1 /* GLIB - Library of useful routines for C programming
2 * Copyright (C) 1995-1997 Peter Mattis, Spencer Kimball and Josh MacDonald
4 * This library is free software; you can redistribute it and/or
5 * modify it under the terms of the GNU Lesser General Public
6 * License as published by the Free Software Foundation; either
7 * version 2 of the License, or (at your option) any later version.
9 * This library is distributed in the hope that it will be useful,
10 * but WITHOUT ANY WARRANTY; without even the implied warranty of
11 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
12 * Lesser General Public License for more details.
14 * You should have received a copy of the GNU Lesser General Public
15 * License along with this library; if not, write to the
16 * Free Software Foundation, Inc., 59 Temple Place - Suite 330,
17 * Boston, MA 02111-1307, USA.
21 * Modified by the GLib Team and others 1997-2000. See the AUTHORS
22 * file for a list of people on the GLib Team. See the ChangeLog
23 * files for a list of changes. These files are distributed with
24 * GLib at ftp://ftp.gtk.org/pub/gtk/.
39 #include "gbacktrace.h"
40 #include "gtestutils.h"
42 #include "glib_trace.h"
45 #define MEM_PROFILE_TABLE_SIZE 4096
49 * having G_DISABLE_CHECKS defined disables use of glib_mem_profiler_table and
51 * REALLOC_0_WORKS is defined if g_realloc (NULL, x) works.
52 * SANE_MALLOC_PROTOS is defined if the systems malloc() and friends functions
53 * match the corresponding GLib prototypes, keep configure.in and gmem.h in sync here.
54 * g_mem_gc_friendly is TRUE, freed memory should be 0-wiped.
57 /* --- prototypes --- */
58 static gboolean g_mem_initialized = FALSE;
59 static void g_mem_init_nomessage (void);
62 /* --- malloc wrappers --- */
63 #ifndef REALLOC_0_WORKS
65 standard_realloc (gpointer mem,
69 return malloc (n_bytes);
71 return realloc (mem, n_bytes);
73 #endif /* !REALLOC_0_WORKS */
75 #ifdef SANE_MALLOC_PROTOS
76 # define standard_malloc malloc
77 # ifdef REALLOC_0_WORKS
78 # define standard_realloc realloc
79 # endif /* REALLOC_0_WORKS */
80 # define standard_free free
81 # define standard_calloc calloc
82 # define standard_try_malloc malloc
83 # define standard_try_realloc realloc
84 #else /* !SANE_MALLOC_PROTOS */
86 standard_malloc (gsize n_bytes)
88 return malloc (n_bytes);
90 # ifdef REALLOC_0_WORKS
92 standard_realloc (gpointer mem,
95 return realloc (mem, n_bytes);
97 # endif /* REALLOC_0_WORKS */
99 standard_free (gpointer mem)
104 standard_calloc (gsize n_blocks,
107 return calloc (n_blocks, n_bytes);
109 #define standard_try_malloc standard_malloc
110 #define standard_try_realloc standard_realloc
111 #endif /* !SANE_MALLOC_PROTOS */
114 /* --- variables --- */
115 static GMemVTable glib_mem_vtable = {
121 standard_try_realloc,
124 /* --- functions --- */
126 g_malloc (gsize n_bytes)
128 if (G_UNLIKELY (!g_mem_initialized))
129 g_mem_init_nomessage();
130 if (G_LIKELY (n_bytes))
134 mem = glib_mem_vtable.malloc (n_bytes);
135 TRACE (GLIB_MEM_ALLOC((void*) mem, (unsigned int) n_bytes, 0, 0));
139 g_error ("%s: failed to allocate %"G_GSIZE_FORMAT" bytes",
143 TRACE(GLIB_MEM_ALLOC((void*) NULL, (int) n_bytes, 0, 0));
149 g_malloc0 (gsize n_bytes)
151 if (G_UNLIKELY (!g_mem_initialized))
152 g_mem_init_nomessage();
153 if (G_LIKELY (n_bytes))
157 mem = glib_mem_vtable.calloc (1, n_bytes);
