libglib2.0-dev 2.40.0-2 / usr / include / glib-2.0 / glib / gmem.h

/* GLIB - Library of useful routines for C programming
 * Copyright (C) 1995-1997  Peter Mattis, Spencer Kimball and Josh MacDonald
 *
 * This library is free software; you can redistribute it and/or
 * modify it under the terms of the GNU Lesser General Public
 * License as published by the Free Software Foundation; either
 * version 2 of the License, or (at your option) any later version.
 *
 * This library 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
 * Lesser General Public License for more details.
 *
 * You should have received a copy of the GNU Lesser General Public
 * License along with this library; if not, see <http://www.gnu.org/licenses/>.
 */

/*
 * Modified by the GLib Team and others 1997-2000.  See the AUTHORS
 * file for a list of people on the GLib Team.  See the ChangeLog
 * files for a list of changes.  These files are distributed with
 * GLib at ftp://ftp.gtk.org/pub/gtk/.
 */

#ifndef __G_MEM_H__
#define __G_MEM_H__

#if !defined (__GLIB_H_INSIDE__) && !defined (GLIB_COMPILATION)
#error "Only <glib.h> can be included directly."
#endif

#include <glib/gtypes.h>

G_BEGIN_DECLS

/**
 * GMemVTable:
 * @malloc: function to use for allocating memory.
 * @realloc: function to use for reallocating memory.
 * @free: function to use to free memory.
 * @calloc: function to use for allocating zero-filled memory.
 * @try_malloc: function to use for allocating memory without a default error handler.
 * @try_realloc: function to use for reallocating memory without a default error handler.
 * 
 * A set of functions used to perform memory allocation. The same #GMemVTable must
 * be used for all allocations in the same program; a call to g_mem_set_vtable(),
 * if it exists, should be prior to any use of GLib.
 */
typedef struct _GMemVTable GMemVTable;


#if GLIB_SIZEOF_VOID_P > GLIB_SIZEOF_LONG
/**
 * G_MEM_ALIGN:
 *
 * Indicates the number of bytes to which memory will be aligned on the
 * current platform.
 */
#  define G_MEM_ALIGN	GLIB_SIZEOF_VOID_P
#else	/* GLIB_SIZEOF_VOID_P <= GLIB_SIZEOF_LONG */
#  define G_MEM_ALIGN	GLIB_SIZEOF_LONG
#endif	/* GLIB_SIZEOF_VOID_P <= GLIB_SIZEOF_LONG */


/* Memory allocation functions
 */

GLIB_AVAILABLE_IN_ALL
void	 g_free	          (gpointer	 mem);

GLIB_AVAILABLE_IN_2_34
void     g_clear_pointer  (gpointer      *pp,
                           GDestroyNotify destroy);

GLIB_AVAILABLE_IN_ALL
gpointer g_malloc         (gsize	 n_bytes) G_GNUC_MALLOC G_GNUC_ALLOC_SIZE(1);
GLIB_AVAILABLE_IN_ALL
gpointer g_malloc0        (gsize	 n_bytes) G_GNUC_MALLOC G_GNUC_ALLOC_SIZE(1);
GLIB_AVAILABLE_IN_ALL
gpointer g_realloc        (gpointer	 mem,
			   gsize	 n_bytes) G_GNUC_WARN_UNUSED_RESULT;
GLIB_AVAILABLE_IN_ALL
gpointer g_try_malloc     (gsize	 n_bytes) G_GNUC_MALLOC G_GNUC_ALLOC_SIZE(1);
GLIB_AVAILABLE_IN_ALL
gpointer g_try_malloc0    (gsize	 n_bytes) G_GNUC_MALLOC G_GNUC_ALLOC_SIZE(1);
GLIB_AVAILABLE_IN_ALL
gpointer g_try_realloc    (gpointer	 mem,
			   gsize	 n_bytes) G_GNUC_WARN_UNUSED_RESULT;

