mingw/glib2/glib/grcbox.c - kiwivm - Git at Google

 /* grcbox.c: Reference counted data
  *
  * Copyright 2018  Emmanuele Bassi
  *
  * 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 2.1 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/>.
  */

 #include "config.h"

 #include "grcboxprivate.h"

 #include "gmessages.h"
 #include "grefcount.h"
 #include "gtestutils.h"

 #ifdef ENABLE_VALGRIND
 #include "valgrind.h"
 #endif

 #include "glib_trace.h"

 #include <string.h>

 /**
  * SECTION:rcbox
  * @Title: Reference counted data
  * @Short_description: Allocated memory with reference counting semantics
  *
  * A "reference counted box", or "RcBox", is an opaque wrapper data type
  * that is guaranteed to be as big as the size of a given data type, and
  * which augments the given data type with reference counting semantics
  * for its memory management.
  *
  * RcBox is useful if you have a plain old data type, like a structure
  * typically placed on the stack, and you wish to provide additional API
  * to use it on the heap; or if you want to implement a new type to be
  * passed around by reference without necessarily implementing copy/free
  * semantics or your own reference counting.
  *
  * The typical use is:
  *
  * |[<!-- language="C" -->
  * typedef struct {
  *   char *name;
  *   char *address;
  *   char *city;
  *   char *state;
  *   int age;
  * } Person;
  *
  * Person *
  * person_new (void)
  * {
  *   return g_rc_box_new0 (Person);
  * }
  * ]|
  *
  * Every time you wish to acquire a reference on the memory, you should
  * call g_rc_box_acquire(); similarly, when you wish to release a reference
  * you should call g_rc_box_release():
  *
  * |[<!-- language="C" -->
  * // Add a Person to the Database; the Database acquires ownership
  * // of the Person instance
  * void
  * add_person_to_database (Database *db, Person *p)
  * {
  *   db->persons = g_list_prepend (db->persons, g_rc_box_acquire (p));
  * }
  *
  * // Removes a Person from the Database; the reference acquired by
  * // add_person_to_database() is released here
  * void
  * remove_person_from_database (Database *db, Person *p)
  * {
  *   db->persons = g_list_remove (db->persons, p);
  *   g_rc_box_release (p);
  * }
  * ]|
  *
  * If you have additional memory allocated inside the structure, you can
  * use g_rc_box_release_full(), which takes a function pointer, which
  * will be called if the reference released was the last:
  *
  * |[<!-- language="C" -->
  * void
  * person_clear (Person *p)
  * {
  *   g_free (p->name);
  *   g_free (p->address);
  *   g_free (p->city);
  *   g_free (p->state);
  * }
  *
  * void
  * remove_person_from_database (Database *db, Person *p)
  * {
  *   db->persons = g_list_remove (db->persons, p);
  *   g_rc_box_release_full (p, (GDestroyNotify) person_clear);
  * }
  * ]|
  *
  * If you wish to transfer the ownership of a reference counted data
  * type without increasing the reference count, you can use g_steal_pointer():
  *
  * |[<!-- language="C" -->
  *   Person *p = g_rc_box_new (Person);
  *
  *   // fill_person_details() is defined elsewhere
  *   fill_person_details (p);
  *
  *   // add_person_to_database_no_ref() is defined elsewhere; it adds
  *   // a Person to the Database without taking a reference
  *   add_person_to_database_no_ref (db, g_steal_pointer (&p));
  * ]|
  *
  * ## Thread safety
  *
  * The reference counting operations on data allocated using g_rc_box_alloc(),
  * g_rc_box_new(), and g_rc_box_dup() are not thread safe; it is your code's
  * responsibility to ensure that references are acquired are released on the
  * same thread.
  *
  * If you need thread safe reference counting, see the [atomic reference counted
  * data][arcbox] API.
  *
  * ## Automatic pointer clean up
  *
  * If you want to add g_autoptr() support to your plain old data type through
  * reference counting, you can use the G_DEFINE_AUTOPTR_CLEANUP_FUNC() and
  * g_rc_box_release():
  *
  * |[<!-- language="C" -->
  * G_DEFINE_AUTOPTR_CLEANUP_FUNC (MyDataStruct, g_rc_box_release)
  * ]|
  *
  * If you need to clear the contents of the data, you will need to use an
  * ancillary function that calls g_rc_box_release_full():
  *
  * |[<!-- language="C" -->
  * static void
  * my_data_struct_release (MyDataStruct *data)
  * {
  *   // my_data_struct_clear() is defined elsewhere
  *   g_rc_box_release_full (data, (GDestroyNotify) my_data_struct_clear);
  * }
  *
  * G_DEFINE_AUTOPTR_CLEANUP_FUNC (MyDataStruct, my_data_struct_release)
  * ]|
  *
  * Since: 2.58
  */

