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s9.1
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.\" S9(1) Manual Page
.\" By Nils M Holm, 2007-2015
.ll 70
.lt 70
.de HD \" header
'sp 1v
.tl 'S9(1)'Scheme 9 from Empty Space'S9(1)'
'sp 2v
..
.de FO \" footer
'sp 2v
.tl 'S9 Interpreter'Page %'S9(1)'
'bp
..
.de B
\fB\\$1\fP
..
.de BR
\fB\\$1\fP\\$2
..
.de IR
\fI\\$1\fP\\$2
..
.de RB
\\$1\fB\\$2\\fP
..
.de I
\fI\\$1\fP
..
.de SH \" subheading
.ne 5
.sp
.in 0i
.nf
\fB\\$1\fP
.fi
.in 1i
..
.wh 0 HD \" traps for header
.wh -4 FO \" and footer
.nh
.sp
.SH NAME
.B "s9
- Scheme Interpreter
.SH USAGE
.B "s9 [-i file | -] [-hv?] [-gqu] [-e expr] [-d file]
.br
.B " [-k cells] [-l file] [-n nodes] [-r expr]
.br
.B " [-- argument ... | [-f] file argument ...]
.SH "DESCRIPTION
.B "Scheme 9 from Empty Space
is an interpreter for R4RS Scheme with some additional procedures
for accessing typical Unix system calls and Unix and Curses library
functions (if compiled-in). The
.B s9
command starts the interpreter.
.SH "OPTIONS
.B "-h, -v, or -?
.in +4
Display a brief summary of options.
.in -4
.sp
.B "-i file | -
.in +4
Load alternative image file `\fIfile\fP'. Image files will be
searched in the directory specified in
.I S9FES_IMAGE_DIR
(see below) except when the file name begins with a `.' or `/'
character. When this option is used, it
.B must
be the first one of the s9 command.
.br
When `-' is specified as \fIfile\fP, no heap image will be loaded,
and the core library will be read from the source file `s9.scm' in
the current directory.
.in -4
.sp
.B "-d file
.in +4
Dump heap image to
.I file
and exit.
.in -4
.sp
.B "-e expr
.in +4
Read expression from
.IR expr ,
evaluate it, and print its value. Multiple
.B -e
options may be given, which will evaluate from left to right.
Interactive mode will not be entered.
.in -4
.sp
.B "-g[g]
.in +4
Print GC summaries. A single `g' will report pool growth, a second
`g' will also include data about pool usage after each collection.
.in -4
.sp
.B "-k N[m]
.in +4
Set vector limit to
.I N
kilo (or mega) cells (\fB-k 0\fP
means no limit; use with care!). An
.I m
suffix indicates 2^20*cells, the default is 2^10*cells.
.in -4
.sp
.B "-l program
.in +4
Load
.I program
before entering the REPL or processing
.B -e
and
.B -r
options or running a final program. May be repeated.
.in -4
.sp
.B "-n N[m]
.in +4
Set node limit to
.I N
kilo (or mega) nodes (\fB-n 0\fP
means no limit; use with care!).
An
.I m
suffix indicates 2^20*nodes, the default is 2^10*nodes.
.in -4
.sp
.B "-q
.in +4
Be quiet: skip banners and prompts, exit on errors.
.in -4
.sp
.B "-r expr
.in +4
Like
.BR -e ,
but no value will print. Used to run expressions for effect.
.in -4
.sp
.B "-u
.in +4
Short for \fB-k 0 -n 0\fP (use unlimited memory).
.in -4
.sp
.B "-- [argument ...]
.in +4
Arguments following
.B --
are not interpreted by S9fES, but passed to the interpreted
program, which can extract them using the
.B command-line
procedure. This option must be the last one.
.in -4
.sp
.B "[-f] program [argument ...]
.in +4
Run
.I program
and exit (implies -q). When there are any
.IR argument s,
they are passed to the
.IR program ,
where they can be extracted using the
.B command-line
procedure. This option must be the last one. The
.B -f
flag is deprecated.