GLIB_AVAILABLE_IN_ALL
gpointer g_malloc_n       (gsize	 n_blocks,
			   gsize	 n_block_bytes) G_GNUC_MALLOC G_GNUC_ALLOC_SIZE2(1,2);
GLIB_AVAILABLE_IN_ALL
gpointer g_malloc0_n      (gsize	 n_blocks,
			   gsize	 n_block_bytes) G_GNUC_MALLOC G_GNUC_ALLOC_SIZE2(1,2);
GLIB_AVAILABLE_IN_ALL
gpointer g_realloc_n      (gpointer	 mem,
			   gsize	 n_blocks,
			   gsize	 n_block_bytes) G_GNUC_WARN_UNUSED_RESULT;
GLIB_AVAILABLE_IN_ALL
gpointer g_try_malloc_n   (gsize	 n_blocks,
			   gsize	 n_block_bytes) G_GNUC_MALLOC G_GNUC_ALLOC_SIZE2(1,2);
GLIB_AVAILABLE_IN_ALL
gpointer g_try_malloc0_n  (gsize	 n_blocks,
			   gsize	 n_block_bytes) G_GNUC_MALLOC G_GNUC_ALLOC_SIZE2(1,2);
GLIB_AVAILABLE_IN_ALL
gpointer g_try_realloc_n  (gpointer	 mem,
			   gsize	 n_blocks,
			   gsize	 n_block_bytes) G_GNUC_WARN_UNUSED_RESULT;

#define g_clear_pointer(pp, destroy) \
  G_STMT_START {                                                               \
    G_STATIC_ASSERT (sizeof *(pp) == sizeof (gpointer));                       \
    /* Only one access, please */                                              \
    gpointer *_pp = (gpointer *) (pp);                                         \
    gpointer _p;                                                               \
    /* This assignment is needed to avoid a gcc warning */                     \
    GDestroyNotify _destroy = (GDestroyNotify) (destroy);                      \
                                                                               \
    (void) (0 ? (gpointer) *(pp) : 0);                                         \
    do                                                                         \
      _p = g_atomic_pointer_get (_pp);                                         \
    while G_UNLIKELY (!g_atomic_pointer_compare_and_exchange (_pp, _p, NULL)); \
                                                                               \
    if (_p)                                                                    \
      _destroy (_p);                                                           \
  } G_STMT_END

/* Optimise: avoid the call to the (slower) _n function if we can
 * determine at compile-time that no overflow happens.
 */
#if defined (__GNUC__) && (__GNUC__ >= 2) && defined (__OPTIMIZE__)
#  define _G_NEW(struct_type, n_structs, func) \
	(struct_type *) (G_GNUC_EXTENSION ({			\
	  gsize __n = (gsize) (n_structs);			\
	  gsize __s = sizeof (struct_type);			\
	  gpointer __p;						\
	  if (__s == 1)						\
	    __p = g_##func (__n);				\
	  else if (__builtin_constant_p (__n) &&		\
	           (__s == 0 || __n <= G_MAXSIZE / __s))	\
	    __p = g_##func (__n * __s);				\
	  else							\
	    __p = g_##func##_n (__n, __s);			\
	  __p;							\
	}))
#  define _G_RENEW(struct_type, mem, n_structs, func) \
	(struct_type *) (G_GNUC_EXTENSION ({			\
	  gsize __n = (gsize) (n_structs);			\
	  gsize __s = sizeof (struct_type);			\
	  gpointer __p = (gpointer) (mem);			\
	  if (__s == 1)						\
	    __p = g_##func (__p, __n);				\
	  else if (__builtin_constant_p (__n) &&		\
	           (__s == 0 || __n <= G_MAXSIZE / __s))	\
	    __p = g_##func (__p, __n * __s);			\
	  else							\
	    __p = g_##func##_n (__p, __n, __s);			\
	  __p;							\
	}))

#else

/* Unoptimised version: always call the _n() function. */

#define _G_NEW(struct_type, n_structs, func) \
        ((struct_type *) g_##func##_n ((n_structs), sizeof (struct_type)))
#define _G_RENEW(struct_type, mem, n_structs, func) \
        ((struct_type *) g_##func##_n (mem, (n_structs), sizeof (struct_type)))