 /* We use the same alignment as GTypeInstance and GNU libc's malloc */
 #define ALIGN_STRUCT(offset)    ((offset + (STRUCT_ALIGNMENT - 1)) & -STRUCT_ALIGNMENT)

 #define G_RC_BOX(p)             (GRcBox *) (((char *) (p)) - G_RC_BOX_SIZE)

 gpointer
 g_rc_box_alloc_full (gsize    block_size,
                      gsize    alignment,
                      gboolean atomic,
                      gboolean clear)
 {
   /* We don't do an (atomic ? G_ARC_BOX_SIZE : G_RC_BOX_SIZE) check, here
    * because we have a static assertion that sizeof(GArcBox) == sizeof(GRcBox)
    * inside grcboxprivate.h, and we don't want the compiler to unnecessarily
    * warn about both branches of the conditional yielding identical results
    */
   gsize private_size = G_ARC_BOX_SIZE;
   gsize private_offset = 0;
   gsize real_size;
   char *allocated;

   g_assert (alignment != 0);

   /* We need to ensure that the private data is aligned */
   if (private_size % alignment != 0)
     {
       private_offset = private_size % alignment;
       private_size += (alignment - private_offset);
     }

   g_assert (block_size < (G_MAXSIZE - private_size));
   real_size = private_size + block_size;

   /* The real allocated size must be a multiple of @alignment, to
    * maintain the alignment of block_size
    */
   if (real_size % alignment != 0)
     {
       gsize offset = real_size % alignment;
       g_assert (real_size < (G_MAXSIZE - (alignment - offset)));
       real_size += (alignment - offset);
     }

 #ifdef ENABLE_VALGRIND
   if (RUNNING_ON_VALGRIND)
     {
       /* When running under Valgrind we massage the memory allocation
        * to include a pointer at the tail end of the block; the pointer
        * is then set to the start of the block. This trick allows
        * Valgrind to keep track of the over-allocation and not be
        * confused when passing the pointer around
        */
       g_assert (private_size < (G_MAXSIZE - ALIGN_STRUCT (1)));
       private_size += ALIGN_STRUCT (1);

       if (clear)
         allocated = g_malloc0 (real_size + sizeof (gpointer));
       else
         allocated = g_malloc (real_size + sizeof (gpointer));

       *(gpointer *) (allocated + private_size + block_size) = allocated + ALIGN_STRUCT (1);

       VALGRIND_MALLOCLIKE_BLOCK (allocated + private_size, block_size + sizeof (gpointer), 0, TRUE);
       VALGRIND_MALLOCLIKE_BLOCK (allocated + ALIGN_STRUCT (1), private_size - ALIGN_STRUCT (1), 0, TRUE);
     }
   else
 #endif /* ENABLE_VALGRIND */
     {
       if (clear)
         allocated = g_malloc0 (real_size);
       else
         allocated = g_malloc (real_size);
     }