.in -4
.SH "ONLINE HELP
When the interpreter is running and the default heap image is loaded,
just type \fB(help)\fP or \fB,h\fP to invoke the online help system.
When the online help system is not loaded, you will have to run the
following command first:
.sp
\fB(load-from-library "help.scm")\fP
.SH "META COMMANDS
In order to facilitate the invocation of frequently-used top-level
procedures,
.B s9
provides the following `meta commands' (they work only when entered
directly at the
.B s9
prompt):
.sp
.in +4
.nf
\fB,a text\fP = (apropos "text")
\fB,h text\fP = (help "text")
\fB,l file\fP = (load-from-library "file")
\fB,q \fP = (quit)
.fi
.in -4
.sp
The arguments of \fB,a\fP and \fB,h\fP are optional.
.SH "ADDITIONS
S9fES supports nestable block comments of the form
.sp
.in +4
.nf
\fB#|\fP \fIcomment\fP \fB|#\fP
.fi
.in -4
.sp
Square brackets may be used in the places of parentheses:
.sp
.in +4
.nf
\fB(cond [(foo) (bar)])\fP
.fi
.in -4
.sp
The same type of bracket must be used on both ends of a list.
.sp
These S9fES procedures are not in R4RS:
.sp
.ne 3
.B "(bit-op integer1 integer2 integer3 ...) ==> integer
.in +4
Implement a variety of bitwise operations. See the
.B bit-op
help page for details.
.in -4
.sp
.ne 3
.B "(command-line) ==> list
.in +4
Return a list of command line arguments passed to the a program
being interpreted or following the
.B --
command line option.
.in -4
.sp
.ne 3
.B "(delete-file string) ==> unspecific
.in +4
Delete the file specified in the
.I string
argument. If the file does not exist
or cannot be deleted, report an error.
.in -4
.sp
.ne 3
.B "(environment-variable string) ==> string | #f
.in +4
Retrieve the value of the given environment variable. Return
\fB#f\fP, if the variable is undefined.
.in -4
.sp
.ne 3
.B "(error string) ==> undefined
.br
.B "(error string object) ==> undefined
.in +4
Print an error message of the form
.I "error: string: object
and terminate program execution. When no
.I object
argument is given, this part will be omitted in the message.
.in -4
.sp
.ne 3
.B "(eval object) ==> object
.in +4
Evaluate
.I object
in the current environment and return its normal form.
.in -4
.sp
.ne 3
.B "(exponent number) ==> integer
.in +4
Extract the exponent part from a number. This will be 0 for integers.
.in -4
.sp
.ne 3
.B "(file-exists? string) ==> boolean
.in +4
Return
.B "#t
if the file specified in the
.I string
argument exists and otherwise \fB#f\fP.
.in -4
.sp
.ne 4
.B "(fold-left proc base list ...) ==> object
.in +4
Combine the elements of the
.IR list s
using
.IR proc .
Combine elements left-associatively.
.I Base
is the leftmost element.
.in -4
.sp
.ne 4
.B "(fold-right proc base list ...) ==> object
.in +4
Combine the elements of the
.IR list s
using
.IR proc .
Combine elements right-associatively.
.I Base
is the rightmost element.
.in -4
.sp
.B "(gensym) ==> symbol
.in +4
Return a fresh symbol.
.in -4
.sp
.ne 2
.B "(load-from-library string) ==> unspecific
.in +4
Attempt to
.B load
the file
.I string
from each directory listed in the top-level variable
.BR *library-path* .
.in -4
.sp
.ne 2
.B "(locate-file string) ==> string | #f
.in +4
Search for the file
.I string
in each directory listed in
.B *library-path*
in sequence.
When the file can be located, return its full path, else
return \fB#f\fP.
