mes/scaffold/cons-mes.c
Jan Nieuwenhuizen 4e12e14b85 mescc: Refactor libc.
* GNUmakefile (mini-mes): Add include.
* mlibc.c: New file: libc bits for GNUC -nostdlib.
* mstart.c: New file: _start for GNUC -nostdlib.
* scaffold/cons-mes.c: Remove GNUC libc bits.
* scaffold/m.c: Likewise.
* scaffold/mini-mes.c: Likewise.
* scaffold/t.c: Likewise.
* scaffold/tiny-mes.c: Litkewise.
* module/language/c99/compiler.mes (libc, i386:libc): Remove.
* module/language/c99/compiler.scm
* module/mes/libc-i386.mes: Remove assembly bits.
  (_start): New function.
* module/mes/libc-i386.scm: Export it, remove assembly exports.
* module/mes/as-i386.mes: New file: assembly bits from libc-i386.mes.
* module/mes/as-i386.scm: New file: export them.
* module/mes/libc.mes (libc,_start): New functions from compiler.mes.
* module/mes/libc.scm: Export them.
2017-04-02 12:29:09 +02:00

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/* -*-comment-start: "//";comment-end:""-*-
* Mes --- Maxwell Equations of Software
* Copyright © 2016,2017 Jan Nieuwenhuizen <janneke@gnu.org>
*
* This file is part of Mes.
*
* Mes is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3 of the License, or (at
* your option) any later version.
*
* Mes 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 Mes. If not, see <http://www.gnu.org/licenses/>.
*/
#if __GNUC__
#include "mlibc.c"
#endif
#define assert(x) ((x) ? (void)0 : assert_fail (#x))
#define MES_MINI 1
#define FIXED_PRIMITIVES 0
#if __GNUC__
#define FIXME_NYACC 1
#define __NYACC__ 0
#define NYACC_CAR
#define NYACC_CDR
#else
#define __NYACC__ 1
#define NYACC_CAR nyacc_car
#define NYACC_CDR nyacc_cdr
#endif
char arena[2000];
//char buf0[400];
typedef int SCM;
#if __GNUC__
int g_debug = 0;
#endif
int g_free = 0;
SCM g_symbols = 0;
SCM g_stack = 0;
// a/env
SCM r0 = 0;
// param 1
SCM r1 = 0;
// save 2+load/dump
SCM r2 = 0;
// continuation
SCM r3 = 0;
#if __NYACC__ || FIXME_NYACC
enum type_t {CHAR, CLOSURE, CONTINUATION, TFUNCTION, KEYWORD, MACRO, NUMBER, PAIR, REF, SPECIAL, TSTRING, SYMBOL, VALUES, TVECTOR, BROKEN_HEART};
#else
enum type_t {CHAR, CLOSURE, CONTINUATION, FUNCTION, KEYWORD, MACRO, NUMBER, PAIR, REF, SPECIAL, STRING, SYMBOL, VALUES, VECTOR, BROKEN_HEART};
#endif
struct scm {
enum type_t type;
SCM car;
SCM cdr;
};
typedef int (*f_t) (void);
struct function {
int (*function) (void);
int arity;
char *name;
};
struct scm *g_cells = arena;
#define cell_nil 1
#define cell_f 2
#define cell_t 3
#define cell_dot 4
// #define cell_arrow 5
#define cell_undefined 6
#define cell_unspecified 7
#define cell_closure 8
#define cell_circular 9
#define cell_begin 10
#define cell_symbol_dot 11
#define cell_symbol_lambda 12
#define cell_symbol_begin 13
