assembler/ralloc.h - platform/external/igt-gpu-tools - Git at Google

 /*
  * Copyright © 2010 Intel Corporation
  *
  * Permission is hereby granted, free of charge, to any person obtaining a
  * copy of this software and associated documentation files (the "Software"),
  * to deal in the Software without restriction, including without limitation
  * the rights to use, copy, modify, merge, publish, distribute, sublicense,
  * and/or sell copies of the Software, and to permit persons to whom the
  * Software is furnished to do so, subject to the following conditions:
  *
  * The above copyright notice and this permission notice (including the next
  * paragraph) shall be included in all copies or substantial portions of the
  * Software.
  *
  * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
  * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
  * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.  IN NO EVENT SHALL
  * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
  * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
  * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
  * DEALINGS IN THE SOFTWARE.
  */

 /**
  * \file ralloc.h
  *
  * ralloc: a recursive memory allocator
  *
  * The ralloc memory allocator creates a hierarchy of allocated
  * objects. Every allocation is in reference to some parent, and
  * every allocated object can in turn be used as the parent of a
  * subsequent allocation. This allows for extremely convenient
  * discarding of an entire tree/sub-tree of allocations by calling
  * ralloc_free on any particular object to free it and all of its
  * children.
  *
  * The conceptual working of ralloc was directly inspired by Andrew
  * Tridgell's talloc, but ralloc is an independent implementation
  * released under the MIT license and tuned for Mesa.
  *
  * The talloc implementation is available under the GNU Lesser
  * General Public License (GNU LGPL), version 3 or later. It is
  * more sophisticated than ralloc in that it includes reference
  * counting and debugging features. See: http://talloc.samba.org/
  */

 #ifndef RALLOC_H
 #define RALLOC_H

 #ifdef __cplusplus
 extern "C" {
 #endif

 #include <stddef.h>
 #include <stdarg.h>
 #include <stdbool.h>
 #include "brw_compat.h"

 /**
  * \def ralloc(ctx, type)
  * Allocate a new object chained off of the given context.
  *
  * This is equivalent to:
  * \code
  * ((type *) ralloc_size(ctx, sizeof(type))
  * \endcode
  */
 #define ralloc(ctx, type)  ((type *) ralloc_size(ctx, sizeof(type)))

 /**
  * \def rzalloc(ctx, type)
  * Allocate a new object out of the given context and initialize it to zero.
  *
  * This is equivalent to:
  * \code
  * ((type *) rzalloc_size(ctx, sizeof(type))
  * \endcode
  */
 #define rzalloc(ctx, type) ((type *) rzalloc_size(ctx, sizeof(type)))

 /**
  * Allocate a new ralloc context.
  *
  * While any ralloc'd pointer can be used as a context, sometimes it is useful
  * to simply allocate a context with no associated memory.
  *
  * It is equivalent to:
  * \code
  * ((type *) ralloc_size(ctx, 0)
  * \endcode
  */
 void *ralloc_context(const void *ctx);

 /**
  * Allocate memory chained off of the given context.
  *
  * This is the core allocation routine which is used by all others.  It
  * simply allocates storage for \p size bytes and returns the pointer,
  * similar to \c malloc.
  */
 void *ralloc_size(const void *ctx, size_t size);

 /**
  * Allocate zero-initialized memory chained off of the given context.
  *
  * This is similar to \c calloc with a size of 1.
  */
 void *rzalloc_size(const void *ctx, size_t size);

 /**
  * Resize a piece of ralloc-managed memory, preserving data.
  *
  * Similar to \c realloc.  Unlike C89, passing 0 for \p size does not free the
  * memory.  Instead, it resizes it to a 0-byte ralloc context, just like
  * calling ralloc_size(ctx, 0).  This is different from talloc.
  *
  * \param ctx  The context to use for new allocation.  If \p ptr != NULL,
  *             it must be the same as ralloc_parent(\p ptr).
  * \param ptr  Pointer to the memory to be resized.  May be NULL.
  * \param size The amount of memory to allocate, in bytes.
  */
 void *reralloc_size(const void *ctx, void *ptr, size_t size);

