/* * Copyright (c) 1997-1999, 2003 Massachusetts Institute of Technology * * 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 of the License, 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * */ /* * malloc.c -- memory allocation related functions */ /* $Id: malloc.c,v 1.1 2008/10/17 06:13:18 scuri Exp $ */ #include "fftw-int.h" #include #include #ifdef HAVE_MALLOC_H #include #endif fftw_malloc_type_function fftw_malloc_hook = 0; fftw_free_type_function fftw_free_hook = 0; fftw_die_type_function fftw_die_hook = 0; /********************************************************** * DEBUGGING CODE **********************************************************/ #ifdef FFTW_DEBUG static int fftw_malloc_cnt = 0; /* * debugging malloc/free. Initialize every malloced and freed area to * random values, just to make sure we are not using uninitialized * pointers. Also check for writes past the ends of allocated blocks, * and a couple of other things. * * This code is a quick and dirty hack -- use at your own risk. */ static int fftw_malloc_total = 0, fftw_malloc_max = 0, fftw_malloc_cnt_max = 0; #define MAGIC 0xABadCafe #define PAD_FACTOR 2 #define TWOINTS (2 * sizeof(int)) #define VERBOSE_ALLOCATION 0 #if VERBOSE_ALLOCATION #define WHEN_VERBOSE(a) a #else #define WHEN_VERBOSE(a) #endif void *fftw_malloc(size_t n) { char *p; int i; fftw_malloc_total += n; if (fftw_malloc_total > fftw_malloc_max) fftw_malloc_max = fftw_malloc_total; p = (char *) malloc(PAD_FACTOR * n + TWOINTS); if (!p) fftw_die("fftw_malloc: out of memory\n"); /* store the size in a known position */ ((int *) p)[0] = n; ((int *) p)[1] = MAGIC; for (i = 0; i < PAD_FACTOR * n; ++i) p[i + TWOINTS] = (char) (i ^ 0xDEADBEEF); ++fftw_malloc_cnt; if (fftw_malloc_cnt > fftw_malloc_cnt_max) fftw_malloc_cnt_max = fftw_malloc_cnt; /* skip the size we stored previously */ return (void *) (p + TWOINTS); } void fftw_free(void *p) { char *q; if (!p) return; q = ((char *) p) - TWOINTS; if (!q) fftw_die("fftw_free: tried to free NULL+TWOINTS pointer!\n"); { int n = ((int *) q)[0]; int magic = ((int *) q)[1]; int i; WHEN_VERBOSE( { printf("FFTW_FREE %d\n", n); fflush(stdout); }) *((int *) q) = 0; /* set to zero to detect duplicate free's */ if (magic != MAGIC) fftw_die("Wrong magic in fftw_free()!\n"); ((int *) q)[1] = ~MAGIC; if (n < 0) fftw_die("Tried to free block with corrupt size descriptor!\n"); fftw_malloc_total -= n; if (fftw_malloc_total < 0) fftw_die("fftw_malloc_total went negative!\n"); /* check for writing past end of array: */ for (i = n; i < PAD_FACTOR * n; ++i) if (q[i + TWOINTS] != (char) (i ^ 0xDEADBEEF)) { fflush(stdout); fprintf(stderr, "Byte %d past end of array has changed!\n", i - n + 1); fftw_die("Array bounds overwritten!\n"); } for (i = 0; i < PAD_FACTOR * n; ++i) q[i + TWOINTS] = (char) (i ^ 0xBEEFDEAD); --fftw_malloc_cnt; if (fftw_malloc_cnt < 0) fftw_die("fftw_malloc_cnt went negative!\n"); if (fftw_malloc_cnt == 0 && fftw_malloc_total > 0 || fftw_malloc_cnt > 0 && fftw_malloc_total == 0) fftw_die("fftw_malloc_cnt/total not zero at the same time!\n"); free(q); } } #else /********************************************************** * NON DEBUGGING CODE **********************************************************/ /* production version, no hacks */ void *fftw_malloc(size_t n) { void *p; if (fftw_malloc_hook) return fftw_malloc_hook(n); if (n == 0) n = 1; p = malloc(n); if (!p) fftw_die("fftw_malloc: out of memory\n"); return p; } void fftw_free(void *p) { if (p) { if (fftw_free_hook) { fftw_free_hook(p); return; } free(p); } } #endif /* die when fatal errors occur */ void fftw_die(const char *s) { if (fftw_die_hook) fftw_die_hook(s); fflush(stdout); fprintf(stderr, "fftw: %s", s); exit(EXIT_FAILURE); } /* check for memory leaks when debugging */ void fftw_check_memory_leaks(void) { extern int fftw_node_cnt, fftw_plan_cnt, fftw_twiddle_size; #ifdef FFTW_DEBUG if (fftw_malloc_cnt || fftw_malloc_total || fftw_node_cnt || fftw_plan_cnt || fftw_twiddle_size) { fflush(stdout); fprintf(stderr, "MEMORY LEAK!!!\n" "fftw_malloc = %d" " node=%d plan=%d twiddle=%d\n" "fftw_malloc_total = %d\n", fftw_malloc_cnt, fftw_node_cnt, fftw_plan_cnt, fftw_twiddle_size, fftw_malloc_total); exit(EXIT_FAILURE); } #else if (fftw_node_cnt || fftw_plan_cnt || fftw_twiddle_size) { fflush(stdout); fprintf(stderr, "MEMORY LEAK!!!\n" " node=%d plan=%d twiddle=%d\n", fftw_node_cnt, fftw_plan_cnt, fftw_twiddle_size); exit(EXIT_FAILURE); } #endif } void fftw_print_max_memory_usage(void) { #ifdef FFTW_DEBUG printf("\nMaximum number of blocks allocated = %d\n" "Maximum number of bytes allocated = %0.3f kB\n", fftw_malloc_cnt_max, fftw_malloc_max / 1024.0); #endif }