp

@deftp ptob tc16_strport
String port created by @code{cwos()} or @code{cwis()}.
@end deftp

@deftp ptob tc16_sfport
Software (virtual) port created by @code{mksfpt()} (@pxref{Soft Ports}).
@end deftp

@defmac PORTP x
@defmacx OPPORTP x
@defmacx OPINPORTP x
@defmacx OPOUTPORTP x
@defmacx INPORTP x
@defmacx OUTPORTP x
Returns non-zero if @var{x} is a port, open port, open input-port, open
output-port, input-port, or output-port, respectively.
@end defmac

@defmac OPENP x
@defmacx CLOSEDP x
Returns non-zero if port @var{x} is open or closed, respectively.
@end defmac

@defmac STREAM x
Returns the @code{FILE *} stream for port @var{x}.
@end defmac

@noindent
Ports which are particularly well behaved are called @dfn{fport}s.
Advanced operations like @code{file-position} and @code{reopen-file}
only work for fports.

@defmac FPORTP x
@defmacx OPFPORTP x
@defmacx OPINFPORTP x
@defmacx OPOUTFPORTP x
Returns non-zero if @var{x} is a port, open port, open input-port, or
open output-port, respectively.
@end defmac

@node Smob Cells, Data Type Representations, Ptob Cells, Data Types
@subsection Smob Cells

@noindent
A @dfn{smob} is a miscellaneous datatype.  The type code and GCMARK bit
occupy the lower order 16 bits of the @code{CAR} half of the cell.  The
rest of the @code{CAR} can be used for sub-type or other information.
The @code{CDR} contains data of size long and is often a pointer to
allocated memory.

@noindent
Like ptobs, new varieties of smobs can be defined dynamically
(@pxref{Defining Smobs}).  These are the initial smobs:

@deftp smob tc_free_cell
unused cell on the freelist.
@end deftp

@deftp smob tc16_flo
single-precision float.

Inexact number data types are subtypes of type @code{tc16_flo}.  If the
sub-type is:

@enumerate 0
@item
a single precision float is contained in the @code{CDR}.
@item
@code{CDR} is a pointer to a @code{malloc}ed double.
@end enumerate
@enumerate 3
@item
@code{CDR} is a pointer to a @code{malloc}ed pair of doubles.
@end enumerate

@deftp smob tc_dblr
double-precision float.
@end deftp

@deftp smob tc_dblc
double-precision complex.
@end deftp
@end deftp

@deftp smob tc16_bigpos
@deftpx smob tc16_bigneg
positive and negative bignums, respectively.

Scm has large precision integers called bignums.  They are stored in
sign-magnitude form with the sign occuring in the type code of the SMOBs
bigpos and bigneg.  The magnitude is stored as a @code{malloc}ed array
of type @code{BIGDIG} which must be an unsigned integral type with size
smaller than @code{long}.  @code{BIGRAD} is the radix associated with
@code{BIGDIG}.
@end deftp

@deftp smob tc16_promise
made by DELAY.  @xref{Control features, , , r4rs, Revised(4) Scheme}.
@end deftp

@deftp smob tc16_arbiter
synchronization object.  @xref{Process Synchronization}.
@end deftp

@deftp smob tc16_macro
macro expanding function.  @xref{Low Level Syntactic Hooks}.
@end deftp

@deftp smob tc16_array
multi-dimensional array.  @xref{Arrays}.

This type implements both conventional arrays (those with arbitrary data
as elements @pxref{Conventional Arrays}) and uniform arrays (those with
elements of a uniform type @pxref{Uniform Array}).

Conventional Arrays have a pointer to a vector for their @code{CDR}.
Uniform Arrays have a pointer to a Uniform Vector type (string, bvect,
ivect, uvect, fvect, dvect, or cvect) in their @code{CDR}.
@end deftp


@node Data Type Representations,  , Smob Cells, Data Types
@subsection Data Type Representations

@format
@r{IMMEDIATE:      B,D,E,F=data bit, C=flag code, P=pointer address bit}
@t{        ................................
inum    BBBBBBBBBBBBBBBBBBBBBBBBBBBBBB10
ichr    BBBBBBBBBBBBBBBBBBBBBBBB11110100
iflag                   CCCCCCC101110100
isym                    CCCCCCC001110100}
@r{        IMCAR:  only in car of evaluated code, cdr has cell's GC bit}
@t{ispcsym                 000CCCC00CCCC100
iloc    0DDDDDDDDDDDEFFFFFFFFFFF11111100
pointer PPPPPPPPPPPPPPPPPPPPPPPPPPPPP000
gloc    PPPPPPPPPPPPPPPPPPPPPPPPPPPPP001}

@r{   HEAP CELL:   G=gc_mark; 1 during mark, 0 other times.
        1s and 0s here indicate type.     G missing means sys (not GC'd)
        SIMPLE:}
@t{cons    ..........SCM car..............0  ...........SCM cdr.............G
closure ..........SCM code...........011  ...........SCM env.............G
        HEADERs:
ssymbol .........long length....G0000101  ..........char *chars...........
msymbol .........long length....G0000111  ..........char *chars...........
string  .........long length....G0001101  ..........char *chars...........
vector  .........long length....G0001111  ...........SCM **elts...........
bvect   .........long length....G0010101  ..........long *words...........
 spare                          G0010111
ivect   .........long length....G0011101  ..........long *words...........
uvect   .........long length....G0011111  ......unsigned long *words......
 spare                          G0100101
 spare                          G0100111
fvect   .........long length....G0101101  .........float *words...........
dvect   .........long length....G0101111  ........double *words...........
cvect   .........long length....G0110101  ........double *words...........

contin  .........long length....G0111101  .............*regs..............
cclo    .........long length....G0111111  ...........SCM **elts...........}
@r{        SUBRs:}
@t{ spare                          010001x1
 spare                          010011x1
subr_0  ..........int hpoff.....01010101  ...........SCM (*f)()...........
subr_1  ..........int hpoff.....01010111  ...........SCM (*f)()...........
cxr     ..........int hpoff.....01011101  .........double (*f)()..........
subr_3  ..........int hpoff.....01011111  ...........SCM (*f)()...........
subr_2  ..........int hpoff.....01100101  ...........SCM (*f)()...........
asubr   ..........int hpoff.....01100111  ...........SCM (*f)()...........
subr_1o ..........int hpoff.....01101101  ...........SCM (*f)()...........
subr_2o ..........int hpoff.....01101111  ...........SCM (*f)()...........
lsubr_2 ..........int hpoff.....01110101  ...........SCM (*f)()...........
rpsubr  ..........int hpoff.....01111101  ...........SCM (*f)()...........}
@r{                        PTOBs:}
@t{   port            0bwroxxxxxxxxG1110111  ..........FILE *stream..........
 socket ttttttt    00001xxxxxxxxG1110111  ..........FILE *stream..........
 inport uuuuuuuuuuU00011xxxxxxxxG1110111  ..........FILE *stream..........
outport 0000000000000101xxxxxxxxG1110111  ..........FILE *stream..........
 ioport uuuuuuuuuuU00111xxxxxxxxG1110111  ..........FILE *stream..........
fport              00   00000000G1110111  ..........FILE *stream..........
pipe               00   00000001G1110111  ..........FILE *stream..........
strport            00   00000010G1110111  ..........FILE *stream..........
sfport             00   00000011G1110111  ..........FILE *stream..........}
@r{                        SMOBs:}
@t{free_cell
        000000000000000000000000G1111111  ...........*free_cell........000
flo     000000000000000000000001G1111111  ...........float num............
dblr    000000000000000100000001G1111111  ..........double *real..........
dblc    000000000000001100000001G1111111  .........complex *cmpx..........
bignum  ...int length...0000001 G1111111  .........short *digits..........
bigpos  ...int length...00000010G1111111  .........short *digits..........
bigneg  ...int length...00000011G1111111  .........short *digits..........
                        xxxxxxxx = code assigned by newsmob();
promise 000000000000000fxxxxxxxxG1111111  ...........SCM val..............
arbiter 000000000000000lxxxxxxxxG1111111  ...........SCM name.............
macro   000000000000000mxxxxxxxxG1111111  ...........SCM name.............
array   ...short rank..cxxxxxxxxG1111111  ............*array..............}
@end format