 /// \defgroup array Array Allocators @{

 /**
  * \def ralloc_array(ctx, type, count)
  * Allocate an array of objects chained off the given context.
  *
  * Similar to \c calloc, but does not initialize the memory to zero.
  *
  * More than a convenience function, this also checks for integer overflow when
  * multiplying \c sizeof(type) and \p count.  This is necessary for security.
  *
  * This is equivalent to:
  * \code
  * ((type *) ralloc_array_size(ctx, sizeof(type), count)
  * \endcode
  */
 #define ralloc_array(ctx, type, count) \
    ((type *) ralloc_array_size(ctx, sizeof(type), count))

 /**
  * \def rzalloc_array(ctx, type, count)
  * Allocate a zero-initialized array chained off the given context.
  *
  * Similar to \c calloc.
  *
  * More than a convenience function, this also checks for integer overflow when
  * multiplying \c sizeof(type) and \p count.  This is necessary for security.
  *
  * This is equivalent to:
  * \code
  * ((type *) rzalloc_array_size(ctx, sizeof(type), count)
  * \endcode
  */
 #define rzalloc_array(ctx, type, count) \
    ((type *) rzalloc_array_size(ctx, sizeof(type), count))

 /**
  * \def reralloc(ctx, ptr, type, count)
  * Resize a ralloc-managed array, preserving data.
  *
  * Similar to \c realloc.  Unlike C89, passing 0 for \p size does not free the
  * memory.  Instead, it resizes it to a 0-byte ralloc context, just like
  * calling ralloc_size(ctx, 0).  This is different from talloc.
  *
  * More than a convenience function, this also checks for integer overflow when
  * multiplying \c sizeof(type) and \p count.  This is necessary for security.
  *
  * \param ctx   The context to use for new allocation.  If \p ptr != NULL,
  *              it must be the same as ralloc_parent(\p ptr).
  * \param ptr   Pointer to the array to be resized.  May be NULL.
  * \param type  The element type.
  * \param count The number of elements to allocate.
  */
 #define reralloc(ctx, ptr, type, count) \
    ((type *) reralloc_array_size(ctx, ptr, sizeof(type), count))

 /**
  * Allocate memory for an array chained off the given context.
  *
  * Similar to \c calloc, but does not initialize the memory to zero.
  *
  * More than a convenience function, this also checks for integer overflow when
  * multiplying \p size and \p count.  This is necessary for security.
  */
 void *ralloc_array_size(const void *ctx, size_t size, unsigned count);

 /**
  * Allocate a zero-initialized array chained off the given context.
  *
  * Similar to \c calloc.
  *
  * More than a convenience function, this also checks for integer overflow when
  * multiplying \p size and \p count.  This is necessary for security.
  */
 void *rzalloc_array_size(const void *ctx, size_t size, unsigned count);

 /**
  * Resize a ralloc-managed array, preserving data.
  *
  * Similar to \c realloc.  Unlike C89, passing 0 for \p size does not free the
  * memory.  Instead, it resizes it to a 0-byte ralloc context, just like
  * calling ralloc_size(ctx, 0).  This is different from talloc.
  *
  * More than a convenience function, this also checks for integer overflow when
  * multiplying \c sizeof(type) and \p count.  This is necessary for security.
  *
  * \param ctx   The context to use for new allocation.  If \p ptr != NULL,
  *              it must be the same as ralloc_parent(\p ptr).
  * \param ptr   Pointer to the array to be resized.  May be NULL.
  * \param size  The size of an individual element.
  * \param count The number of elements to allocate.
  *
  * \return True unless allocation failed.
  */
 void *reralloc_array_size(const void *ctx, void *ptr, size_t size,
 			  unsigned count);
 /// @}