.in -4
.sp
.ne 3
.B "(macro-expand object) ==> object
.br
.B "(macro-expand-1 object) ==> object
.in +4
If
.I object
contains a macro application, return its expanded form,
else return the object unchanged.
.B Macro-expand-1
expands macros only once while
.B macro-expand
expands them recursively.
.in -4
.sp
.ne 3
.B "(mantissa number) ==> integer
.in +4
Extract the mantissa part from a number. This will be the
number itself for integers.
.in -4
.sp
.ne 2
.B "(print object ...) ==> unspecific
.in +4
Write multiple
.IR object s
separated by spaces and with a trailing newline.
.in -4
.sp
.ne 2
.B "(require-extension ext ...) ==> unspecific
.in +4
Require the named extensions to be compiled-in. Signal an error
if not all of the required extensions are present.
.I Ext
may be of the form \fI(or ext1 ext2 ...)\fP. In this case,
it is sufficient if at least one of the \fIext\fPs gven in
.I or
is present.
.in -4
.sp
.ne 2
.B "(reverse! list) ==> list
.in +4
Reverse
.I list
destructively and return the reverse list.
.in -4
.sp
.ne 2
.B "(set-input-port! input-port) ==> unspecific
.in +4
Destructively set the current input port.
.in -4
.sp
.ne 2
.B "(set-output-port! output-port) ==> unspecific
.in +4
Destructively set the current output port.
.in -4
.sp
.ne 2
.B "(stats expr) ==> object
.in +4
Evaluate the given expression and return a list containing its
normal form plus a summary of the resources used to compute that
normal form:
.sp
.in +4
.nf
- total nodes allocated
- conses allocated
- vector cells allocated
- garbage collections
.fi
.in -4
.sp
Each resource count will be returned as a group of integers
representing ones, thousands, millions, etc. Note that
.I expr
must be quoted or it will be evaluated before passing it to
.BR stats .
.in -4
.sp
.ne 2
.B "(symbols) ==> list
.in +4
Return a list of all defined symbols.
.in -4
.sp
.ne 3
.B "(system-command string) ==> number
.in +4
Run the given shell command and return its exit code.
.in -4
.sp
.ne 3
.B "(vector-append vector ...) ==> vector
.in +4
Return a fresh vector containing the concatenation of the given
vectors.
.in -4
.sp
.ne 3
.B "(vector-copy vector) ==> vector
.br
.B "(vector-copy vector integer) ==> vector
.br
.B "(vector-copy vector integer1 integer2) ==> vector
.br
.B "(vector-copy vector integer1 integer2 object) ==> vector
.in +4
Return a copy of the given vector. When
.I integer1
is specified, skip the given number of elements. When
.I integer2
is also specified, copy elements from
.I integer1
up to, but not including,
.IR integer2 .
When
.I integer2
exceeds the size of the original vector, add slots of an unspecific
value to the copy. When an
.I object
argument is given, fill extra slots with that argument.
.in -4
.sp
.ne 3
.B "(void) ==> unspecific
.in +4
Return an unspecific value.
.in -4
.sp
Refer to the help pages for more detailed descriptions of the Scheme 9
extension procedures.
.SH "SPECIAL VARIABLES
These variables are predefined in the top-level scope of the
interpreter.
.sp
.ne 2
.B "** (object)
.in +4
The normal form of the expression most recently evaluated at the
top level. Unspecific results and aborted computations do not
change the value of
.BR ** .
.in -4
.sp
.ne 2
.B "*arguments* (list of strings)
.in +4
A list of command line arguments passed to the
.I "Scheme program
(not to the interpreter), i.e. the
.I args
in \fIs9 file args\fP
or \fIs9 -- args\fP.
.in -4
.sp
.ne 2
.B "*epsilon* (real number)
.in +4
The smallest difference between two real numbers.
.in -4
.sp
.ne 2
.B "*extensions* (list of symbols)
.in +4
Identifiers naming the compiled-in extensions.