@node Operations, Program Self-Knowledge, Data Types, The Implementation
@section Operations

@menu
* Garbage Collection::          Automatically reclaims unused storage
* Signals::                     
* C Macros::                    
* Changing Scm::                
* Defining Subrs::              
* Defining Smobs::              
* Defining Ptobs::              
* Calling Scheme From C::       
* Callbacks::                   
* Type Conversions::            For use with C code.
* Continuations::               For C and SCM
* Evaluation::                  Why SCM is fast
@end menu

@node Garbage Collection, Signals, Operations, Operations
@subsection Garbage Collection

The garbage collector is in the latter half of @file{sys.c}.  The
primary goal of @dfn{garbage collection} (or @dfn{GC}) is to recycle
those cells no longer in use.  Immediates always appear as parts of
other objects, so they are not subject to explicit garbage collection.

All cells reside in the @dfn{heap} (composed of @dfn{heap segments}).
Note that this is different from what Computer Science usually defines
as a heap.

@menu
* Marking Cells::               
* Sweeping the Heap::           
@end menu

@node Marking Cells, Sweeping the Heap, Garbage Collection, Garbage Collection
@subsubsection Marking Cells

The first step in garbage collection is to @dfn{mark} all heap objects
in use.  Each heap cell has a bit reserved for this purpose.  For pairs
(cons cells) the lowest order bit (0) of the CDR is used.  For other
types, bit 8 of the CAR is used.  The GC bits are never set except
during garbage collection.  Special C macros are defined in @file{scm.h}
to allow easy manipulation when GC bits are possibly set.  @code{CAR},
@code{TYP3}, and @code{TYP7} can be used on GC marked cells as they are.

@defmac GCCDR x
Returns the CDR of a cons cell, even if that cell has been GC marked.
@end defmac
@defmac GCTYP16 x
Returns the 16 bit type code of a cell.
@end defmac

We need to (recursively) mark only a few objects in order to assure that
all accessible objects are marked.  Those objects are
@code{sys_protects[]} (for example, @code{dynwinds}), the current
C-stack and the hash table for symbols, @dfn{symhash}.

@deftypefun void gc_mark (SCM @var{obj})
The function @code{gc_mark()} is used for marking SCM cells.  If
@var{obj} is marked, @code{gc_mark()} returns.  If @var{obj} is
unmarked, gc_mark sets the mark bit in @var{obj}, then calls
@code{gc_mark()} on any SCM components of @var{obj}.  The last call to
@code{gc_mark()} is tail-called (looped).
@end deftypefun

@deftypefun void mark_locations (STACKITEM @var{x[]}, sizet @var{len}))
The function @code{mark_locations} is used for marking segments of
C-stack or saved segments of C-stack (marked continuations).  The
argument @var{len} is the size of the stack in units of size
@code{(STACKITEM)}.

Each longword in the stack is tried to see if it is a valid cell pointer
into the heap.  If it is, the object itself and any objects it points to
are marked using @code{gc_mark}.  If the stack is word rather than
longword aligned @code{(#define WORD_ALIGN)}, both alignments are tried.
This arrangement will occasionally mark an object which is no longer
used.  This has not been a problem in practice and the advantage of
using the c-stack far outweighs it.
@end deftypefun

@node Sweeping the Heap,  , Marking Cells, Garbage Collection
@subsubsection Sweeping the Heap

After all found objects have been marked, the heap is swept.

The storage for strings, vectors, continuations, doubles, complexes, and
bignums is managed by malloc.  There is only one pointer to each malloc
object from its type-header cell in the heap.  This allows malloc
objects to be freed when the associated heap object is garbage
collected.

@deftypefun static void gc_sweep ()
The function @code{gc_sweep} scans through all heap segments.  The mark
bit is cleared from marked cells.  Unmarked cells are spliced into
@var{freelist}, where they can again be returned by invocations of
@code{NEWCELL}.

If a type-header cell pointing to malloc space is unmarked, the malloc
object is freed.  If the type header of smob is collected, the smob's
@code{free} procedure is called to free its storage.
@end deftypefun

@node Signals, C Macros, Garbage Collection, Operations
@subsection Signals

@defun init_signals
(in @file{scm.c}) initializes handlers for @code{SIGINT} and
@code{SIGALRM} if they are supported by the C implementation.  All of
the signal handlers immediately reestablish themselves by a call to
@code{signal()}.
@end defun

@defun int_signal sig
@defunx alrm_signal sig
The low level handlers for @code{SIGINT} and @code{SIGALRM}.
@end defun

If an interrupt handler is defined when the interrupt is received, the
code is interpreted.  If the code returns, execution resumes from where
the interrupt happened.  @code{Call-with-current-continuation} allows
the stack to be saved and restored.

SCM does not use any signal masking system calls.  These are not a
portable feature.  However, code can run uninterrupted by use of the C
macros @code{DEFER_INTS} and @code{ALLOW_INTS}.

@defmac DEFER_INTS
sets the global variable @code{ints_disabled} to 1.  If an interrupt
occurs during a time when @code{ints_disabled} is 1 one of the global
variables @code{sig_deferred} or @code{alrm_deferred} is set to 1 and
the handler returns.

@defmacx ALLOW_INTS
Checks the deferred variables and if set the appropriate handler is
called.

Calls to @code{DEFER_INTS} can not be nested.  An @code{ALLOW_INTS} must
happen before another @code{DEFER_INTS} can be done.  In order to check
that this constraint is satisfied @code{#define CAREFUL_INTS} in
@file{scmfig.h}.
@end defmac

@node C Macros, Changing Scm, Signals, Operations
@subsection C Macros


@defmac ASSERT cond arg pos subr
signals an error if the expression (@var{cond}) is 0.  @var{arg} is the
offending object, @var{subr} is the string naming the subr, and
@var{pos} indicates the position or type of error.  @var{pos} can be one
of

@itemize @bullet
@item @code{ARGn} @i{(> 5 or unknown ARG number)}
@item @code{ARG1}
@item @code{ARG2}
@item @code{ARG3}
@item @code{ARG4}
@item @code{ARG5}
@item @code{WNA} @i{(wrong number of args)}
@item @code{OVFLOW}
@item @code{OUTOFRANGE}
@item @code{NALLOC}
@item @code{EXIT}
@item @code{HUP_SIGNAL}
@item @code{INT_SIGNAL}
@item @code{FPE_SIGNAL}
@item @code{BUS_SIGNAL}
@item @code{SEGV_SIGNAL}
@item @code{ALRM_SIGNAL}
@item a C string @code{(char *)}
@end itemize

Error checking is not done by @code{ASSERT} if the flag @code{RECKLESS}
is defined.  An error condition can still be signaled in this case with
a call to @code{wta(arg, pos, subr)}.
@end defmac

@defmac ASRTGO cond label
@code{goto} @var{label} if the expression (@var{cond}) is 0.  Like
@code{ASSERT}, @code{ASRTGO} does is not active if the flag
@code{RECKLESS} is defined.
@end defmac


@node Changing Scm, Defining Subrs, C Macros, Operations
@subsection Changing Scm

@noindent
When writing C-code for SCM, a precaution is recommended.  If your
routine allocates a non-cons cell which will @emph{not} be incorporated
into a @code{SCM} object which is returned, you need to make sure that a
@code{SCM} variable in your routine points to that cell as long as part
of it might be referenced by your code.