   if (atomic)
     {
       /* We leave the alignment padding at the top of the allocation,
        * so we have an in memory layout of:
        *
        *  |[ offset ][ sizeof(GArcBox) ]||[ block_size ]|
        */
       GArcBox *real_box = (GArcBox *) (allocated + private_offset);
       /* Store the real size */
       real_box->mem_size = block_size;
       /* Store the alignment offset, to be used when freeing the
        * allocated block
        */
       real_box->private_offset = private_offset;
 #ifndef G_DISABLE_ASSERT
       real_box->magic = G_BOX_MAGIC;
 #endif
       g_atomic_ref_count_init (&real_box->ref_count);
     }
   else
     {
       /* We leave the alignment padding at the top of the allocation,
        * so we have an in memory layout of:
        *
        *  |[ offset ][ sizeof(GRcBox) ]||[ block_size ]|
        */
       GRcBox *real_box = (GRcBox *) (allocated + private_offset);
       /* Store the real size */
       real_box->mem_size = block_size;
       /* Store the alignment offset, to be used when freeing the
        * allocated block
        */
       real_box->private_offset = private_offset;
 #ifndef G_DISABLE_ASSERT
       real_box->magic = G_BOX_MAGIC;
 #endif
       g_ref_count_init (&real_box->ref_count);
     }

   TRACE (GLIB_RCBOX_ALLOC (allocated, block_size, atomic, clear));

   return allocated + private_size;
 }

 /**
  * g_rc_box_alloc:
  * @block_size: the size of the allocation, must be greater than 0
  *
  * Allocates @block_size bytes of memory, and adds reference
  * counting semantics to it.
  *
  * The data will be freed when its reference count drops to
  * zero.
  *
  * The allocated data is guaranteed to be suitably aligned for any
  * built-in type.
  *
  * Returns: (transfer full) (not nullable): a pointer to the allocated memory
  *
  * Since: 2.58
  */
 gpointer
 g_rc_box_alloc (gsize block_size)
 {
   g_return_val_if_fail (block_size > 0, NULL);

   return g_rc_box_alloc_full (block_size, STRUCT_ALIGNMENT, FALSE, FALSE);
 }

 /**
  * g_rc_box_alloc0:
  * @block_size: the size of the allocation, must be greater than 0
  *
  * Allocates @block_size bytes of memory, and adds reference
  * counting semantics to it.
  *
  * The contents of the returned data is set to zero.
  *
  * The data will be freed when its reference count drops to
  * zero.
  *
  * The allocated data is guaranteed to be suitably aligned for any
  * built-in type.
  *
  * Returns: (transfer full) (not nullable): a pointer to the allocated memory
  *
  * Since: 2.58
  */
 gpointer
 g_rc_box_alloc0 (gsize block_size)
 {
   g_return_val_if_fail (block_size > 0, NULL);

   return g_rc_box_alloc_full (block_size, STRUCT_ALIGNMENT, FALSE, TRUE);
 }

 /**
  * g_rc_box_new:
  * @type: the type to allocate, typically a structure name
  *
  * A convenience macro to allocate reference counted data with
  * the size of the given @type.
  *
  * This macro calls g_rc_box_alloc() with `sizeof (@type)` and
  * casts the returned pointer to a pointer of the given @type,
  * avoiding a type cast in the source code.
  *
  * Returns: (transfer full) (not nullable): a pointer to the
  *   allocated memory, cast to a pointer for the given @type
  *
  * Since: 2.58
  */

 /**
  * g_rc_box_new0:
  * @type: the type to allocate, typically a structure name
  *
  * A convenience macro to allocate reference counted data with
  * the size of the given @type, and set its contents to zero.
  *
  * This macro calls g_rc_box_alloc0() with `sizeof (@type)` and
  * casts the returned pointer to a pointer of the given @type,
  * avoiding a type cast in the source code.
  *
  * Returns: (transfer full) (not nullable): a pointer to the
  *   allocated memory, cast to a pointer for the given @type
  *
  * Since: 2.58
  */

