/*************************************************************************** gb_alloc_temp.h (c) 2000-2009 BenoƮt Minisini 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 program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. ***************************************************************************/ #define __GB_ALLOC_C #include #ifdef HAVE_MALLOC_H #include #endif #include #include "gb_common.h" #include "gb_error.h" #include "gb_alloc.h" int MEMORY_count = 0; //#define DEBUG_ME #if DEBUG_MEMORY #include "gb_error.h" int MEMORY_size = 0; static int _id = 0; ALLOC *_alloc = NULL; extern char *DEBUG_get_current_position(void); FILE *MEMORY_log; #elif OPTIMIZE_MEMORY #define SIZE_INC 16 #define SIZE_SHIFT 4 #define REAL_SIZE(_size) (((_size) + (SIZE_INC - 1)) & ~(SIZE_INC - 1)) #define POOL_SIZE 16 #define POOL_MAX 64 #define POOL_MAX_LEN (POOL_SIZE * SIZE_INC) static size_t *_pool[POOL_SIZE] = { 0 }; static int _pool_count[POOL_SIZE] = { 0 }; #endif int THROW_MEMORY() { THROW(E_MEMORY); } void MEMORY_init(void) { #if DEBUG_MEMORY /*char path[256]; sprintf(path, "/tmp/gambas-memory-%d-%d.log", getuid(), getpid()); MEMORY_log = fopen(path, "w+");*/ MEMORY_log = stderr; #endif } void MEMORY_exit(void) { #if OPTIMIZE_MEMORY int i; void *ptr, *next; for (i = 0; i < POOL_SIZE; i++) { ptr = _pool[i]; while (ptr) { next = *((void **)ptr); free(ptr); ptr = next; } } #endif #if DEBUG_MEMORY if (MEMORY_count) { fprintf(MEMORY_log, "\n*************************************************\n"); fprintf(MEMORY_log, "warning: %d allocation(s) non freed.\n", MEMORY_count); while (_alloc) { fprintf(MEMORY_log, "<%d>\n", _alloc->id); _alloc = _alloc->next; } } fclose(MEMORY_log); #else if (MEMORY_count) fprintf(stderr, "warning: %d allocation(s) non freed.\n", MEMORY_count); #endif } #if OPTIMIZE_MEMORY #else #if DEBUG_MEMORY void MEMORY_alloc(void *p_ptr, size_t size, const char *src) { ALLOC *alloc; alloc = (ALLOC *)malloc(sizeof(ALLOC) + size); if (!alloc) THROW(E_MEMORY); _id++; alloc->id = _id; alloc->prev = NULL; alloc->next = _alloc; alloc->size = size; if (_alloc) _alloc->prev = alloc; _alloc = alloc; *((void **)p_ptr) = (char *)alloc + sizeof(ALLOC); MEMORY_count++; MEMORY_size += size; #ifndef DO_NOT_PRINT_MEMORY fprintf(MEMORY_log, "%s: ", DEBUG_get_current_position()); fprintf(MEMORY_log, "<%d> %s: MEMORY_alloc(%d) -> %p\n", _id, src, (int)size, (char *)alloc + sizeof(ALLOC)); fflush(MEMORY_log); /*if (_id == 2150) BREAKPOINT();*/ #endif } #else void MEMORY_alloc(void *p_ptr, size_t size) { void *alloc; alloc = malloc(size); if (!alloc) THROW(E_MEMORY); *((void **)p_ptr) = alloc; MEMORY_count++; } #endif #if DEBUG_MEMORY void MEMORY_alloc_zero(void *p_ptr, size_t size, const char *src) { MEMORY_alloc(p_ptr, size, src); memset(*((void **)p_ptr), 0, size); } #else void MEMORY_alloc_zero(void *p_ptr, size_t size) { void *alloc; alloc = calloc(size, 1); if (!alloc) THROW(E_MEMORY); *((void **)p_ptr) = alloc; MEMORY_count++; } #endif #if DEBUG_MEMORY void MEMORY_realloc(void *p_ptr, size_t size, const char *src) { ALLOC *alloc = (ALLOC *)(*((char **)p_ptr) - sizeof(ALLOC)); ALLOC *old = alloc; alloc = realloc(alloc, sizeof(ALLOC) + size); if (!alloc) THROW(E_MEMORY); MEMORY_size += size - alloc->size; if (_alloc == old) _alloc = alloc; if (alloc->prev) alloc->prev->next = alloc; if (alloc->next) alloc->next->prev = alloc; #ifndef DO_NOT_PRINT_MEMORY fprintf(MEMORY_log, "%s: ", DEBUG_get_current_position()); fprintf(MEMORY_log, "<%d> %s: MEMORY_realloc(%p, %d) -> %p\n", alloc->id, src, *((void **)p_ptr), (int)size, (char *)alloc + sizeof(ALLOC)); fflush(MEMORY_log); #endif *((void **)p_ptr) = (char *)alloc + sizeof(ALLOC); } #else void MEMORY_realloc(void *p_ptr, size_t size) { void *alloc = *((void **)p_ptr); alloc = realloc(alloc, size); if (!alloc) THROW(E_MEMORY); *((void **)p_ptr) = alloc; } #endif #if DEBUG_MEMORY void MEMORY_free(void *p_ptr, const char *src) { ALLOC *alloc = (ALLOC *)(*((char **)p_ptr) - sizeof(ALLOC)); if (!(*((void **)p_ptr))) return; if (alloc->prev) alloc->prev->next = alloc->next; if (alloc->next) alloc->next->prev = alloc->prev; if (alloc == _alloc) _alloc = alloc->next; #ifndef DO_NOT_PRINT_MEMORY fprintf(MEMORY_log, "%s: ", DEBUG_get_current_position()); fprintf(MEMORY_log, "<%d> %s: MEMORY_free(%p)\n", alloc->id, src, (char *)alloc + sizeof(ALLOC)); fflush(MEMORY_log); #endif MEMORY_size -= alloc->size; //*((long *)alloc) = 0x31415926; free(alloc); *((void **)p_ptr) = NULL; MEMORY_count--; } #else void MEMORY_free(void *p_ptr) { void *alloc = *((void **)p_ptr); if (!alloc) return; free(alloc); *((void **)p_ptr) = NULL; MEMORY_count--; } #endif #endif // OPTIMIZE_MEMORY #if OPTIMIZE_MEMORY void *my_malloc(size_t len) { size_t *ptr; int size = REAL_SIZE((int)len + sizeof(size_t)); int pool = (size / SIZE_INC) - 1; MEMORY_count++; if (pool < POOL_SIZE) { if (_pool_count[pool]) { ptr = _pool[pool]; #ifdef DEBUG_ME fprintf(stderr, "my_malloc: %d bytes from pool #%d -> %p\n", size, pool, ptr + 1); #endif _pool[pool] = *((void **)ptr); _pool_count[pool]--; *ptr++ = size; return ptr; } } ptr = malloc(size); if (!ptr) THROW_MEMORY(); #ifdef DEBUG_ME fprintf(stderr, "my_malloc: %d bytes from malloc -> %p\n", size, ptr + 1); #endif *ptr++ = size; return ptr; } void my_free(void *alloc) { size_t *ptr; int size; int pool; if (!alloc) return; MEMORY_count--; ptr = alloc; ptr--; size = (int)*ptr; pool = (size / SIZE_INC) - 1; if (pool < POOL_SIZE) { if (_pool_count[pool] < POOL_MAX) { #ifdef DEBUG_ME fprintf(stderr, "my_free: (%p) %d bytes to pool #%d\n", alloc, size, pool); #endif *((void **)ptr) = _pool[pool]; _pool[pool] = ptr; _pool_count[pool]++; return; } } #ifdef DEBUG_ME fprintf(stderr, "my_free: (%p) %d bytes freed\n", alloc, size); #endif free(ptr); } void *my_realloc(void *alloc, size_t new_len) { size_t *ptr; int size; int new_size; ptr = alloc; ptr--; size = (int)*ptr; new_size = REAL_SIZE(new_len + sizeof(size_t)); if (size == new_size) return alloc; #ifdef DEBUG_ME fprintf(stderr, "my_realloc: (%p) %d -> %d\n", alloc, size, new_size); #endif if (new_len == 0) { my_free(alloc); return NULL; } else if (size > POOL_MAX_LEN && new_size > POOL_MAX_LEN) { ptr = realloc(ptr, new_size); if (!ptr) THROW_MEMORY(); *ptr++ = new_size; return ptr; } else { size_t *nptr = my_malloc(new_len); nptr--; if (new_size < size) memcpy(nptr, ptr, new_size); else memcpy(nptr, ptr, size); my_free(alloc); *nptr++ = new_size; return nptr; } } #endif