158 TRACE (GLIB_MEM_ALLOC((void*) mem, (unsigned int) n_bytes, 1, 0));
162 g_error ("%s: failed to allocate %"G_GSIZE_FORMAT" bytes",
166 TRACE(GLIB_MEM_ALLOC((void*) NULL, (int) n_bytes, 1, 0));
172 g_realloc (gpointer mem,
177 if (G_UNLIKELY (!g_mem_initialized))
178 g_mem_init_nomessage();
179 if (G_LIKELY (n_bytes))
181 newmem = glib_mem_vtable.realloc (mem, n_bytes);
182 TRACE (GLIB_MEM_REALLOC((void*) newmem, (void*)mem, (unsigned int) n_bytes, 0));
186 g_error ("%s: failed to allocate %"G_GSIZE_FORMAT" bytes",
191 glib_mem_vtable.free (mem);
193 TRACE (GLIB_MEM_REALLOC((void*) NULL, (void*)mem, 0, 0));
199 g_free (gpointer mem)
201 if (G_UNLIKELY (!g_mem_initialized))
202 g_mem_init_nomessage();
204 glib_mem_vtable.free (mem);
205 TRACE(GLIB_MEM_FREE((void*) mem));
209 g_try_malloc (gsize n_bytes)
213 if (G_UNLIKELY (!g_mem_initialized))
214 g_mem_init_nomessage();
215 if (G_LIKELY (n_bytes))
216 mem = glib_mem_vtable.try_malloc (n_bytes);
220 TRACE (GLIB_MEM_ALLOC((void*) mem, (unsigned int) n_bytes, 0, 1));
226 g_try_malloc0 (gsize n_bytes)
230 if (G_UNLIKELY (!g_mem_initialized))
231 g_mem_init_nomessage();
232 if (G_LIKELY (n_bytes))
233 mem = glib_mem_vtable.try_malloc (n_bytes);
238 memset (mem, 0, n_bytes);
244 g_try_realloc (gpointer mem,
249 if (G_UNLIKELY (!g_mem_initialized))
250 g_mem_init_nomessage();
251 if (G_LIKELY (n_bytes))
252 newmem = glib_mem_vtable.try_realloc (mem, n_bytes);
257 glib_mem_vtable.free (mem);
260 TRACE (GLIB_MEM_REALLOC((void*) newmem, (void*)mem, (unsigned int) n_bytes, 1));
266 #define SIZE_OVERFLOWS(a,b) (G_UNLIKELY ((a) > G_MAXSIZE / (b)))
269 g_malloc_n (gsize n_blocks,
272 if (SIZE_OVERFLOWS (n_blocks, n_block_bytes))
274 if (G_UNLIKELY (!g_mem_initialized))
275 g_mem_init_nomessage();
277 g_error ("%s: overflow allocating %"G_GSIZE_FORMAT"*%"G_GSIZE_FORMAT" bytes",
278 G_STRLOC, n_blocks, n_block_bytes);
281 return g_malloc (n_blocks * n_block_bytes);
285 g_malloc0_n (gsize n_blocks,
288 if (SIZE_OVERFLOWS (n_blocks, n_block_bytes))
290 if (G_UNLIKELY (!g_mem_initialized))
291 g_mem_init_nomessage();
293 g_error ("%s: overflow allocating %"G_GSIZE_FORMAT"*%"G_GSIZE_FORMAT" bytes",
294 G_STRLOC, n_blocks, n_block_bytes);
297 return g_malloc0 (n_blocks * n_block_bytes);
301 g_realloc_n (gpointer mem,
305 if (SIZE_OVERFLOWS (n_blocks, n_block_bytes))
307 if (G_UNLIKELY (!g_mem_initialized))
308 g_mem_init_nomessage();
310 g_error ("%s: overflow allocating %"G_GSIZE_FORMAT"*%"G_GSIZE_FORMAT" bytes",
311 G_STRLOC, n_blocks, n_block_bytes);
314 return g_realloc (mem, n_blocks * n_block_bytes);
318 g_try_malloc_n (gsize n_blocks,
321 if (SIZE_OVERFLOWS (n_blocks, n_block_bytes))
324 return g_try_malloc (n_blocks * n_block_bytes);
328 g_try_malloc0_n (gsize n_blocks,
331 if (SIZE_OVERFLOWS (n_blocks, n_block_bytes))
334 return g_try_malloc0 (n_blocks * n_block_bytes);
338 g_try_realloc_n (gpointer mem,
342 if (SIZE_OVERFLOWS (n_blocks, n_block_bytes))
345 return g_try_realloc (mem, n_blocks * n_block_bytes);
351 fallback_calloc (gsize n_blocks,
354 gsize l = n_blocks * n_block_bytes;
355 gpointer mem = glib_mem_vtable.malloc (l);
363 static gboolean vtable_set = FALSE;
366 * g_mem_is_system_malloc
368 * Checks whether the allocator used by g_malloc() is the system's
369 * malloc implementation. If it returns %TRUE memory allocated with
370 * malloc() can be used interchangeable with memory allocated using g_malloc().