 /**
  * g_rc_box_dup:
  * @block_size: the number of bytes to copy, must be greater than 0
  * @mem_block: (not nullable): the memory to copy
  *
  * Allocates a new block of data with reference counting
  * semantics, and copies @block_size bytes of @mem_block
  * into it.
  *
  * Returns: (transfer full) (not nullable): a pointer to the allocated
  *   memory
  *
  * Since: 2.58
  */
 gpointer
 (g_rc_box_dup) (gsize         block_size,
                 gconstpointer mem_block)
 {
   gpointer res;

   g_return_val_if_fail (block_size > 0, NULL);
   g_return_val_if_fail (mem_block != NULL, NULL);

   res = g_rc_box_alloc_full (block_size, STRUCT_ALIGNMENT, FALSE, FALSE);
   memcpy (res, mem_block, block_size);

   return res;
 }

 /**
  * g_rc_box_acquire:
  * @mem_block: (not nullable): a pointer to reference counted data
  *
  * Acquires a reference on the data pointed by @mem_block.
  *
  * Returns: (transfer full) (not nullable): a pointer to the data,
  *   with its reference count increased
  *
  * Since: 2.58
  */
 gpointer
 (g_rc_box_acquire) (gpointer mem_block)
 {
   GRcBox *real_box = G_RC_BOX (mem_block);

   g_return_val_if_fail (mem_block != NULL, NULL);
 #ifndef G_DISABLE_ASSERT
   g_return_val_if_fail (real_box->magic == G_BOX_MAGIC, NULL);
 #endif

   g_ref_count_inc (&real_box->ref_count);

   TRACE (GLIB_RCBOX_ACQUIRE (mem_block, 0));

   return mem_block;
 }

 /**
  * g_rc_box_release:
  * @mem_block: (transfer full) (not nullable): a pointer to reference counted data
  *
  * Releases a reference on the data pointed by @mem_block.
  *
  * If the reference was the last one, it will free the
  * resources allocated for @mem_block.
  *
  * Since: 2.58
  */
 void
 g_rc_box_release (gpointer mem_block)
 {
   g_rc_box_release_full (mem_block, NULL);
 }

 /**
  * g_rc_box_release_full:
  * @mem_block: (transfer full) (not nullable): a pointer to reference counted data
  * @clear_func: (not nullable): a function to call when clearing the data
  *
  * Releases a reference on the data pointed by @mem_block.
  *
  * If the reference was the last one, it will call @clear_func
  * to clear the contents of @mem_block, and then will free the
  * resources allocated for @mem_block.
  *
  * Since: 2.58
  */
 void
 g_rc_box_release_full (gpointer       mem_block,
                        GDestroyNotify clear_func)
 {
   GRcBox *real_box = G_RC_BOX (mem_block);

   g_return_if_fail (mem_block != NULL);
 #ifndef G_DISABLE_ASSERT
   g_return_if_fail (real_box->magic == G_BOX_MAGIC);
 #endif

   if (g_ref_count_dec (&real_box->ref_count))
     {
       char *real_mem = (char *) real_box - real_box->private_offset;

       TRACE (GLIB_RCBOX_RELEASE (mem_block, 0));

       if (clear_func != NULL)
         clear_func (mem_block);

       TRACE (GLIB_RCBOX_FREE (mem_block));
       g_free (real_mem);
     }
 }

 /**
  * g_rc_box_get_size:
  * @mem_block: (not nullable): a pointer to reference counted data
  *
  * Retrieves the size of the reference counted data pointed by @mem_block.
  *
  * Returns: the size of the data, in bytes
  *
  * Since: 2.58
  */
 gsize
 g_rc_box_get_size (gpointer mem_block)
 {
   GRcBox *real_box = G_RC_BOX (mem_block);

   g_return_val_if_fail (mem_block != NULL, 0);
 #ifndef G_DISABLE_ASSERT
   g_return_val_if_fail (real_box->magic == G_BOX_MAGIC, 0);
 #endif

   return real_box->mem_size;
 }
	/* grcbox.c: Reference counted data
	*
	* Copyright 2018 Emmanuele Bassi
	*
	* 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 2.1 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/>.
	*/