 /**
  * Free a piece of ralloc-managed memory.
  *
  * This will also free the memory of any children allocated this context.
  */
 void ralloc_free(void *ptr);

 /**
  * "Steal" memory from one context, changing it to another.
  *
  * This changes \p ptr's context to \p new_ctx.  This is quite useful if
  * memory is allocated out of a temporary context.
  */
 void ralloc_steal(const void *new_ctx, void *ptr);

 /**
  * Return the given pointer's ralloc context.
  */
 void *ralloc_parent(const void *ptr);

 /**
  * Return a context whose memory will be automatically freed at program exit.
  *
  * The first call to this function creates a context and registers a handler
  * to free it using \c atexit.  This may cause trouble if used in a library
  * loaded with \c dlopen.
  */
 void *ralloc_autofree_context(void);

 /**
  * Set a callback to occur just before an object is freed.
  */
 void ralloc_set_destructor(const void *ptr, void(*destructor)(void *));

 /// \defgroup array String Functions @{
 /**
  * Duplicate a string, allocating the memory from the given context.
  */
 char *ralloc_strdup(const void *ctx, const char *str);

 /**
  * Duplicate a string, allocating the memory from the given context.
  *
  * Like \c strndup, at most \p n characters are copied.  If \p str is longer
  * than \p n characters, \p n are copied, and a termining \c '\0' byte is added.
  */
 char *ralloc_strndup(const void *ctx, const char *str, size_t n);

 /**
  * Concatenate two strings, allocating the necessary space.
  *
  * This appends \p str to \p *dest, similar to \c strcat, using ralloc_resize
  * to expand \p *dest to the appropriate size.  \p dest will be updated to the
  * new pointer unless allocation fails.
  *
  * The result will always be null-terminated.
  *
  * \return True unless allocation failed.
  */
 bool ralloc_strcat(char **dest, const char *str);

 /**
  * Concatenate two strings, allocating the necessary space.
  *
  * This appends at most \p n bytes of \p str to \p *dest, using ralloc_resize
  * to expand \p *dest to the appropriate size.  \p dest will be updated to the
  * new pointer unless allocation fails.
  *
  * The result will always be null-terminated; \p str does not need to be null
  * terminated if it is longer than \p n.
  *
  * \return True unless allocation failed.
  */
 bool ralloc_strncat(char **dest, const char *str, size_t n);

 /**
  * Print to a string.
  *
  * This is analogous to \c sprintf, but allocates enough space (using \p ctx
  * as the context) for the resulting string.
  *
  * \return The newly allocated string.
  */
 char *ralloc_asprintf (const void *ctx, const char *fmt, ...) PRINTFLIKE(2, 3);

 /**
  * Print to a string, given a va_list.
  *
  * This is analogous to \c vsprintf, but allocates enough space (using \p ctx
  * as the context) for the resulting string.
  *
  * \return The newly allocated string.
  */
 char *ralloc_vasprintf(const void *ctx, const char *fmt, va_list args);

 /**
  * Rewrite the tail of an existing string, starting at a given index.
  *
  * Overwrites the contents of *str starting at \p start with newly formatted
  * text, including a new null-terminator.  Allocates more memory as necessary.
  *
  * This can be used to append formatted text when the length of the existing
  * string is already known, saving a strlen() call.
  *
  * \sa ralloc_asprintf_append
  *
  * \param str   The string to be updated.
  * \param start The index to start appending new data at.
  * \param fmt   A printf-style formatting string
  *
  * \p str will be updated to the new pointer unless allocation fails.
  * \p start will be increased by the length of the newly formatted text.
  *
  * \return True unless allocation failed.
  */
 bool ralloc_asprintf_rewrite_tail(char **str, size_t *start,
 				  const char *fmt, ...)
 				  PRINTFLIKE(3, 4);

