/**
* slibc — Yet another C library
* Copyright © 2015 Mattias Andrée (maandree@member.fsf.org)
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see .
*/
#ifndef _MALLOC_H
#define _MALLOC_H
#include
#include
#ifndef _STDLIB_H
# if defined(__PORTABLE)
# error "Do not directly include , include instead."
# else
# warning "Do not directly include , include instead."
# endif
#endif
#define __NEED_size_t
#include
/**
* Create a new memory allocation on the heap.
* The allocation will not be initialised.
* The returned pointer has an alignment usable
* for any compiler-independent intrinsic data type.
*
* @etymology (M)emory (alloc)ation.
*
* @param size The size of the allocation.
* @return Pointer to the beginning of the new allocation.
* If `size` is zero, this function will either return
* `NULL` (that is what this implement does) or return
* a unique pointer that can later be freed with `free`.
* `NULL` is returned on error, and `errno` is set to
* indicate the error.
*
* @throws ENOMEM The process cannot allocate more memory.
*
* @since Always.
*/
void* malloc(size_t)
__GCC_ONLY(__attribute__((__malloc__, __warn_unused_result__)));
/**
* Variant of `malloc` that clears the allocation with zeroes.
*
* `p = calloc(n, m)` is equivalent to
* `(p = malloc(n * m), p ? (explicit_bzero(p, n * m), p) : NULL)`
*
* @etymology (C)leared memory (alloc)ation.
*
* @param elem_count The number of elements to allocate.
* @param elem_size The size of each element.
* @return Pointer to the beginning of the new allocation.
* If `elem_count` or `elem_size` is zero, this function
* will either return `NULL` (that is what this implement
* does) or return a unique pointer that can later be
* freed with `free`. `NULL` is returned on error, and
* `errno` is set to indicate the error.
*
* @throws ENOMEM The process cannot allocate more memory.
*
* @since Always.
*/
void* calloc(size_t, size_t)
__GCC_ONLY(__attribute__((__malloc__, __warn_unused_result__)));
#if defined(__PLAN9_SOURCE)
/**
* Variant of `malloc` that conditionally clears the allocation with zeroes.
*
* `mallocz(size, clear)` is equivalent to
* both `(clear ? zalloc : malloc)(size)`
* and `(clear ? calloc(1, size) : malloc(size))`.
*
* This is a Plan 9 from Bell Labs extension.
*
* @etymology (M)emory (alloc)ation with potential (z)eroing.
*
* @param size The size of the allocation.
* @param clear Clear the allocation unless this value is zero.
* @return Pointer to the beginning of the new allocation.
* If `size` is zero, this function will either return
* `NULL` (that is what this implement does) or return
* a unique pointer that can later be freed with `free`.
* `NULL` is returned on error, and `errno` is set to
* indicate the error.
*
* @throws ENOMEM The process cannot allocate more memory.
*
* @since Always.
*/
void* mallocz(size_t, int)
__GCC_ONLY(__attribute__((__malloc__, __warn_unused_result__)));
#endif
#if !defined(__PORTABLE)
/**
* Variant of `malloc` that clears the allocation with zeroes.
*
* `zalloc(n)` is equivalent to `calloc(1, n)`, or equivalently,
* `calloc(n, m)` is equivalent to `zalloc(n * m)` assuming `n * m`
* does not overflow (in which case `calloc(n, m)` returns `ENOMEM`.)
*
* This is a klibc extension.
*
* @etymology (Z)eroed memory (alloc)ation.
*
* @param size The size of the allocation.
* @return Pointer to the beginning of the new allocation.
* If `size` is zero, this function will either return
* `NULL` (that is what this implement does) or return
* a unique pointer that can later be freed with `free`.
* `NULL` is returned on error, and `errno` is set to
* indicate the error.
*
* @throws ENOMEM The process cannot allocate more memory.
*
* @since Always.
*/
void* zalloc(size_t)
__warning("'zalloc' is klibc extension, use 'calloc(1, n)' instead of 'zalloc(n)'.")
__GCC_ONLY(__attribute__((__malloc__, __warn_unused_result__)));
#endif
/**
* Variant of `malloc` that extends, or shrinks, an existing allocation,
* if beneficial and possible, or creates a new allocation with the new
* size, copies the data, and frees the old allocation. The returned
* pointer has an alignment usable for any compiler-independent intrinsic
* data type, if a new pointer is returned.
*
* On error, `ptr` is not freed.
*
* @etymology Memory (realloc)ation.
*
* @param ptr Pointer to the beginning of the old memory allocation.
* The process may crash if it does not point to the
* beginning of a memory allocation on the heap.
* However, if it is `NULL`, this function will behave
* like `malloc`.
* @param size The new allocation size. If zero, this function will
* behave like `free`, and will return `NULL`.
* @return Pointer to the beginning of the new allocation.