@noindent
In order to make sure this @code{SCM} variable does not get optimized
out you can put this assignment after its last possible use:

@example
SCM_dummy1 = @i{foo};
@end example

@noindent
or put this assignment somewhere in your routine:

@example
SCM_dummy1 = (SCM) &@i{foo};
@end example

@noindent
@code{SCM_dummy} variables are not currently defined.  Passing the
address of the local @code{SCM} variable to @emph{any} procedure also
protects it.

@noindent
Also, if you maintain a static pointer to some (non-immediate)
@code{SCM} object, you must either make your pointer be the value cell
of a symbol (see @code{errobj} for an example) or make your pointer be
one of the @code{sys_protects} (see @code{dynwinds} for an example).
The former method is prefered since it does not require any changes to
the SCM distribution.

@noindent
To add a C routine to scm:

@enumerate
@item
choose the appropriate subr type from the type list.
@item
write the code and put into @file{scm.c}.
@item
add a @code{make_subr} or @code{make_gsubr} call to @code{init_scm}.  Or
put an entry into the appropriate @code{iproc} structure.
@end enumerate

To add a package of new procedures to scm (see @file{crs.c} for
example):

@enumerate
@item
create a new C file (@file{@i{foo}.c}).
@item
at the front of @file{@i{foo}.c} put declarations for strings for your
procedure names.

@example
static char s_twiddle_bits[]="twiddle-bits!";
static char s_bitsp[]="bits?";
@end example

@item
choose the appropriate subr types from the type list in @file{code.doc}.
@item
write the code for the procedures and put into @file{@i{foo}.c}
@item
create one @code{iproc} structure for each subr type used in @file{@i{foo}.c}

@example
static iproc subr3s[]= @{
        @{s_twiddle-bits,twiddle-bits@},
        @{s_bitsp,bitsp@},
        @{0,0@} @};
@end example

@item
create an @code{init_@i{<name of file>}} routine at the end of the file
which calls @code{init_iprocs} with the correct type for each of the
@code{iproc}s created in step 5.

@example
void init_@i{foo}()
@{
  init_iprocs(subr1s, tc7_subr_1);
  init_iprocs(subr3s, tc7_subr_3);
@}
@end example

If your package needs to have a @dfn{finalization} routine called to
free up storage, close files, etc, then also have a line in
@code{init_@i{foo}} like:

@example
add_final(final_@i{foo});
@end example

@code{final_@i{foo}} should be a (void) procedure of no arguments.  The
finals will be called in opposite order from their definition.

The line:

@example
add_feature("@i{foo}");
@end example

will append a symbol @code{'@i{foo}} to the (list) value of
@code{*features*}.
@item
put any scheme code which needs to be run as part of your package into
@file{I@i{foo}.scm}.
@item
put an @code{if} into @file{Init.scm} which loads @file{I@i{foo}.scm} if
your package is included:

@example
(if (defined? twiddle-bits!)
    (load (in-vicinity (implementation-vicinity)
                       "I@i{foo}"
                       (scheme-file-suffix))))
@end example

or use @code{(provided? '@i{foo})} instead of @code{(defined?
twiddle-bits!)} if you have added the feature.
@item
put documentation of the new procedures into @file{@i{foo}.doc}
@item
add lines to your @file{Makefile} to compile and link SCM with your
object file.  Add a @code{init_@i{foo}\(\)\;} to the @code{INITS=@dots{}}
line at the beginning of the makefile.
@end enumerate

@noindent
These steps should allow your package to be linked into SCM with a
minimum of difficulty.  Your package should also work with dynamic
linking if your SCM has this capability.

Special forms (new syntax) can be added to scm.

@enumerate
@item
define a new @code{MAKISYM} in @file{scm.h} and increment
@code{NUM_ISYMS}.
@item
add a string with the new name in the corresponding place in
@code{isymnames} in @file{repl.c}.
@item
add @code{case:} clause to @code{ceval()} near @code{i_quasiquote} (in
@file{eval.c}).
@end enumerate

@noindent
New syntax can now be added without recompiling SCM by the use of the
@code{procedure->syntax}, @code{procedure->macro},
@code{procedure->memoizing-macro}, and @code{defmacro}.  For details,
@xref{Syntax Extensions}.

@node Defining Subrs, Defining Smobs, Changing Scm, Operations
@subsection Defining Subrs

@noindent
If @dfn{CCLO} is @code{#define}d when compiling, the compiled closure
feature will be enabled.  It is automatically enabled if dynamic linking
is enabled.

@noindent
The SCM interpreter directly recognizes subrs taking small numbers of
arguments.  In order to create subrs taking larger numbers of arguments
use:

@defun make_gsubr name req opt rest fcn
returns a cclo (compiled closure) object of name @code{char *}
@var{name} which takes @code{int} @var{req} required arguments,
@code{int} @var{opt} optional arguments, and a list of rest arguments if
@code{int} @var{rest} is 1 (0 for not).

@code{SCM (*fcn)()} is a pointer to a C function to do the work.

The C function will always be called with @var{req} + @var{opt} +
@var{rest} arguments, optional arguments not supplied will be passed
@code{UNDEFINED}.  An error will be signaled if the subr is called with
too many or too few arguments.  Currently a total of 10 arguments may be
specified, but increasing this limit should not be difficult.

@example
/* A silly example, taking 2 required args,
   1 optional, and a list of rest args */

#include <scm.h>

SCM gsubr_21l(req1,req2,opt,rst)
     SCM req1,req2,opt,rst;
@{
  lputs("gsubr-2-1-l:\n req1: ", cur_outp);
  display(req1,cur_outp);
  lputs("\n req2: ", cur_outp);
  display(req2,cur_outp);
  lputs("\n opt: ", cur_outp);
  display(opt,cur_outp);
  lputs("\n rest: ", cur_outp);
  display(rst,cur_outp);
  newline(cur_outp);
  return UNSPECIFIED;
@}

void init_gsubr211()
@{
  make_gsubr("gsubr-2-1-l", 2, 1, 1, gsubr_21l);
@}
@end example
@end defun

@node Defining Smobs, Defining Ptobs, Defining Subrs, Operations
@subsection Defining Smobs

@noindent
Here is an example of how to add a new type named @code{@i{foo}} to SCM.
The following lines need to be added to your code:

@table @code
@item long tc16_@i{foo};
The type code which will be used to identify the new type.
@item static smobfuns @i{foo}smob = @{mark@i{foo},free@i{foo},print@i{foo},equalp@i{foo}@};
smobfuns is a structure composed of 4 functions:

@example
typedef struct @{
  SCM   (*mark)P((SCM));
  sizet (*free)P((CELLPTR));
  int   (*print)P((SCM exp, SCM port, int writing));
  SCM   (*equalp)P((SCM, SCM));
@} smobfuns;
@end example