371 * This function is useful for avoiding an extra copy of allocated memory returned
372 * by a non-GLib-based API.
374 * A different allocator can be set using g_mem_set_vtable().
376 * Return value: if %TRUE, malloc() and g_malloc() can be mixed.
379 g_mem_is_system_malloc (void)
385 g_mem_set_vtable (GMemVTable *vtable)
389 if (vtable->malloc && vtable->realloc && vtable->free)
391 glib_mem_vtable.malloc = vtable->malloc;
392 glib_mem_vtable.realloc = vtable->realloc;
393 glib_mem_vtable.free = vtable->free;
394 glib_mem_vtable.calloc = vtable->calloc ? vtable->calloc : fallback_calloc;
395 glib_mem_vtable.try_malloc = vtable->try_malloc ? vtable->try_malloc : glib_mem_vtable.malloc;
396 glib_mem_vtable.try_realloc = vtable->try_realloc ? vtable->try_realloc : glib_mem_vtable.realloc;
400 g_warning (G_STRLOC ": memory allocation vtable lacks one of malloc(), realloc() or free()");
403 g_warning (G_STRLOC ": memory allocation vtable can only be set once at startup");
407 /* --- memory profiling and checking --- */
408 #ifdef G_DISABLE_CHECKS
409 GMemVTable *glib_mem_profiler_table = &glib_mem_vtable;
414 #else /* !G_DISABLE_CHECKS */
421 static guint *profile_data = NULL;
422 static gsize profile_allocs = 0;
423 static gsize profile_zinit = 0;
424 static gsize profile_frees = 0;
425 static GMutex *gmem_profile_mutex = NULL;
426 #ifdef G_ENABLE_DEBUG
427 static volatile gsize g_trap_free_size = 0;
428 static volatile gsize g_trap_realloc_size = 0;
429 static volatile gsize g_trap_malloc_size = 0;
430 #endif /* G_ENABLE_DEBUG */
432 #define PROFILE_TABLE(f1,f2,f3) ( ( ((f3) << 2) | ((f2) << 1) | (f1) ) * (MEM_PROFILE_TABLE_SIZE + 1))
435 profiler_log (ProfilerJob job,
439 g_mutex_lock (gmem_profile_mutex);
442 profile_data = standard_calloc ((MEM_PROFILE_TABLE_SIZE + 1) * 8,
443 sizeof (profile_data[0]));
444 if (!profile_data) /* memory system kiddin' me, eh? */
446 g_mutex_unlock (gmem_profile_mutex);
451 if (n_bytes < MEM_PROFILE_TABLE_SIZE)
452 profile_data[n_bytes + PROFILE_TABLE ((job & PROFILER_ALLOC) != 0,
453 (job & PROFILER_RELOC) != 0,
456 profile_data[MEM_PROFILE_TABLE_SIZE + PROFILE_TABLE ((job & PROFILER_ALLOC) != 0,
457 (job & PROFILER_RELOC) != 0,
461 if (job & PROFILER_ALLOC)
463 profile_allocs += n_bytes;
464 if (job & PROFILER_ZINIT)
465 profile_zinit += n_bytes;
468 profile_frees += n_bytes;
470 g_mutex_unlock (gmem_profile_mutex);
474 profile_print_locked (guint *local_data,
477 gboolean need_header = TRUE;
480 for (i = 0; i <= MEM_PROFILE_TABLE_SIZE; i++)
482 glong t_malloc = local_data[i + PROFILE_TABLE (1, 0, success)];
483 glong t_realloc = local_data[i + PROFILE_TABLE (1, 1, success)];
484 glong t_free = local_data[i + PROFILE_TABLE (0, 0, success)];
485 glong t_refree = local_data[i + PROFILE_TABLE (0, 1, success)];
487 if (!t_malloc && !t_realloc && !t_free && !t_refree)
489 else if (need_header)
492 g_print (" blocks of | allocated | freed | allocated | freed | n_bytes \n");