#define cell_symbol_if 14
#define cell_symbol_quote 15
#define cell_symbol_set_x 16
#define cell_vm_apply 45
#define cell_vm_apply2 46
#define cell_vm_eval 47
#define cell_vm_begin 56
//#define cell_vm_begin_read_input_file 57
#define cell_vm_begin2 58
#define cell_vm_return 63
SCM tmp;
SCM tmp_num;
SCM tmp_num2;
int ARENA_SIZE = 200;
struct function g_functions[5];
int g_function = 0;
SCM make_cell (SCM type, SCM car, SCM cdr);
struct function fun_make_cell = {&make_cell,3,"make-cell"};
struct scm scm_make_cell = {TFUNCTION,0,0};
//, "make-cell", 0};
SCM cell_make_cell;
SCM cons (SCM x, SCM y);
struct function fun_cons = {&cons,2,"cons"};
struct scm scm_cons = {TFUNCTION,0,0};
// "cons", 0};
SCM cell_cons;
SCM car (SCM x);
struct function fun_car = {&car,1,"car"};
struct scm scm_car = {TFUNCTION,0,0};
// "car", 0};
SCM cell_car;
SCM cdr (SCM x);
struct function fun_cdr = {&cdr,1,"cdr"};
struct scm scm_cdr = {TFUNCTION,0,0};
// "cdr", 0};
SCM cell_cdr;
// SCM eq_p (SCM x, SCM y);
// struct function fun_eq_p = {&eq_p,2,"eq?"};
// scm scm_eq_p = {TFUNCTION,0,0};
// SCM cell_eq_p;
#define TYPE(x) (g_cells[x].type)
#define CAR(x) g_cells[x].car
#define LENGTH(x) g_cells[x].car
#define STRING(x) g_cells[x].car
#define CDR(x) g_cells[x].cdr
#if __GNUC__
//#define CLOSURE(x) g_cells[x].closure
#endif
#define CONTINUATION(x) g_cells[x].cdr
#if __GNUC__
//#define FUNCTION(x) g_functions[g_cells[x].function]
#endif
#define FUNCTION(x) g_functions[g_cells[x].cdr]
#define VALUE(x) g_cells[x].cdr
#define VECTOR(x) g_cells[x].cdr
#define MAKE_CHAR(n) make_cell (tmp_num_ (CHAR), 0, tmp_num2_ (n))
//#define MAKE_CONTINUATION(n) make_cell (tmp_num_ (CONTINUATION), n, g_stack)
#define MAKE_NUMBER(n) make_cell (tmp_num_ (NUMBER), 0, tmp_num2_ (n))
//#define MAKE_REF(n) make_cell (tmp_num_ (REF), n, 0)
#define CAAR(x) CAR (CAR (x))
// #define CDAR(x) CDR (CAR (x))
#define CADAR(x) CAR (CDR (CAR (x)))
// #define CADDR(x) CAR (CDR (CDR (x)))
// #define CDDDR(x) CDR (CDR (CDR (x)))
#define CDADAR(x) CAR (CDR (CAR (CDR (x))))
#define CADR(x) CAR (CDR (x))
#if __NYACC__ || FIXME_NYACC
#define MAKE_STRING(x) make_cell (tmp_num_ (TSTRING), x, 0)
// #else
// #define MAKE_STRING(x) make_cell (tmp_num_ (STRING), x, 0)
#endif
SCM
alloc (int n)
{
assert (g_free + n < ARENA_SIZE);
SCM x = g_free;
g_free += n;
return x;
}
SCM
make_cell (SCM type, SCM car, SCM cdr)
{
SCM x = alloc (1);
assert (TYPE (type) == NUMBER);
TYPE (x) = VALUE (type);
if (VALUE (type) == CHAR || VALUE (type) == NUMBER) {
if (car) CAR (x) = CAR (car);
if (cdr) CDR(x) = CDR(cdr);
}
else if (VALUE (type) == TFUNCTION) {
if (car) CAR (x) = car;
if (cdr) CDR(x) = CDR(cdr);
}
else {
CAR (x) = car;
CDR(x) = cdr;
}
return x;
}
SCM
tmp_num_ (int x)