@table @code
@item smob.mark
is a function of one argument of type @code{SCM} (the cell to mark) and
returns type @code{SCM} which will then be marked.  If no further
objects need to be marked then return an immediate object such as
@code{BOOL_F}.  2 functions are provided:

@table @code
@item markcdr(ptr)
which marks the current cell and returns @code{CDR(ptr)}.
@item mark0(ptr)
which marks the current cell and returns @code{BOOL_F}.
@end table

@item smob.free
is a function of one argument of type @code{CELLPTR} (the cell to
collected) and returns type @code{sizet} which is the number of
@code{malloc}ed bytes which were freed.  @code{Smob.free} should free
any @code{malloc}ed storage associated with this object.  The function
free0(ptr) is provided which does not free any storage and returns 0.
@item smob.print
is 0 or a function of 3 arguments.  The first, of type @code{SCM}, is
the smob object.  The second, of type @code{SCM}, is the stream on which
to write the result.  The third, of type int, is 1 if the object should
be @code{write}n, 0 if it should be @code{display}ed.  This function
should return non-zero if it printed, and zero otherwise (in which case
a hexadecimal number will be printed).
@item smob.equalp
is 0 or a function of 2 @code{SCM} arguments.  Both of these arguments
will be of type @code{tc16@i{foo}}.  This function should return
@code{BOOL_T} if the smobs are equal, @code{BOOL_F} if they are not.  If
@code{smob.equalp} is 0, @code{equal?} will return @code{BOOL_F} if they
are not @code{eq?}.
@end table

@item tc16_@i{foo} = newsmob(&@i{foo}smob);
Allocates the new type with the functions from @code{@i{foo}smob}.  This
line goes in an @code{init_} routine.
@end table

@noindent
Promises and macros in @file{eval.c} and arbiters in @file{repl.c}
provide examples of SMOBs.  There are a maximum of 256 SMOBs.

@node Defining Ptobs, Calling Scheme From C, Defining Smobs, Operations
@subsection Defining Ptobs

@noindent
@dfn{ptob}s are similar to smobs but define new types of port to which
SCM procedures can read or write.  The following functions are defined
in the @code{ptobfuns}:

@example
typedef struct @{
  SCM   (*mark)P((SCM ptr));
  int   (*free)P((FILE *p));
  int   (*print)P((SCM exp, SCM port, int writing));
  SCM   (*equalp)P((SCM, SCM));
  int   (*fputc)P((int c, FILE *p));
  int   (*fputs)P((char *s, FILE *p));
  sizet (*fwrite)P((char *s, sizet siz, sizet num, FILE *p));
  int   (*fflush)P((FILE *stream));
  int   (*fgetc)P((FILE *p));
  int   (*fclose)P((FILE *p));
@} ptobfuns;
@end example

@noindent
The @code{.free} component to the structure takes a @code{FILE *} or
other C construct as its argument, unlike @code{.free} in a smob, which
takes the whole smob cell.  Often, @code{.free} and @code{.fclose} can be
the same function.  See @code{fptob} and @code{pipob} in @file{sys.c}
for examples of how to define ptobs.

@node Calling Scheme From C, Callbacks, Defining Ptobs, Operations
@subsection Calling Scheme From C

@noindent
To use SCM as a whole from another program call @code{init_scm} or
@code{run_scm} as is done in @code{main()} in @file{scm.c}.

@noindent
In order to call indivdual Scheme procedures from C code more is
required; SCM's storage system needs to be initialized.  The simplest
way to do this for a statically linked single-thread program is to:

@enumerate
@item
make a SCM procedure which calls your code's startup routine.
@item
use the @code{#define RTL} flag when compiling @file{scm.c} to elide
SCM's @code{main()}.
@item
In your @code{main()}, call @code{run_scm} with arguments (@code{argc}
and @code{argv}) to invoke your code's startup routine.
@item
link your code with SCM at compile time.
@end enumerate

@noindent
For a dynamically linked single-thread program:

@enumerate
@item
make an @code{init_} procedure for your code which will set up any Scheme
definitions you need and then call your startup routine
(@pxref{Changing Scm}).
@item
Start SCM with command line arguments to dynamically link your code.
After your module is linked, the @code{init_} procedure will be called, and
hence your startup routine.
@end enumerate

@noindent
Now use @code{apply} (and perhaps @code{intern}) to call Scheme
procedures from your C code.  For example:

@example
/* If this apply fails, SCM will catch the error */
apply(CDR(intern("srv:startup",sizeof("srv:startup")-1)),
      mksproc(srvproc),
      listofnull);

func = CDR(intern(rpcname,strlen(rpcname)));
retval = apply(func, cons(mksproc(srvproc), args), EOL);
@end example

@node Callbacks, Type Conversions, Calling Scheme From C, Operations
@subsection Callbacks

@noindent
SCM now has routines to make calling back to Scheme procedures easier.
The source code for these routines are found in @file{rope.c}.

@deftypefun int scm_ldfile (char *@var{file})
Loads the Scheme source file @var{file}.  Returns 0 if successful, non-0
if not.  This function is used to load SCM's initialization file
@file{Init.scm}.
@end deftypefun

@deftypefun int scm_ldprog (char *@var{file})
Loads the Scheme source file @code{(in-vicinity (program-vicinity)
@var{file})}.  Returns 0 if successful, non-0 if not.

This function is useful for compiled code init_ functions to load
non-compiled Scheme (source) files.  @code{program-vicinity} is the
directory from which the calling code was loaded (@pxref{Vicinity, , ,
slib, SLIB}).
@end deftypefun

@deftypefun SCM scm_evstr (char *@var{str})
Returns the result of reading an expression from @var{str} and
evaluating it.
@end deftypefun

@deftypefun void scm_ldstr (char *@var{str})
Reads and evaluates all the expressions from @var{str}.
@end deftypefun

@noindent
If you wish to catch errors during execution of Scheme code, then you
can use a wrapper like this for your Scheme procedures:

@example
(define (srv:protect proc)
  (lambda args
    (define result #f)                  ; put default value here
    (call-with-current-continuation
     (lambda (cont)
       (dynamic-wind (lambda () #t)
                     (lambda ()
                       (set! result (apply proc args))
                       (set! cont #f))
                     (lambda ()
                       (if cont (cont #f))))))
    result))
@end example

@noindent
Calls to procedures so wrapped will return even if an error occurs.

@node Type Conversions, Continuations, Callbacks, Operations
@subsection Type Conversions

These type conversion functions are very useful for connecting SCM and C
code.  Most are defined in @file{rope.c}.

@deftypefun SCM long2num (long @var{n})
@deftypefunx SCM ulong2num (unsigned long @var{n})
Return an object of type @code{SCM} corresponding to the @code{long} or
@code{unsigned long} argument @var{n}.  If @var{n} cannot be converted,
@code{BOOL_F} is returned.  Which numbers can be converted depends on
whether SCM was compiled with the @code{BIGDIG} or @code{FLOATS} flags.

To convert integer numbers of smaller types (@code{short} or
@code{char}), use the macro @code{MAKINUM(n)}.
@end deftypefun

@deftypefun long num2long (SCM @var{num}, char *@var{pos}, char *@var{s_caller})
@deftypefunx unsigned long num2ulong (SCM @var{num}, char *@var{pos}, char *@var{s_caller})
@deftypefunx unsigned short num2ushort (SCM @var{num}, char *@var{pos}, char *@var{s_caller})
@deftypefunx unsigned char num2uchar (SCM @var{num}, char *@var{pos}, char *@var{s_caller})
These functions are used to check and convert @code{SCM} arguments to
the named C type.  The first argument @var{num} is checked to see it it
is within the range of the destination type.  If so, the converted
number is returned.  If not, the @code{ASSERT} macro calls @code{wta}
with @var{num} and strings @var{pos} and @var{s_caller}.  For a listing
of useful predefined @var{pos} macros, @xref{C Macros}.