493 g_print (" n_bytes | n_times by | n_times by | n_times by | n_times by | remaining \n");
494 g_print (" | malloc() | free() | realloc() | realloc() | \n");
495 g_print ("===========|============|============|============|============|===========\n");
497 if (i < MEM_PROFILE_TABLE_SIZE)
498 g_print ("%10u | %10ld | %10ld | %10ld | %10ld |%+11ld\n",
499 i, t_malloc, t_free, t_realloc, t_refree,
500 (t_malloc - t_free + t_realloc - t_refree) * i);
501 else if (i >= MEM_PROFILE_TABLE_SIZE)
502 g_print (" >%6u | %10ld | %10ld | %10ld | %10ld | ***\n",
503 i, t_malloc, t_free, t_realloc, t_refree);
506 g_print (" --- none ---\n");
512 guint local_data[(MEM_PROFILE_TABLE_SIZE + 1) * 8 * sizeof (profile_data[0])];
517 if (G_UNLIKELY (!g_mem_initialized))
518 g_mem_init_nomessage();
520 g_mutex_lock (gmem_profile_mutex);
522 local_allocs = profile_allocs;
523 local_zinit = profile_zinit;
524 local_frees = profile_frees;
528 g_mutex_unlock (gmem_profile_mutex);
532 memcpy (local_data, profile_data,
533 (MEM_PROFILE_TABLE_SIZE + 1) * 8 * sizeof (profile_data[0]));
535 g_mutex_unlock (gmem_profile_mutex);
537 g_print ("GLib Memory statistics (successful operations):\n");
538 profile_print_locked (local_data, TRUE);
539 g_print ("GLib Memory statistics (failing operations):\n");
540 profile_print_locked (local_data, FALSE);
541 g_print ("Total bytes: allocated=%"G_GSIZE_FORMAT", "
542 "zero-initialized=%"G_GSIZE_FORMAT" (%.2f%%), "
543 "freed=%"G_GSIZE_FORMAT" (%.2f%%), "
544 "remaining=%"G_GSIZE_FORMAT"\n",
547 ((gdouble) local_zinit) / local_allocs * 100.0,
549 ((gdouble) local_frees) / local_allocs * 100.0,
550 local_allocs - local_frees);
554 profiler_try_malloc (gsize n_bytes)
558 #ifdef G_ENABLE_DEBUG
559 if (g_trap_malloc_size == n_bytes)
561 #endif /* G_ENABLE_DEBUG */
563 p = standard_malloc (sizeof (gsize) * 2 + n_bytes);
567 p[0] = 0; /* free count */
568 p[1] = n_bytes; /* length */
569 profiler_log (PROFILER_ALLOC, n_bytes, TRUE);
573 profiler_log (PROFILER_ALLOC, n_bytes, FALSE);
579 profiler_malloc (gsize n_bytes)
581 gpointer mem = profiler_try_malloc (n_bytes);
590 profiler_calloc (gsize n_blocks,
593 gsize l = n_blocks * n_block_bytes;
596 #ifdef G_ENABLE_DEBUG
597 if (g_trap_malloc_size == l)
599 #endif /* G_ENABLE_DEBUG */
601 p = standard_calloc (1, sizeof (gsize) * 2 + l);
605 p[0] = 0; /* free count */
606 p[1] = l; /* length */
607 profiler_log (PROFILER_ALLOC | PROFILER_ZINIT, l, TRUE);
612 profiler_log (PROFILER_ALLOC | PROFILER_ZINIT, l, FALSE);
620 profiler_free (gpointer mem)
625 if (p[0]) /* free count */
627 g_warning ("free(%p): memory has been freed %"G_GSIZE_FORMAT" times already",
629 profiler_log (PROFILER_FREE,
635 #ifdef G_ENABLE_DEBUG
636 if (g_trap_free_size == p[1])
638 #endif /* G_ENABLE_DEBUG */
640 profiler_log (PROFILER_FREE,
643 memset (p + 2, 0xaa, p[1]);
645 /* for all those that miss standard_free (p); in this place, yes,
646 * we do leak all memory when profiling, and that is intentional
647 * to catch double frees. patch submissions are futile.