{
VALUE (tmp_num) = x;
return tmp_num;
}
SCM
tmp_num2_ (int x)
{
VALUE (tmp_num2) = x;
return tmp_num2;
}
SCM
cons (SCM x, SCM y)
{
#if 0
puts ("cons x=");
puts (itoa (x));
puts ("\n");
#endif
VALUE (tmp_num) = PAIR;
return make_cell (tmp_num, x, y);
}
SCM
car (SCM x)
{
#if 0
puts ("car x=");
puts (itoa (x));
puts ("\n");
#endif
#if MES_MINI
//Nyacc
//assert ("!car");
#else
if (TYPE (x) != PAIR) error (cell_symbol_not_a_pair, cons (x, cell_symbol_car));
#endif
return CAR (x);
}
SCM
cdr (SCM x)
{
#if 0
puts ("cdr x=");
puts (itoa (x));
puts ("\n");
#endif
#if MES_MINI
//Nyacc
//assert ("!cdr");
#else
if (TYPE (x) != PAIR) error (cell_symbol_not_a_pair, cons (x, cell_symbol_cdr));
#endif
return CDR(x);
}
SCM
gc_push_frame ()
{
SCM frame = cons (r1, cons (r2, cons (r3, cons (r0, cell_nil))));
g_stack = cons (frame, g_stack);
return g_stack;
}
SCM
append2 (SCM x, SCM y)
{
if (x == cell_nil) return y;
#if __GNUC__
//FIXME GNUC
assert (TYPE (x) == PAIR);
#endif
return cons (car (x), append2 (cdr (x), y));
}
SCM
pairlis (SCM x, SCM y, SCM a)
{
if (x == cell_nil)
return a;
if (TYPE (x) != PAIR)
return cons (cons (x, y), a);
return cons (cons (car (x), car (y)),
pairlis (cdr (x), cdr (y), a));
}
SCM
assq (SCM x, SCM a)
{
//while (a != cell_nil && eq_p (x, CAAR (a)) == cell_f) a = CDR (a);
while (a != cell_nil && x == CAAR (a)) a = CDR (a);
return a != cell_nil ? car (a) : cell_f;
}
SCM
push_cc (SCM p1, SCM p2, SCM a, SCM c) ///((internal))
{
puts ("push cc\n");
SCM x = r3;
r3 = c;
r2 = p2;
gc_push_frame ();
r1 = p1;
r0 = a;
r3 = x;
return cell_unspecified;
}
SCM caar (SCM x) {return car (car (x));}
SCM cadr (SCM x) {return car (cdr (x));}
SCM cdar (SCM x) {return cdr (car (x));}
SCM cddr (SCM x) {return cdr (cdr (x));}
#if __GNUC__
//FIXME
SCM call (SCM,SCM);
SCM gc_pop_frame ();
#endif
SCM
eval_apply ()
{
eval_apply:
// if (g_free + GC_SAFETY > ARENA_SIZE)
// gc_pop_frame (gc (gc_push_frame ()));
switch (r3)
{
case cell_vm_apply: {goto apply;}
case cell_unspecified: {return r1;}
}
SCM x = cell_nil;
SCM y = cell_nil;
apply:
switch (TYPE (car (r1)))
{
case TFUNCTION: {
puts ("apply.function\n");
//check_formals (car (r1), MAKE_NUMBER (FUNCTION (car (r1)).arity), cdr (r1));
r1 = call (car (r1), cdr (r1));
goto vm_return;
}
}
vm_return:
x = r1;
gc_pop_frame ();
r1 = x;
goto eval_apply;
}
SCM
call (SCM fn, SCM x)
{
puts ("call\n");
if ((FUNCTION (fn).arity > 0 || FUNCTION (fn).arity == -1)
&& x != cell_nil && TYPE (CAR (x)) == VALUES)
x = cons (CADAR (x), CDR (x));
if ((FUNCTION (fn).arity > 1 || FUNCTION (fn).arity == -1)
&& x != cell_nil && TYPE (CDR (x)) == PAIR && TYPE (CADR (x)) == VALUES)
x = cons (CAR (x), cons (CDADAR (x), CDR (x)));
switch (FUNCTION (fn).arity)
{