@emph{Note:} Inexact numbers are accepted only by @code{num2long} and
@code{num2ulong} (for when @code{SCM} is compiled without bignums).  To
convert inexact numbers to exact numbers, @xref{Numerical operations,
inexact->exact, , r4rs, Revised(4) Scheme}.
@end deftypefun

@deftypefun unsigned long scm_addr (SCM @var{args}, char *@var{s_name})
Returns a pointer (cast to an @code{unsigned long}) to the storage
corresponding to the location accessed by
@code{aref(CAR(args),CDR(args))}.  The string @var{s_name} is used in
any messages from error calls by @code{scm_addr}.

@code{scm_addr} is useful for performing C operations on strings or
other uniform arrays (@pxref{Uniform Array}).

@emph{Note:} While you use a pointer returned from @code{scm_addr} you
must keep a pointer to the associated @code{SCM} object in a stack
allocated variable or GC-protected location in order to assure that SCM
does not reuse that storage before you are done with it.
@end deftypefun

@deftypefun SCM makfrom0str (char *@var{src})
@deftypefunx SCM makfromstr (char *@var{src}, sizet @var{len})
Return a newly allocated string @code{SCM} object copy of the
null-terminated string @var{src} or the string @var{src} of length
@var{len}, respectively.
@end deftypefun

@deftypefun SCM makfromstrs (int @var{argc}, char **@var{argv})
Returns a newly allocated @code{SCM} list of strings corresponding to
the @var{argc} length array of null-terminated strings @var{argv}.  If
@var{argv} is less than @code{0}, @var{argv} is assumed to be
@code{NULL} terminated.  @code{makfromstrs} is used by @code{run_scm} to
convert the arguments SCM was called with to a @code{SCM} list which is
the value of SCM procedure calls to @code{program-arguments}
(@pxref{SCM Session, program-arguments}).
@end deftypefun

@deftypefun char **makargvfrmstrs (SCM @var{args}, char *@var{s_name})
Returns a @code{NULL} terminated list of null-terminated strings copied
from the @code{SCM} list of strings @var{args}.  The string @var{s_name}
is used in messages from error calls by @code{makargvfrmstrs}.

@code{makargvfrmstrs} is useful for constructing argument lists suitable
for passing to @code{main} functions.
@end deftypefun

@deftypefun void must_free_argv (char **@var{argv})
Frees the storage allocated to create @var{argv} by a call to
@code{makargvfrmstrs}.
@end deftypefun

@node Continuations, Evaluation, Type Conversions, Operations
@subsection Continuations

@noindent
The source files @file{continue.h} and @file{continue.c} are designed to
function as an independent resource for programs wishing to use
continuations, but without all the rest of the SCM machinery.  The
concept of continuations is explained in @ref{Control features,
call-with-current-continuation, , r4rs, Revised(4) Scheme}.

@noindent
The C constructs @code{jmp_buf}, @code{setjmp}, and @code{longjmp}
implement escape continuations.  On VAX and Cray platforms, the setjmp
provided does not save all the registers.  The source files
@file{setjump.mar}, @file{setjump.s}, and @file{ugsetjump.s} provide
implementations which do meet this criteria.

@noindent
SCM uses the names @code{jump_buf}, @code{setjump}, and @code{longjump}
in lieu of @code{jmp_buf}, @code{setjmp}, and @code{longjmp} to prevent
name and declaration conflicts.

@deftp {Data type} CONTINUATION jmpbuf length stkbse other parent
is a @code{typedef}ed structure holding all the information needed to
represent a continuation.  The @var{other} slot can be used to hold any
data the user wishes to put there by defining the macro
@code{CONTINUATION_OTHER}.
@end deftp

@defmac SHORT_ALIGN
If @code{SHORT_ALIGN} is @code{#define}d (in @file{scmfig.h}), then the
it is assumed that pointers in the stack can be aligned on @code{short
int} boundaries.
@end defmac

@deftp {Data type} STACKITEM
is a pointer to objects of the size specified by @code{SHORT_ALIGN}
being @code{#define}d or not.
@end deftp

@defmac CHEAP_CONTINUATIONS
If @code{CHEAP_CONTINUATIONS} is @code{#define}d (in @file{scmfig.h})
each @code{CONTINUATION} has size @code{sizeof CONTINUATION}.
Otherwise, all but @dfn{root} @code{CONTINUATION}s have additional
storage (immediately following) to contain a copy of part of the stack.

@emph{Note:} On systems with nonlinear stack disciplines (multiple
stacks or non-contiguous stack frames) copying the stack will not work
properly.  These systems need to #define @code{CHEAP_CONTINUATIONS} in
@file{scmfig.h}.
@end defmac

@defmac STACK_GROWS_UP
Expresses which way the stack grows by its being @code{#define}d or not.
@end defmac

@deftypevar long thrown_value
Gets set to the @var{value} passed to @code{throw_to_continuation}.
@end deftypevar

@deftypefun long stack_size (STACKITEM *@var{start})
Returns the number of units of size @code{STACKITEM} which fit between
@var{start} and the current top of stack.  No check is done in this
routine to ensure that @var{start} is actually in the current stack
segment.
@end deftypefun

@deftypefun CONTINUATION *make_root_continuation (STACKITEM *@var{stack_base})
Allocates (@code{malloc}) storage for a @code{CONTINUATION} of the
current extent of stack.  This newly allocated @code{CONTINUATION} is
returned if successful, @code{0} if not.  After
@code{make_root_continuation} returns, the calling routine still needs
to @code{setjump(@var{new_continuation}->jmpbuf)} in order to complete
the capture of this continuation.
@end deftypefun

@deftypefun CONTINUATION *make_continuation (CONTINUATION *@var{parent_cont})
Allocates storage for the current @code{CONTINUATION}, copying (or
encapsulating) the stack state from @code{@var{parent_cont}->stkbse} to
the current top of stack.  The newly allocated @code{CONTINUATION} is
returned if successful, @code{0}q if not.  After
@code{make_continuation} returns, the calling routine still needs to
@code{setjump(@var{new_continuation}->jmpbuf)} in order to complete the
capture of this continuation.
@end deftypefun

@deftypefun void free_continuation (CONTINUATION *@var{cont})
Frees the storage pointed to by @var{cont}.  Remember to free storage
pointed to by @code{@var{cont}->other}.
@end deftypefun

@deftypefun void throw_to_continuation (CONTINUATION *@var{cont}, long @var{value}, CONTINUATION *@var{root_cont})
Sets @code{thrown_value} to @var{value} and returns from the
continuation @var{cont}.

If @code{CHEAP_CONTINUATIONS} is @code{#define}d, then
@code{throw_to_continuation} does @code{longjump(@var{cont}->jmpbuf, val)}.

