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guile/libguile/eval.c
Jim Blandy 20e6290e38 C files should #include only the header files they need, not 
libguile.h (which #includes all the header files); the pointless
recompilation was wasting my time.
* Makefile.in (all .o dependency lists): Regenerated.
* libguile.h: Don't try to get a definition for size_t here...
* __scm.h: Do it here.
* _scm.h: Since this is the internal libguile header, put things
here that all (or a majority) of the libguile files will want.
Don't #include <libguile.h> here; that generates dependencies on
way too much.  Instead, get "__scm.h", "error.h", "pairs.h",
"list.h", "gc.h", "gsubr.h", "procs.h", "numbers.h", "symbols.h",
"boolean.h", "strings.h", "vectors.h", "root.h", "ports.h", and
"async.h".
* alist.c: Get "eq.h", "list.h", "alist.h".
* append.c: Get "append.h", "list.h".
* arbiters.c: Get "arbiters.h", "smob.h".
* async.c: Get "async.h", "smob.h", "throw.h", "eval.h".
* boolean.c: Get "boolean.h".
* chars.c: Get "chars.h".
* continuations.c: Get "continuations.h", "dynwind.h", "debug.h",
"stackchk.h".
* debug.c: Get "debug.h", "feature.h", "read.h", "strports.h",
"continuations.h", "alist.h", "srcprop.h", "procprop.h", "smob.h",
"genio.h", "throw.h", "eval.h".
* dynwind.c: Get "dynwind.h", "alist.h", "eval.h".
* eq.c: Get "eq.h", "unif.h", "smob.h", "strorder.h",
"stackchk.h".
* error.c: Get "error.h", "throw.h", "genio.h", "pairs.h".
* eval.c: Get "eval.h", "stackchk.h", "srcprop.h", "debug.h",
"hashtab.h", "procprop.h", "markers.h", "smob.h", "throw.h",
"continuations.h", "eq.h", "sequences.h", "alist.h", "append.h",
"debug.h".
* fdsocket.c: Get "fdsocket.h", "unif.h", "filesys.h".
* feature.c: Get "feature.h".
* files.c: Get "files.h".
* filesys.c: Get "filesys.h", "smob.h", "genio.h".
* fports.c: Get "fports.h", "markers.h".
* gc.c: Get "async.h", "unif.h", "smob.h", "weaks.h",
"genio.h", "struct.h", "stackchk.h", "stime.h".
* gdbint.c: Get "gdbint.h", "chars.h", "eval.h", "print.h",
"read.h", "strports.h", "tag.h".
* genio.c: Get "genio.h", "chars.h".
* gsubr.c: Get "gsubr.h", "genio.h".
* hash.c: Get "hash.h", "chars.h".
* hashtab.c: Get "hashtab.h", "eval.h", "hash.h", "alist.h".
* init.c: Get everyone who has an scm_init_mumble function:
"weaks.h", "vports.h", "version.h", "vectors.h", "variable.h",
"unif.h", "throw.h", "tag.h", "symbols.h", "struct.h",
"strports.h", "strorder.h", "strop.h", "strings.h", "stime.h",
"stackchk.h", "srcprop.h", "socket.h", "simpos.h", "sequences.h",
"scmsigs.h", "read.h", "ramap.h", "procs.h", "procprop.h",
"print.h", "posix.h", "ports.h", "pairs.h", "options.h",
"objprop.h", "numbers.h", "mbstrings.h", "mallocs.h", "load.h",
"list.h", "kw.h", "ioext.h", "hashtab.h", "hash.h", "gsubr.h",
"gdbint.h", "gc.h", "fports.h", "filesys.h", "files.h",
"feature.h", "fdsocket.h", "eval.h", "error.h", "eq.h",
"dynwind.h", "debug.h", "continuations.h", "chars.h", "boolean.h",
"async.h", "arbiters.h", "append.h", "alist.h".
* ioext.c: Get "ioext.h", "fports.h".
* kw.c: Get "kw.h", "smob.h", "mbstrings.h", "genio.h".
* list.c: Get "list.h", "eq.h".
* load.c: Get "load.h", "eval.h", "read.h", "fports.h".
* mallocs.c: Get "smob.h", "genio.h".
* markers.c: Get "markers.h".
* mbstrings.c: Get "mbstrings.h", "read.h", "genio.h", "unif.h",
"chars.h".
* numbers.c: Get "unif.h", "genio.h".
* objprop.c: Get "objprop.h", "weaks.h", "alist.h", "hashtab.h".
* options.c: Get "options.h".
* ports.c: Get "ports.h", "vports.h", "strports.h", "fports.h",
"markers.h", "chars.h", "genio.h".
* posix.c: Get "posix.h", "sequences.h", "feature.h", "unif.h",
"read.h", "scmsigs.h", "genio.h", "fports.h".
* print.c: Get "print.h",  "unif.h", "weaks.h", "read.h",
"procprop.h", "eval.h", "smob.h", "mbstrings.h", "genio.h",
"chars.h".
* procprop.c: Get "procprop.h", "eval.h", "alist.h".
* procs.c: Get "procs.h".
* ramap.c: Get "ramap.h", "feature.h", "eval.h", "eq.h",
"chars.h", "smob.h", "unif.h".
* read.c: Get "alist.h", "kw.h", "mbstrings.h", "unif.h",
"eval.h", "genio.h", "chars.h".
* root.c: Get "root.h", "stackchk.h".
* scmsigs.c: Get "scmsigs.h".
* sequences.c: Get "sequences.h".
* simpos.c: Get "simpos.h", "scmsigs.h".
* smob.c: Get "smob.h".
* socket.c: Get "socket.h", "feature.h".
* srcprop.c: Get "srcprop.h", "weaks.h", "hashtab.h", "debug.h",
"alist.h", "smob.h".
* stackchk.c: Get "stackchk.h", "genio.h".
* stime.c: Get "stime.h"."libguile/continuations.h".
* strings.c: Get "strings.h", "chars.h".
* strop.c: Get "strop.h", "chars.h".
* strorder.c: Get "strorder.h", "chars.h".
* strports.c: Get "strports.h", "print.h", "eval.h", "unif.h".
* struct.c: Get "struct.h", "chars.h".
* symbols.c: Get "symbols.h", "mbstrings.h", "alist.h",
"variable.h", "eval.h", "chars.h".
* tag.c: Get "tag.h", "struct.h", "chars.h".
* throw.c: Get "throw.h", "continuations.h", "debug.h",
"dynwind.h", "eval.h", "alist.h", "smob.h", "genio.h".
* unif.c: Get "unif.h", "feature.h", "strop.h", "sequences.h",
"smob.h", "genio.h", "eval.h", "chars.h".
* variable.c: Get "variable.h", "smob.h", "genio.h".
* vectors.c: Get "vectors.h", "eq.h".
* version.c: Get "version.h".
* vports.c: Get "vports.h", "fports.h", "chars.h", "eval.h".
* weaks.c: Get "weaks.h".
1996-09-10 02:26:07 +00:00

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/* Copyright (C) 1995,1996 Free Software Foundation, Inc.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2, or (at your option)
* any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this software; see the file COPYING. If not, write to
* the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA.
*
* As a special exception, the Free Software Foundation gives permission
* for additional uses of the text contained in its release of GUILE.
*
* The exception is that, if you link the GUILE library with other files
* to produce an executable, this does not by itself cause the
* resulting executable to be covered by the GNU General Public License.
* Your use of that executable is in no way restricted on account of
* linking the GUILE library code into it.
*
* This exception does not however invalidate any other reasons why
* the executable file might be covered by the GNU General Public License.
*
* This exception applies only to the code released by the
* Free Software Foundation under the name GUILE. If you copy
* code from other Free Software Foundation releases into a copy of
* GUILE, as the General Public License permits, the exception does
* not apply to the code that you add in this way. To avoid misleading
* anyone as to the status of such modified files, you must delete
* this exception notice from them.
*
* If you write modifications of your own for GUILE, it is your choice
* whether to permit this exception to apply to your modifications.
* If you do not wish that, delete this exception notice.
*/
/* This file is read twice in order to produce debugging versions of
* scm_ceval and scm_apply. These functions, scm_deval and
* scm_dapply, are produced when we define the preprocessor macro
* DEVAL. The file is divided into sections which are treated
* differently with respect to DEVAL. The heads of these sections are
* marked with the string "SECTION:".
*/
/* SECTION: This code is compiled once.
*/
#ifndef DEVAL
#include <stdio.h>
#include "_scm.h"
#include "debug.h"
#include "append.h"
#include "alist.h"
#include "sequences.h"
#include "eq.h"
#include "continuations.h"
#include "throw.h"
#include "smob.h"
#include "markers.h"
#include "procprop.h"
#include "hashtab.h"
#ifdef DEBUG_EXTENSIONS
#include "debug.h"
#endif /* DEBUG_EXTENSIONS */
#include "srcprop.h"
#include "stackchk.h"
#include "eval.h"
/* The evaluator contains a plethora of EVAL symbols.
* This is an attempt at explanation.
*
* The following macros should be used in code which is read twice
* (where the choice of evaluator is hard soldered):
*
* SCM_CEVAL is the symbol used within one evaluator to call itself.
* Originally, it is defined to scm_ceval, but is redefined to
* scm_deval during the second pass.
*
* SIDEVAL corresponds to SCM_CEVAL, but is used in situations where
* only side effects of expressions matter. All immediates are
* ignored.
*
* EVALIM is used when it is known that the expression is an
* immediate. (This macro never calls an evaluator.)
*
* EVALCAR evaluates the car of an expression.
*
* EVALCELLCAR is like EVALCAR, but is used when it is known that the
* car is a lisp cell.
*
* The following macros should be used in code which is read once
* (where the choice of evaluator is dynamic):
*
* XEVAL takes care of immediates without calling an evaluator. It
* then calls scm_ceval *or* scm_deval, depending on the debugging
* mode.
*
* XEVALCAR corresponds to EVALCAR, but uses scm_ceval *or* scm_deval
* depending on the debugging mode.
*
* The main motivation for keeping this plethora is efficiency
* together with maintainability (=> locality of code).
*/
#define EVALCELLCAR(x, env) (SCM_SYMBOLP (SCM_CAR(x)) \
? *scm_lookupcar(x, env) \
: SCM_CEVAL(SCM_CAR(x), env))
#ifdef MEMOIZE_LOCALS
#define EVALIM(x, env) (SCM_ILOCP(x)?*scm_ilookup((x), env):x)
#else
#define EVALIM(x, env) x
#endif
#define EVALCAR(x, env) (SCM_NCELLP(SCM_CAR(x))\
? (SCM_IMP(SCM_CAR(x)) \
? EVALIM(SCM_CAR(x), env) \
: SCM_GLOC_VAL(SCM_CAR(x))) \
: EVALCELLCAR(x, env))
#ifdef DEBUG_EXTENSIONS
#define XEVALCAR(x, env) (SCM_NCELLP(SCM_CAR(x)) \
? (SCM_IMP(SCM_CAR(x)) \
? EVALIM(SCM_CAR(x), env) \
: SCM_GLOC_VAL(SCM_CAR(x))) \
: (SCM_SYMBOLP(SCM_CAR(x)) \
? *scm_lookupcar(x, env) \
: (*scm_ceval_ptr) (SCM_CAR(x), env)))
#else
#define XEVALCAR(x, env) EVALCAR(x, env)
#endif
#define EXTEND_SCM_ENV SCM_EXTEND_SCM_ENV
#ifdef MEMOIZE_LOCALS
#ifdef __STDC__
SCM *
scm_ilookup (SCM iloc, SCM env)
#else
SCM *
scm_ilookup (iloc, env)
SCM iloc;
SCM env;
#endif
{
register int ir = SCM_IFRAME (iloc);
register SCM er = env;
for (; 0 != ir; --ir)
er = SCM_CDR (er);
er = SCM_CAR (er);
for (ir = SCM_IDIST (iloc); 0 != ir; --ir)
er = SCM_CDR (er);
if (SCM_ICDRP (iloc))
return &SCM_CDR (er);
return &SCM_CAR (SCM_CDR (er));
}
#endif
#ifdef __STDC__
SCM *
scm_lookupcar (SCM vloc, SCM genv)
#else
SCM *
scm_lookupcar (vloc, genv)
SCM vloc;
SCM genv;
#endif
{
SCM env = genv;
register SCM *al, fl, var = SCM_CAR (vloc);
#ifdef MEMOIZE_LOCALS
register SCM iloc = SCM_ILOC00;
#endif
for (; SCM_NIMP (env); env = SCM_CDR (env))
{
if (SCM_BOOL_T == scm_procedure_p (SCM_CAR (env)))
break;
al = &SCM_CAR (env);
for (fl = SCM_CAR (*al); SCM_NIMP (fl); fl = SCM_CDR (fl))
{
if (SCM_NCONSP (fl))
if (fl == var)
{
#ifdef MEMOIZE_LOCALS
SCM_CAR (vloc) = iloc + SCM_ICDR;
#endif
return &SCM_CDR (*al);
}
else
break;
al = &SCM_CDR (*al);
if (SCM_CAR (fl) == var)
{
#ifdef MEMOIZE_LOCALS
#ifndef RECKLESS /* letrec inits to SCM_UNDEFINED */
if (SCM_UNBNDP (SCM_CAR (*al)))
{
env = SCM_EOL;
goto errout;
}
#endif
SCM_CAR (vloc) = iloc;
#endif
return &SCM_CAR (*al);
}
#ifdef MEMOIZE_LOCALS
iloc += SCM_IDINC;
#endif
}
#ifdef MEMOIZE_LOCALS
iloc = (~SCM_IDSTMSK) & (iloc + SCM_IFRINC);
#endif
}
{
SCM top_thunk, vcell;
if (SCM_NIMP(env))
{
top_thunk = SCM_CAR(env); /* env now refers to a top level env thunk */
env = SCM_CDR (env);
}
else
top_thunk = SCM_BOOL_F;
vcell = scm_sym2vcell (var, top_thunk, SCM_BOOL_F);
if (vcell == SCM_BOOL_F)
goto errout;
else
var = vcell;
}
#ifndef RECKLESS
if (SCM_NNULLP (env) || SCM_UNBNDP (SCM_CDR (var)))
{
var = SCM_CAR (var);
errout:
scm_everr (vloc, genv, var,
(SCM_NULLP (env)
? "unbound variable: "
: "damaged environment"),
"");
}
#endif
SCM_CAR (vloc) = var + 1;
/* Except wait...what if the var is not a vcell,
* but syntax or something....