	#include "config.h"

	#include "grcboxprivate.h"

	#include "gmessages.h"
	#include "grefcount.h"
	#include "gtestutils.h"

	#ifdef ENABLE_VALGRIND
	#include "valgrind.h"
	#endif

	#include "glib_trace.h"

	#include <string.h>

	/**
	* SECTION:rcbox
	* @Title: Reference counted data
	* @Short_description: Allocated memory with reference counting semantics
	*
	* A "reference counted box", or "RcBox", is an opaque wrapper data type
	* that is guaranteed to be as big as the size of a given data type, and
	* which augments the given data type with reference counting semantics
	* for its memory management.
	*
	* RcBox is useful if you have a plain old data type, like a structure
	* typically placed on the stack, and you wish to provide additional API
	* to use it on the heap; or if you want to implement a new type to be
	* passed around by reference without necessarily implementing copy/free
	* semantics or your own reference counting.
	*
	* The typical use is:
	*
	* \|[<!-- language="C" -->
	* typedef struct {
	* char *name;
	* char *address;
	* char *city;
	* char *state;
	* int age;
	* } Person;
	*
	* Person *
	* person_new (void)
	* {
	* return g_rc_box_new0 (Person);
	* }
	* ]\|
	*
	* Every time you wish to acquire a reference on the memory, you should
	* call g_rc_box_acquire(); similarly, when you wish to release a reference
	* you should call g_rc_box_release():
	*
	* \|[<!-- language="C" -->
	* // Add a Person to the Database; the Database acquires ownership
	* // of the Person instance
	* void
	* add_person_to_database (Database db, Person p)
	* {
	* db->persons = g_list_prepend (db->persons, g_rc_box_acquire (p));
	* }
	*
	* // Removes a Person from the Database; the reference acquired by
	* // add_person_to_database() is released here
	* void
	* remove_person_from_database (Database db, Person p)
	* {
	* db->persons = g_list_remove (db->persons, p);
	* g_rc_box_release (p);
	* }
	* ]\|
	*
	* If you have additional memory allocated inside the structure, you can
	* use g_rc_box_release_full(), which takes a function pointer, which
	* will be called if the reference released was the last:
	*
	* \|[<!-- language="C" -->
	* void
	* person_clear (Person *p)
	* {
	* g_free (p->name);
	* g_free (p->address);
	* g_free (p->city);
	* g_free (p->state);
	* }
	*
	* void
	* remove_person_from_database (Database db, Person p)
	* {
	* db->persons = g_list_remove (db->persons, p);
	* g_rc_box_release_full (p, (GDestroyNotify) person_clear);
	* }
	* ]\|
	*
	* If you wish to transfer the ownership of a reference counted data
	* type without increasing the reference count, you can use g_steal_pointer():
	*
	* \|[<!-- language="C" -->
	* Person *p = g_rc_box_new (Person);
	*
	* // fill_person_details() is defined elsewhere
	* fill_person_details (p);
	*
	* // add_person_to_database_no_ref() is defined elsewhere; it adds
	* // a Person to the Database without taking a reference
	* add_person_to_database_no_ref (db, g_steal_pointer (&p));
	* ]\|
	*
	* ## Thread safety
	*
	* The reference counting operations on data allocated using g_rc_box_alloc(),
	* g_rc_box_new(), and g_rc_box_dup() are not thread safe; it is your code's
	* responsibility to ensure that references are acquired are released on the
	* same thread.
	*
	* If you need thread safe reference counting, see the [atomic reference counted
	* data][arcbox] API.
	*
	* ## Automatic pointer clean up
	*
	* If you want to add g_autoptr() support to your plain old data type through
	* reference counting, you can use the G_DEFINE_AUTOPTR_CLEANUP_FUNC() and
	* g_rc_box_release():
	*
	* \|[<!-- language="C" -->
	* G_DEFINE_AUTOPTR_CLEANUP_FUNC (MyDataStruct, g_rc_box_release)
	* ]\|
	*
	* If you need to clear the contents of the data, you will need to use an
	* ancillary function that calls g_rc_box_release_full():
	*
	* \|[<!-- language="C" -->
	* static void
	* my_data_struct_release (MyDataStruct *data)
	* {
	* // my_data_struct_clear() is defined elsewhere
	* g_rc_box_release_full (data, (GDestroyNotify) my_data_struct_clear);
	* }
	*
	* G_DEFINE_AUTOPTR_CLEANUP_FUNC (MyDataStruct, my_data_struct_release)
	* ]\|
	*
	* Since: 2.58
	*/