654 profiler_try_realloc (gpointer mem,
661 #ifdef G_ENABLE_DEBUG
662 if (g_trap_realloc_size == n_bytes)
664 #endif /* G_ENABLE_DEBUG */
666 if (mem && p[0]) /* free count */
668 g_warning ("realloc(%p, %"G_GSIZE_FORMAT"): "
669 "memory has been freed %"G_GSIZE_FORMAT" times already",
670 p + 2, (gsize) n_bytes, p[0]);
671 profiler_log (PROFILER_ALLOC | PROFILER_RELOC, n_bytes, FALSE);
677 p = standard_realloc (mem ? p : NULL, sizeof (gsize) * 2 + n_bytes);
682 profiler_log (PROFILER_FREE | PROFILER_RELOC, p[1], TRUE);
685 profiler_log (PROFILER_ALLOC | PROFILER_RELOC, p[1], TRUE);
689 profiler_log (PROFILER_ALLOC | PROFILER_RELOC, n_bytes, FALSE);
696 profiler_realloc (gpointer mem,
699 mem = profiler_try_realloc (mem, n_bytes);
707 static GMemVTable profiler_table = {
713 profiler_try_realloc,
715 GMemVTable *glib_mem_profiler_table = &profiler_table;
717 #endif /* !G_DISABLE_CHECKS */
719 /* --- MemChunks --- */
721 * SECTION: allocators
722 * @title: Memory Allocators
723 * @short_description: deprecated way to allocate chunks of memory for
724 * GList, GSList and GNode
726 * Prior to 2.10, #GAllocator was used as an efficient way to allocate
727 * small pieces of memory for use with the #GList, #GSList and #GNode
728 * data structures. Since 2.10, it has been completely replaced by the
729 * <link linkend="glib-Memory-Slices">slice allocator</link> and
734 * SECTION: memory_chunks
735 * @title: Memory Chunks
736 * @short_description: deprecated way to allocate groups of equal-sized
739 * Memory chunks provide an space-efficient way to allocate equal-sized
740 * pieces of memory, called atoms. However, due to the administrative
741 * overhead (in particular for #G_ALLOC_AND_FREE, and when used from
742 * multiple threads), they are in practise often slower than direct use
743 * of g_malloc(). Therefore, memory chunks have been deprecated in
744 * favor of the <link linkend="glib-Memory-Slices">slice
745 * allocator</link>, which has been added in 2.10. All internal uses of
746 * memory chunks in GLib have been converted to the
747 * <literal>g_slice</literal> API.
749 * There are two types of memory chunks, #G_ALLOC_ONLY, and
750 * #G_ALLOC_AND_FREE. <itemizedlist> <listitem><para> #G_ALLOC_ONLY
751 * chunks only allow allocation of atoms. The atoms can never be freed
752 * individually. The memory chunk can only be free in its entirety.
753 * </para></listitem> <listitem><para> #G_ALLOC_AND_FREE chunks do
754 * allow atoms to be freed individually. The disadvantage of this is
755 * that the memory chunk has to keep track of which atoms have been
756 * freed. This results in more memory being used and a slight
757 * degradation in performance. </para></listitem> </itemizedlist>
759 * To create a memory chunk use g_mem_chunk_new() or the convenience
760 * macro g_mem_chunk_create().
762 * To allocate a new atom use g_mem_chunk_alloc(),
763 * g_mem_chunk_alloc0(), or the convenience macros g_chunk_new() or
766 * To free an atom use g_mem_chunk_free(), or the convenience macro
767 * g_chunk_free(). (Atoms can only be freed if the memory chunk is
768 * created with the type set to #G_ALLOC_AND_FREE.)
770 * To free any blocks of memory which are no longer being used, use
771 * g_mem_chunk_clean(). To clean all memory chunks, use g_blow_chunks().
773 * To reset the memory chunk, freeing all of the atoms, use
774 * g_mem_chunk_reset().
776 * To destroy a memory chunk, use g_mem_chunk_destroy().
778 * To help debug memory chunks, use g_mem_chunk_info() and
779 * g_mem_chunk_print().