*/
return &SCM_CDR (var);
}
#define unmemocar scm_unmemocar
#ifdef __STDC__
SCM
scm_unmemocar (SCM form, SCM env)
#else
SCM
scm_unmemocar (form, env)
SCM form;
SCM env;
#endif
{
#ifdef DEBUG_EXTENSIONS
register int ir;
#endif
SCM c;
if (SCM_IMP (form))
return form;
c = SCM_CAR (form);
if (1 == (c & 7))
SCM_CAR (form) = SCM_CAR (c - 1);
#ifdef MEMOIZE_LOCALS
#ifdef DEBUG_EXTENSIONS
else if (SCM_ILOCP (c))
{
for (ir = SCM_IFRAME (c); ir != 0; --ir)
env = SCM_CDR (env);
env = SCM_CAR (SCM_CAR (env));
for (ir = SCM_IDIST (c); ir != 0; --ir)
env = SCM_CDR (env);
SCM_CAR (form) = SCM_ICDRP (c) ? env : SCM_CAR (env);
}
#endif
#endif
return form;
}
#ifdef __STDC__
SCM
scm_eval_car (SCM pair, SCM env)
#else
SCM
scm_eval_car (pair, env)
SCM pair;
SCM env;
#endif
{
return XEVALCAR (pair, env);
}
/*
* The following rewrite expressions and
* some memoized forms have different syntax
*/
static char s_expression[] = "missing or extra expression";
static char s_test[] = "bad test";
static char s_body[] = "bad body";
static char s_bindings[] = "bad bindings";
static char s_variable[] = "bad variable";
static char s_clauses[] = "bad or missing clauses";
static char s_formals[] = "bad formals";
#define ASSYNT(_cond, _arg, _pos, _subr) if(!(_cond))scm_wta(_arg, (char *)_pos, _subr);
SCM scm_i_dot, scm_i_quote, scm_i_quasiquote, scm_i_lambda, scm_i_let,
scm_i_arrow, scm_i_else, scm_i_unquote, scm_i_uq_splicing, scm_i_apply;
SCM scm_i_name;
SCM scm_i_define, scm_i_and, scm_i_begin, scm_i_case, scm_i_cond,
scm_i_do, scm_i_if, scm_i_let, scm_i_letrec, scm_i_letstar,
scm_i_or, scm_i_set, scm_i_atapply, scm_i_atcall_cc;
static char s_quasiquote[] = "quasiquote";
static char s_delay[] = "delay";
static char s_undefine[] = "undefine";
#ifdef DEBUG_EXTENSIONS
SCM scm_i_enter_frame, scm_i_apply_frame, scm_i_exit_frame;
SCM scm_i_trace;
#endif
#define ASRTSYNTAX(cond_, msg_) if(!(cond_))scm_wta(xorig, (msg_), what);
#ifdef __STDC__
static void
bodycheck (SCM xorig, SCM *bodyloc, char *what)
#else
static void
bodycheck (xorig, bodyloc, what)
SCM xorig;
SCM *bodyloc;
char *what;
#endif
{
ASRTSYNTAX (scm_ilength (*bodyloc) >= 1, s_expression);
}
#ifdef __STDC__
SCM
scm_m_quote (SCM xorig, SCM env)
#else
SCM
scm_m_quote (xorig, env)
SCM xorig;
SCM env;
#endif
{
ASSYNT (scm_ilength (SCM_CDR (xorig)) == 1, xorig, s_expression, "quote");
return scm_cons (SCM_IM_QUOTE, SCM_CDR (xorig));
}
#ifdef __STDC__
SCM
scm_m_begin (SCM xorig, SCM env)
#else
SCM
scm_m_begin (xorig, env)
SCM xorig;
SCM env;
#endif
{
ASSYNT (scm_ilength (SCM_CDR (xorig)) >= 1, xorig, s_expression, "begin");
return scm_cons (SCM_IM_BEGIN, SCM_CDR (xorig));
}
#ifdef __STDC__
SCM
scm_m_if (SCM xorig, SCM env)
#else
SCM
scm_m_if (xorig, env)
SCM xorig;
SCM env;
#endif
{
int len = scm_ilength (SCM_CDR (xorig));
ASSYNT (len >= 2 && len <= 3, xorig, s_expression, "if");
return scm_cons (SCM_IM_IF, SCM_CDR (xorig));
}
#ifdef __STDC__
SCM
scm_m_set (SCM xorig, SCM env)
#else
SCM
scm_m_set (xorig, env)
SCM xorig;
SCM env;
#endif
{
SCM x = SCM_CDR (xorig);
ASSYNT (2 == scm_ilength (x), xorig, s_expression, "set!");
ASSYNT (SCM_NIMP (SCM_CAR (x)) && SCM_SYMBOLP (SCM_CAR (x)),
xorig, s_variable, "set!");
return scm_cons (SCM_IM_SET, x);
}
#if 0
#ifdef __STDC__
SCM
scm_m_vref (SCM xorig, SCM env)
#else
SCM
scm_m_vref (xorig, env)
SCM xorig;
SCM env;
#endif
{
SCM x = SCM_CDR (xorig);
ASSYNT (1 == scm_ilength (x), xorig, s_expression, s_vref);
if (SCM_NIMP(x) && UDSCM_VARIABLEP (SCM_CAR (x)))
{
scm_everr (SCM_UNDEFINED, env, SCM_CAR(SCM_CDR(x)), s_variable,
"global variable reference");
}
ASSYNT (SCM_NIMP(x) && DEFSCM_VARIABLEP (SCM_CAR (x)),
xorig, s_variable, s_vref);
return
return scm_cons (IM_VREF, x);
}
#ifdef __STDC__
SCM
scm_m_vset (SCM xorig, SCM env)
#else
SCM
scm_m_vset (xorig, env)
SCM xorig;
SCM env;
#endif
{
SCM x = SCM_CDR (xorig);
ASSYNT (3 == scm_ilength (x), xorig, s_expression, s_vset);
ASSYNT (( DEFSCM_VARIABLEP (SCM_CAR (x))
|| UDSCM_VARIABLEP (SCM_CAR (x))),
xorig, s_variable, s_vset);
return scm_cons (IM_VSET, x);
}
#endif
#ifdef __STDC__
SCM
scm_m_and (SCM xorig, SCM env)
#else
SCM
scm_m_and (xorig, env)
SCM xorig;
SCM env;
#endif
{
int len = scm_ilength (SCM_CDR (xorig));
ASSYNT (len >= 0, xorig, s_test, "and");
if (len >= 1)
return scm_cons (SCM_IM_AND, SCM_CDR (xorig));
else
return SCM_BOOL_T;
}
#ifdef __STDC__
SCM
scm_m_or (SCM xorig, SCM env)
#else
SCM
scm_m_or (xorig, env)
SCM xorig;
SCM env;
#endif
{
int len = scm_ilength (SCM_CDR (xorig));
ASSYNT (len >= 0, xorig, s_test, "or");
if (len >= 1)
return scm_cons (SCM_IM_OR, SCM_CDR (xorig));
else
return SCM_BOOL_F;
}
#ifdef __STDC__
SCM
scm_m_case (SCM xorig, SCM env)
#else
SCM
scm_m_case (xorig, env)
SCM xorig;
SCM env;
#endif
{
SCM proc, x = SCM_CDR (xorig);
ASSYNT (scm_ilength (x) >= 2, xorig, s_clauses, "case");
while (SCM_NIMP (x = SCM_CDR (x)))
{
proc = SCM_CAR (x);
ASSYNT (scm_ilength (proc) >= 2, xorig, s_clauses, "case");
ASSYNT (scm_ilength (SCM_CAR (proc)) >= 0 || scm_i_else == SCM_CAR (proc),
xorig, s_clauses, "case");
}
return scm_cons (SCM_IM_CASE, SCM_CDR (xorig));
}
#ifdef __STDC__
SCM
scm_m_cond (SCM xorig, SCM env)
#else
SCM
scm_m_cond (xorig, env)
SCM xorig;
SCM env;
#endif
{
SCM arg1, x = SCM_CDR (xorig);
int len = scm_ilength (x);
ASSYNT (len >= 1, xorig, s_clauses, "cond");
while (SCM_NIMP (x))
{
arg1 = SCM_CAR (x);
len = scm_ilength (arg1);
ASSYNT (len >= 1, xorig, s_clauses, "cond");
if (scm_i_else == SCM_CAR (arg1))
{
ASSYNT (SCM_NULLP (SCM_CDR (x)) && len >= 2, xorig, "bad ELSE clause", "cond");
SCM_CAR (arg1) = SCM_BOOL_T;
}
if (len >= 2 && scm_i_arrow == SCM_CAR (SCM_CDR (arg1)))
ASSYNT (3 == len && SCM_NIMP (SCM_CAR (SCM_CDR (SCM_CDR (arg1)))),
xorig, "bad recipient", "cond");
x = SCM_CDR (x);
}
return scm_cons (SCM_IM_COND, SCM_CDR (xorig));
}
#ifdef __STDC__
SCM
scm_m_lambda (SCM xorig, SCM env)
#else
SCM
scm_m_lambda (xorig, env)
SCM xorig;
SCM env;
#endif
{
SCM proc, x = SCM_CDR (xorig);
if (scm_ilength (x) < 2)
goto badforms;
proc = SCM_CAR (x);
if SCM_NULLP
(proc) goto memlambda;
if SCM_IMP
(proc) goto badforms;
if SCM_SYMBOLP
(proc) goto memlambda;
if SCM_NCONSP
(proc) goto badforms;
while SCM_NIMP
(proc)
{
if SCM_NCONSP
(proc)
if (!SCM_SYMBOLP (proc))
goto badforms;
else
goto memlambda;
if (!(SCM_NIMP (SCM_CAR (proc)) && SCM_SYMBOLP (SCM_CAR (proc))))
goto badforms;
proc = SCM_CDR (proc);
}
if SCM_NNULLP
(proc)
badforms:scm_wta (xorig, s_formals, "lambda");
memlambda:
bodycheck (xorig, &SCM_CDR (x), "lambda");
return scm_cons (SCM_IM_LAMBDA, SCM_CDR (xorig));
}
#ifdef __STDC__
SCM
scm_m_letstar (SCM xorig, SCM env)
#else
SCM
scm_m_letstar (xorig, env)
SCM xorig;
SCM env;
#endif
{
SCM x = SCM_CDR (xorig), arg1, proc, vars = SCM_EOL, *varloc = &vars;
int len = scm_ilength (x);
ASSYNT (len >= 2, xorig, s_body, "let*");
proc = SCM_CAR (x);
ASSYNT (scm_ilength (proc) >= 0, xorig, s_bindings, "let*");
while SCM_NIMP (proc)
{
arg1 = SCM_CAR (proc);
ASSYNT (2 == scm_ilength (arg1), xorig, s_bindings, "let*");
ASSYNT (SCM_NIMP (SCM_CAR (arg1)) && SCM_SYMBOLP (SCM_CAR (arg1)), xorig, s_variable, "let*");
*varloc = scm_cons2 (SCM_CAR (arg1), SCM_CAR (SCM_CDR (arg1)), SCM_EOL);
varloc = &SCM_CDR (SCM_CDR (*varloc));
proc = SCM_CDR (proc);
}
x = scm_cons (vars, SCM_CDR (x));
bodycheck (xorig, &SCM_CDR (x), "let*");
return scm_cons (SCM_IM_LETSTAR, x);
}
/* DO gets the most radically altered syntax
(do ((<var1> <init1> <step1>)
(<var2> <init2>)
... )
(<test> <return>)
<body>)
;; becomes
(do_mem (varn ... var2 var1)
(<init1> <init2> ... <initn>)
(<test> <return>)
(<body>)
<step1> <step2> ... <stepn>) ;; missing steps replaced by var
*/
#ifdef __STDC__
SCM
scm_m_do (SCM xorig, SCM env)
#else
SCM
scm_m_do (xorig, env)
SCM xorig;
SCM env;
#endif
{
SCM x = SCM_CDR (xorig), arg1, proc;
SCM vars = SCM_EOL, inits = SCM_EOL, steps = SCM_EOL;
SCM *initloc = &inits, *steploc = &steps;
int len = scm_ilength (x);
ASSYNT (len >= 2, xorig, s_test, "do");
proc = SCM_CAR (x);
ASSYNT (scm_ilength (proc) >= 0, xorig, s_bindings, "do");
while SCM_NIMP
(proc)
{
arg1 = SCM_CAR (proc);
len = scm_ilength (arg1);
ASSYNT (2 == len || 3 == len, xorig, s_bindings, "do");
ASSYNT (SCM_NIMP (SCM_CAR (arg1)) && SCM_SYMBOLP (SCM_CAR (arg1)), xorig, s_variable, "do");
/* vars reversed here, inits and steps reversed at evaluation */
vars = scm_cons (SCM_CAR (arg1), vars); /* variable */
arg1 = SCM_CDR (arg1);
*initloc = scm_cons (SCM_CAR (arg1), SCM_EOL); /* init */
initloc = &SCM_CDR (*initloc);
arg1 = SCM_CDR (arg1);