.in -4
.sp
.ne 2
.B "*host-system* (symbol)
.in +4
The host system running the \fBs9\fP interpreter: \fBunix\fP, \fBplan9\fP, or
.BR "unknown" .
.in -4
.sp
.ne 2
.B "*image-file* (string or #f)
.in +4
The name of the heap image file loaded at startup time. When no image
is loaded, the variable is set to
.BR #f .
.in -4
.sp
.ne 2
.B "*library-path* (list of strings)
.in +4
A list containing each path contained in the
.I S9FES_LIBRARY_PATH
environment variable (see below).
.in -4
.sp
.ne 2
.B "*loading* (boolean)
.in +4
Set to
.B #t
when \fBload\fPing a file, else \fB#f\fP.
.in -4
.sp
.ne 2
.B "*release-date* (string)
.in +4
A string containing the release date of the S9 interpreter in the form
`YYYY-MM-DD'.
.in -4
.SH "MACROS
A macro is a procedure that is applied to its unevaluated arguments.
The macro application is replaced with the value returned by the procedure.
This happens before the expression containing the macro application is
evaluated, so a macro
.I rewrites
its own application:
.sp
.ne 2
.nf
(define-syntax (when p . c)
`(if ,p (begin ,@c)))
(macro-expand '(when (= 1 1) (display "true") (newline) #t))
==> (if (= 1 1)
(begin (display "true")
(newline)
#t))
(when (= 1 1) 1 2 3) ==> 3
.fi
.sp
The
.B define-syntax
form introduces a new macro:
.sp
.ne 3
.B "(define-syntax name procedure) ==> unspecific
.br
.B "(define-syntax (name args ...) body) ==> unspecific
.sp
Both of these forms introduce the keyword
.I name
and bind it to a procedure. The first form requires the
second argument to be a procedure. Like in
.B define
forms the second variant implies a procedure definition.
.sp
Macros may contain applications of macros that were defined earlier.
Macros may not recurse directly, but they may implement recursion
internally using
.B letrec
or by rewriting their own applications. The following macro,
for example, does
.I not
work, because
.I d
is undefined in the body of
.IR d :
.sp
.B "(define-syntax (d x) (and (pair? x) (d (cdr x)))) ; wrong"
.sp
The following version
.I does
work, though:
.sp
.B "(define-syntax (d x) (and (pair? x) `(d ,(cdr x)))) ; OK"
.sp
The body of
.B define-syntax
may be a
.B syntax-rules
transformer, as described in R4RS, if the
.B syntax-rules
extension has been loaded.
.SH "TECHNICAL DETAILS
S9fES is a bytecode compiler and SECD abstract machine using
shallow binding, primitive procedure inlining, and in-situ lambda
lifting. It employs an extremely reliable[1] constant-space mark
and sweep garbage collector with in-situ vector pool compaction.
Memory pools grow on demand. The interpreter uses arbitrary-precision
integer arithmetics and decimal-based real number arithmetics.
.SH "INTERPRETER START-UP
When the
.B s9
interpreter is started, the following steps will be performed in this
order:
.sp
Load heap image or library.
.in +4
The interpreter searches the
.I "image directory
for a heap image file and loads it. The image directory is taken
from the
.I S9FES_IMAGE_DIR
environment variable. When the variable is undefined, a compiled-in
default will be used. The default image file is named
.IR s9.image .
An alternative name can be specified with the
.B -i
option (see
.BR OPTIONS ).
When no image file is found in
.IR S9FES_IMAGE_DIR ,
a fallback image is loaded from a file named
.I s9.image
in the local directory. When no fallback image can be found, an error
is signalled and the interpreter will not start.
.in -4
.sp
Initialize extensions.
.in +4
Any extensions compiled into the interpreter are initialized by calling
the nullary procedure
.BR ext:ext ,
where
.B ext
is the name of the extension. The procedures are optional. The last
`extension' being initialized is
.B S9
itself, so when a procedure named
.B s9:s9
exists, it will be called at this point.