// case 0: return FUNCTION (fn).function0 ();
// case 1: return FUNCTION (fn).function1 (car (x));
// case 2: return FUNCTION (fn).function2 (car (x), cadr (x));
// case 3: return FUNCTION (fn).function3 (car (x), cadr (x), car (cddr (x)));
// case -1: return FUNCTION (fn).functionn (x);
case 0: {return (FUNCTION (fn).function) ();}
case 1: {return ((SCM(*)(SCM))(FUNCTION (fn).function)) (car (x));}
case 2: {return ((SCM(*)(SCM,SCM))(FUNCTION (fn).function)) (car (x), cadr (x));}
case 3: {return ((SCM(*)(SCM,SCM,SCM))(FUNCTION (fn).function)) (car (x), cadr (x), car (cddr (x)));}
#if __GNUC__
// FIXME GNUC
case -1: {return ((SCM(*)(SCM))(FUNCTION (fn).function)) (x);}
#endif
default: {return ((SCM(*)(SCM))(FUNCTION (fn).function)) (x);}
}
return cell_unspecified;
}
SCM
gc_peek_frame ()
{
SCM frame = car (g_stack);
r1 = car (frame);
#if __GNUC__
r2 = cadr (frame);
r3 = car (cddr (frame));
r0 = cadr (cddr (frame));
#else
r2 = cdr (frame);
r2 = car (r2);
r3 = cdr (frame);
r3 = cdr (r3);
r3 = car (r3);
r0 = cdr (frame);
r0 = cdr (r0);
r0 = cdr (r0);
r0 = cdr (r0);
r0 = car (r0);
#endif
return frame;
}
SCM
gc_pop_frame ()
{
SCM frame = gc_peek_frame (g_stack);
g_stack = cdr (g_stack);
return frame;
}
SCM
mes_g_stack (SCM a) ///((internal))
{
r0 = a;
r1 = MAKE_CHAR (0);
r2 = MAKE_CHAR (0);
r3 = MAKE_CHAR (0);
g_stack = cons (cell_nil, cell_nil);
return r0;
}
// Environment setup
SCM
make_tmps (struct scm* cells)
{
tmp = g_free++;
cells[tmp].type = CHAR;
tmp_num = g_free++;
cells[tmp_num].type = NUMBER;
tmp_num2 = g_free++;
cells[tmp_num2].type = NUMBER;
return 0;
}
SCM
make_symbol_ (SCM s)
{
VALUE (tmp_num) = SYMBOL;
SCM x = make_cell (tmp_num, s, 0);
g_symbols = cons (x, g_symbols);
return x;
}
SCM
make_symbol (SCM s)
{
#if MES_MINI
SCM x = 0;
#else
SCM x = lookup_symbol_ (s);
#endif
return x ? x : make_symbol_ (s);
}
SCM
acons (SCM key, SCM value, SCM alist)
{
return cons (cons (key, value), alist);
}
// Jam Collector
SCM g_symbol_max;
SCM
gc_init_cells ()
{
return 0;
}
// INIT NEWS
SCM
mes_symbols () ///((internal))
{
gc_init_cells ();
// gc_init_news ();
#if __GNUC__ && 0
//#include "mes.symbols.i"
#else
g_free++;
// g_cells[cell_nil] = scm_nil;
g_free++;
// g_cells[cell_f] = scm_f;
g_free++;
// g_cells[cell_t] = scm_t;
g_free++;
// g_cells[cell_dot] = scm_dot;
g_free++;
// g_cells[cell_arrow] = scm_arrow;
g_free++;
// g_cells[cell_undefined] = scm_undefined;
g_free++;
// g_cells[cell_unspecified] = scm_unspecified;
g_free++;
// g_cells[cell_closure] = scm_closure;
g_free++;
// g_cells[cell_circular] = scm_circular;
g_free++;
// g_cells[cell_begin] = scm_begin;
///
g_free = 44;
g_free++;
// g_cells[cell_vm_apply] = scm_vm_apply;
g_free++;
// g_cells[cell_vm_apply2] = scm_vm_apply2;