*steploc = scm_cons (SCM_IMP (arg1) ? SCM_CAR (vars) : SCM_CAR (arg1), SCM_EOL); /* step */
steploc = &SCM_CDR (*steploc);
proc = SCM_CDR (proc);
}
x = SCM_CDR (x);
ASSYNT (scm_ilength (SCM_CAR (x)) >= 1, xorig, s_test, "do");
x = scm_cons2 (SCM_CAR (x), SCM_CDR (x), steps);
x = scm_cons2 (vars, inits, x);
bodycheck (xorig, &SCM_CAR (SCM_CDR (SCM_CDR (x))), "do");
return scm_cons (SCM_IM_DO, x);
}
/* evalcar is small version of inline EVALCAR when we don't care about
* speed
*/
#define evalcar scm_eval_car
#ifdef __STDC__
static SCM
iqq (SCM form, SCM env, int depth)
#else
static SCM
iqq (form, env, depth)
SCM form;
SCM env;
int depth;
#endif
{
SCM tmp;
int edepth = depth;
if SCM_IMP
(form) return form;
if (SCM_VECTORP (form))
{
long i = SCM_LENGTH (form);
SCM *data = SCM_VELTS (form);
tmp = SCM_EOL;
for (; --i >= 0;)
tmp = scm_cons (data[i], tmp);
return scm_vector (iqq (tmp, env, depth));
}
if SCM_NCONSP
(form) return form;
tmp = SCM_CAR (form);
if (scm_i_quasiquote == tmp)
{
depth++;
goto label;
}
if (scm_i_unquote == tmp)
{
--depth;
label:
form = SCM_CDR (form);
/* !!! might need a check here to be sure that form isn't a struct. */
SCM_ASSERT (SCM_NIMP (form) && SCM_ECONSP (form) && SCM_NULLP (SCM_CDR (form)),
form, SCM_ARG1, s_quasiquote);
if (0 == depth)
return evalcar (form, env);
return scm_cons2 (tmp, iqq (SCM_CAR (form), env, depth), SCM_EOL);
}
if (SCM_NIMP (tmp) && (scm_i_uq_splicing == SCM_CAR (tmp)))
{
tmp = SCM_CDR (tmp);
if (0 == --edepth)
return scm_append (scm_cons2 (evalcar (tmp, env), iqq (SCM_CDR (form), env, depth), SCM_EOL));
}
return scm_cons (iqq (SCM_CAR (form), env, edepth), iqq (SCM_CDR (form), env, depth));
}
/* Here are acros which return values rather than code. */
#ifdef __STDC__
SCM
scm_m_quasiquote (SCM xorig, SCM env)
#else
SCM
scm_m_quasiquote (xorig, env)
SCM xorig;
SCM env;
#endif
{
SCM x = SCM_CDR (xorig);
ASSYNT (scm_ilength (x) == 1, xorig, s_expression, s_quasiquote);
return iqq (SCM_CAR (x), env, 1);
}
#ifdef __STDC__
SCM
scm_m_delay (SCM xorig, SCM env)
#else
SCM
scm_m_delay (xorig, env)
SCM xorig;
SCM env;
#endif
{
ASSYNT (scm_ilength (xorig) == 2, xorig, s_expression, s_delay);
xorig = SCM_CDR (xorig);
return scm_makprom (scm_closure (scm_cons2 (SCM_EOL, SCM_CAR (xorig), SCM_CDR (xorig)),
env));
}
#ifdef __STDC__
static SCM
env_top_level (SCM env)
#else
static SCM
env_top_level (env)
SCM env;
#endif
{
while (SCM_NIMP(env))
{
if (SCM_BOOL_T == scm_procedure_p (SCM_CAR(env)))
return SCM_CAR(env);
env = SCM_CDR (env);
}
return SCM_BOOL_F;
}
#ifdef __STDC__
SCM
scm_m_define (SCM x, SCM env)
#else
SCM
scm_m_define (x, env)
SCM x;
SCM env;
#endif
{
SCM proc, arg1 = x;
x = SCM_CDR (x);
/* ASSYNT(SCM_NULLP(env), x, "bad placement", s_define);*/
ASSYNT (scm_ilength (x) >= 2, arg1, s_expression, "define");
proc = SCM_CAR (x);
x = SCM_CDR (x);
while (SCM_NIMP (proc) && SCM_CONSP (proc))
{ /* nested define syntax */
x = scm_cons (scm_cons2 (scm_i_lambda, SCM_CDR (proc), x), SCM_EOL);
proc = SCM_CAR (proc);
}
ASSYNT (SCM_NIMP (proc) && SCM_SYMBOLP (proc), arg1, s_variable, "define");
ASSYNT (1 == scm_ilength (x), arg1, s_expression, "define");
if (SCM_TOP_LEVEL (env))
{
x = evalcar (x, env);
#ifdef DEBUG_EXTENSIONS
if (SCM_REC_PROCNAMES_P && SCM_NIMP (x) && SCM_CLOSUREP (x))
scm_set_procedure_property_x (x, scm_i_name, proc);
#endif
arg1 = scm_sym2vcell (proc, env_top_level (env), SCM_BOOL_T);
#if 0
#ifndef RECKLESS
if (SCM_NIMP (SCM_CDR (arg1)) && ((SCM) SCM_SNAME (SCM_CDR (arg1)) == proc)
&& (SCM_CDR (arg1) != x))
scm_warn ("redefining built-in ", SCM_CHARS (proc));
else
#endif
if (5 <= scm_verbose && SCM_UNDEFINED != SCM_CDR (arg1))
scm_warn ("redefining ", SCM_CHARS (proc));
#endif
SCM_CDR (arg1) = x;
#ifdef SICP
return scm_cons2 (scm_i_quote, SCM_CAR (arg1), SCM_EOL);
#else
return SCM_UNSPECIFIED;
#endif
}
return scm_cons2 (SCM_IM_DEFINE, proc, x);
}
SCM
scm_m_undefine (x, env)
SCM x, env;
{
SCM arg1 = x;
x = SCM_CDR (x);
ASSYNT (SCM_TOP_LEVEL (env), arg1, "bad placement ", s_undefine);
ASSYNT (SCM_NIMP (x) && SCM_CONSP (x) && SCM_CDR (x) == SCM_EOL,
arg1, s_expression, s_undefine);
x = SCM_CAR (x);
ASSYNT (SCM_NIMP (x) && SCM_SYMBOLP (x), arg1, s_variable, s_undefine);
arg1 = scm_sym2vcell (x, env_top_level (env), SCM_BOOL_F);
ASSYNT (SCM_NFALSEP (arg1) && !SCM_UNBNDP (SCM_CDR (arg1)),
x, "variable already unbound ", s_undefine);
#if 0
#ifndef RECKLESS
if (SCM_NIMP (SCM_CDR (arg1)) && ((SCM) SCM_SNAME (SCM_CDR (arg1)) == x))
scm_warn ("undefining built-in ", SCM_CHARS (x));
else
#endif
if (5 <= scm_verbose && SCM_UNDEFINED != SCM_CDR (arg1))
scm_warn ("redefining ", SCM_CHARS (x));
#endif
SCM_CDR (arg1) = SCM_UNDEFINED;
#ifdef SICP
return SCM_CAR (arg1);
#else
return SCM_UNSPECIFIED;
#endif
}
/* end of acros */
#ifdef __STDC__
SCM
scm_m_letrec (SCM xorig, SCM env)
#else
SCM
scm_m_letrec (xorig, env)
SCM xorig;
SCM env;
#endif
{
SCM cdrx = SCM_CDR (xorig); /* locally mutable version of form */
char *what = SCM_CHARS (SCM_CAR (xorig));
SCM x = cdrx, proc, arg1; /* structure traversers */
SCM vars = SCM_EOL, inits = SCM_EOL, *initloc = &inits;
ASRTSYNTAX (scm_ilength (x) >= 2, s_body);
proc = SCM_CAR (x);
if SCM_NULLP
(proc) return scm_m_letstar (xorig, env); /* null binding, let* faster */
ASRTSYNTAX (scm_ilength (proc) >= 1, s_bindings);
do
{
/* vars scm_list reversed here, inits reversed at evaluation */
arg1 = SCM_CAR (proc);
ASRTSYNTAX (2 == scm_ilength (arg1), s_bindings);
ASRTSYNTAX (SCM_NIMP (SCM_CAR (arg1)) && SCM_SYMBOLP (SCM_CAR (arg1)), s_variable);
vars = scm_cons (SCM_CAR (arg1), vars);
*initloc = scm_cons (SCM_CAR (SCM_CDR (arg1)), SCM_EOL);
initloc = &SCM_CDR (*initloc);
}
while SCM_NIMP
(proc = SCM_CDR (proc));
cdrx = scm_cons2 (vars, inits, SCM_CDR (x));
bodycheck (xorig, &SCM_CDR (SCM_CDR (cdrx)), what);
return scm_cons (SCM_IM_LETREC, cdrx);
}
#ifdef __STDC__
SCM
scm_m_let (SCM xorig, SCM env)
#else
SCM
scm_m_let (xorig, env)
SCM xorig;
SCM env;
#endif
{
SCM cdrx = SCM_CDR (xorig); /* locally mutable version of form */
SCM x = cdrx, proc, arg1, name; /* structure traversers */
SCM vars = SCM_EOL, inits = SCM_EOL, *varloc = &vars, *initloc = &inits;
ASSYNT (scm_ilength (x) >= 2, xorig, s_body, "let");
proc = SCM_CAR (x);
if (SCM_NULLP (proc)
|| (SCM_NIMP (proc) && SCM_CONSP (proc)
&& SCM_NIMP (SCM_CAR (proc)) && SCM_CONSP (SCM_CAR (proc)) && SCM_NULLP (SCM_CDR (proc))))
return scm_m_letstar (xorig, env); /* null or single binding, let* is faster */
ASSYNT (SCM_NIMP (proc), xorig, s_bindings, "let");
if (SCM_CONSP (proc)) /* plain let, proc is <bindings> */
return scm_cons (SCM_IM_LET, SCM_CDR (scm_m_letrec (xorig, env)));
if (!SCM_SYMBOLP (proc))
scm_wta (xorig, s_bindings, "let"); /* bad let */
name = proc; /* named let, build equiv letrec */
x = SCM_CDR (x);
ASSYNT (scm_ilength (x) >= 2, xorig, s_body, "let");
proc = SCM_CAR (x); /* bindings scm_list */
ASSYNT (scm_ilength (proc) >= 0, xorig, s_bindings, "let");
while SCM_NIMP
(proc)
{ /* vars and inits both in order */
arg1 = SCM_CAR (proc);
ASSYNT (2 == scm_ilength (arg1), xorig, s_bindings, "let");
ASSYNT (SCM_NIMP (SCM_CAR (arg1)) && SCM_SYMBOLP (SCM_CAR (arg1)), xorig, s_variable, "let");
*varloc = scm_cons (SCM_CAR (arg1), SCM_EOL);
varloc = &SCM_CDR (*varloc);
*initloc = scm_cons (SCM_CAR (SCM_CDR (arg1)), SCM_EOL);
initloc = &SCM_CDR (*initloc);
proc = SCM_CDR (proc);
}
return
scm_m_letrec (scm_cons2 (scm_i_let,
scm_cons (scm_cons2 (name, scm_cons2 (scm_i_lambda, vars, SCM_CDR (x)), SCM_EOL), SCM_EOL),
scm_acons (name, inits, SCM_EOL)), /* body */
env);
}
#ifdef __STDC__
SCM
scm_m_apply (SCM xorig, SCM env)
#else
SCM
scm_m_apply (xorig, env)
SCM xorig;
SCM env;
#endif
{
ASSYNT (scm_ilength (SCM_CDR (xorig)) == 2, xorig, s_expression, "@apply");
return scm_cons (SCM_IM_APPLY, SCM_CDR (xorig));
}
#define s_atcall_cc (SCM_ISYMSCM_CHARS(SCM_IM_CONT)+1)
#ifdef __STDC__
SCM
scm_m_cont (SCM xorig, SCM env)
#else
SCM
scm_m_cont (xorig, env)
SCM xorig;
SCM env;
#endif
{
ASSYNT (scm_ilength (SCM_CDR (xorig)) == 1, xorig, s_expression, "@call-with-current-continuation");
return scm_cons (SCM_IM_CONT, SCM_CDR (xorig));
}
/* scm_unmemocopy takes a memoized expression together with its
* environment and rewrites it to its original form. Thus, it is the
* inversion of the rewrite rules above. The procedure is not
* optimized for speed. It's used in scm_iprin1 when printing the
* code of a closure, in scm_procedure_source and in scm_expr_stack
* when generating the source for a stackframe.