If @code{CHEAP_CONTINUATIONS} is not @code{#define}d, the CONTINUATION
@var{cont} contains a copy of a portion of the C stack (whose bound must
be @code{CONT(@var{root_cont})->stkbse}).  Then:

@itemize @bullet
@item
the stack is grown larger than the saved stack, if neccessary.
@item
the saved stack is copied back into it's original position.
@item
@code{longjump(@var{cont}->jmpbuf, val)};
@end itemize
@end deftypefun

@node Evaluation,  , Continuations, Operations
@subsection Evaluation

SCM uses its type representations to speed evaluation.  All of the
@code{subr} types (@pxref{Subr Cells}) are @code{tc7} types.  Since the
@code{tc7} field is in the low order bit position of the @code{CAR} it
can be retrieved and dispatched on quickly by dereferencing the SCM
pointer pointing to it and masking the result.

All the SCM @dfn{Special Forms} get translated to immediate symbols
(@code{isym}) the first time they are encountered by the interpreter
(@code{ceval}).  The representation of these immediate symbols is
engineered to occupy the same bits as @code{tc7}.  All the @code{isym}s
occur only in the @code{CAR} of lists.

If the @code{CAR} of a expression to evaluate is not immediate, then it
may be a symbol.  If so, the first time it is encountered it will be
converted to an immediate type @code{ILOC} or @code{GLOC}
(@pxref{Immediates}).  The codes for @code{ILOC} and @code{GLOC} lower 7
bits distinguish them from all the other types we have discussed.

Once it has determined that the expression to evaluate is not immediate,
@code{ceval} need only retrieve and dispatch on the low order 7 bits of
the @code{CAR} of that cell, regardless of whether that cell is a
closure, header, or subr, or a cons containing @code{ILOC} or
@code{GLOC}.

In order to be able to convert a SCM symbol pointer to an immediate @code{ILOC}
or @code{GLOC}, the evaluator must be holding the pointer to the list in which
that symbol pointer occurs.  Turning this requirement to an advantage,
@code{ceval} does not recursively call itself to evaluate symbols in
lists; It instead calls the macro @dfn{EVALCAR}.  @code{EVALCAR} does
symbol lookup and memoization for symbols, retrieval of values for @code{ILOC}s
and @code{GLOC}s, returns other immediates, and otherwise recursively calls
itself with the @code{CAR} of the list.

@code{ceval} inlines evaluation (using @code{EVALCAR}) of almost all
procedure call arguments.  When @code{ceval} needs to evaluate a list of
more than length 3, the procedure @code{eval_args} is called.  So
@code{ceval} can be said to have one level lookahead.  The avoidance of
recursive invocations of @code{ceval} for the most common cases (special
forms and procedure calls) results in faster execution.  The speed of
the interpreter is currently limited on most machines by interpreter
size, probably having to do with its cache footprint.  In order to keep
the size down, certain @code{EVALCAR} calls which don't need to be fast
(because they rarely occur or because they are part of expensive
operations) are instead calls to the C function @code{evalcar}.

There was some discussion a year ago about a "Forth" style Scheme
interpreter.  This is the only improvement I know of which would beat
SCM in speed.

@quotation
Provided there is still type code space available in SCM, if we devote
some of the IMCAR codes to "inlined" operations, we should get a
significant performance boost.  What is eliminated is the having to look
up a @code{GLOC} or @code{ILOC} and then dispatch on the subr type.  The
IMCAR operation would be dispatched to directly.  Another way to view
this is that we make available special form versions of @code{CAR},
@code{CDR}, etc.  Since the actual operation code is localized in the
interpreter, it is much easier than uncompilation and then recompilation
to handle @code{(trace car)}; For instance a switch gets set which tells
the interpreter to instead always look up the values of the associated
symbols.
@end quotation

@defvar symhash
Top level symbol values are stored in the @code{symhash} table.
@code{symhash} is an array of lists of @code{ISYM}s and pairs of symbols
and values.
@end defvar

@deftp Immediate ILOC
Whenever a symbol's value is found in the local environment the pointer
to the symbol in the code is replaced with an immediate object
(@code{ILOC}) which specifies how many environment frames down and how
far in to go for the value.  When this immediate object is subsequently
encountered, the value can be retrieved quickly.
@end deftp

@deftp Immediate GLOC
Pointers to symbols not defined in local environments are changed to one
plus the value cell address in symhash.  This incremented pointer is
called a @code{GLOC}.  The low order bit is normally reserved for
GCmark; But, since references to variables in the code always occur in
the @code{CAR} position and the GCmark is in the @code{CDR}, there is no
conflict.
@end deftp

If the compile FLAG @code{CAUTIOUS} is #defined then the number of
arguments is always checked for application of closures.  If the compile
FLAG @code{RECKLESS} is #defined then they are not checked.  Otherwise,
number of argument checks for closures are made only when the function
position (whose value is the closure) of a combination is not an
@code{ILOC} or @code{GLOC}.  When the function position of a combination
is a symbol it will be checked only the first time it is evaluated
because it will then be replaced with an @code{ILOC} or @code{GLOC}.

@defmac EVAL expression env
@defmacx SIDEVAL expression env
@code{EVAL} Returns the result of evaluating @var{expression} in
@var{env}.  @code{SIDEVAL} evaluates @var{expression} in @var{env} when
the value of the expression is not used.

Both of these macros alter the list structure of @var{expression} as it
is memoized and hence should be used only when it is known that
@var{expression} will not be referenced again.  The C function
@code{eval} is safe from this problem.
@end defmac

@deftypefun SCM eval (SCM @var{expression})
Returns the result of evaluating @var{expression} in the top-level
environment.  @code{eval} copies @code{expression} so that memoization
does not modify @code{expression}.
@end deftypefun

@node Program Self-Knowledge, Improvements To Make, Operations, The Implementation
@section Program Self-Knowledge

@menu
* File-System Habitat::         
* Executable Pathname::         
* Script Support::              
@end menu

@node File-System Habitat, Executable Pathname, Program Self-Knowledge, Program Self-Knowledge
@subsection File-System Habitat

@noindent
Where should software reside?  Although individually a minor annoyance,
cumulatively this question represents many thousands of frustrated user
hours spent trying to find support files or guessing where packages need
to be installed.  Even simple programs require proper habitat; games
need to find their score files.

@noindent
Aren't there standards for this?  Some Operating Systems have devised
regimes of software habitats -- only to have them violated by large
software packages and imports from other OS varieties.

@noindent
In some programs, the expected locations of support files are fixed at
time of compilation.  This means that the program may not run on
configurations unanticipated by the authors.  Compiling locations into a
program also can make it immovable -- necessitating recompilation to
install it.

@quotation
Programs of the world unite!  You have nothing to lose but loss itself.
@end quotation

@noindent
The function @code{scm_find_impl_file} in @file{scm.c} is an attempt to
create a utility (for inclusion in programs) which will hide the details
of platform-dependent file habitat conventions.  It takes as input the
pathname of the executable file which is running.  If there are systems
for which this information is either not available or unrelated to the
locations of support files, then a higher level interface will be
needed.

@deftypefun char *scm_find_impl_file(char *@var{exec_path}, char
*@var{generic_name}, char *@var{initname}, char *@var{sep}) Given the
pathname of this executable (@var{exec_path}), test for the existence of
@var{initname} in the implementation-vicinity of this program.  Return a
newly allocated string of the path if successful, 0 if not.  The
@var{sep} argument is a @emph{null-terminated string} of the character
used to separate directory components.
@end deftypefun

@itemize @bullet
@item
One convention is to install the support files for an executable program
in the same directory as the program.  This possibility is tried first,
which satisfies not only programs using this convention, but also
uninstalled builds when testing new releases, etc.