g_free++;
// g_cells[cell_vm_eval] = scm_vm_eval;
///
g_free = 55;
g_free++;
// g_cells[cell_vm_begin] = scm_vm_begin;
g_free++;
// g_cells[cell_vm_begin_read_input_file] = scm_vm_begin_read_input_file;
g_free++;
// g_cells[cell_vm_begin2] = scm_vm_begin2;
///
g_free = 62;
g_free++;
// g_cells[cell_vm_return] = scm_vm_return;
#endif
g_symbol_max = g_free;
make_tmps (g_cells);
g_symbols = 0;
for (int i=1; i<g_symbol_max; i++)
g_symbols = cons (i, g_symbols);
SCM a = cell_nil;
a = acons (cell_symbol_dot, cell_dot, a);
a = acons (cell_symbol_begin, cell_begin, a);
a = acons (cell_closure, a, a);
return a;
}
SCM
make_closure (SCM args, SCM body, SCM a)
{
return make_cell (tmp_num_ (CLOSURE), cell_f, cons (cons (cell_circular, a), cons (args, body)));
}
SCM
mes_environment () ///((internal))
{
SCM a = 0;
a = mes_symbols ();
a = mes_g_stack (a);
return a;
}
SCM
mes_builtins (SCM a)
{
#if 0
//__GNUC__
//#include "mes.i"
// #include "lib.i"
// #include "math.i"
// #include "posix.i"
// #include "reader.i"
// #include "lib.environment.i"
// #include "math.environment.i"
// #include "mes.environment.i"
// #include "posix.environment.i"
// #include "reader.environment.i"
#else
scm_make_cell.cdr = g_function;
g_functions[g_function++] = fun_make_cell;
cell_make_cell = g_free++;
g_cells[cell_make_cell] = scm_make_cell;
scm_cons.cdr = g_function;
g_functions[g_function++] = fun_cons;
cell_cons = g_free++;
g_cells[cell_cons] = scm_cons;
scm_car.cdr = g_function;
g_functions[g_function++] = fun_car;
cell_car = g_free++;
g_cells[cell_car] = scm_car;
scm_cdr.cdr = g_function;
g_functions[g_function++] = fun_cdr;
cell_cdr = g_free++;
g_cells[cell_cdr] = scm_cdr;
#endif
return a;
}
SCM
bload_env (SCM a) ///((internal))
{
g_stdin = open ("module/mes/read-0.mo", 0);
#if __GNUC__
//FIXME GNUC
//g_stdin = g_stdin ? g_stdin : fopen (PREFIX "module/mes/read-0.mo", "r");
#endif
char *p = (char*)g_cells;
assert (getchar () == 'M');
assert (getchar () == 'E');
assert (getchar () == 'S');
g_stack = getchar () << 8;
g_stack += getchar ();
int c = getchar ();
while (c != EOF)
{
*p++ = c;
c = getchar ();
}
g_free = (p-(char*)g_cells) / sizeof (struct scm);
gc_peek_frame ();
g_symbols = r1;
g_stdin = STDIN;
r0 = mes_builtins (r0);
return r2;
}
SCM
fill ()
{
TYPE (0) = 0x6c6c6168;
CAR (0) = 0x6a746f6f;
CDR (0) = 0x00002165;
TYPE (1) = SYMBOL;
CAR (1) = 0x2d2d2d2d;
CDR (1) = 0x3e3e3e3e;
TYPE (9) = 0x2d2d2d2d;
CAR (9) = 0x2d2d2d2d;
CDR (9) = 0x3e3e3e3e;
// (cons 0 1)
TYPE (10) = PAIR;
CAR (10) = 11;
CDR (10) = 12;
TYPE (11) = TFUNCTION;
CAR (11) = 0x58585858;
// 0 = make_cell
// 1 = cons
// 2 = car
CDR (11) = 1;
TYPE (12) = PAIR;
CAR (12) = 13;
//CDR (12) = 1;
CDR (12) = 14;
TYPE (13) = NUMBER;