*/
#ifdef __STDC__
static SCM
unmemocopy (SCM x, SCM env)
#else
static SCM
unmemocopy (x, env)
SCM x;
SCM env;
#endif
{
SCM ls, z;
#ifdef DEBUG_EXTENSIONS
SCM p;
#endif
if (SCM_NCELLP (x) || SCM_NECONSP (x))
return x;
#ifdef DEBUG_EXTENSIONS
p = scm_whash_lookup (scm_source_whash, x);
#endif
switch (SCM_TYP7 (x))
{
case (127 & SCM_IM_AND):
ls = z = scm_cons (scm_i_and, SCM_UNSPECIFIED);
break;
case (127 & SCM_IM_BEGIN):
ls = z = scm_cons (scm_i_begin, SCM_UNSPECIFIED);
break;
case (127 & SCM_IM_CASE):
ls = z = scm_cons (scm_i_case, SCM_UNSPECIFIED);
break;
case (127 & SCM_IM_COND):
ls = z = scm_cons (scm_i_cond, SCM_UNSPECIFIED);
break;
case (127 & SCM_IM_DO):
ls = scm_cons (scm_i_do, SCM_UNSPECIFIED);
goto transform;
case (127 & SCM_IM_IF):
ls = z = scm_cons (scm_i_if, SCM_UNSPECIFIED);
break;
case (127 & SCM_IM_LET):
ls = scm_cons (scm_i_let, SCM_UNSPECIFIED);
goto transform;
case (127 & SCM_IM_LETREC):
{
SCM f, v, e, s;
ls = scm_cons (scm_i_letrec, SCM_UNSPECIFIED);
transform:
x = SCM_CDR (x);
f = v = SCM_CAR (x);
x = SCM_CDR (x);
z = EXTEND_SCM_ENV (f, SCM_EOL, env);
e = scm_reverse (unmemocopy (SCM_CAR (x),
SCM_CAR (ls) == scm_i_letrec ? z : env));
env = z;
s = SCM_CAR (ls) == scm_i_do
? scm_reverse (unmemocopy (SCM_CDR (SCM_CDR (SCM_CDR (x))), env))
: f;
z = SCM_EOL;
do
{
z = scm_acons (SCM_CAR (v),
scm_cons (SCM_CAR (e),
SCM_CAR (s) == SCM_CAR (v)
? SCM_EOL
: scm_cons (SCM_CAR (s), SCM_EOL)),
z);
v = SCM_CDR (v);
e = SCM_CDR (e);
s = SCM_CDR (s);
}
while SCM_NIMP (v);
SCM_CDR (ls) = z = scm_cons (z, SCM_UNSPECIFIED);
if (SCM_CAR (ls) == scm_i_do)
{
x = SCM_CDR (x);
z = (SCM_CDR (z) = scm_cons (unmemocopy (SCM_CAR (x), env),
SCM_UNSPECIFIED));
x = (SCM) (&SCM_CAR (SCM_CDR (x)) - 1);
}
break;
}
case (127 & SCM_IM_LETSTAR):
{
SCM b, y;
x = SCM_CDR (x);
b = SCM_CAR (x);
y = SCM_EOL;
if SCM_IMP (b)
{
env = EXTEND_SCM_ENV (SCM_EOL, SCM_EOL, env);
goto letstar;
}
y = z = scm_acons (SCM_CAR (b),
unmemocar (
scm_cons (unmemocopy (SCM_CAR (SCM_CDR (b)), env), SCM_EOL), env),
SCM_UNSPECIFIED);
env = EXTEND_SCM_ENV (SCM_CAR (b), SCM_BOOL_F, env);
b = SCM_CDR (SCM_CDR (b));
if (SCM_IMP (b))
{
SCM_SETCDR (y, SCM_EOL);
ls = scm_cons (scm_i_let, z = scm_cons (y, SCM_UNSPECIFIED));
break;
}
do
{
z = (SCM_CDR (z) = scm_acons (SCM_CAR (b),
unmemocar (
scm_cons (unmemocopy (SCM_CAR (SCM_CDR (b)), env), SCM_EOL), env),
SCM_UNSPECIFIED));
env = EXTEND_SCM_ENV (SCM_CAR (b), SCM_BOOL_F, env);
b = SCM_CDR (SCM_CDR (b));
}
while SCM_NIMP (b);
SCM_CDR (z) = SCM_EOL;
letstar:
ls = scm_cons (scm_i_letstar, z = scm_cons (y, SCM_UNSPECIFIED));
break;
}
case (127 & SCM_IM_OR):
ls = z = scm_cons (scm_i_or, SCM_UNSPECIFIED);
break;
case (127 & SCM_IM_LAMBDA):
x = SCM_CDR (x);
ls = scm_cons (scm_i_lambda,
z = scm_cons (SCM_CAR (x), SCM_UNSPECIFIED));
env = EXTEND_SCM_ENV (SCM_CAR (x), SCM_EOL, env);
break;
case (127 & SCM_IM_QUOTE):
ls = z = scm_cons (scm_i_quote, SCM_UNSPECIFIED);
break;
case (127 & SCM_IM_SET):
ls = z = scm_cons (scm_i_set, SCM_UNSPECIFIED);
break;
case (127 & SCM_IM_DEFINE):
{
SCM n;
x = SCM_CDR (x);
ls = scm_cons (scm_i_define,
z = scm_cons (n = SCM_CAR (x), SCM_UNSPECIFIED));
if (SCM_NNULLP (env))
SCM_CAR (SCM_CAR (env)) = scm_cons (n, SCM_CAR (SCM_CAR (env)));
break;
}
case (127 & SCM_MAKISYM (0)):
z = SCM_CAR (x);
if (!SCM_ISYMP (z))
goto unmemo;
switch SCM_ISYMNUM (z)
{
case (SCM_ISYMNUM (SCM_IM_APPLY)):
ls = z = scm_cons (scm_i_atapply, SCM_UNSPECIFIED);
goto loop;
case (SCM_ISYMNUM (SCM_IM_CONT)):
ls = z = scm_cons (scm_i_atcall_cc, SCM_UNSPECIFIED);
goto loop;
default:
}
unmemo:
default:
ls = z = unmemocar (scm_cons (unmemocopy (SCM_CAR (x), env),
SCM_UNSPECIFIED),
env);
}
loop:
while (SCM_CELLP (x = SCM_CDR (x)) && SCM_ECONSP (x))
z = (SCM_CDR (z) = unmemocar (scm_cons (unmemocopy (SCM_CAR (x), env),
SCM_UNSPECIFIED),
env));
SCM_CDR (z) = x;
#ifdef DEBUG_EXTENSIONS
if (SCM_NFALSEP (p))
scm_whash_insert (scm_source_whash, ls, p);
#endif
return ls;
}
#ifdef __STDC__
SCM
scm_unmemocopy (SCM x, SCM env)
#else
SCM
scm_unmemocopy (x, env)
SCM x;
SCM env;
#endif
{
if (SCM_NNULLP (env))
/* Make a copy of the lowest frame to protect it from
modifications by SCM_IM_DEFINE */
return unmemocopy (x, scm_cons (SCM_CAR (env), SCM_CDR (env)));
else
return unmemocopy (x, env);
}
#ifndef RECKLESS
#ifdef __STDC__
int
scm_badargsp (SCM formals, SCM args)
#else
int
scm_badargsp (formals, args)
SCM formals;
SCM args;
#endif
{
while SCM_NIMP
(formals)
{
if SCM_NCONSP
(formals) return 0;
if SCM_IMP
(args) return 1;
formals = SCM_CDR (formals);
args = SCM_CDR (args);
}
return SCM_NNULLP (args) ? 1 : 0;
}
#endif
long scm_tc16_macro;
#ifdef __STDC__
SCM
scm_eval_args (SCM l, SCM env)
#else
SCM
scm_eval_args (l, env)
SCM l;
SCM env;
#endif
{
SCM res = SCM_EOL, *lloc = &res;
while (SCM_NIMP (l))
{
*lloc = scm_cons (EVALCAR (l, env), SCM_EOL);
lloc = &SCM_CDR (*lloc);
l = SCM_CDR (l);
}
return res;
}
#endif /* !DEVAL */
/* SECTION: This code is specific for the debugging support. One
* branch is read when DEVAL isn't defined, the other when DEVAL is
* defined.
*/
#ifndef DEVAL
#define SCM_APPLY scm_apply
#define PREP_APPLY(proc, args)
#define ENTER_APPLY
#define RETURN(x) return x;
#ifdef STACK_CHECKING
#ifndef NO_CEVAL_STACK_CHECKING
#define EVAL_STACK_CHECKING
#endif
#endif
#else /* !DEVAL */
#undef SCM_CEVAL
#define SCM_CEVAL scm_deval /* Substitute all uses of scm_ceval */
#undef SCM_APPLY
#define SCM_APPLY scm_dapply
#undef PREP_APPLY
#define PREP_APPLY(p, l) \
{ ++debug.info; debug.info->a.proc = p; debug.info->a.args = l; }
#undef ENTER_APPLY
#define ENTER_APPLY \
{\
SCM_SET_ARGSREADY (debug);\
if (CHECK_APPLY)\
if (SCM_APPLY_FRAME_P || (SCM_TRACE_P && PROCTRACEP (proc)))\
{\
SCM tmp, tail = SCM_TRACED_FRAME_P (debug) ? SCM_BOOL_T : SCM_BOOL_F;\
SCM_SET_TRACED_FRAME (debug);\
if (SCM_CHEAPTRAPS_P)\
{\
tmp = scm_make_debugobj ((scm_debug_frame *) &debug);\
scm_ithrow (scm_i_apply_frame, scm_cons2 (tmp, tail, SCM_EOL), 0);\
}\
else\
{\
scm_make_cont (&tmp);\
if (!setjmp (SCM_JMPBUF (tmp)))\
scm_ithrow (scm_i_apply_frame, scm_cons2 (tmp, tail, SCM_EOL), 0);\
}\
}\
}
#undef RETURN
#define RETURN(e) {proc = (e); goto exit;}
#ifdef STACK_CHECKING
#ifndef EVAL_STACK_CHECKING
#define EVAL_STACK_CHECKING
#endif
#endif
/* scm_ceval_ptr points to the currently selected evaluator.
* *fixme*: Although efficiency is important here, this state variable
* should probably not be a global. It should be related to the
* current repl.
*/
#ifdef __STDC__
SCM (*scm_ceval_ptr) (SCM exp, SCM env);
#else
SCM (*scm_ceval_ptr) ();
#endif
/* last_debug_info_frame contains a pointer to the last debugging
* information stack frame. It is accessed very often from the
* debugging evaluator, so it should probably not be indirectly
* addressed. Better to save and restore it from the current root at
* any stack swaps.
*/
scm_debug_frame *last_debug_info_frame;
/* scm_debug_eframe_size is the number of slots available for pseudo
* stack frames at each real stack frame.
*/
int scm_debug_eframe_size;
int scm_debug_mode, scm_check_entry_p, scm_check_apply_p, scm_check_exit_p;
scm_option scm_debug_opts[] = {
{ SCM_OPTION_BOOLEAN, "cheap", 1,
"*Flyweight representation of the stack at traps." },
{ SCM_OPTION_BOOLEAN, "breakpoints", 0, "*Check for breakpoints." },
{ SCM_OPTION_BOOLEAN, "trace", 0, "*Trace mode." },
{ SCM_OPTION_BOOLEAN, "procnames", 1,
"Record procedure names at definition." },
{ SCM_OPTION_BOOLEAN, "backwards", 0,
"Display backtrace in anti-chronological order." },
{ SCM_OPTION_INTEGER, "frames", 2,
"Maximum number of tail-recursive frames in backtrace." },
{ SCM_OPTION_INTEGER, "depth", 80, "Maximal length of backtrace." },
{ SCM_OPTION_BOOLEAN, "backtrace", 0,
"Show backtrace on error (use debugging evaluator)." },
{ SCM_OPTION_BOOLEAN, "deval", 0, "Use the debugging evaluator." },
{ SCM_OPTION_INTEGER, "stack", 20000, "Stack size limit (0 = no check)." }
};
scm_option scm_evaluator_trap_table[] = {
{ SCM_OPTION_BOOLEAN, "enter-frame", 0, "Trap when eval enters new frame." },
{ SCM_OPTION_BOOLEAN, "apply-frame", 0, "Trap when entering apply." },
{ SCM_OPTION_BOOLEAN, "exit-frame", 0, "Trap when exiting eval or apply." }
};
SCM
scm_deval_args (l, env, lloc)
SCM l, env, *lloc;
{
SCM *res = lloc;
while (SCM_NIMP (l))
{
*lloc = scm_cons (EVALCAR (l, env), SCM_EOL);
lloc = &SCM_CDR (*lloc);
l = SCM_CDR (l);
}
return *res;
}
#endif /* !DEVAL */
/* SECTION: Some local definitions for the evaluator.
*/
#ifndef DEVAL
#ifdef SCM_FLOATS
#define CHECK_EQVISH(A,B) (((A) == (B)) || (SCM_NFALSEP (scm_eqv_p ((A), (B)))))
#else
#define CHECK_EQVISH(A,B) ((A) == (B))
#endif
#endif /* DEVAL */
/* SECTION: This is the evaluator. Like any real monster, it has
* three heads. This code is compiled twice.
*/
#if 0
#ifdef __STDC__
SCM
scm_ceval (SCM x, SCM env)
#else
SCM
scm_ceval (x, env)
SCM x;
SCM env;
#endif
{}
#endif
#if 0
#ifdef __STDC__
SCM
scm_deval (SCM x, SCM env)
#else
SCM
scm_deval (x, env)
SCM x;
SCM env;
#endif
{}
#endif
#ifdef __STDC__
SCM
SCM_CEVAL (SCM x, SCM env)
#else
SCM
SCM_CEVAL (x, env)
SCM x;
SCM env;
#endif
{
union
{
SCM *lloc;
SCM arg1;
} t;
SCM proc, arg2;
#ifdef DEVAL
struct
{
scm_debug_frame *prev;
long status;
scm_debug_info vect[scm_debug_eframe_size];
scm_debug_info *info;
} debug;
debug.prev = last_debug_info_frame;
debug.status = scm_debug_eframe_size;
debug.info = &debug.vect[0];
last_debug_info_frame = (scm_debug_frame *) &debug;
#endif
#ifdef EVAL_STACK_CHECKING
if (SCM_STACK_OVERFLOW_P ((SCM_STACKITEM *) &proc)
&& scm_stack_checking_enabled_p)
{
#ifdef DEVAL
debug.info->e.exp = x;
debug.info->e.env = env;
#endif
scm_report_stack_overflow ();
}
#endif
#ifdef DEVAL
goto start;
#endif
loopnoap:
PREP_APPLY (SCM_UNDEFINED, SCM_EOL);
loop:
#ifdef DEVAL
#if 0 /* This will probably never have any practical use ... */
if (CHECK_EXIT)
{
if (SINGLE_STEP || (SCM_TRACE_P && SCM_TRACED_FRAME_P (debug)))
{
SINGLE_STEP = 0;
SCM_RESET_DEBUG_MODE;
SCM_CLEAR_TRACED_FRAME (debug);
scm_make_cont (&t.arg1);
if (!setjmp (SCM_JMPBUF (t.arg1)))
scm_ithrow (scm_i_exit_tail, scm_cons (t.arg1, SCM_EOL), 0);
}
}
nextframe:
#endif
SCM_CLEAR_ARGSREADY (debug);
if (SCM_OVERFLOWP (debug))
--debug.info;
else if (++debug.info == (scm_debug_info *) &debug.info)
{
SCM_SET_OVERFLOW (debug);
debug.info -= 2;
}
start:
debug.info->e.exp = x;
debug.info->e.env = env;
if (CHECK_ENTRY)
if (SCM_ENTER_FRAME_P || (SCM_BREAKPOINTS_P && SRCBRKP (x)))
{
SCM tail = SCM_TAILRECP (debug) ? SCM_BOOL_T : SCM_BOOL_F;
SCM_SET_TAILREC (debug);
SCM_ENTER_FRAME_P = 0;
SCM_RESET_DEBUG_MODE;
if (SCM_CHEAPTRAPS_P)
t.arg1 = scm_make_debugobj ((scm_debug_frame *) &debug);
else
{
scm_make_cont (&t.arg1);
if (setjmp (SCM_JMPBUF (t.arg1)))
{
x = SCM_THROW_VALUE (t.arg1);
if (SCM_IMP (x))
{
RETURN (x);
}
else
/* This gives the possibility for the debugger to
modify the source expression before evaluation. */
goto dispatch;
}
}
scm_ithrow (scm_i_enter_frame,
scm_cons2 (t.arg1, tail,
scm_cons (scm_unmemocopy (x, env), SCM_EOL)),
0);
}
dispatch:
#endif
SCM_ASYNC_TICK;
switch (SCM_TYP7 (x))
{
case scm_tcs_symbols:
/* Only happens when called at top level.