	/* We use the same alignment as GTypeInstance and GNU libc's malloc */
	#define ALIGN_STRUCT(offset) ((offset + (STRUCT_ALIGNMENT - 1)) & -STRUCT_ALIGNMENT)

	#define G_RC_BOX(p) (GRcBox ) (((char ) (p)) - G_RC_BOX_SIZE)

	gpointer
	g_rc_box_alloc_full (gsize block_size,
	gsize alignment,
	gboolean atomic,
	gboolean clear)
	{
	/* We don't do an (atomic ? G_ARC_BOX_SIZE : G_RC_BOX_SIZE) check, here
	* because we have a static assertion that sizeof(GArcBox) == sizeof(GRcBox)
	* inside grcboxprivate.h, and we don't want the compiler to unnecessarily
	* warn about both branches of the conditional yielding identical results
	*/
	gsize private_size = G_ARC_BOX_SIZE;
	gsize private_offset = 0;
	gsize real_size;
	char *allocated;

	g_assert (alignment != 0);

	/* We need to ensure that the private data is aligned */
	if (private_size % alignment != 0)
	{
	private_offset = private_size % alignment;
	private_size += (alignment - private_offset);
	}

	g_assert (block_size < (G_MAXSIZE - private_size));
	real_size = private_size + block_size;

	/* The real allocated size must be a multiple of @alignment, to
	* maintain the alignment of block_size
	*/
	if (real_size % alignment != 0)
	{
	gsize offset = real_size % alignment;
	g_assert (real_size < (G_MAXSIZE - (alignment - offset)));
	real_size += (alignment - offset);
	}

	#ifdef ENABLE_VALGRIND
	if (RUNNING_ON_VALGRIND)
	{
	/* When running under Valgrind we massage the memory allocation
	* to include a pointer at the tail end of the block; the pointer
	* is then set to the start of the block. This trick allows
	* Valgrind to keep track of the over-allocation and not be
	* confused when passing the pointer around
	*/
	g_assert (private_size < (G_MAXSIZE - ALIGN_STRUCT (1)));
	private_size += ALIGN_STRUCT (1);

	if (clear)
	allocated = g_malloc0 (real_size + sizeof (gpointer));
	else
	allocated = g_malloc (real_size + sizeof (gpointer));

	(gpointer ) (allocated + private_size + block_size) = allocated + ALIGN_STRUCT (1);

	VALGRIND_MALLOCLIKE_BLOCK (allocated + private_size, block_size + sizeof (gpointer), 0, TRUE);
	VALGRIND_MALLOCLIKE_BLOCK (allocated + ALIGN_STRUCT (1), private_size - ALIGN_STRUCT (1), 0, TRUE);
	}
	else
	#endif /* ENABLE_VALGRIND */
	{
	if (clear)
	allocated = g_malloc0 (real_size);
	else
	allocated = g_malloc (real_size);
	}