 /**
  * Rewrite the tail of an existing string, starting at a given index.
  *
  * Overwrites the contents of *str starting at \p start with newly formatted
  * text, including a new null-terminator.  Allocates more memory as necessary.
  *
  * This can be used to append formatted text when the length of the existing
  * string is already known, saving a strlen() call.
  *
  * \sa ralloc_vasprintf_append
  *
  * \param str   The string to be updated.
  * \param start The index to start appending new data at.
  * \param fmt   A printf-style formatting string
  * \param args  A va_list containing the data to be formatted
  *
  * \p str will be updated to the new pointer unless allocation fails.
  * \p start will be increased by the length of the newly formatted text.
  *
  * \return True unless allocation failed.
  */
 bool ralloc_vasprintf_rewrite_tail(char **str, size_t *start, const char *fmt,
 				   va_list args);

 /**
  * Append formatted text to the supplied string.
  *
  * This is equivalent to
  * \code
  * ralloc_asprintf_rewrite_tail(str, strlen(*str), fmt, ...)
  * \endcode
  *
  * \sa ralloc_asprintf
  * \sa ralloc_asprintf_rewrite_tail
  * \sa ralloc_strcat
  *
  * \p str will be updated to the new pointer unless allocation fails.
  *
  * \return True unless allocation failed.
  */
 bool ralloc_asprintf_append (char **str, const char *fmt, ...)
 			     PRINTFLIKE(2, 3);

 /**
  * Append formatted text to the supplied string, given a va_list.
  *
  * This is equivalent to
  * \code
  * ralloc_vasprintf_rewrite_tail(str, strlen(*str), fmt, args)
  * \endcode
  *
  * \sa ralloc_vasprintf
  * \sa ralloc_vasprintf_rewrite_tail
  * \sa ralloc_strcat
  *
  * \p str will be updated to the new pointer unless allocation fails.
  *
  * \return True unless allocation failed.
  */
 bool ralloc_vasprintf_append(char **str, const char *fmt, va_list args);
 /// @}

 #ifdef __cplusplus
 } /* end of extern "C" */
 #endif

 #endif
	/*
	* Copyright © 2010 Intel Corporation
	*
	* Permission is hereby granted, free of charge, to any person obtaining a
	* copy of this software and associated documentation files (the "Software"),
	* to deal in the Software without restriction, including without limitation
	* the rights to use, copy, modify, merge, publish, distribute, sublicense,
	* and/or sell copies of the Software, and to permit persons to whom the
	* Software is furnished to do so, subject to the following conditions:
	*
	* The above copyright notice and this permission notice (including the next
	* paragraph) shall be included in all copies or substantial portions of the
	* Software.
	*
	* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
	* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
	* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
	* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
	* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
	* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
	* DEALINGS IN THE SOFTWARE.
	*/

	/**
	* \file ralloc.h
	*
	* ralloc: a recursive memory allocator
	*
	* The ralloc memory allocator creates a hierarchy of allocated
	* objects. Every allocation is in reference to some parent, and
	* every allocated object can in turn be used as the parent of a
	* subsequent allocation. This allows for extremely convenient
	* discarding of an entire tree/sub-tree of allocations by calling
	* ralloc_free on any particular object to free it and all of its
	* children.
	*
	* The conceptual working of ralloc was directly inspired by Andrew
	* Tridgell's talloc, but ralloc is an independent implementation
	* released under the MIT license and tuned for Mesa.
	*
	* The talloc implementation is available under the GNU Lesser
	* General Public License (GNU LGPL), version 3 or later. It is
	* more sophisticated than ralloc in that it includes reference
	* counting and debugging features. See: http://talloc.samba.org/
	*/

	#ifndef RALLOC_H
	#define RALLOC_H

	#ifdef __cplusplus
	extern "C" {
	#endif

	#include <stddef.h>
	#include <stdarg.h>
	#include <stdbool.h>
	#include "brw_compat.h"