.in -4
.sp
Evaluate command line options.
.in +4
First all files specified in
.B "-l file
options will be loaded in the specified order. Then all expressions
specified in
.B "-e expr
and
.B "-r expr
command line options will be evaluated in the given order. After
that, a
.B "-d file
option will be evaluated, if present. After processing such an
option, the interpreter will exit immediately.
Finally, if a program is being passed to the interpreter,
the program will be run and any options following the program
name will be passed to the program. In this case S9
will exit after program execution.
.in -4
.sp
.ne 2
Enter REPL.
.in +4
Interactive mode is only entered, when no
.BR -e ,
.BR -r ,
or
.B -d
option was given and no program was specified.
.in -4
.SH "ALLOCATION STRATEGY
The S9fES memory pools grow exponentially until the memory limit
is reached. When the limit is reached, the current computation
is aborted. A memory limit can be specified using the \fB-k\fP,
\fB-n\fP, and
.B -u
command line options. The limit is specified in units of 1024
nodes/cells (or in units of 1024*1024 nodes/cells by appending an
.B m
suffix).
.sp
Note that computations may abort
.I before
the limit is reached due to the way the pool grows. Use the
.B -g
command line option to experiment with pool sizes.
.sp
Specifying a limit of zero (or using the
.B -u
option) disables the memory limit completely
and the interpreter will allocate as much memory as it can get.
This option should be used with care.
.SH "LIMITATIONS
These parts of R4RS are not implemented:
.sp
I/O:
.B char-ready?
(this is in the
.B sys-unix
extension).
.br
Transcripts:
.BR transcript-off ,
.BR transcript-on .
.br
Rational and complex numbers and related procedures.
.br
The
.B atan
procedure does not accept a second argument.
.br
Inexact digits of the form
.IR # .
.SH "BUGS
You may not quasiquote
.B quasiquote
unless in
.BR unquote
(e.g.:
.B ``x
does not work, but
.B `,`x
does).
.br
.B Syntax-rules
is not fully hygienic.
.SH "FILES
.ne 2
.B @S9DIR@
.in +4
The S9fES procedure library (source code).
.in -4
.ne 2
.B s9.image
.in +4
The interpreter heap image.
.in -4
.ne 2
.B *.scm
.in +4
Scheme source code.
.in -4
.SH "ENVIRONMENT
.B S9FES_IMAGE_DIR
.in +4
The directory that will be searched for heap image files when the
s9 interpreter starts.
.in -4
.sp
.B S9FES_LIBRARY_PATH
.in +4
A colon-separated list of directories which will be searched for
library files by the
.B load-from-library
and
.B locate-file
procedures. The value of this variable will be split at the colons
and copied to the
.B *library-path*
variable when S9 starts.
.br
Default:
.I \&.:~/.s9fes:@S9DIR@
.in -4
.SH "SIGNALS
.ne 3
.B "SIGINT
.in +4
Abort input or terminate program execution.
.in -4
.ne 3
.B "SIGQUIT
.in +4
Terminate the interpreter process (emergency exit).
.in -4
.B """interrupt"""
.in +4
On Plan 9, receiving an
.I interrupt
note will abort input or terminate program execution, as
.I SIGINT
would on Unix.
.in -4
.SH "FOOTNOTES
.B [1]
See
.I comp.lang.scheme
Usenet message
.in +4
.I "<[email protected]>
.br
(Thu, 27 Aug 2009 13:27:42 -0400) and its follow-ups.
.in -4
.SH "REFERENCES
.ne 3
The Revised^4 Report on the Algorithmic Language Scheme.
.in +4
.B "http://www-swiss.ai.mit.edu/~jaffer/r4rs_toc.html
.in -4
.sp
.ne 3
Scheme 9 from Empty Space -- A Guide to Implementing Scheme in C.
.in +4
.B "Available at Lulu.com, see http://www.t3x.org
.in -4
.SH AUTHOR
Nils M Holm