/* -*-comment-start: "//";comment-end:""-*- * Mes --- Maxwell Equations of Software * Copyright © 2016,2017 Jan Nieuwenhuizen * * 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 . */ #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]; int g_stdin = 0; #if __GNUC__ typedef long size_t; void *malloc (size_t i); int open (char const *s, int mode); int read (int fd, void* buf, size_t n); void write (int fd, char const* s, int n); void exit (int code) { asm ( "movl %0,%%ebx\n\t" "movl $1,%%eax\n\t" "int $0x80" : // no outputs "=" (r) : "" (code) ); // not reached exit (0); } char const* getenv (char const* p) { return 0; } int read (int fd, void* buf, size_t n) { int r; //syscall (SYS_write, fd, s, n)); asm ( "movl %1,%%ebx\n\t" "movl %2,%%ecx\n\t" "movl %3,%%edx\n\t" "movl $0x3,%%eax\n\t" "int $0x80\n\t" "mov %%eax,%0\n\t" : "=r" (r) : "" (fd), "" (buf), "" (n) : "eax", "ebx", "ecx", "edx" ); return r; } int open (char const *s, int mode) { int r; //syscall (SYS_open, mode)); asm ( "mov %1,%%ebx\n\t" "mov %2,%%ecx\n\t" "mov $0x5,%%eax\n\t" "int $0x80\n\t" "mov %%eax,%0\n\t" : "=r" (r) : "" (s), "" (mode) : "eax", "ebx", "ecx" ); return r; } int getchar () { char c; int r = read (g_stdin, &c, 1); if (r < 1) return -1; return c; } void write (int fd, char const* s, int n) { int r; //syscall (SYS_write, fd, s, n)); asm ( "mov %0,%%ebx\n\t" "mov %1,%%ecx\n\t" "mov %2,%%edx\n\t" "mov $0x4, %%eax\n\t" "int $0x80\n\t" : // no outputs "=" (r) : "" (fd), "" (s), "" (n) : "eax", "ebx", "ecx", "edx" ); } int putchar (int c) { //write (STDOUT, s, strlen (s)); //int i = write (STDOUT, s, strlen (s)); write (1, (char*)&c, 1); return 0; } void * malloc (size_t size) { int *n; int len = size + sizeof (size); //n = mmap (0, len, PROT_READ | PROT_WRITE, MAP_PRIVATE | MAP_ANONYMOUS, 0, 0 ); *n = len; return (void*)(n+1); } void free (void *p) { int *n = (int*)p-1; //munmap ((void*)p, *n); } #define EOF -1 #define STDIN 0 #define STDOUT 1 #define STDERR 2 size_t strlen (char const* s) { int i = 0; while (s[i]) i++; return i; } int strcmp (char const* a, char const* b) { while (*a && *b && *a == *b) {a++;b++;} return *a - *b; } int puts (char const* s) { //write (STDOUT, s, strlen (s)); //int i = write (STDOUT, s, strlen (s)); int i = strlen (s); write (1, s, i); return 0; } int eputs (char const* s) { //write (STDERR, s, strlen (s)); //int i = write (STDERR, s, strlen (s)); int i = strlen (s); write (2, s, i); return 0; } char const* itoa (int x) { static char buf[10]; char *p = buf+9; *p-- = 0; int sign = x < 0; if (sign) x = -x; do { *p-- = '0' + (x % 10); x = x / 10; } while (x); if (sign) *p-- = '-'; return p+1; } #endif void assert_fail (char* s) { eputs ("assert fail:"); #if __GNUC__ eputs (s); #endif eputs ("\n"); #if __GNUC__ *((int*)0) = 0; #endif } #if __GNUC__ #define assert(x) ((x) ? (void)0 : assert_fail ("boo:" #x)) #else //#define assert(x) ((x) ? (void)0 : assert_fail ("boo:" #x)) #define assert(x) ((x) ? (void)0 : assert_fail (0)) #endif 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; //scm *g_news = 0; // struct scm scm_nil = {SPECIAL, "()"}; // struct scm scm_f = {SPECIAL, "#f"}; // struct scm scm_t = {SPECIAL, "#t"}; // struct scm_dot = {SPECIAL, "."}; // struct scm_arrow = {SPECIAL, "=>"}; // struct scm_undefined = {SPECIAL, "*undefined*"}; // struct scm_unspecified = {SPECIAL, "*unspecified*"}; // struct scm_closure = {SPECIAL, "*closure*"}; // struct scm_circular = {SPECIAL, "*circular*"}; // struct scm_begin = {SPECIAL, "*begin*"}; // struct scm_vm_apply = {SPECIAL, "core:apply"}; // struct scm_vm_apply2 = {SPECIAL, "*vm-apply2*"}; // struct scm_vm_eval = {SPECIAL, "core:eval"}; // struct scm_vm_begin = {SPECIAL, "*vm-begin*"}; // //scm scm_vm_begin_read_input_file = {SPECIAL, "*vm-begin-read-input-file*"}; // struct scm_vm_begin2 = {SPECIAL, "*vm-begin2*"}; // struct scm_vm_return = {SPECIAL, "*vm-return*"}; // //#include "mes.symbols.h" #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; #if __GNUC__ //FIXME SCM make_cell (SCM type, SCM car, SCM cdr); #endif 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; #if __GNUC__ //FIXME SCM cons (SCM x, SCM y); #endif struct function fun_cons = {&cons,2,"cons"}; struct scm scm_cons = {TFUNCTION,0,0}; // "cons", 0}; SCM cell_cons; #if __GNUC__ //FIXME SCM car (SCM x); #endif struct function fun_car = {&car,1,"car"}; struct scm scm_car = {TFUNCTION,0,0}; // "car", 0}; SCM cell_car; #if __GNUC__ //FIXME SCM cdr (SCM x); #endif 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) { puts ("cons x="); #if __GNUC__ puts (itoa (x)); #endif puts ("\n"); VALUE (tmp_num) = PAIR; return make_cell (tmp_num, x, y); } SCM car (SCM x) { puts ("car x="); #if __GNUC__ puts (itoa (x)); #endif puts ("\n"); #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) { puts ("cdr x="); #if __GNUC__ puts (itoa (x)); #endif puts ("\n"); #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\n"); switch (TYPE (x)) { case CHAR: { //puts ("\n"); puts ("#\\"); putchar (VALUE (x)); break; } case TFUNCTION: { //puts ("\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 ("\n"); #if __GNUC__ puts (itoa (VALUE (x))); #else int i; i = VALUE (x); i = i + 48; putchar (i); #endif break; } case PAIR: { //puts ("\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 (""); #else puts (""); #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 (""); #else puts (""); #endif } } break; } default: { //puts ("\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 const* string_to_cstring (SCM s) { static char buf[1024]; char *p = buf; s = STRING(s); while (s != cell_nil) { *p++ = VALUE (car (s)); s = cdr (s); } *p = 0; return 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__ void _start () { int r; asm ( "mov %%ebp,%%eax\n\t" "addl $8,%%eax\n\t" "push %%eax\n\t" "mov %%ebp,%%eax\n\t" "addl $4,%%eax\n\t" "movzbl (%%eax),%%eax\n\t" "push %%eax\n\t" "call main\n\t" "movl %%eax,%0\n\t" : "=r" (r) : //no inputs "" (&main) ); exit (r); } #endif