782 * <title>Using a #GMemChunk</title>
784 * GMemChunk *mem_chunk;
788 * /<!-- -->* Create a GMemChunk with atoms 50 bytes long, and memory
789 * blocks holding 100 bytes. Note that this means that only 2 atoms
790 * fit into each memory block and so isn't very efficient. *<!-- -->/
791 * mem_chunk = g_mem_chunk_new ("test mem chunk", 50, 100, G_ALLOC_AND_FREE);
792 * /<!-- -->* Now allocate 10000 atoms. *<!-- -->/
793 * for (i = 0; i < 10000; i++)
795 * mem[i] = g_chunk_new (gchar, mem_chunk);
796 * /<!-- -->* Fill in the atom memory with some junk. *<!-- -->/
797 * for (j = 0; j < 50; j++)
800 * /<!-- -->* Now free all of the atoms. Note that since we are going to
801 * destroy the GMemChunk, this wouldn't normally be used. *<!-- -->/
802 * for (i = 0; i < 10000; i++)
804 * g_mem_chunk_free (mem_chunk, mem[i]);
806 * /<!-- -->* We are finished with the GMemChunk, so we destroy it. *<!-- -->/
807 * g_mem_chunk_destroy (mem_chunk);
812 * <title>Using a #GMemChunk with data structures</title>
814 * GMemChunk *array_mem_chunk;
816 * /<!-- -->* Create a GMemChunk to hold GRealArray structures, using
817 * the g_mem_chunk_create(<!-- -->) convenience macro. We want 1024 atoms in each
818 * memory block, and we want to be able to free individual atoms. *<!-- -->/
819 * array_mem_chunk = g_mem_chunk_create (GRealArray, 1024, G_ALLOC_AND_FREE);
820 * /<!-- -->* Allocate one atom, using the g_chunk_new(<!-- -->) convenience macro. *<!-- -->/
821 * array = g_chunk_new (GRealArray, array_mem_chunk);
822 * /<!-- -->* We can now use array just like a normal pointer to a structure. *<!-- -->/
823 * array->data = NULL;
826 * array->zero_terminated = (zero_terminated ? 1 : 0);
827 * array->clear = (clear ? 1 : 0);
828 * array->elt_size = elt_size;
829 * /<!-- -->* We can free the element, so it can be reused. *<!-- -->/
830 * g_chunk_free (array, array_mem_chunk);
831 * /<!-- -->* We destroy the GMemChunk when we are finished with it. *<!-- -->/
832 * g_mem_chunk_destroy (array_mem_chunk);
837 #ifndef G_ALLOC_AND_FREE
842 * The #GAllocator struct contains private data. and should only be
843 * accessed using the following functions.
845 typedef struct _GAllocator GAllocator;
850 * The #GMemChunk struct is an opaque data structure representing a
851 * memory chunk. It should be accessed only through the use of the
852 * following functions.
854 typedef struct _GMemChunk GMemChunk;
859 * Specifies the type of a #GMemChunk. Used in g_mem_chunk_new() and
860 * g_mem_chunk_create() to specify that atoms will never be freed
863 #define G_ALLOC_ONLY 1
868 * Specifies the type of a #GMemChunk. Used in g_mem_chunk_new() and
869 * g_mem_chunk_create() to specify that atoms will be freed
872 #define G_ALLOC_AND_FREE 2
876 guint alloc_size; /* the size of an atom */
881 * @name: a string to identify the #GMemChunk. It is not copied so it
882 * should be valid for the lifetime of the #GMemChunk. It is
883 * only used in g_mem_chunk_print(), which is used for debugging.
884 * @atom_size: the size, in bytes, of each element in the #GMemChunk.
885 * @area_size: the size, in bytes, of each block of memory allocated to
887 * @type: the type of the #GMemChunk. #G_ALLOC_AND_FREE is used if the
888 * atoms will be freed individually. #G_ALLOC_ONLY should be
889 * used if atoms will never be freed individually.
890 * #G_ALLOC_ONLY is quicker, since it does not need to track
891 * free atoms, but it obviously wastes memory if you no longer
892 * need many of the atoms.
893 * @Returns: the new #GMemChunk.
895 * Creates a new #GMemChunk.
897 * Deprecated:2.10: Use the <link linkend="glib-Memory-Slices">slice
898 * allocator</link> instead
901 g_mem_chunk_new (const gchar *name,
906 GMemChunk *mem_chunk;
907 g_return_val_if_fail (atom_size > 0, NULL);
909 mem_chunk = g_slice_new (GMemChunk);
910 mem_chunk->alloc_size = atom_size;
915 * g_mem_chunk_destroy:
916 * @mem_chunk: a #GMemChunk.