	/**
	* \def ralloc(ctx, type)
	* Allocate a new object chained off of the given context.
	*
	* This is equivalent to:
	* \code
	* ((type *) ralloc_size(ctx, sizeof(type))
	* \endcode
	*/
	#define ralloc(ctx, type) ((type *) ralloc_size(ctx, sizeof(type)))

	/**
	* \def rzalloc(ctx, type)
	* Allocate a new object out of the given context and initialize it to zero.
	*
	* This is equivalent to:
	* \code
	* ((type *) rzalloc_size(ctx, sizeof(type))
	* \endcode
	*/
	#define rzalloc(ctx, type) ((type *) rzalloc_size(ctx, sizeof(type)))

	/**
	* Allocate a new ralloc context.
	*
	* While any ralloc'd pointer can be used as a context, sometimes it is useful
	* to simply allocate a context with no associated memory.
	*
	* It is equivalent to:
	* \code
	* ((type *) ralloc_size(ctx, 0)
	* \endcode
	*/
	void ralloc_context(const void ctx);

	/**
	* Allocate memory chained off of the given context.
	*
	* This is the core allocation routine which is used by all others. It
	* simply allocates storage for \p size bytes and returns the pointer,
	* similar to \c malloc.
	*/
	void ralloc_size(const void ctx, size_t size);

	/**
	* Allocate zero-initialized memory chained off of the given context.
	*
	* This is similar to \c calloc with a size of 1.
	*/
	void rzalloc_size(const void ctx, size_t size);

	/**
	* Resize a piece of ralloc-managed memory, preserving data.
	*
	* Similar to \c realloc. Unlike C89, passing 0 for \p size does not free the
	* memory. Instead, it resizes it to a 0-byte ralloc context, just like
	* calling ralloc_size(ctx, 0). This is different from talloc.
	*
	* \param ctx The context to use for new allocation. If \p ptr != NULL,
	* it must be the same as ralloc_parent(\p ptr).
	* \param ptr Pointer to the memory to be resized. May be NULL.
	* \param size The amount of memory to allocate, in bytes.
	*/
	void reralloc_size(const void ctx, void *ptr, size_t size);

	/// \defgroup array Array Allocators @{

	/**
	* \def ralloc_array(ctx, type, count)
	* Allocate an array of objects chained off the given context.
	*
	* Similar to \c calloc, but does not initialize the memory to zero.
	*
	* More than a convenience function, this also checks for integer overflow when
	* multiplying \c sizeof(type) and \p count. This is necessary for security.
	*
	* This is equivalent to:
	* \code
	* ((type *) ralloc_array_size(ctx, sizeof(type), count)
	* \endcode
	*/
	#define ralloc_array(ctx, type, count) \
	((type *) ralloc_array_size(ctx, sizeof(type), count))

	/**
	* \def rzalloc_array(ctx, type, count)
	* Allocate a zero-initialized array chained off the given context.
	*
	* Similar to \c calloc.
	*
	* More than a convenience function, this also checks for integer overflow when
	* multiplying \c sizeof(type) and \p count. This is necessary for security.
	*
	* This is equivalent to:
	* \code
	* ((type *) rzalloc_array_size(ctx, sizeof(type), count)
	* \endcode
	*/
	#define rzalloc_array(ctx, type, count) \
	((type *) rzalloc_array_size(ctx, sizeof(type), count))

	/**
	* \def reralloc(ctx, ptr, type, count)
	* Resize a ralloc-managed array, preserving data.
	*
	* Similar to \c realloc. Unlike C89, passing 0 for \p size does not free the
	* memory. Instead, it resizes it to a 0-byte ralloc context, just like
	* calling ralloc_size(ctx, 0). This is different from talloc.
	*
	* More than a convenience function, this also checks for integer overflow when
	* multiplying \c sizeof(type) and \p count. This is necessary for security.
	*
	* \param ctx The context to use for new allocation. If \p ptr != NULL,
	* it must be the same as ralloc_parent(\p ptr).
	* \param ptr Pointer to the array to be resized. May be NULL.
	* \param type The element type.
	* \param count The number of elements to allocate.
	*/
	#define reralloc(ctx, ptr, type, count) \
	((type *) reralloc_array_size(ctx, ptr, sizeof(type), count))