CAR (13) = 0x58585858;
CDR (13) = 0;
TYPE (14) = PAIR;
CAR (14) = 15;
CDR (14) = 1;
TYPE (15) = NUMBER;
CAR (15) = 0x58585858;
CDR (15) = 1;
return 0;
}
SCM
display_ (SCM x)
{
//puts ("<display>\n");
switch (TYPE (x))
{
case CHAR:
{
//puts ("<char>\n");
puts ("#\\");
putchar (VALUE (x));
break;
}
case TFUNCTION:
{
//puts ("<function>\n");
if (VALUE (x) == 0)
puts ("make-cell");
if (VALUE (x) == 1)
puts ("cons");
if (VALUE (x) == 2)
puts ("car");
if (VALUE (x) == 3)
puts ("cdr");
break;
}
case NUMBER:
{
//puts ("<number>\n");
#if __GNUC__
puts (itoa (VALUE (x)));
#else
int i;
i = VALUE (x);
i = i + 48;
putchar (i);
#endif
break;
}
case PAIR:
{
//puts ("<pair>\n");
//if (cont != cell_f) puts "(");
puts ("(");
if (x && x != cell_nil) display_ (CAR (x));
if (CDR (x) && CDR (x) != cell_nil)
{
#if __GNUC__
if (TYPE (CDR (x)) != PAIR)
puts (" . ");
#else
int c;
c = CDR (x);
c = TYPE (c);
if (c != PAIR)
puts (" . ");
#endif
display_ (CDR (x));
}
//if (cont != cell_f) puts (")");
puts (")");
break;
}
case SPECIAL:
{
switch (x)
{
case 1: {puts ("()"); break;}
case 2: {puts ("#f"); break;}
case 3: {puts ("#t"); break;}
default:
{
#if __GNUC__
puts ("<x:");
puts (itoa (x));
puts (">");
#else
puts ("<x>");
#endif
}
}
break;
}
case SYMBOL:
{
switch (x)
{
case 11: {puts (" . "); break;}
case 12: {puts ("lambda"); break;}
case 13: {puts ("begin"); break;}
case 14: {puts ("if"); break;}
case 15: {puts ("quote"); break;}
case 37: {puts ("car"); break;}
case 38: {puts ("cdr"); break;}
case 39: {puts ("null?"); break;}
case 40: {puts ("eq?"); break;}
case 41: {puts ("cons"); break;}
default:
{
#if __GNUC__
puts ("<s:");
puts (itoa (x));
puts (">");
#else
puts ("<s>");
#endif
}
}
break;
}
default:
{
//puts ("<default>\n");
#if __GNUC__
puts ("<");
puts (itoa (TYPE (x)));
puts (":");
puts (itoa (x));
puts (">");
#else
puts ("_");
#endif
break;
}
}
return 0;
}
SCM
simple_bload_env (SCM a) ///((internal))
{
puts ("reading: ");
char *mo = "module/mes/hack-32.mo";
puts (mo);
puts ("\n");
g_stdin = open (mo, 0);
if (g_stdin < 0) {eputs ("no such file: module/mes/read-0-32.mo\n");return 1;}
char *p = (char*)g_cells;
int c;
#if 0
//__GNUC__
puts ("fd: ");
puts (itoa (g_stdin));
puts ("\n");
#endif
assert (getchar () == 'M');
assert (getchar () == 'E');
assert (getchar () == 'S');
puts (" *GOT MES*\n");
g_stack = getchar () << 8;
g_stack += getchar ();
#if __GNUC__
puts ("stack: ");
puts (itoa (g_stack));
puts ("\n");
#endif
c = getchar ();
while (c != -1)
{
*p++ = c;
c = getchar ();
putchar (c);
}
puts ("read done\n");
g_free = (p-(char*)g_cells) / sizeof (struct scm);
if (g_free != 15) exit (33);
#if 0
gc_peek_frame ();
g_symbols = r1;
#else
g_symbols = 1;
#endif
g_stdin = STDIN;