918 * Frees all of the memory allocated for a #GMemChunk.
920 * Deprecated:2.10: Use the <link linkend="glib-Memory-Slices">slice
921 * allocator</link> instead
924 g_mem_chunk_destroy (GMemChunk *mem_chunk)
926 g_return_if_fail (mem_chunk != NULL);
928 g_slice_free (GMemChunk, mem_chunk);
933 * @mem_chunk: a #GMemChunk.
934 * @Returns: a pointer to the allocated atom.
936 * Allocates an atom of memory from a #GMemChunk.
938 * Deprecated:2.10: Use g_slice_alloc() instead
941 g_mem_chunk_alloc (GMemChunk *mem_chunk)
943 g_return_val_if_fail (mem_chunk != NULL, NULL);
945 return g_slice_alloc (mem_chunk->alloc_size);
949 * g_mem_chunk_alloc0:
950 * @mem_chunk: a #GMemChunk.
951 * @Returns: a pointer to the allocated atom.
953 * Allocates an atom of memory from a #GMemChunk, setting the memory to
956 * Deprecated:2.10: Use g_slice_alloc0() instead
959 g_mem_chunk_alloc0 (GMemChunk *mem_chunk)
961 g_return_val_if_fail (mem_chunk != NULL, NULL);
963 return g_slice_alloc0 (mem_chunk->alloc_size);
968 * @mem_chunk: a #GMemChunk.
969 * @mem: a pointer to the atom to free.
971 * Frees an atom in a #GMemChunk. This should only be called if the
972 * #GMemChunk was created with #G_ALLOC_AND_FREE. Otherwise it will
975 * Deprecated:2.10: Use g_slice_free1() instead
978 g_mem_chunk_free (GMemChunk *mem_chunk,
981 g_return_if_fail (mem_chunk != NULL);
983 g_slice_free1 (mem_chunk->alloc_size, mem);
988 * @mem_chunk: a #GMemChunk.
990 * Frees any blocks in a #GMemChunk which are no longer being used.
992 * Deprecated:2.10: Use the <link linkend="glib-Memory-Slices">slice
993 * allocator</link> instead
995 void g_mem_chunk_clean (GMemChunk *mem_chunk) {}
999 * @mem_chunk: a #GMemChunk.
1001 * Resets a GMemChunk to its initial state. It frees all of the
1002 * currently allocated blocks of memory.
1004 * Deprecated:2.10: Use the <link linkend="glib-Memory-Slices">slice
1005 * allocator</link> instead
1007 void g_mem_chunk_reset (GMemChunk *mem_chunk) {}
1011 * g_mem_chunk_print:
1012 * @mem_chunk: a #GMemChunk.
1014 * Outputs debugging information for a #GMemChunk. It outputs the name
1015 * of the #GMemChunk (set with g_mem_chunk_new()), the number of bytes
1016 * used, and the number of blocks of memory allocated.
1018 * Deprecated:2.10: Use the <link linkend="glib-Memory-Slices">slice
1019 * allocator</link> instead
1021 void g_mem_chunk_print (GMemChunk *mem_chunk) {}
1027 * Outputs debugging information for all #GMemChunk objects currently
1028 * in use. It outputs the number of #GMemChunk objects currently
1029 * allocated, and calls g_mem_chunk_print() to output information on
1032 * Deprecated:2.10: Use the <link linkend="glib-Memory-Slices">slice
1033 * allocator</link> instead
1035 void g_mem_chunk_info (void) {}
1040 * Calls g_mem_chunk_clean() on all #GMemChunk objects.
1042 * Deprecated:2.10: Use the <link linkend="glib-Memory-Slices">slice
1043 * allocator</link> instead
1045 void g_blow_chunks (void) {}
1049 * @type: the type of the #GMemChunk atoms, typically a structure name.
1050 * @chunk: a #GMemChunk.
1051 * @Returns: a pointer to the allocated atom, cast to a pointer to
1054 * A convenience macro to allocate an atom of memory from a #GMemChunk.
1055 * It calls g_mem_chunk_alloc0() and casts the returned atom to a
1056 * pointer to the given type, avoiding a type cast in the source code.
1058 * Deprecated:2.10: Use g_slice_new0() instead
1063 * @mem: a pointer to the atom to be freed.
1064 * @mem_chunk: a #GMemChunk.