	/**
	* Allocate memory for an array chained off the given context.
	*
	* Similar to \c calloc, but does not initialize the memory to zero.
	*
	* More than a convenience function, this also checks for integer overflow when
	* multiplying \p size and \p count. This is necessary for security.
	*/
	void ralloc_array_size(const void ctx, size_t size, unsigned count);

	/**
	* Allocate a zero-initialized array chained off the given context.
	*
	* Similar to \c calloc.
	*
	* More than a convenience function, this also checks for integer overflow when
	* multiplying \p size and \p count. This is necessary for security.
	*/
	void rzalloc_array_size(const void ctx, size_t size, unsigned count);

	/**
	* Resize a ralloc-managed array, preserving data.
	*
	* Similar to \c realloc. Unlike C89, passing 0 for \p size does not free the
	* memory. Instead, it resizes it to a 0-byte ralloc context, just like
	* calling ralloc_size(ctx, 0). This is different from talloc.
	*
	* More than a convenience function, this also checks for integer overflow when
	* multiplying \c sizeof(type) and \p count. This is necessary for security.
	*
	* \param ctx The context to use for new allocation. If \p ptr != NULL,
	* it must be the same as ralloc_parent(\p ptr).
	* \param ptr Pointer to the array to be resized. May be NULL.
	* \param size The size of an individual element.
	* \param count The number of elements to allocate.
	*
	* \return True unless allocation failed.
	*/
	void reralloc_array_size(const void ctx, void *ptr, size_t size,
	unsigned count);
	/// @}

	/**
	* Free a piece of ralloc-managed memory.
	*
	* This will also free the memory of any children allocated this context.
	*/
	void ralloc_free(void *ptr);

	/**
	* "Steal" memory from one context, changing it to another.
	*
	* This changes \p ptr's context to \p new_ctx. This is quite useful if
	* memory is allocated out of a temporary context.
	*/
	void ralloc_steal(const void new_ctx, void ptr);

	/**
	* Return the given pointer's ralloc context.
	*/
	void ralloc_parent(const void ptr);

	/**
	* Return a context whose memory will be automatically freed at program exit.
	*
	* The first call to this function creates a context and registers a handler
	* to free it using \c atexit. This may cause trouble if used in a library
	* loaded with \c dlopen.
	*/
	void *ralloc_autofree_context(void);

	/**
	* Set a callback to occur just before an object is freed.
	*/
	void ralloc_set_destructor(const void ptr, void(destructor)(void *));

	/// \defgroup array String Functions @{
	/**
	* Duplicate a string, allocating the memory from the given context.
	*/
	char ralloc_strdup(const void ctx, const char *str);

	/**
	* Duplicate a string, allocating the memory from the given context.
	*
	* Like \c strndup, at most \p n characters are copied. If \p str is longer
	* than \p n characters, \p n are copied, and a termining \c '\0' byte is added.
	*/
	char ralloc_strndup(const void ctx, const char *str, size_t n);

	/**
	* Concatenate two strings, allocating the necessary space.
	*
	* This appends \p str to \p *dest, similar to \c strcat, using ralloc_resize
	* to expand \p *dest to the appropriate size. \p dest will be updated to the
	* new pointer unless allocation fails.
	*
	* The result will always be null-terminated.
	*
	* \return True unless allocation failed.
	*/
	bool ralloc_strcat(char *dest, const char str);