*/
x = scm_cons (x, SCM_UNDEFINED);
goto retval;
case (127 & SCM_IM_AND):
x = SCM_CDR (x);
t.arg1 = x;
while (SCM_NNULLP (t.arg1 = SCM_CDR (t.arg1)))
if (SCM_FALSEP (EVALCAR (x, env)))
{
RETURN (SCM_BOOL_F);
}
else
x = t.arg1;
PREP_APPLY (SCM_UNDEFINED, SCM_EOL);
goto carloop;
case (127 & SCM_IM_BEGIN):
cdrxnoap:
PREP_APPLY (SCM_UNDEFINED, SCM_EOL);
cdrxbegin:
x = SCM_CDR (x);
begin:
t.arg1 = x;
while (SCM_NNULLP (t.arg1 = SCM_CDR (t.arg1)))
{
SIDEVAL (SCM_CAR (x), env);
x = t.arg1;
}
carloop: /* scm_eval car of last form in list */
if (SCM_NCELLP (SCM_CAR (x)))
{
x = SCM_CAR (x);
RETURN (SCM_IMP (x) ? EVALIM (x, env) : SCM_GLOC_VAL (x))
}
if (SCM_SYMBOLP (SCM_CAR (x)))
{
retval:
RETURN (*scm_lookupcar (x, env))
}
x = SCM_CAR (x);
goto loop; /* tail recurse */
case (127 & SCM_IM_CASE):
x = SCM_CDR (x);
t.arg1 = EVALCAR (x, env);
while (SCM_NIMP (x = SCM_CDR (x)))
{
proc = SCM_CAR (x);
if (scm_i_else == SCM_CAR (proc))
{
x = SCM_CDR (proc);
PREP_APPLY (SCM_UNDEFINED, SCM_EOL);
goto begin;
}
proc = SCM_CAR (proc);
while (SCM_NIMP (proc))
{
if (CHECK_EQVISH (SCM_CAR (proc), t.arg1))
{
x = SCM_CDR (SCM_CAR (x));
PREP_APPLY (SCM_UNDEFINED, SCM_EOL);
goto begin;
}
proc = SCM_CDR (proc);
}
}
RETURN (SCM_UNSPECIFIED)
case (127 & SCM_IM_COND):
while (SCM_NIMP (x = SCM_CDR (x)))
{
proc = SCM_CAR (x);
t.arg1 = EVALCAR (proc, env);
if (SCM_NFALSEP (t.arg1))
{
x = SCM_CDR (proc);
if SCM_NULLP (x)
{
RETURN (t.arg1)
}
if (scm_i_arrow != SCM_CAR (x))
{
PREP_APPLY (SCM_UNDEFINED, SCM_EOL);
goto begin;
}
proc = SCM_CDR (x);
proc = EVALCAR (proc, env);
SCM_ASRTGO (SCM_NIMP (proc), badfun);
PREP_APPLY (proc, scm_cons (t.arg1, SCM_EOL));
ENTER_APPLY;
goto evap1;
}
}
RETURN (SCM_UNSPECIFIED)
case (127 & SCM_IM_DO):
x = SCM_CDR (x);
proc = SCM_CAR (SCM_CDR (x)); /* inits */
t.arg1 = SCM_EOL; /* values */
while (SCM_NIMP (proc))
{
t.arg1 = scm_cons (EVALCAR (proc, env), t.arg1);
proc = SCM_CDR (proc);
}
env = EXTEND_SCM_ENV (SCM_CAR (x), t.arg1, env);
x = SCM_CDR (SCM_CDR (x));
while (proc = SCM_CAR (x), SCM_FALSEP (EVALCAR (proc, env)))
{
for (proc = SCM_CAR (SCM_CDR (x)); SCM_NIMP (proc); proc = SCM_CDR (proc))
{
t.arg1 = SCM_CAR (proc); /* body */
SIDEVAL (t.arg1, env);
}
for (t.arg1 = SCM_EOL, proc = SCM_CDR (SCM_CDR (x)); SCM_NIMP (proc); proc = SCM_CDR (proc))
t.arg1 = scm_cons (EVALCAR (proc, env), t.arg1); /* steps */
env = EXTEND_SCM_ENV (SCM_CAR (SCM_CAR (env)), t.arg1, SCM_CDR (env));
}
x = SCM_CDR (proc);
if (SCM_NULLP (x))
RETURN (SCM_UNSPECIFIED);
PREP_APPLY (SCM_UNDEFINED, SCM_EOL);
goto begin;
case (127 & SCM_IM_IF):
x = SCM_CDR (x);
if (SCM_NFALSEP (EVALCAR (x, env)))
x = SCM_CDR (x);
else if (SCM_IMP (x = SCM_CDR (SCM_CDR (x))))
{
RETURN (SCM_UNSPECIFIED);
}
PREP_APPLY (SCM_UNDEFINED, SCM_EOL);
goto carloop;
case (127 & SCM_IM_LET):
x = SCM_CDR (x);
proc = SCM_CAR (SCM_CDR (x));
t.arg1 = SCM_EOL;
do
{
t.arg1 = scm_cons (EVALCAR (proc, env), t.arg1);
}
while (SCM_NIMP (proc = SCM_CDR (proc)));
env = EXTEND_SCM_ENV (SCM_CAR (x), t.arg1, env);
x = SCM_CDR (x);
goto cdrxnoap;
case (127 & SCM_IM_LETREC):
x = SCM_CDR (x);
env = EXTEND_SCM_ENV (SCM_CAR (x), scm_undefineds, env);
x = SCM_CDR (x);
proc = SCM_CAR (x);
t.arg1 = SCM_EOL;
do
{
t.arg1 = scm_cons (EVALCAR (proc, env), t.arg1);
}
while (SCM_NIMP (proc = SCM_CDR (proc)));
SCM_CDR (SCM_CAR (env)) = t.arg1;
goto cdrxnoap;
case (127 & SCM_IM_LETSTAR):
x = SCM_CDR (x);
proc = SCM_CAR (x);
if (SCM_IMP (proc))
{
env = EXTEND_SCM_ENV (SCM_EOL, SCM_EOL, env);
goto cdrxnoap;
}
do
{
t.arg1 = SCM_CAR (proc);
proc = SCM_CDR (proc);
env = EXTEND_SCM_ENV (t.arg1, EVALCAR (proc, env), env);
}
while (SCM_NIMP (proc = SCM_CDR (proc)));
goto cdrxnoap;
case (127 & SCM_IM_OR):
x = SCM_CDR (x);
t.arg1 = x;
while (SCM_NNULLP (t.arg1 = SCM_CDR (t.arg1)))
{
x = EVALCAR (x, env);
if (SCM_NFALSEP (x))
{
RETURN (x);
}
x = t.arg1;
}
PREP_APPLY (SCM_UNDEFINED, SCM_EOL);
goto carloop;
case (127 & SCM_IM_LAMBDA):
RETURN (scm_closure (SCM_CDR (x), env));
case (127 & SCM_IM_QUOTE):
RETURN (SCM_CAR (SCM_CDR (x)));
case (127 & SCM_IM_SET):
x = SCM_CDR (x);
proc = SCM_CAR (x);
switch (7 & (int) proc)
{
case 0:
t.lloc = scm_lookupcar (x, env);
break;
case 1:
t.lloc = &SCM_GLOC_VAL (proc);
break;
#ifdef MEMOIZE_LOCALS
case 4:
t.lloc = scm_ilookup (proc, env);
break;
#endif
}
x = SCM_CDR (x);
*t.lloc = EVALCAR (x, env);
#ifdef SICP
RETURN (*t.lloc);
#else
RETURN (SCM_UNSPECIFIED);
#endif
case (127 & SCM_IM_DEFINE): /* only for internal defines */
x = SCM_CDR (x);
proc = SCM_CAR (x);
x = SCM_CDR (x);
x = evalcar (x, env);
#ifdef DEBUG_EXTENSIONS
if (SCM_REC_PROCNAMES_P && SCM_NIMP (x) && SCM_CLOSUREP (x))
scm_set_procedure_property_x (x, scm_i_name, proc);
#endif
env = SCM_CAR (env);
SCM_DEFER_INTS;
SCM_CAR (env) = scm_cons (proc, SCM_CAR (env));
SCM_CDR (env) = scm_cons (x, SCM_CDR (env));
SCM_ALLOW_INTS;
RETURN (SCM_UNSPECIFIED);
/* new syntactic forms go here. */
case (127 & SCM_MAKISYM (0)):
proc = SCM_CAR (x);
SCM_ASRTGO (SCM_ISYMP (proc), badfun);
switch SCM_ISYMNUM (proc)
{
#if 0
case (SCM_ISYMNUM (IM_VREF)):
{
SCM var;
var = SCM_CAR (SCM_CDR (x));
RETURN (SCM_CDR(var));
}
case (SCM_ISYMNUM (IM_VSET)):
SCM_CDR (SCM_CAR ( SCM_CDR (x))) = EVALCAR( SCM_CDR ( SCM_CDR (x)), env);
SCM_CAR (SCM_CAR ( SCM_CDR (x))) = scm_tc16_variable;
RETURN (SCM_UNSPECIFIED)
#endif
case (SCM_ISYMNUM (SCM_IM_APPLY)):
proc = SCM_CDR (x);
proc = EVALCAR (proc, env);
SCM_ASRTGO (SCM_NIMP (proc), badfun);
if (SCM_CLOSUREP (proc))
{
PREP_APPLY (proc, SCM_EOL);
t.arg1 = SCM_CDR (SCM_CDR (x));
t.arg1 = EVALCAR (t.arg1, env);
#ifdef DEVAL
debug.info->a.args = t.arg1;
#endif
#ifndef RECKLESS
if (scm_badargsp (SCM_CAR (SCM_CODE (proc)), t.arg1))
goto wrongnumargs;
#endif
env = EXTEND_SCM_ENV (SCM_CAR (SCM_CODE (proc)), t.arg1, SCM_ENV (proc));
x = SCM_CODE (proc);
goto cdrxbegin;
}
proc = scm_i_apply;
goto evapply;
case (SCM_ISYMNUM (SCM_IM_CONT)):
scm_make_cont (&t.arg1);
if (setjmp (SCM_JMPBUF (t.arg1)))
{
SCM val;
val = SCM_THROW_VALUE (t.arg1);
RETURN (val);
}
proc = SCM_CDR (x);
proc = evalcar (proc, env);
SCM_ASRTGO (SCM_NIMP (proc), badfun);
PREP_APPLY (proc, scm_cons (t.arg1, SCM_EOL));
ENTER_APPLY;
goto evap1;
default:
goto badfun;
}
default:
proc = x;
badfun:
scm_everr (x, env, proc, "Wrong type to apply: ", "");
case scm_tc7_vector:
case scm_tc7_wvect:
case scm_tc7_bvect:
case scm_tc7_byvect:
case scm_tc7_svect:
case scm_tc7_ivect:
case scm_tc7_uvect:
case scm_tc7_fvect:
case scm_tc7_dvect:
case scm_tc7_cvect:
#ifdef LONGLONGS
case scm_tc7_llvect:
#endif
case scm_tc7_string:
case scm_tc7_mb_string:
case scm_tc7_substring:
case scm_tc7_mb_substring:
case scm_tc7_smob:
case scm_tcs_closures:
case scm_tcs_subrs:
RETURN (x);
#ifdef MEMOIZE_LOCALS
case (127 & SCM_ILOC00):
proc = *scm_ilookup (SCM_CAR (x), env);
SCM_ASRTGO (SCM_NIMP (proc), badfun);
#ifndef RECKLESS
#ifdef CAUTIOUS
goto checkargs;
#endif
#endif
break;
#endif /* ifdef MEMOIZE_LOCALS */
case scm_tcs_cons_gloc:
proc = SCM_GLOC_VAL (SCM_CAR (x));
SCM_ASRTGO (SCM_NIMP (proc), badfun);
#ifndef RECKLESS
#ifdef CAUTIOUS
goto checkargs;
#endif
#endif
break;
case scm_tcs_cons_nimcar:
if (SCM_SYMBOLP (SCM_CAR (x)))
{
proc = *scm_lookupcar (x, env);
if (SCM_IMP (proc))
{
unmemocar (x, env);
goto badfun;
}
if (scm_tc16_macro == SCM_TYP16 (proc))
{
unmemocar (x, env);
handle_a_macro:
t.arg1 = SCM_APPLY (SCM_CDR (proc), x, scm_cons (env, scm_listofnull));
switch ((int) (SCM_CAR (proc) >> 16))
{
case 2:
if (scm_ilength (t.arg1) <= 0)
t.arg1 = scm_cons2 (SCM_IM_BEGIN, t.arg1, SCM_EOL);
#ifdef DEVAL
if (!SCM_CLOSUREP (SCM_CDR (proc)))
{
#if 0 /* Top-level defines doesn't very often occur in backtraces */
if (scm_m_define == SCM_SUBRF (SCM_CDR (proc)) && SCM_TOP_LEVEL (env))
/* Prevent memoizing result of define macro */
{
debug.info->e.exp = scm_cons (SCM_CAR (x), SCM_CDR (x));
scm_set_source_properties_x (debug.info->e.exp,
scm_source_properties (x));
}
#endif
SCM_DEFER_INTS;
SCM_CAR (x) = SCM_CAR (t.arg1);
SCM_CDR (x) = SCM_CDR (t.arg1);
SCM_ALLOW_INTS;
goto dispatch;
}
/* Prevent memoizing of debug info expression. */
debug.info->e.exp = scm_cons (SCM_CAR (x), SCM_CDR (x));
scm_set_source_properties_x (debug.info->e.exp,
scm_source_properties (x));
#endif
SCM_DEFER_INTS;