1066 * A convenience macro to free an atom of memory from a #GMemChunk. It
1067 * simply switches the arguments and calls g_mem_chunk_free() It is
1068 * included simply to complement the other convenience macros,
1069 * g_chunk_new() and g_chunk_new0().
1071 * Deprecated:2.10: Use g_slice_free() instead
1076 * @type: the type of the #GMemChunk atoms, typically a structure name.
1077 * @chunk: a #GMemChunk.
1078 * @Returns: a pointer to the allocated atom, cast to a pointer to
1081 * A convenience macro to allocate an atom of memory from a #GMemChunk.
1082 * It calls g_mem_chunk_alloc() and casts the returned atom to a
1083 * pointer to the given type, avoiding a type cast in the source code.
1085 * Deprecated:2.10: Use g_slice_new() instead
1089 * g_mem_chunk_create:
1090 * @type: the type of the atoms, typically a structure name.
1091 * @pre_alloc: the number of atoms to store in each block of memory.
1092 * @alloc_type: the type of the #GMemChunk. #G_ALLOC_AND_FREE is used
1093 * if the atoms will be freed individually. #G_ALLOC_ONLY
1094 * should be used if atoms will never be freed
1095 * individually. #G_ALLOC_ONLY is quicker, since it does
1096 * not need to track free atoms, but it obviously wastes
1097 * memory if you no longer need many of the atoms.
1098 * @Returns: the new #GMemChunk.
1100 * A convenience macro for creating a new #GMemChunk. It calls
1101 * g_mem_chunk_new(), using the given type to create the #GMemChunk
1102 * name. The atom size is determined using
1103 * <function>sizeof()</function>, and the area size is calculated by
1104 * multiplying the @pre_alloc parameter with the atom size.
1106 * Deprecated:2.10: Use the <link linkend="glib-Memory-Slices">slice
1107 * allocator</link> instead
1113 * @name: the name of the #GAllocator. This name is used to set the
1114 * name of the #GMemChunk used by the #GAllocator, and is only
1115 * used for debugging.
1116 * @n_preallocs: the number of elements in each block of memory
1117 * allocated. Larger blocks mean less calls to
1118 * g_malloc(), but some memory may be wasted. (GLib uses
1119 * 128 elements per block by default.) The value must be
1120 * between 1 and 65535.
1121 * @Returns: a new #GAllocator.
1123 * Creates a new #GAllocator.
1125 * Deprecated:2.10: Use the <link linkend="glib-Memory-Slices">slice
1126 * allocator</link> instead
1129 g_allocator_new (const gchar *name,
1132 static struct _GAllocator {
1134 guint16 n_preallocs;
1135 guint is_unused : 1;
1138 GMemChunk *mem_chunk;
1141 "GAllocator is deprecated", 1, TRUE, 0, NULL, NULL, NULL,
1143 /* some (broken) GAllocator uses depend on non-NULL allocators */
1144 return (void*) &dummy;
1149 * @allocator: a #GAllocator.
1151 * Frees all of the memory allocated by the #GAllocator.
1153 * Deprecated:2.10: Use the <link linkend="glib-Memory-Slices">slice
1154 * allocator</link> instead
1157 g_allocator_free (GAllocator *allocator)
1161 #ifdef ENABLE_GC_FRIENDLY_DEFAULT
1162 gboolean g_mem_gc_friendly = TRUE;
1164 gboolean g_mem_gc_friendly = FALSE;
1168 g_mem_init_nomessage (void)
1172 const GDebugKey keys[] = {
1173 { "gc-friendly", 1 },
1176 if (g_mem_initialized)
1178 /* don't use g_malloc/g_message here */
1179 val = _g_getenv_nomalloc ("G_DEBUG", buffer);
1180 flags = !val ? 0 : g_parse_debug_string (val, keys, G_N_ELEMENTS (keys));
1181 if (flags & 1) /* gc-friendly */
1183 g_mem_gc_friendly = TRUE;
1185 g_mem_initialized = TRUE;
1189 _g_mem_thread_init_noprivate_nomessage (void)
1191 /* we may only create mutexes here, locking/
1192 * unlocking a mutex does not yet work.
1194 g_mem_init_nomessage();
1195 #ifndef G_DISABLE_CHECKS
1196 gmem_profile_mutex = g_mutex_new ();