/***********************************************************************/ /* */ /* Objective Caml */ /* */ /* Xavier Leroy and Damien Doligez, INRIA Rocquencourt */ /* */ /* Copyright 1996 Institut National de Recherche en Informatique et */ /* en Automatique. All rights reserved. This file is distributed */ /* under the terms of the GNU Library General Public License. */ /* */ /***********************************************************************/ /* $Id$ */ #include #include "config.h" #include "misc.h" #include "memory.h" #ifdef HAS_UI #include "ui.h" #endif #ifdef DEBUG void caml_failed_assert (char * expr, char * file, int line) { fprintf (stderr, "file %s; line %d ### Assertion failed: %s\n", file, line, expr); fflush (stderr); exit (100); } #endif unsigned long verb_gc = 0; void gc_message (int level, char *msg, unsigned long arg) { if (level < 0 || (verb_gc & level) != 0){ #ifdef HAS_UI ui_print_stderr(msg, (void *) arg); #else fprintf (stderr, msg, arg); fflush (stderr); #endif } } void fatal_error (char *msg) { #ifdef HAS_UI ui_print_stderr("%s", msg); ui_exit (2); #else fprintf (stderr, "%s", msg); exit(2); #endif } void fatal_error_arg (char *fmt, char *arg) { #ifdef HAS_UI ui_print_stderr(fmt, arg); ui_exit (2); #else fprintf (stderr, fmt, arg); exit(2); #endif } void fatal_error_arg2 (char *fmt1, char *arg1, char *fmt2, char *arg2) { #ifdef HAS_UI ui_print_stderr(fmt1, arg1); ui_print_stderr(fmt2, arg2); ui_exit (2); #else fprintf (stderr, fmt1, arg1); fprintf (stderr, fmt2, arg2); exit(2); #endif } char *aligned_malloc (asize_t size, int modulo, void **block) { char *raw_mem; unsigned long aligned_mem; Assert (modulo < Page_size); raw_mem = (char *) malloc (size + Page_size); if (raw_mem == NULL) return NULL; *block = raw_mem; raw_mem += modulo; /* Address to be aligned */ aligned_mem = (((unsigned long) raw_mem / Page_size + 1) * Page_size); #ifdef DEBUG { unsigned long *p; unsigned long *p0 = (void *) *block, *p1 = (void *) (aligned_mem - modulo), *p2 = (void *) (aligned_mem - modulo + size), *p3 = (void *) ((char *) *block + size + Page_size); for (p = p0; p < p1; p++) *p = Debug_filler_align; for (p = p1; p < p2; p++) *p = Debug_uninit_align; for (p = p2; p < p3; p++) *p = Debug_filler_align; } #endif return (char *) (aligned_mem - modulo); } void ext_table_init(struct ext_table * tbl, int init_capa) { tbl->size = 0; tbl->capacity = init_capa; tbl->contents = stat_alloc(sizeof(void *) * init_capa); } int ext_table_add(struct ext_table * tbl, void * data) { int res; if (tbl->size >= tbl->capacity) { tbl->capacity *= 2; tbl->contents = stat_resize(tbl->contents, sizeof(void *) * tbl->capacity); } res = tbl->size; tbl->contents[res] = data; tbl->size++; return res; } void ext_table_free(struct ext_table * tbl, int free_entries) { int i; if (free_entries) for (i = 0; i < tbl->size; i++) stat_free(tbl->contents[i]); stat_free(tbl->contents); }