r0 = mes_builtins (r0);
if (g_free != 19) exit (34);
#if __GNUC__
puts ("cells read: ");
puts (itoa (g_free));
puts ("\n");
puts ("symbols: ");
puts (itoa (g_symbols));
puts ("\n");
// display_ (g_symbols);
// puts ("\n");
#endif
display_ (10);
puts ("\n");
fill ();
r2 = 10;
if (TYPE (12) != PAIR)
exit (33);
puts ("program[");
#if __GNUC__
puts (itoa (r2));
#endif
puts ("]: ");
display_ (r2);
//display_ (14);
puts ("\n");
r0 = 1;
//r2 = 10;
return r2;
}
char string_to_cstring_buf[1024];
char const*
string_to_cstring (SCM s)
{
//static char buf[1024];
//char *p = buf;
char *p = string_to_cstring_buf;
s = STRING(s);
while (s != cell_nil)
{
*p++ = VALUE (car (s));
s = cdr (s);
}
*p = 0;
//return buf;
return string_to_cstring_buf;
}
SCM
stderr_ (SCM x)
{
//SCM write;
#if __NYACC__ || FIXME_NYACC
if (TYPE (x) == TSTRING)
// #else
// if (TYPE (x) == STRING)
#endif
eputs (string_to_cstring (x));
// else if ((write = assq_ref_env (cell_symbol_write, r0)) != cell_undefined)
// apply (assq_ref_env (cell_symbol_display, r0), cons (x, cons (MAKE_NUMBER (2), cell_nil)), r0);
#if __NYACC__ || FIXME_NYACC
else if (TYPE (x) == SPECIAL || TYPE (x) == TSTRING || TYPE (x) == SYMBOL)
// #else
// else if (TYPE (x) == SPECIAL || TYPE (x) == STRING || TYPE (x) == SYMBOL)
#endif
eputs (string_to_cstring (x));
else if (TYPE (x) == NUMBER)
eputs (itoa (VALUE (x)));
else
eputs ("display: undefined\n");
return cell_unspecified;
}
int
main (int argc, char *argv[])
{
puts ("Hello cons-mes!\n");
if (argc > 1 && !strcmp (argv[1], "--help")) return eputs ("Usage: mes [--dump|--load] < FILE");
#if __GNUC__
if (argc > 1 && !strcmp (argv[1], "--version")) {eputs ("Mes ");return eputs (VERSION);};
#else
if (argc > 1 && !strcmp (argv[1], "--version")) {eputs ("Mes ");return eputs ("0.4");};
#endif
g_stdin = STDIN;
r0 = mes_environment ();
#if MES_MINI
SCM program = simple_bload_env (r0);
#else
SCM program = (argc > 1 && !strcmp (argv[1], "--load"))
? bload_env (r0) : load_env (r0);
if (argc > 1 && !strcmp (argv[1], "--dump")) return dump ();
#endif
#if __GNUC__
puts ("g_free=");
puts (itoa(g_free));
puts ("\n");
#endif
push_cc (r2, cell_unspecified, r0, cell_unspecified);
#if __GNUC__
puts ("g_free=");
puts (itoa(g_free));
puts ("\n");
puts ("g_stack=");
puts (itoa(g_stack));
puts ("\n");
puts ("r0=");
puts (itoa(r0));
puts ("\n");
puts ("r1=");
puts (itoa(r1));
puts ("\n");
puts ("r2=");
puts (itoa(r2));
puts ("\n");
puts ("r3=");
puts (itoa(r3));
puts ("\n");
#endif
r3 = cell_vm_apply;
r1 = eval_apply ();
display_ (r1);
eputs ("\n");
#if !MES_MINI
gc (g_stack);
#endif
#if __GNUC__
if (g_debug)
{
eputs ("\nstats: [");
eputs (itoa (g_free));
eputs ("]\n");
}
#endif
return 0;
}
#if __GNUC__
#include "mstart.c"
#endif