	if (atomic)
	{
	/* We leave the alignment padding at the top of the allocation,
	* so we have an in memory layout of:
	*
	* \|[ offset ][ sizeof(GArcBox) ]\|\|[ block_size ]\|
	*/
	GArcBox real_box = (GArcBox ) (allocated + private_offset);
	/* Store the real size */
	real_box->mem_size = block_size;
	/* Store the alignment offset, to be used when freeing the
	* allocated block
	*/
	real_box->private_offset = private_offset;
	#ifndef G_DISABLE_ASSERT
	real_box->magic = G_BOX_MAGIC;
	#endif
	g_atomic_ref_count_init (&real_box->ref_count);
	}
	else
	{
	/* We leave the alignment padding at the top of the allocation,
	* so we have an in memory layout of:
	*
	* \|[ offset ][ sizeof(GRcBox) ]\|\|[ block_size ]\|
	*/
	GRcBox real_box = (GRcBox ) (allocated + private_offset);
	/* Store the real size */
	real_box->mem_size = block_size;
	/* Store the alignment offset, to be used when freeing the
	* allocated block
	*/
	real_box->private_offset = private_offset;
	#ifndef G_DISABLE_ASSERT
	real_box->magic = G_BOX_MAGIC;
	#endif
	g_ref_count_init (&real_box->ref_count);
	}

	TRACE (GLIB_RCBOX_ALLOC (allocated, block_size, atomic, clear));

	return allocated + private_size;
	}

	/**
	* g_rc_box_alloc:
	* @block_size: the size of the allocation, must be greater than 0
	*
	* Allocates @block_size bytes of memory, and adds reference
	* counting semantics to it.
	*
	* The data will be freed when its reference count drops to
	* zero.
	*
	* The allocated data is guaranteed to be suitably aligned for any
	* built-in type.
	*
	* Returns: (transfer full) (not nullable): a pointer to the allocated memory
	*
	* Since: 2.58
	*/
	gpointer
	g_rc_box_alloc (gsize block_size)
	{
	g_return_val_if_fail (block_size > 0, NULL);

	return g_rc_box_alloc_full (block_size, STRUCT_ALIGNMENT, FALSE, FALSE);
	}

	/**
	* g_rc_box_alloc0:
	* @block_size: the size of the allocation, must be greater than 0
	*
	* Allocates @block_size bytes of memory, and adds reference
	* counting semantics to it.
	*
	* The contents of the returned data is set to zero.
	*
	* The data will be freed when its reference count drops to
	* zero.
	*
	* The allocated data is guaranteed to be suitably aligned for any
	* built-in type.
	*
	* Returns: (transfer full) (not nullable): a pointer to the allocated memory
	*
	* Since: 2.58
	*/
	gpointer
	g_rc_box_alloc0 (gsize block_size)
	{
	g_return_val_if_fail (block_size > 0, NULL);

	return g_rc_box_alloc_full (block_size, STRUCT_ALIGNMENT, FALSE, TRUE);
	}

	/**
	* g_rc_box_new:
	* @type: the type to allocate, typically a structure name
	*
	* A convenience macro to allocate reference counted data with
	* the size of the given @type.
	*
	* This macro calls g_rc_box_alloc() with `sizeof (@type)` and
	* casts the returned pointer to a pointer of the given @type,
	* avoiding a type cast in the source code.
	*
	* Returns: (transfer full) (not nullable): a pointer to the
	* allocated memory, cast to a pointer for the given @type
	*
	* Since: 2.58
	*/

	/**
	* g_rc_box_new0:
	* @type: the type to allocate, typically a structure name
	*
	* A convenience macro to allocate reference counted data with
	* the size of the given @type, and set its contents to zero.
	*
	* This macro calls g_rc_box_alloc0() with `sizeof (@type)` and
	* casts the returned pointer to a pointer of the given @type,
	* avoiding a type cast in the source code.
	*
	* Returns: (transfer full) (not nullable): a pointer to the
	* allocated memory, cast to a pointer for the given @type
	*
	* Since: 2.58
	*/