SCM_CAR (x) = SCM_CAR (t.arg1);
SCM_CDR (x) = SCM_CDR (t.arg1);
SCM_ALLOW_INTS;
goto loopnoap;
case 1:
if (SCM_NIMP (x = t.arg1))
goto loopnoap;
case 0:
RETURN (t.arg1);
}
}
}
else
proc = SCM_CEVAL (SCM_CAR (x), env);
SCM_ASRTGO (SCM_NIMP (proc), badfun);
#ifndef RECKLESS
#ifdef CAUTIOUS
checkargs:
#endif
if (SCM_CLOSUREP (proc))
{
arg2 = SCM_CAR (SCM_CODE (proc));
t.arg1 = SCM_CDR (x);
while (SCM_NIMP (arg2))
{
if (SCM_NCONSP (arg2))
goto evapply;
if (SCM_IMP (t.arg1))
goto umwrongnumargs;
arg2 = SCM_CDR (arg2);
t.arg1 = SCM_CDR (t.arg1);
}
if (SCM_NNULLP (t.arg1))
goto umwrongnumargs;
}
else if (scm_tc16_macro == SCM_TYP16 (proc))
goto handle_a_macro;
#endif
}
evapply:
PREP_APPLY (proc, SCM_EOL);
if (SCM_NULLP (SCM_CDR (x))) {
ENTER_APPLY;
switch (SCM_TYP7 (proc))
{ /* no arguments given */
case scm_tc7_subr_0:
RETURN (SCM_SUBRF (proc) ());
case scm_tc7_subr_1o:
RETURN (SCM_SUBRF (proc) (SCM_UNDEFINED));
case scm_tc7_lsubr:
RETURN (SCM_SUBRF (proc) (SCM_EOL));
case scm_tc7_rpsubr:
RETURN (SCM_BOOL_T);
case scm_tc7_asubr:
RETURN (SCM_SUBRF (proc) (SCM_UNDEFINED, SCM_UNDEFINED));
#ifdef CCLO
case scm_tc7_cclo:
t.arg1 = proc;
proc = SCM_CCLO_SUBR (proc);
#ifdef DEVAL
debug.info->a.proc = proc;
debug.info->a.args = scm_cons (t.arg1, SCM_EOL);
#endif
goto evap1;
#endif
case scm_tcs_closures:
x = SCM_CODE (proc);
env = EXTEND_SCM_ENV (SCM_CAR (x), SCM_EOL, SCM_ENV (proc));
goto cdrxbegin;
case scm_tc7_contin:
case scm_tc7_subr_1:
case scm_tc7_subr_2:
case scm_tc7_subr_2o:
case scm_tc7_cxr:
case scm_tc7_subr_3:
case scm_tc7_lsubr_2:
umwrongnumargs:
unmemocar (x, env);
wrongnumargs:
scm_everr (x, env, proc, (char *) SCM_WNA, "");
default:
/* handle macros here */
goto badfun;
}
}
/* must handle macros by here */
x = SCM_CDR (x);
#ifdef CAUTIOUS
if (SCM_IMP (x))
goto wrongnumargs;
#endif
t.arg1 = EVALCAR (x, env);
#ifdef DEVAL
debug.info->a.args = scm_cons (t.arg1, SCM_EOL);
#endif
x = SCM_CDR (x);
if (SCM_NULLP (x))
{
ENTER_APPLY;
evap1:
switch (SCM_TYP7 (proc))
{ /* have one argument in t.arg1 */
case scm_tc7_subr_2o:
RETURN (SCM_SUBRF (proc) (t.arg1, SCM_UNDEFINED));
case scm_tc7_subr_1:
case scm_tc7_subr_1o:
RETURN (SCM_SUBRF (proc) (t.arg1));
case scm_tc7_cxr:
#ifdef SCM_FLOATS
if (SCM_SUBRF (proc))
{
if (SCM_INUMP (t.arg1))
{
RETURN (scm_makdbl (SCM_DSUBRF (proc) ((double) SCM_INUM (t.arg1)),
0.0));
}
SCM_ASRTGO (SCM_NIMP (t.arg1), floerr);
if (SCM_REALP (t.arg1))
{
RETURN (scm_makdbl (SCM_DSUBRF (proc) (SCM_REALPART (t.arg1)), 0.0));
}
#ifdef SCM_BIGDIG
if (SCM_BIGP (t.arg1))
{
RETURN (scm_makdbl (SCM_DSUBRF (proc) (scm_big2dbl (t.arg1)), 0.0));
}
#endif
floerr:
scm_wta (t.arg1, (char *) SCM_ARG1, SCM_CHARS (SCM_SNAME (proc)));
}
#endif
proc = (SCM) SCM_SNAME (proc);
{
char *chrs = SCM_CHARS (proc) + SCM_LENGTH (proc) - 1;
while ('c' != *--chrs)
{
SCM_ASSERT (SCM_NIMP (t.arg1) && SCM_CONSP (t.arg1),
t.arg1, SCM_ARG1, SCM_CHARS (proc));
t.arg1 = ('a' == *chrs) ? SCM_CAR (t.arg1) : SCM_CDR (t.arg1);
}
RETURN (t.arg1);
}
case scm_tc7_rpsubr:
RETURN (SCM_BOOL_T);
case scm_tc7_asubr:
RETURN (SCM_SUBRF (proc) (t.arg1, SCM_UNDEFINED));
case scm_tc7_lsubr:
#ifdef DEVAL
RETURN (SCM_SUBRF (proc) (debug.info->a.args))
#else
RETURN (SCM_SUBRF (proc) (scm_cons (t.arg1, SCM_EOL)));
#endif
#ifdef CCLO
case scm_tc7_cclo:
arg2 = t.arg1;
t.arg1 = proc;
proc = SCM_CCLO_SUBR (proc);
#ifdef DEVAL
debug.info->a.args = scm_cons (t.arg1, debug.info->a.args);
debug.info->a.proc = proc;
#endif
goto evap2;
#endif
case scm_tcs_closures:
x = SCM_CODE (proc);
#ifdef DEVAL
env = EXTEND_SCM_ENV (SCM_CAR (x), debug.info->a.args, SCM_ENV (proc));
#else
env = EXTEND_SCM_ENV (SCM_CAR (x), scm_cons (t.arg1, SCM_EOL), SCM_ENV (proc));
#endif
goto cdrxbegin;
case scm_tc7_contin:
scm_call_continuation (proc, t.arg1);
case scm_tc7_subr_2:
case scm_tc7_subr_0:
case scm_tc7_subr_3:
case scm_tc7_lsubr_2:
goto wrongnumargs;
default:
goto badfun;
}
}
#ifdef CAUTIOUS
if (SCM_IMP (x))
goto wrongnumargs;
#endif
{ /* have two or more arguments */
arg2 = EVALCAR (x, env);
#ifdef DEVAL
debug.info->a.args = scm_cons2 (t.arg1, arg2, SCM_EOL);
#endif
x = SCM_CDR (x);
if (SCM_NULLP (x)) {
ENTER_APPLY;
#ifdef CCLO
evap2:
#endif
switch (SCM_TYP7 (proc))
{ /* have two arguments */
case scm_tc7_subr_2:
case scm_tc7_subr_2o:
RETURN (SCM_SUBRF (proc) (t.arg1, arg2));
case scm_tc7_lsubr:
#ifdef DEVAL
RETURN (SCM_SUBRF (proc) (debug.info->a.args))
#else
RETURN (SCM_SUBRF (proc) (scm_cons2 (t.arg1, arg2, SCM_EOL)));
#endif
case scm_tc7_lsubr_2:
RETURN (SCM_SUBRF (proc) (t.arg1, arg2, SCM_EOL));
case scm_tc7_rpsubr:
case scm_tc7_asubr:
RETURN (SCM_SUBRF (proc) (t.arg1, arg2));
#ifdef CCLO
cclon:
case scm_tc7_cclo:
#ifdef DEVAL
RETURN (SCM_APPLY (SCM_CCLO_SUBR (proc), proc,
scm_cons (debug.info->a.args, SCM_EOL)));
#else
RETURN (SCM_APPLY (SCM_CCLO_SUBR (proc), proc,
scm_cons2 (t.arg1, arg2,
scm_cons (scm_eval_args (x, env), SCM_EOL))));
#endif
/* case scm_tc7_cclo:
x = scm_cons(arg2, scm_eval_args(x, env));
arg2 = t.arg1;
t.arg1 = proc;
proc = SCM_CCLO_SUBR(proc);
goto evap3; */
#endif
case scm_tc7_subr_0:
case scm_tc7_cxr:
case scm_tc7_subr_1o:
case scm_tc7_subr_1:
case scm_tc7_subr_3:
case scm_tc7_contin:
goto wrongnumargs;
default:
goto badfun;
case scm_tcs_closures:
#ifdef DEVAL
env = EXTEND_SCM_ENV (SCM_CAR (SCM_CODE (proc)), debug.info->a.args, SCM_ENV (proc));
#else
env = EXTEND_SCM_ENV (SCM_CAR (SCM_CODE (proc)), scm_cons2 (t.arg1, arg2, SCM_EOL), SCM_ENV (proc));
#endif
x = SCM_CODE (proc);
goto cdrxbegin;
}
}
#ifdef DEVAL
debug.info->a.args = scm_cons2 (t.arg1, arg2,
scm_deval_args (x, env, &SCM_CDR (SCM_CDR (debug.info->a.args))));
#endif
ENTER_APPLY;
switch (SCM_TYP7 (proc))
{ /* have 3 or more arguments */
#ifdef DEVAL
case scm_tc7_subr_3:
SCM_ASRTGO (SCM_NULLP (SCM_CDR (x)), wrongnumargs);
RETURN (SCM_SUBRF (proc) (t.arg1, arg2, SCM_CAR (SCM_CDR (SCM_CDR (debug.info->a.args)))));
case scm_tc7_asubr:
/* t.arg1 = SCM_SUBRF(proc)(t.arg1, arg2);
while SCM_NIMP(x) {
t.arg1 = SCM_SUBRF(proc)(t.arg1, EVALCAR(x, env));
x = SCM_CDR(x);
}
RETURN (t.arg1) */
case scm_tc7_rpsubr:
RETURN (SCM_APPLY (proc, t.arg1, scm_acons (arg2, SCM_CDR (SCM_CDR (debug.info->a.args)), SCM_EOL)))
case scm_tc7_lsubr_2:
RETURN (SCM_SUBRF (proc) (t.arg1, arg2, SCM_CDR (SCM_CDR (debug.info->a.args))))
case scm_tc7_lsubr:
RETURN (SCM_SUBRF (proc) (debug.info->a.args))
#ifdef CCLO
case scm_tc7_cclo:
goto cclon;
#endif
case scm_tcs_closures:
SCM_SET_ARGSREADY (debug);
env = EXTEND_SCM_ENV (SCM_CAR (SCM_CODE (proc)),
debug.info->a.args,
SCM_ENV (proc));
x = SCM_CODE (proc);
goto cdrxbegin;
#else /* DEVAL */
case scm_tc7_subr_3:
SCM_ASRTGO (SCM_NULLP (SCM_CDR (x)), wrongnumargs);
RETURN (SCM_SUBRF (proc) (t.arg1, arg2, EVALCAR (x, env)));
case scm_tc7_asubr:
/* t.arg1 = SCM_SUBRF(proc)(t.arg1, arg2);
while SCM_NIMP(x) {
t.arg1 = SCM_SUBRF(proc)(t.arg1, EVALCAR(x, env));
x = SCM_CDR(x);
}
RETURN (t.arg1) */
case scm_tc7_rpsubr:
RETURN (SCM_APPLY (proc, t.arg1, scm_acons (arg2, scm_eval_args (x, env), SCM_EOL)));
case scm_tc7_lsubr_2:
RETURN (SCM_SUBRF (proc) (t.arg1, arg2, scm_eval_args (x, env)));
case scm_tc7_lsubr:
RETURN (SCM_SUBRF (proc) (scm_cons2 (t.arg1, arg2, scm_eval_args (x, env))));
#ifdef CCLO
case scm_tc7_cclo:
goto cclon;
#endif
case scm_tcs_closures:
#ifdef DEVAL
SCM_SET_ARGSREADY (debug);
#endif
env = EXTEND_SCM_ENV (SCM_CAR (SCM_CODE (proc)),
scm_cons2 (t.arg1, arg2, scm_eval_args (x, env)),
SCM_ENV (proc));
x = SCM_CODE (proc);
goto cdrxbegin;
#endif /* DEVAL */
case scm_tc7_subr_2:
case scm_tc7_subr_1o:
case scm_tc7_subr_2o:
case scm_tc7_subr_0:
case scm_tc7_cxr:
case scm_tc7_subr_1:
case scm_tc7_contin:
goto wrongnumargs;
default:
goto badfun;
}
}
#ifdef DEVAL
exit:
if (CHECK_EXIT)
if (SCM_EXIT_FRAME_P || (SCM_TRACE_P && SCM_TRACED_FRAME_P (debug)))
{
SCM_EXIT_FRAME_P = 0;
SCM_RESET_DEBUG_MODE;
SCM_CLEAR_TRACED_FRAME (debug);
if (SCM_CHEAPTRAPS_P)
t.arg1 = scm_make_debugobj ((scm_debug_frame *) &debug);
else
{
scm_make_cont (&t.arg1);
if (setjmp (SCM_JMPBUF (t.arg1)))
{
proc = SCM_THROW_VALUE (t.arg1);
goto ret;
}
}
scm_ithrow (scm_i_exit_frame, scm_cons2 (t.arg1, proc, SCM_EOL), 0);
}
ret:
last_debug_info_frame = debug.prev;
return proc;
#endif
}
/* SECTION: This code is compiled once.