@item
Another convention is to install the executables in a directory named
@file{bin}, @file{BIN}, @file{exe}, or @file{EXE} and support files in a
directroy named @file{lib}, which is a peer the executable directory.
This arrangement allows multiple executables can be stored in a single
directory.  For example, the executable might be in
@samp{/usr/local/bin/} and initialization file in
@samp{/usr/local/lib/}.

If the executable directory name matches, the peer directroy @file{lib}
is tested for @var{initname}.

@item
Sometimes @file{lib} directories become too crowded.  So we look in any
subdirectories of @file{lib} or @file{src} having the name (sans type
suffix such as @samp{.EXE}) of the program we are running.  For example,
the executable might be @samp{/usr/local/bin/foo} and initialization
file in @samp{/usr/local/lib/foo/}.

@item
But the executable name may not be the usual program name; So also look
in any @var{generic_name} subdirectories of @file{lib} or @file{src}
peers.

@item
Finally, if the name of the executable file being run has a (system
dependent) suffix which is not needed to invoke the program, then look
in a subdirectory (of the one containing the executable file) named for
the executable (without the suffix); And look in a @var{generic_name}
subdirectory.  For example, the executable might be
@samp{C:\foo\bar.exe} and the initialization file in @samp{C:\foo\bar\}.
@end itemize


@node Executable Pathname, Script Support, File-System Habitat, Program Self-Knowledge
@subsection Executable Pathname

@noindent
For purposes of finding @file{Init.scm}, dumping an executable, and
dynamic linking, a SCM session needs the pathname of its executable
image.

@noindent
When a program is executed by MS-DOS, the full pathname of that
executable is available in @code{argv[0]}.  This value can be passed
directly to @code{scm_find_impl_file} (@pxref{File-System Habitat}).

@noindent
In order to find the habitat for a unix program, we first need to know
the full pathname for the associated executable file.

@deftypefun char *dld_find_executable (const char *@var{command})
@code{dld_find_executable} returns the absolute path name of the file
that would be executed if @var{command} were given as a command.  It
looks up the environment variable @var{PATH}, searches in each of the
directory listed for @var{command}, and returns the absolute path name
for the first occurrence.  Thus, it is advisable to invoke
@code{dld_init} as:

@example
main (int argc, char **argv)
@{
    @dots{}
    if (dld_init (dld_find_executable (argv[0]))) @{
        @dots{}
    @}
    @dots{}
@}
@end example

@quotation
@strong{Note:} If the current process is executed using the
@code{execve} call without passing the correct path name as argument 0,
@code{dld_find_executable (argv[0]) } will also fail to locate the
executable file.
@end quotation

@code{dld_find_executable} returns zero if @code{command} is not found
in any of the directories listed in @code{PATH}.
@end deftypefun

@node Script Support,  , Executable Pathname, Program Self-Knowledge
@subsection Script Support

@noindent
Source code for these C functions is in the file @file{script.c}.
@ref{Shell Scripts} for a description of script argument processing.

@noindent
@code{script_find_executable} is only defined on unix systems.

@deftypefun char *script_find_executable (const char *@var{name})
@code{script_find_executable} returns the path name of the
executable which will is invoked by the script file @var{name};
@var{name} if it is a binary executable (not a script); or 0 if
@var{name} does not exist or is not executable.
@end deftypefun

@deftypefun char **script_process_argv(int @var{argc}; char **@var{argv})
Given an @dfn{main} style argument vector @var{argv} and the number of
arguments, @var{argc}, @code{script_process_argv} returns a newly
allocated argument vector in which the second line of the script being
invoked is substituted for the corresponding meta-argument.
@tindex meta-argument

If the script does not have a meta-argument, or if the file named by the
argument following a meta-argument cannot be opened for reading, then 0
is returned.

@code{script_process_argv} correctly processes argument vectors of
nested script invocations.
@end deftypefun

@deftypefun int script_count_argv(char **@var{argv})
Returns the number of argument strings in @var{argv}.
@end deftypefun


@node Improvements To Make,  , Program Self-Knowledge, The Implementation
@section Improvements To Make

@itemize @bullet
@item
Prefix and make more uniform all C function, variable, and constant
names.  Provide a file full of #define's to provide backward
compatability.
@item
@code{lgcd()} @emph{needs} to generate at most one bignum, but currently
generates more.
@item
@code{divide()} could use shifts instead of multiply and divide when
scaling.
@item
If an open fails because there are no unused file handles, GC should
be done so that file handles which are no longer used can be
collected.
@item
Currently, @code{dump}ing an executable does not preserve ports.  When
loading a @code{dump}ed executable, disk files could be reopened to the
same file and position as they had when the executable was dumped.
@item
Compaction could be done to @code{malloc}ed objects by freeing and
reallocing all the malloc objects encountered in a scan of the heap.
Whether compactions would actually occur is system depenedent.
@item
Copying all of the stack is wasteful of storage.  Any time a
call-with-current-continuation is called the stack could be re-rooted
with a frame which calls the contin just created.  This in combination
with checking stack depth could also be used to allow stacks deeper
than 64K on the IBM PC.
@item
The @code{must-} or @code{make-} routines need some sort of C macros or
conditionalization so that they check:

@itemize @bullet
@item
that the @code{LENGTH} field fits into a @code{size_t} (as is checked
now) for platforms with @code{(sizeof(size_t) < sizeof(SCM))}.
@item
that the @code{LENGTH} field fits into 24 (or 56) bits on machines where
@code{size_t} is 32 bits or more.
@end itemize

This is trickier than it first looks because the must_malloc() routine
is also used for allocating heap segments, which do not have the
@code{LENGTH} field restriction.  Putting the 24 bit test into
@code{must_malloc()} should be tested for speed impact.
@end itemize

@menu
* Finishing Dynamic Linking::   
@end menu

@node Finishing Dynamic Linking,  , Improvements To Make, Improvements To Make
@subsection Finishing Dynamic Linking

@noindent
Scott Schwartz <schwartz@@galapagos.cse.psu.edu> suggests: One way to
tidy up the dynamic loading stuff would be to grab the code from perl5.

@subsubheading VMS

@noindent
George Carrette (gjc@@mitech.com) outlines how to dynamically link on
VMS.  There is already some code in @file{dynl.c} to do this, but
someone with a VMS system needs to finish and debug it.

@enumerate
@item
Say you have this @file{main.c} program:

@format
@t{main()
@{init_lisp();
 lisp_repl();@}}
@end format

@item
and you have your lisp in files @file{repl.c}, @file{gc.c},
@code{eval.c} and there are some toplevel non-static variables in use
called @code{the_heap}, @code{the_environment}, and some read-only
toplevel structures, such as @code{the_subr_table}.

@format
@t{$ LINK/SHARE=LISPRTL.EXE/DEBUG REPL.OBJ,GC.OBJ,EVAL.OBJ,LISPRTL.OPT/OPT}
@end format

@item
where @file{LISPRTL.OPT} must contain at least this:

@format
@t{SYS$LIBRARY:VAXCRTL/SHARE
UNIVERSAL=init_lisp
UNIVERSAL=lisp_repl
PSECT_ATTR=the_subr_table,SHR,NOWRT,LCL
PSECT_ATTR=the_heap,NOSHR,LCL
PSECT_ATTR=the_environment,NOSHR,LCL}
@end format

@emph{Notice:} The @dfn{psect} (Program Section) attributes.
@table @code
@item LCL
means to keep the name local to the shared library.  You almost always
want to do that for a good clean library.
@item SHR,NOWRT
means shared-read-only.  Which is the default for code, and is also good
for efficiency of some data structures.
@item NOSHR,LCL
is what you want for everything else.
@end table

Note: If you do not have a handy list of all these toplevel variables,
do not dispair.  Just do your link with the /MAP=LISPRTL.MAP/FULL
and then search the map file,

@format
@t{$SEARCH/OUT=LISPRTL.LOSERS LISPRTL.MAP  ",  SHR,NOEXE,  RD,  WRT"}
@end format

And use an emacs keyboard macro to muck the result into the proper form.
Of course only the programmer can tell if things can be made read-only.
I have a DCL command procedure to do this if you want it.