	/**
	* Concatenate two strings, allocating the necessary space.
	*
	* This appends at most \p n bytes of \p str to \p *dest, using ralloc_resize
	* to expand \p *dest to the appropriate size. \p dest will be updated to the
	* new pointer unless allocation fails.
	*
	* The result will always be null-terminated; \p str does not need to be null
	* terminated if it is longer than \p n.
	*
	* \return True unless allocation failed.
	*/
	bool ralloc_strncat(char *dest, const char str, size_t n);

	/**
	* Print to a string.
	*
	* This is analogous to \c sprintf, but allocates enough space (using \p ctx
	* as the context) for the resulting string.
	*
	* \return The newly allocated string.
	*/
	char ralloc_asprintf (const void ctx, const char *fmt, ...) PRINTFLIKE(2, 3);

	/**
	* Print to a string, given a va_list.
	*
	* This is analogous to \c vsprintf, but allocates enough space (using \p ctx
	* as the context) for the resulting string.
	*
	* \return The newly allocated string.
	*/
	char ralloc_vasprintf(const void ctx, const char *fmt, va_list args);

	/**
	* Rewrite the tail of an existing string, starting at a given index.
	*
	* Overwrites the contents of *str starting at \p start with newly formatted
	* text, including a new null-terminator. Allocates more memory as necessary.
	*
	* This can be used to append formatted text when the length of the existing
	* string is already known, saving a strlen() call.
	*
	* \sa ralloc_asprintf_append
	*
	* \param str The string to be updated.
	* \param start The index to start appending new data at.
	* \param fmt A printf-style formatting string
	*
	* \p str will be updated to the new pointer unless allocation fails.
	* \p start will be increased by the length of the newly formatted text.
	*
	* \return True unless allocation failed.
	*/
	bool ralloc_asprintf_rewrite_tail(char *str, size_t start,
	const char *fmt, ...)
	PRINTFLIKE(3, 4);

	/**
	* Rewrite the tail of an existing string, starting at a given index.
	*
	* Overwrites the contents of *str starting at \p start with newly formatted
	* text, including a new null-terminator. Allocates more memory as necessary.
	*
	* This can be used to append formatted text when the length of the existing
	* string is already known, saving a strlen() call.
	*
	* \sa ralloc_vasprintf_append
	*
	* \param str The string to be updated.
	* \param start The index to start appending new data at.
	* \param fmt A printf-style formatting string
	* \param args A va_list containing the data to be formatted
	*
	* \p str will be updated to the new pointer unless allocation fails.
	* \p start will be increased by the length of the newly formatted text.
	*
	* \return True unless allocation failed.
	*/
	bool ralloc_vasprintf_rewrite_tail(char *str, size_t start, const char *fmt,
	va_list args);

	/**
	* Append formatted text to the supplied string.
	*
	* This is equivalent to
	* \code
	* ralloc_asprintf_rewrite_tail(str, strlen(*str), fmt, ...)
	* \endcode
	*
	* \sa ralloc_asprintf
	* \sa ralloc_asprintf_rewrite_tail
	* \sa ralloc_strcat
	*
	* \p str will be updated to the new pointer unless allocation fails.
	*
	* \return True unless allocation failed.
	*/
	bool ralloc_asprintf_append (char *str, const char fmt, ...)
	PRINTFLIKE(2, 3);

	/**
	* Append formatted text to the supplied string, given a va_list.
	*
	* This is equivalent to
	* \code
	* ralloc_vasprintf_rewrite_tail(str, strlen(*str), fmt, args)
	* \endcode
	*
	* \sa ralloc_vasprintf
	* \sa ralloc_vasprintf_rewrite_tail
	* \sa ralloc_strcat
	*
	* \p str will be updated to the new pointer unless allocation fails.
	*
	* \return True unless allocation failed.
	*/
	bool ralloc_vasprintf_append(char *str, const char fmt, va_list args);
	/// @}

	#ifdef __cplusplus
	} /* end of extern "C" */
	#endif

	#endif