*/
#ifndef DEVAL
SCM_PROC(s_procedure_documentation, "procedure-documentation", 1, 0, 0, scm_procedure_documentation);
#ifdef __STDC__
SCM
scm_procedure_documentation (SCM proc)
#else
SCM
scm_procedure_documentation (proc)
SCM proc;
#endif
{
SCM code;
SCM_ASSERT (SCM_BOOL_T == scm_procedure_p (proc) && SCM_NIMP (proc) && SCM_TYP7 (proc) != scm_tc7_contin,
proc, SCM_ARG1, s_procedure_documentation);
switch (SCM_TYP7 (proc))
{
case scm_tcs_closures:
code = SCM_CDR (SCM_CODE (proc));
if (SCM_IMP (SCM_CDR (code)))
return SCM_BOOL_F;
code = SCM_CAR (code);
if (SCM_IMP (code))
return SCM_BOOL_F;
if (SCM_STRINGP (code))
return code;
default:
return SCM_BOOL_F;
/*
case scm_tcs_subrs:
#ifdef CCLO
case scm_tc7_cclo:
#endif
*/
}
}
/* This code is for scm_apply. it is destructive on multiple args.
* This will only screw you if you do (scm_apply scm_apply '( ... ))
*/
SCM_PROC(s_nconc2last, "apply:nconc2last", 1, 0, 0, scm_nconc2last);
#ifdef __STDC__
SCM
scm_nconc2last (SCM lst)
#else
SCM
scm_nconc2last (lst)
SCM lst;
#endif
{
SCM *lloc;
if (SCM_EOL == lst)
return lst;
SCM_ASSERT (SCM_NIMP (lst) && SCM_CONSP (lst), lst, SCM_ARG1, s_nconc2last);
lloc = &lst;
while (SCM_NNULLP (SCM_CDR (*lloc)))
{
lloc = &SCM_CDR (*lloc);
SCM_ASSERT (SCM_NIMP (*lloc) && SCM_CONSP (*lloc), lst, SCM_ARG1, s_nconc2last);
}
*lloc = SCM_CAR (*lloc);
return lst;
}
#endif /* !DEVAL */
/* SECTION: When DEVAL is defined this code yields scm_dapply.
* It is compiled twice.
*/
#if 0
#ifdef __STDC__
SCM
scm_apply (SCM proc, SCM arg1, SCM args)
#else
SCM
scm_apply (proc, arg1, args)
SCM proc;
SCM arg1;
SCM args;
#endif
{}
#endif
#if 0
#ifdef __STDC__
SCM
scm_dapply (SCM proc, SCM arg1, SCM args)
#else
SCM
scm_dapply (proc, arg1, args)
SCM proc;
SCM arg1;
SCM args;
#endif
{}
#endif
#ifdef __STDC__
SCM
SCM_APPLY (SCM proc, SCM arg1, SCM args)
#else
SCM
SCM_APPLY (proc, arg1, args)
SCM proc;
SCM arg1;
SCM args;
#endif
{
#ifdef DEBUG_EXTENSIONS
#ifdef DEVAL
scm_debug_frame debug;
debug.prev = last_debug_info_frame;
debug.status = SCM_APPLYFRAME;
debug.vect[0].a.proc = proc;
debug.vect[0].a.args = SCM_EOL;
last_debug_info_frame = &debug;
#else
if (SCM_DEBUGGINGP)
return scm_dapply (proc, arg1, args);
#endif
#endif
SCM_ASRTGO (SCM_NIMP (proc), badproc);
if (SCM_NULLP (args))
{
if (SCM_NULLP (arg1))
arg1 = SCM_UNDEFINED;
else
{
args = SCM_CDR (arg1);
arg1 = SCM_CAR (arg1);
}
}
else
{
/* SCM_ASRTGO(SCM_NIMP(args) && SCM_CONSP(args), wrongnumargs); */
args = scm_nconc2last (args);
}
#ifdef DEVAL
debug.vect[0].a.args = scm_cons (arg1, args);
if (SCM_ENTER_FRAME_P)
{
SCM tmp;
SCM_ENTER_FRAME_P = 0;
SCM_RESET_DEBUG_MODE;
if (SCM_CHEAPTRAPS_P)
tmp = scm_make_debugobj ((scm_debug_frame *) &debug);
else
{
scm_make_cont (&tmp);
if (setjmp (SCM_JMPBUF (tmp)))
goto entap;
}
scm_ithrow (scm_i_enter_frame, scm_cons (tmp, SCM_EOL), 0);
}
entap:
ENTER_APPLY;
#endif
#ifdef CCLO
tail:
#endif
switch (SCM_TYP7 (proc))
{
case scm_tc7_subr_2o:
args = SCM_NULLP (args) ? SCM_UNDEFINED : SCM_CAR (args);
RETURN (SCM_SUBRF (proc) (arg1, args))
case scm_tc7_subr_2:
SCM_ASRTGO (SCM_NULLP (SCM_CDR (args)), wrongnumargs);
args = SCM_CAR (args);
RETURN (SCM_SUBRF (proc) (arg1, args))
case scm_tc7_subr_0:
SCM_ASRTGO (SCM_UNBNDP (arg1), wrongnumargs);
RETURN (SCM_SUBRF (proc) ())
case scm_tc7_subr_1:
case scm_tc7_subr_1o:
SCM_ASRTGO (SCM_NULLP (args), wrongnumargs);
RETURN (SCM_SUBRF (proc) (arg1))
case scm_tc7_cxr:
SCM_ASRTGO (SCM_NULLP (args), wrongnumargs);
#ifdef SCM_FLOATS
if (SCM_SUBRF (proc))
{
if (SCM_INUMP (arg1))
{
RETURN (scm_makdbl (SCM_DSUBRF (proc) ((double) SCM_INUM (arg1)), 0.0));
}
SCM_ASRTGO (SCM_NIMP (arg1), floerr);
if (SCM_REALP (arg1))
{
RETURN (scm_makdbl (SCM_DSUBRF (proc) (SCM_REALPART (arg1)), 0.0));
}
#ifdef SCM_BIGDIG
if SCM_BIGP
(arg1)
RETURN (scm_makdbl (SCM_DSUBRF (proc) (scm_big2dbl (arg1)), 0.0))
#endif
floerr:
scm_wta (arg1, (char *) SCM_ARG1, SCM_CHARS (SCM_SNAME (proc)));
}
#endif
proc = (SCM) SCM_SNAME (proc);
{
char *chrs = SCM_CHARS (proc) + SCM_LENGTH (proc) - 1;
while ('c' != *--chrs)
{
SCM_ASSERT (SCM_NIMP (arg1) && SCM_CONSP (arg1),
arg1, SCM_ARG1, SCM_CHARS (proc));
arg1 = ('a' == *chrs) ? SCM_CAR (arg1) : SCM_CDR (arg1);
}
RETURN (arg1)
}
case scm_tc7_subr_3:
RETURN (SCM_SUBRF (proc) (arg1, SCM_CAR (args), SCM_CAR (SCM_CDR (args))))
case scm_tc7_lsubr:
#ifdef DEVAL
RETURN (SCM_SUBRF (proc) (SCM_UNBNDP (arg1) ? SCM_EOL : debug.vect[0].a.args))
#else
RETURN (SCM_SUBRF (proc) (SCM_UNBNDP (arg1) ? SCM_EOL : scm_cons (arg1, args)))
#endif
case scm_tc7_lsubr_2:
SCM_ASRTGO (SCM_NIMP (args) && SCM_CONSP (args), wrongnumargs);
RETURN (SCM_SUBRF (proc) (arg1, SCM_CAR (args), SCM_CDR (args)))
case scm_tc7_asubr:
if (SCM_NULLP (args))
RETURN (SCM_SUBRF (proc) (arg1, SCM_UNDEFINED))
while (SCM_NIMP (args))
{
SCM_ASSERT (SCM_CONSP (args), args, SCM_ARG2, "apply");
arg1 = SCM_SUBRF (proc) (arg1, SCM_CAR (args));
args = SCM_CDR (args);
}
RETURN (arg1);
case scm_tc7_rpsubr:
if (SCM_NULLP (args))
RETURN (SCM_BOOL_T);
while (SCM_NIMP (args))
{
SCM_ASSERT (SCM_CONSP (args), args, SCM_ARG2, "apply");
if (SCM_FALSEP (SCM_SUBRF (proc) (arg1, SCM_CAR (args))))
RETURN (SCM_BOOL_F);
arg1 = SCM_CAR (args);
args = SCM_CDR (args);
}
RETURN (SCM_BOOL_T);
case scm_tcs_closures:
#ifdef DEVAL
arg1 = (SCM_UNBNDP (arg1) ? SCM_EOL : debug.vect[0].a.args);
#else
arg1 = (SCM_UNBNDP (arg1) ? SCM_EOL : scm_cons (arg1, args));
#endif
#ifndef RECKLESS
if (scm_badargsp (SCM_CAR (SCM_CODE (proc)), arg1))
goto wrongnumargs;
#endif
args = EXTEND_SCM_ENV (SCM_CAR (SCM_CODE (proc)), arg1, SCM_ENV (proc));
proc = SCM_CODE (proc);
while (SCM_NNULLP (proc = SCM_CDR (proc)))
arg1 = EVALCAR (proc, args);
RETURN (arg1);
case scm_tc7_contin:
SCM_ASRTGO (SCM_NULLP (args), wrongnumargs);
scm_call_continuation (proc, arg1);
#ifdef CCLO
case scm_tc7_cclo:
#ifdef DEVAL
args = (SCM_UNBNDP(arg1) ? SCM_EOL : debug.vect[0].a.args);
arg1 = proc;
proc = SCM_CCLO_SUBR (proc);
debug.vect[0].a.proc = proc;
debug.vect[0].a.args = scm_cons (arg1, args);
#else
args = (SCM_UNBNDP(arg1) ? SCM_EOL : scm_cons (arg1, args));
arg1 = proc;
proc = SCM_CCLO_SUBR (proc);
#endif
goto tail;
#endif
wrongnumargs:
scm_wta (proc, (char *) SCM_WNA, "apply");
default:
badproc:
scm_wta (proc, (char *) SCM_ARG1, "apply");
RETURN (arg1);
}
#ifdef DEVAL
exit:
if (CHECK_EXIT)
if (SCM_EXIT_FRAME_P || (SCM_TRACE_P && SCM_TRACED_FRAME_P (debug)))
{
SCM_EXIT_FRAME_P = 0;
SCM_RESET_DEBUG_MODE;
SCM_CLEAR_TRACED_FRAME (debug);
if (SCM_CHEAPTRAPS_P)
arg1 = scm_make_debugobj ((scm_debug_frame *) &debug);
else
{
scm_make_cont (&arg1);
if (setjmp (SCM_JMPBUF (arg1)))
{
proc = SCM_THROW_VALUE (arg1);
goto ret;
}
}
scm_ithrow (scm_i_exit_frame, scm_cons2 (arg1, proc, SCM_EOL), 0);
}
ret:
last_debug_info_frame = debug.prev;
return proc;
#endif
}
/* SECTION: The rest of this file is only read once.