#endif

/**
 * g_new:
 * @struct_type: the type of the elements to allocate
 * @n_structs: the number of elements to allocate
 * 
 * Allocates @n_structs elements of type @struct_type.
 * The returned pointer is cast to a pointer to the given type.
 * If @n_structs is 0 it returns %NULL.
 * Care is taken to avoid overflow when calculating the size of the allocated block.
 * 
 * Since the returned pointer is already casted to the right type,
 * it is normally unnecessary to cast it explicitly, and doing
 * so might hide memory allocation errors.
 * 
 * Returns: a pointer to the allocated memory, cast to a pointer to @struct_type
 */
#define g_new(struct_type, n_structs)			_G_NEW (struct_type, n_structs, malloc)
/**
 * g_new0:
 * @struct_type: the type of the elements to allocate.
 * @n_structs: the number of elements to allocate.
 * 
 * Allocates @n_structs elements of type @struct_type, initialized to 0's.
 * The returned pointer is cast to a pointer to the given type.
 * If @n_structs is 0 it returns %NULL.
 * Care is taken to avoid overflow when calculating the size of the allocated block.
 * 
 * Since the returned pointer is already casted to the right type,
 * it is normally unnecessary to cast it explicitly, and doing
 * so might hide memory allocation errors.
 * 
 * Returns: a pointer to the allocated memory, cast to a pointer to @struct_type.
 */
#define g_new0(struct_type, n_structs)			_G_NEW (struct_type, n_structs, malloc0)
/**
 * g_renew:
 * @struct_type: the type of the elements to allocate
 * @mem: the currently allocated memory
 * @n_structs: the number of elements to allocate
 * 
 * Reallocates the memory pointed to by @mem, so that it now has space for
 * @n_structs elements of type @struct_type. It returns the new address of
 * the memory, which may have been moved.
 * Care is taken to avoid overflow when calculating the size of the allocated block.
 * 
 * Returns: a pointer to the new allocated memory, cast to a pointer to @struct_type
 */
#define g_renew(struct_type, mem, n_structs)		_G_RENEW (struct_type, mem, n_structs, realloc)
/**
 * g_try_new:
 * @struct_type: the type of the elements to allocate
 * @n_structs: the number of elements to allocate
 * 
 * Attempts to allocate @n_structs elements of type @struct_type, and returns
 * %NULL on failure. Contrast with g_new(), which aborts the program on failure.
 * The returned pointer is cast to a pointer to the given type.
 * The function returns %NULL when @n_structs is 0 of if an overflow occurs.
 * 
 * Since: 2.8
 * Returns: a pointer to the allocated memory, cast to a pointer to @struct_type
 */
#define g_try_new(struct_type, n_structs)		_G_NEW (struct_type, n_structs, try_malloc)
/**
 * g_try_new0:
 * @struct_type: the type of the elements to allocate
 * @n_structs: the number of elements to allocate
 * 
 * Attempts to allocate @n_structs elements of type @struct_type, initialized
 * to 0's, and returns %NULL on failure. Contrast with g_new0(), which aborts
 * the program on failure.
 * The returned pointer is cast to a pointer to the given type.
 * The function returns %NULL when @n_structs is 0 of if an overflow occurs.
 * 
 * Since: 2.8
 * Returns: a pointer to the allocated memory, cast to a pointer to @struct_type
 */
#define g_try_new0(struct_type, n_structs)		_G_NEW (struct_type, n_structs, try_malloc0)
/**
 * g_try_renew:
 * @struct_type: the type of the elements to allocate
 * @mem: the currently allocated memory
 * @n_structs: the number of elements to allocate
 * 
 * Attempts to reallocate the memory pointed to by @mem, so that it now has
 * space for @n_structs elements of type @struct_type, and returns %NULL on
 * failure. Contrast with g_renew(), which aborts the program on failure.
 * It returns the new address of the memory, which may have been moved.
 * The function returns %NULL if an overflow occurs.
 * 
 * Since: 2.8
 * Returns: a pointer to the new allocated memory, cast to a pointer to @struct_type
 */
#define g_try_renew(struct_type, mem, n_structs)	_G_RENEW (struct_type, mem, n_structs, try_realloc)


/* Memory allocation virtualization for debugging purposes
 * g_mem_set_vtable() has to be the very first GLib function called
 * if being used
 */
struct _GMemVTable {
  gpointer (*malloc)      (gsize    n_bytes);
  gpointer (*realloc)     (gpointer mem,
			   gsize    n_bytes);
  void     (*free)        (gpointer mem);
  /* optional; set to NULL if not used ! */
  gpointer (*calloc)      (gsize    n_blocks,
			   gsize    n_block_bytes);
  gpointer (*try_malloc)  (gsize    n_bytes);
  gpointer (*try_realloc) (gpointer mem,
			   gsize    n_bytes);
};
GLIB_AVAILABLE_IN_ALL
void	 g_mem_set_vtable (GMemVTable	*vtable);
GLIB_AVAILABLE_IN_ALL
gboolean g_mem_is_system_malloc (void);

GLIB_VAR gboolean g_mem_gc_friendly;

/* Memory profiler and checker, has to be enabled via g_mem_set_vtable()
 */
GLIB_VAR GMemVTable	*glib_mem_profiler_table;
GLIB_AVAILABLE_IN_ALL
void	g_mem_profile	(void);

G_END_DECLS

#endif /* __G_MEM_H__ */