@item
@noindent
Now MAIN.EXE would be linked thusly:

@format
@t{$ DEFINE LISPRTL USER$DISK:[JAFFER]LISPRTL.EXE

$LINK MAIN.OBJ,SYS$INPUT:/OPT
 SYS$LIBRARY:VAXCRTL/SHARE
 LISPRTL/SHARE}
@end format

Note the definition of the @code{LISPRTL} logical name.  Without such a
definition you will need to copy @file{LISPRTL.EXE} over to
@file{SYS$SHARE:} (aka @file{SYS$LIBRARY:}) in order to invoke the main
program once it is linked.

@item
Now say you have a file of optional subrs, @file{MYSUBRS.C}.  And there
is a routine @code{INIT_MYSUBRS} that must be called before using it.

@format
@t{$ CC MYSUBRS.C
$ LINK/SHARE=MYSUBRS.EXE MYSUBRS.OBJ,SYS$INPUT:/OPT
  SYS$LIBRARY:VAXCRTL/SHARE
  LISPRTL/SHARE
  UNIVERSAL=INIT_MYSUBRS}
@end format

Ok.  Another hint is that you can avoid having to add the @code{PSECT}
declaration of @code{NOSHR,LCL} by declaring variables @code{status} in
the C language source.  That works great for most things.

@item
Then the dynamic loader would have to do this:

@format
@t{@{void (*init_fcn)();
 long retval;
 retval = lib$find_image_symbol("MYSUBRS","INIT_MYSUBRS",&init_fcn,
                                "SYS$DISK:[].EXE");
 if (retval != SS$_NORMAL) error(@dots{});
 (*init_fcn)();@}}
@end format

But of course all string arguments must be @code{(struct dsc$descriptor
*)} and the last argument is optional if @code{MYSUBRS} is defined as a
logical name or if @file{MYSUBRS.EXE} has been copied over to
@file{SYS$SHARE}.  The other consideration is that you will want to turn
off @key{C-c} or other interrupt handling while you are inside most
@code{lib$} calls.

As far as the generation of all the @code{UNIVERSAL=@dots{}}
declarations.  Well, you could do well to have that automatically
generated from the public @file{LISPRTL.H} file, of course.

VMS has a good manual called the @cite{Guide to Writing Modular
Procedures} or something like that, which covers this whole area rather
well, and also talks about advanced techniques, such as a way to declare
a program section with a pointer to a procedure that will be
automatically invoked whenever any shared image is dynamically
activated.  Also, how to set up a handler for normal or abnormal program
exit so that you can clean up side effects (such as opening a database).
But for use with @code{LISPRTL} you probably don't need that hair.

One fancier option that is useful under VMS for @file{LISPLIB.EXE} is to
define all your exported procedures through an @dfn{call vector} instead
of having them just be pointers into random places in the image, which
is what you get by using @code{UNIVERSAL}.

If you set up the call vector thing correctly it will allow you to
modify and relink @file{LISPLIB.EXE} without having to relink programs
that have been linked against it.
@end enumerate

@subsubheading Windows NT
@noindent
George Carrette (gjc@@mitech.com) outlines how to dynamically link on
Windows NT:

@itemize @bullet
@item
The Software Developers Kit has a sample called SIMPLDLL.
Here is the gist of it, following along the lines of the VMS description
above (contents of a makefile for the SDK NMAKE)

@format
@t{LISPLIB.exp:
LISPLIB.lib: LISPLIB.def
    $(implib) -machine:$(CPU) -def:LISPLIB.def -out:LISPLIB.lib

LISPLIB.DLL : $(LISPLIB_OBJS) LISPLIB.EXP
    $(link) $(linkdebug)              \
    -dll                 \
    -out:LISPLIB.DLL     \
    LISPLIB.EXP $(LISPLIB_OBJS) $(conlibsdll)}
@end format

@item
The @file{LISPDEF.DEF} file has this:

@format
@t{LIBRARY lisplib
EXPORT
 init_lisp
 init_repl}
@end format

@item
And @file{MAIN.EXE} using:

@format
@t{CLINK = $(link) $(ldebug) $(conflags) -out:$*.exe $** $(conlibsdll)

MAIN.EXE : MAIN.OBJ LISPLIB.LIB
 $(CLINK)}
@end format

@item
And @file{MYSUBRS.DLL} is produced using:

@format
@t{mysubrs.exp:
mysubrs.lib: mysubrs.def
    $(implib) -machine:$(CPU) -def:MYSUBRS.def -out:MYSUBRS.lib

mysubrs.dll : mysubrs.obj mysubrs.exp mysubrs.lib
    $(link) $(linkdebug) \
    -dll                 \
    -out:mysubrs.dll     \
    MYSUBRS.OBJ MYSUBRS.EXP LISPLIB.LIB $(conlibsdll)}
@end format

@item
Where @file{MYSUBRS.DEF} has

@format
@t{LIBRARY mysubrs
EXPORT
 INIT_MYSUBRS}
@end format

@item
And the dynamic loader looks something like this, calling the two
procedures @code{LoadLibrary} and @code{GetProcAddress}.

@format
@t{LISP share_image_load(LISP fname)
@{long iflag;
 LISP retval,(*fcn)(void);
 HANDLE hLib;
 DWORD err;
 char *libname,fcnname[64];
 iflag = nointerrupt(1);
 libname = c_string(fname);
 _snprintf(fcnname,sizeof(fcnname),"INIT_%s",libname);
 if (!(hLib = LoadLibrary(libname)))
   @{err = GetLastError();
    retval = list2(fname,LSPNUM(err));
    serror1("library failed to load",retval);@}
 if (!(fcn = (LISP (*)(void)) GetProcAddress(hLib,fcnname)))
   @{err = GetLastError();
    retval = list2(fname,LSPNUM(err));
    serror1("could not find library init procedure",retval);@}
 retval = (*fcn)();
 nointerrupt(iflag);
 return(retval);@}}
@end format

@item
@emph{Note:} in VMS the linker and dynamic loader is case sensitive, but
all the language compilers, including C, will by default upper-case
external symbols for use by the linker, although the debugger gets its
own symbols and case sensitivity is language mode dependant.  In Windows
NT things are case sensitive generally except for file and device names,
which are case canonicalizing like in the Symbolics filesystem.

@item
@emph{Also:} All this WINDOWS NT stuff will work in MS-DOS MS-Windows
3.1 too, by a method of compiling and linking under Windows NT, and then
copying various files over to MS-DOS/WINDOWS.
@end itemize


@node Procedure and Macro Index, Variable Index, The Implementation, Top
@unnumbered Procedure and Macro Index

This is an alphabetical list of all the procedures and macros in SCM.

@printindex fn

@node Variable Index, Type Index, Procedure and Macro Index, Top
@unnumbered Variable Index

This is an alphabetical list of all the global variables in SCM.

@printindex vr

@node Type Index,  , Variable Index, Top
@unnumbered Type Index

This is an alphabetical list of data types and feature names in SCM.

@printindex tp

@contents
@bye