*/
#ifndef DEVAL
SCM_PROC(s_map, "map", 2, 0, 1, scm_map);
#ifdef __STDC__
SCM
scm_map (SCM proc, SCM arg1, SCM args)
#else
SCM
scm_map (proc, arg1, args)
SCM proc;
SCM arg1;
SCM args;
#endif
{
long i;
SCM res = SCM_EOL;
SCM *pres = &res;
SCM *ve = &args; /* Keep args from being optimized away. */
if (SCM_NULLP (arg1))
return res;
SCM_ASSERT (SCM_NIMP (arg1), arg1, SCM_ARG2, s_map);
if (SCM_NULLP (args))
{
while (SCM_NIMP (arg1))
{
SCM_ASSERT (SCM_CONSP (arg1), arg1, SCM_ARG2, s_map);
*pres = scm_cons (scm_apply (proc, SCM_CAR (arg1), scm_listofnull), SCM_EOL);
pres = &SCM_CDR (*pres);
arg1 = SCM_CDR (arg1);
}
return res;
}
args = scm_vector (scm_cons (arg1, args));
ve = SCM_VELTS (args);
#ifndef RECKLESS
for (i = SCM_LENGTH (args) - 1; i >= 0; i--)
SCM_ASSERT (SCM_NIMP (ve[i]) && SCM_CONSP (ve[i]), args, SCM_ARG2, s_map);
#endif
while (1)
{
arg1 = SCM_EOL;
for (i = SCM_LENGTH (args) - 1; i >= 0; i--)
{
if SCM_IMP
(ve[i]) return res;
arg1 = scm_cons (SCM_CAR (ve[i]), arg1);
ve[i] = SCM_CDR (ve[i]);
}
*pres = scm_cons (scm_apply (proc, arg1, SCM_EOL), SCM_EOL);
pres = &SCM_CDR (*pres);
}
}
SCM_PROC(s_for_each, "for-each", 2, 0, 1, scm_for_each);
#ifdef __STDC__
SCM
scm_for_each (SCM proc, SCM arg1, SCM args)
#else
SCM
scm_for_each (proc, arg1, args)
SCM proc;
SCM arg1;
SCM args;
#endif
{
SCM *ve = &args; /* Keep args from being optimized away. */
long i;
if SCM_NULLP (arg1)
return SCM_UNSPECIFIED;
SCM_ASSERT (SCM_NIMP (arg1), arg1, SCM_ARG2, s_for_each);
if SCM_NULLP (args)
{
while SCM_NIMP (arg1)
{
SCM_ASSERT (SCM_CONSP (arg1), arg1, SCM_ARG2, s_for_each);
scm_apply (proc, SCM_CAR (arg1), scm_listofnull);
arg1 = SCM_CDR (arg1);
}
return SCM_UNSPECIFIED;
}
args = scm_vector (scm_cons (arg1, args));
ve = SCM_VELTS (args);
#ifndef RECKLESS
for (i = SCM_LENGTH (args) - 1; i >= 0; i--)
SCM_ASSERT (SCM_NIMP (ve[i]) && SCM_CONSP (ve[i]), args, SCM_ARG2, s_for_each);
#endif
while (1)
{
arg1 = SCM_EOL;
for (i = SCM_LENGTH (args) - 1; i >= 0; i--)
{
if SCM_IMP
(ve[i]) return SCM_UNSPECIFIED;
arg1 = scm_cons (SCM_CAR (ve[i]), arg1);
ve[i] = SCM_CDR (ve[i]);
}
scm_apply (proc, arg1, SCM_EOL);
}
}
#ifdef __STDC__
SCM
scm_closure (SCM code, SCM env)
#else
SCM
scm_closure (code, env)
SCM code;
SCM env;
#endif
{
register SCM z;
SCM_NEWCELL (z);
SCM_SETCODE (z, code);
SCM_ENV (z) = env;
return z;
}
long scm_tc16_promise;
#ifdef __STDC__
SCM
scm_makprom (SCM code)
#else
SCM
scm_makprom (code)
SCM code;
#endif
{
register SCM z;
SCM_NEWCELL (z);
SCM_CDR (z) = code;
SCM_CAR (z) = scm_tc16_promise;
return z;
}
#ifdef __STDC__
static int
prinprom (SCM exp, SCM port, int writing)
#else
static int
prinprom (exp, port, writing)
SCM exp;
SCM port;
int writing;
#endif
{
scm_gen_puts (scm_regular_string, "#<promise ", port);
scm_iprin1 (SCM_CDR (exp), port, writing);
scm_gen_putc ('>', port);
return !0;
}
SCM_PROC(s_makacro, "procedure->syntax", 1, 0, 0, scm_makacro);
#ifdef __STDC__
SCM
scm_makacro (SCM code)
#else
SCM
scm_makacro (code)
SCM code;
#endif
{
register SCM z;
SCM_NEWCELL (z);
SCM_CDR (z) = code;
SCM_CAR (z) = scm_tc16_macro;
return z;
}
SCM_PROC(s_makmacro, "procedure->macro", 1, 0, 0, scm_makmacro);
#ifdef __STDC__
SCM
scm_makmacro (SCM code)
#else
SCM
scm_makmacro (code)
SCM code;
#endif
{
register SCM z;
SCM_NEWCELL (z);
SCM_CDR (z) = code;
SCM_CAR (z) = scm_tc16_macro | (1L << 16);
return z;
}
SCM_PROC(s_makmmacro, "procedure->memoizing-macro", 1, 0, 0, scm_makmmacro);
#ifdef __STDC__
SCM
scm_makmmacro (SCM code)
#else
SCM
scm_makmmacro (code)
SCM code;
#endif
{
register SCM z;
SCM_NEWCELL (z);
SCM_CDR (z) = code;
SCM_CAR (z) = scm_tc16_macro | (2L << 16);
return z;
}
#ifdef __STDC__
static int
prinmacro (SCM exp, SCM port, int writing)
#else
static int
prinmacro (exp, port, writing)
SCM exp;
SCM port;
int writing;
#endif
{
if (SCM_CAR (exp) & (3L << 16))
scm_gen_puts (scm_regular_string, "#<macro", port);
else
scm_gen_puts (scm_regular_string, "#<syntax", port);
if (SCM_CAR (exp) & (2L << 16))
scm_gen_putc ('!', port);
scm_gen_putc (' ', port);
scm_iprin1 (SCM_CDR (exp), port, writing);
scm_gen_putc ('>', port);
return !0;
}
SCM_PROC(s_force, "force", 1, 0, 0, scm_force);
#ifdef __STDC__
SCM
scm_force (SCM x)
#else
SCM
scm_force (x)
SCM x;
#endif
{
SCM_ASSERT ((SCM_TYP16 (x) == scm_tc16_promise), x, SCM_ARG1, s_force);
if (!((1L << 16) & SCM_CAR (x)))
{
SCM ans = scm_apply (SCM_CDR (x), SCM_EOL, SCM_EOL);
if (!((1L << 16) & SCM_CAR (x)))
{
SCM_DEFER_INTS;
SCM_CDR (x) = ans;
SCM_CAR (x) |= (1L << 16);
SCM_ALLOW_INTS;
}
}
return SCM_CDR (x);
}
SCM_PROC (s_promise_p, "promise?", 1, 0, 0, scm_promise_p);
#ifdef __STDC__
SCM
scm_promise_p (SCM x)
#else
SCM
scm_promise_p (x)
SCM x;
#endif
{
return ((SCM_NIMP (x) && (SCM_TYP16 (x) == scm_tc16_promise))
? SCM_BOOL_T
: SCM_BOOL_F);
}
SCM_PROC(s_copy_tree, "copy-tree", 1, 0, 0, scm_copy_tree);
#ifdef __STDC__
SCM
scm_copy_tree (SCM obj)
#else
SCM
scm_copy_tree (obj)
SCM obj;
#endif
{
SCM ans, tl;
if SCM_IMP
(obj) return obj;
if (SCM_VECTORP (obj))
{
scm_sizet i = SCM_LENGTH (obj);
ans = scm_make_vector (SCM_MAKINUM (i), SCM_UNSPECIFIED, SCM_UNDEFINED);
while (i--)
SCM_VELTS (ans)[i] = scm_copy_tree (SCM_VELTS (obj)[i]);
return ans;
}
if SCM_NCONSP (obj)
return obj;
/* return scm_cons(scm_copy_tree(SCM_CAR(obj)), scm_copy_tree(SCM_CDR(obj))); */
ans = tl = scm_cons (scm_copy_tree (SCM_CAR (obj)), SCM_UNSPECIFIED);
while (SCM_NIMP (obj = SCM_CDR (obj)) && SCM_CONSP (obj))
tl = (SCM_CDR (tl) = scm_cons (scm_copy_tree (SCM_CAR (obj)), SCM_UNSPECIFIED));
SCM_CDR (tl) = obj;
return ans;
}
#ifdef __STDC__
SCM
scm_eval_3 (SCM obj, int copyp, SCM env)
#else
SCM
scm_eval_3 (obj, copyp, env)
SCM obj;
int copyp;
SCM env;
#endif
{
if (SCM_NIMP (SCM_CDR (scm_system_transformer)))
obj = scm_apply (SCM_CDR (scm_system_transformer), obj, scm_listofnull);
else if (copyp)
obj = scm_copy_tree (obj);
return XEVAL (obj, env);
}
#ifdef __STDC__
SCM
scm_top_level_env (SCM thunk)
#else
SCM
scm_top_level_env (thunk)
SCM thunk;
#endif
{
if (SCM_IMP(thunk))
return SCM_EOL;
else
return scm_cons(thunk, (SCM)SCM_EOL);
}
SCM_PROC(s_eval2, "eval2", 2, 0, 0, scm_eval2);
#ifdef __STDC__
SCM
scm_eval2 (SCM obj, SCM env_thunk)
#else
SCM
scm_eval2 (obj, env_thunk)
SCM obj;
SCM env_thunk;
#endif
{
return scm_eval_3 (obj, 1, scm_top_level_env(env_thunk));
}
SCM_PROC(s_eval, "eval", 1, 0, 0, scm_eval);
#ifdef __STDC__
SCM
scm_eval (SCM obj)
#else
SCM
scm_eval (obj)
SCM obj;
#endif
{
return
scm_eval_3(obj, 1, scm_top_level_env(SCM_CDR(scm_top_level_lookup_thunk_var)));
}
SCM_PROC(s_eval_x, "eval!", 1, 0, 0, scm_eval_x);
#ifdef __STDC__
SCM
scm_eval_x (SCM obj)
#else
SCM
scm_eval_x (obj)
SCM obj;
#endif
{
return
scm_eval_3(obj,
0,
scm_top_level_env (SCM_CDR (scm_top_level_lookup_thunk_var)));
}
SCM_PROC (s_macro_eval_x, "macro-eval!", 2, 0, 0, scm_macro_eval_x);
#ifdef __STDC__
SCM
scm_macro_eval_x (SCM exp, SCM env)
#else
SCM
scm_macro_eval_x (exp, env)
SCM exp;
SCM env;
#endif
{
return scm_eval_3 (exp, 0, env);
}
#ifdef __STDC__
SCM
scm_definedp (SCM x, SCM env)
#else
SCM
scm_definedp (x, env)
SCM x;
SCM env;
#endif
{
SCM proc = SCM_CAR (x = SCM_CDR (x));
if (SCM_ISYMP (proc))
return SCM_BOOL_T;
else if(SCM_IMP(proc) || !SCM_SYMBOLP(proc))
return SCM_BOOL_F;
else
{
SCM vcell = scm_sym2vcell(proc, env_top_level(env), SCM_BOOL_F);
return (vcell == SCM_BOOL_F || SCM_UNBNDP(SCM_CDR(vcell))) ? SCM_BOOL_F : SCM_BOOL_T;
}
}
static scm_smobfuns promsmob =
{scm_markcdr, scm_free0, prinprom};
static scm_smobfuns macrosmob =
{scm_markcdr, scm_free0, prinmacro};
#ifdef __STDC__
SCM
scm_make_synt (char *name, SCM (*macroizer) (), SCM (*fcn) ())
#else
SCM
scm_make_synt (name, macroizer, fcn)
char *name;
SCM (*macroizer) ();
SCM (*fcn) ();
#endif
{
SCM symcell = scm_sysintern (name, SCM_UNDEFINED);
long tmp = ((((SCM_CELLPTR) (SCM_CAR (symcell))) - scm_heap_org) << 8);
register SCM z;
if ((tmp >> 8) != ((SCM_CELLPTR) (SCM_CAR (symcell)) - scm_heap_org))
tmp = 0;
SCM_NEWCELL (z);
SCM_SUBRF (z) = fcn;
SCM_CAR (z) = tmp + scm_tc7_subr_2;
SCM_CDR (symcell) = macroizer (z);
return SCM_CAR (symcell);
}
/* At this point, scm_deval and scm_dapply are generated.
*/
#ifdef DEBUG_EXTENSIONS
# define DEVAL
# include "eval.c"
#endif
#ifdef __STDC__
void
scm_init_eval (void)
#else
void
scm_init_eval ()
#endif
{
scm_tc16_promise = scm_newsmob (&promsmob);
scm_tc16_macro = scm_newsmob (&macrosmob);
scm_i_apply = scm_make_subr ("apply", scm_tc7_lsubr_2, scm_apply);
scm_system_transformer = scm_sysintern ("scm:eval-transformer", SCM_UNDEFINED);
scm_i_dot = SCM_CAR (scm_sysintern (".", SCM_UNDEFINED));
scm_i_arrow = SCM_CAR (scm_sysintern ("=>", SCM_UNDEFINED));
scm_i_else = SCM_CAR (scm_sysintern ("else", SCM_UNDEFINED));
scm_i_unquote = SCM_CAR (scm_sysintern ("unquote", SCM_UNDEFINED));
scm_i_uq_splicing = SCM_CAR (scm_sysintern ("unquote-splicing", SCM_UNDEFINED));
/* acros */
scm_i_quasiquote = scm_make_synt (s_quasiquote, scm_makacro, scm_m_quasiquote);
scm_make_synt (s_undefine, scm_makacro, scm_m_undefine);
scm_make_synt (s_delay, scm_makacro, scm_m_delay);
/* end of acros */
scm_top_level_lookup_thunk_var =
scm_sysintern("*top-level-lookup-thunk*", SCM_BOOL_F);
scm_i_and = scm_make_synt ("and", scm_makmmacro, scm_m_and);
scm_i_begin = scm_make_synt ("begin", scm_makmmacro, scm_m_begin);
scm_i_case = scm_make_synt ("case", scm_makmmacro, scm_m_case);
scm_i_cond = scm_make_synt ("cond", scm_makmmacro, scm_m_cond);
scm_i_define = scm_make_synt ("define", scm_makmmacro, scm_m_define);
scm_i_do = scm_make_synt ("do", scm_makmmacro, scm_m_do);
scm_i_if = scm_make_synt ("if", scm_makmmacro, scm_m_if);
scm_i_lambda = scm_make_synt ("lambda", scm_makmmacro, scm_m_lambda);
scm_i_let = scm_make_synt ("let", scm_makmmacro, scm_m_let);
scm_i_letrec = scm_make_synt ("letrec", scm_makmmacro, scm_m_letrec);
scm_i_letstar = scm_make_synt ("let*", scm_makmmacro, scm_m_letstar);
scm_i_or = scm_make_synt ("or", scm_makmmacro, scm_m_or);
scm_i_quote = scm_make_synt ("quote", scm_makmmacro, scm_m_quote);
scm_i_set = scm_make_synt ("set!", scm_makmmacro, scm_m_set);
scm_i_atapply = scm_make_synt ("@apply", scm_makmmacro, scm_m_apply);
scm_i_atcall_cc = scm_make_synt ("@call-with-current-continuation",
scm_makmmacro, scm_m_cont);
scm_make_synt ("defined?", scm_makmmacro, scm_definedp);
scm_i_name = SCM_CAR (scm_sysintern ("name", SCM_UNDEFINED));
scm_permanent_object (scm_i_name);
#ifdef DEBUG_EXTENSIONS
scm_i_enter_frame = SCM_CAR (scm_sysintern ("enter-frame", SCM_UNDEFINED));
scm_i_apply_frame = SCM_CAR (scm_sysintern ("apply-frame", SCM_UNDEFINED));
scm_i_exit_frame = SCM_CAR (scm_sysintern ("exit-frame", SCM_UNDEFINED));
scm_i_trace = SCM_CAR (scm_sysintern ("trace", SCM_UNDEFINED));
#endif
#include "eval.x"
}
#endif /* !DEVAL */
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