	/**
	* g_rc_box_dup:
	* @block_size: the number of bytes to copy, must be greater than 0
	* @mem_block: (not nullable): the memory to copy
	*
	* Allocates a new block of data with reference counting
	* semantics, and copies @block_size bytes of @mem_block
	* into it.
	*
	* Returns: (transfer full) (not nullable): a pointer to the allocated
	* memory
	*
	* Since: 2.58
	*/
	gpointer
	(g_rc_box_dup) (gsize block_size,
	gconstpointer mem_block)
	{
	gpointer res;

	g_return_val_if_fail (block_size > 0, NULL);
	g_return_val_if_fail (mem_block != NULL, NULL);

	res = g_rc_box_alloc_full (block_size, STRUCT_ALIGNMENT, FALSE, FALSE);
	memcpy (res, mem_block, block_size);

	return res;
	}

	/**
	* g_rc_box_acquire:
	* @mem_block: (not nullable): a pointer to reference counted data
	*
	* Acquires a reference on the data pointed by @mem_block.
	*
	* Returns: (transfer full) (not nullable): a pointer to the data,
	* with its reference count increased
	*
	* Since: 2.58
	*/
	gpointer
	(g_rc_box_acquire) (gpointer mem_block)
	{
	GRcBox *real_box = G_RC_BOX (mem_block);

	g_return_val_if_fail (mem_block != NULL, NULL);
	#ifndef G_DISABLE_ASSERT
	g_return_val_if_fail (real_box->magic == G_BOX_MAGIC, NULL);
	#endif

	g_ref_count_inc (&real_box->ref_count);

	TRACE (GLIB_RCBOX_ACQUIRE (mem_block, 0));

	return mem_block;
	}

	/**
	* g_rc_box_release:
	* @mem_block: (transfer full) (not nullable): a pointer to reference counted data
	*
	* Releases a reference on the data pointed by @mem_block.
	*
	* If the reference was the last one, it will free the
	* resources allocated for @mem_block.
	*
	* Since: 2.58
	*/
	void
	g_rc_box_release (gpointer mem_block)
	{
	g_rc_box_release_full (mem_block, NULL);
	}

	/**
	* g_rc_box_release_full:
	* @mem_block: (transfer full) (not nullable): a pointer to reference counted data
	* @clear_func: (not nullable): a function to call when clearing the data
	*
	* Releases a reference on the data pointed by @mem_block.
	*
	* If the reference was the last one, it will call @clear_func
	* to clear the contents of @mem_block, and then will free the
	* resources allocated for @mem_block.
	*
	* Since: 2.58
	*/
	void
	g_rc_box_release_full (gpointer mem_block,
	GDestroyNotify clear_func)
	{
	GRcBox *real_box = G_RC_BOX (mem_block);

	g_return_if_fail (mem_block != NULL);
	#ifndef G_DISABLE_ASSERT
	g_return_if_fail (real_box->magic == G_BOX_MAGIC);
	#endif

	if (g_ref_count_dec (&real_box->ref_count))
	{
	char real_mem = (char ) real_box - real_box->private_offset;

	TRACE (GLIB_RCBOX_RELEASE (mem_block, 0));

	if (clear_func != NULL)
	clear_func (mem_block);

	TRACE (GLIB_RCBOX_FREE (mem_block));
	g_free (real_mem);
	}
	}

	/**
	* g_rc_box_get_size:
	* @mem_block: (not nullable): a pointer to reference counted data
	*
	* Retrieves the size of the reference counted data pointed by @mem_block.
	*
	* Returns: the size of the data, in bytes
	*
	* Since: 2.58
	*/
	gsize
	g_rc_box_get_size (gpointer mem_block)
	{
	GRcBox *real_box = G_RC_BOX (mem_block);

	g_return_val_if_fail (mem_block != NULL, 0);
	#ifndef G_DISABLE_ASSERT
	g_return_val_if_fail (real_box->magic == G_BOX_MAGIC, 0);
	#endif

	return real_box->mem_size;
	}