* If `size` is zero, `NULL` is returned. On error `NULL`
* is returned and `errno` is set to indicate the error.
*
* @throws ENOMEM The process cannot allocate more memory.
*
* @since Always.
*/
void* realloc(void*, size_t)
__GCC_ONLY(__attribute__((__warn_unused_result__)))
__slibc_warning("Use 'fast_realloc', 'secure_realloc', or 'crealloc' instead.");
/**
* Free a memory allocation.
*
* @etymology (Free) allocated memory.
*
* @param ptr Pointer to the beginning of the memory allocation.
* The process may crash if it does not point to the
* beginning of a memory allocation on the heap.
* However, if it is `NULL`, nothing will happen.
*
* @since Always.
*/
void free(void*)
__slibc_warning("Use 'fast_free' or 'secure_free' instead.");
/**
* This function is identical to `free`.
* Any argument beyond the first argument, is ignored.
*
* This function uses variadic arguments because there
* there are multiple conflicting specifications for `cfree`.
*
* @param ptr Pointer to the beginning of the memory allocation.
* The process may crash if it does not point to the
* beginning of a memory allocation on the heap.
* However, if it is `NULL`, nothing will happen.
*
* @since Always.
*/
#if !defined(__PORTABLE)
void cfree(void*, ...)
__deprecated("'cfree' is deprecated and not portable, use 'free' instead.");
#endif
/**
* Variant of `malloc` that returns an address with a
* specified alignment.
*
* It is unspecified how the function works. This implemention
* will allocate a bit of extra memory and shift the returned
* pointer so that it is aligned.
*
* As a GNU-compliant slibc extension, memory allocated
* with this function can be freed with `free`.
*
* @etymology (Mem)ory (align)ment.
*
* @param boundary The alignment.
* @param size The number of bytes to allocated.
* @return Pointer to the beginning of the new allocation.
* If `size` is zero, this function will either return
* `NULL` (that is what this implement does) or return
* a unique pointer that can later be freed with `free`.
* `NULL` is returned on error, and `errno` is set to
* indicate the error.
*
* @throws ENOMEM The process cannot allocate more memory.
* @throws EINVAL If `boundary` is not a power of two.
*
* @since Always.
*/
void* memalign(size_t, size_t)
#ifdef __C11__
__deprecated("'memalign' has be deprecated by 'aligned_alloc' in C11.")
#endif
__GCC_ONLY(__attribute__((__malloc__, __warn_unused_result__)));
#if (__POSIX_C_SOURCE >= 200112L) || (__XOPEN_SOURCE >= 600)
/**
* `posix_memalign(p, b, n)` is equivalent to
* `(*p = memalign(b, n), *p ? 0 : errno)`, except
* `boundary` must also be a multiple of `sizeof(void*)`,
* and `errno` is unspecified.
*
* As a GNU-compliant slibc extension, memory allocated
* with this function can be freed with `free`.
*
* @etymology (POSIX)-extension: (mem)ory alignment.
*
* @param ptrptr Output parameter for the allocated memory.
* @param boundary The alignment.
* @param size The number of bytes to allocated.
* @return Zero on success, a value for `errno` on error.
*
* @throws ENOMEM The process cannot allocate more memory.
* @throws EINVAL If `boundary` is not a power-of-two multiple of `sizeof(void*)`.
*
* @since Always.
*/
int posix_memalign(void**, size_t, size_t)
__GCC_ONLY(__attribute__((__nonnull__)));
#endif
#if defined(__BSD_SOURCE) || defined(__XOPEN_SOURCE_EXTENDED) || defined(__SLIBC_SOURCE)
/**
* `valloc(n)` is equivalent to `memalign(sysconf(_SC_PAGESIZE), n)`.
*
* As a GNU-compliant slibc extension, memory allocated
* with this function can be freed with `free`.
*
* @etymology Whole-(v)irtual-memory-page aligned memory (alloc)ation.
*
* @param size The number of bytes to allocated.
* @return Pointer to the beginning of the new allocation.
* If `size` is zero, this function will either return
* `NULL` (that is what this implement does) or return
* a unique pointer that can later be freed with `free`.
* `NULL` is returned on error, and `errno` is set to
* indicate the error.
*
* @throws ENOMEM The process cannot allocate more memory.
*
* @since Always.
*/
void* valloc(size_t)
__GCC_ONLY(__attribute__((__malloc__, __warn_unused_result__)))
__deprecated("'valloc' is deprecated, use 'memalign' or 'posix_memalign' instead.");
#endif
/**
* This function works like `valloc`, except the allocation size,
* including auxiliary space, is rounded up to the next multiple
* of the page size.
*
* @etymology Whole-(p)age-allocation variant of (`valloc`).
*
* @param size The number of bytes to allocated.
* @return Pointer to the beginning of the new allocation.
* If `size` is zero, this function will either return
* `NULL` (that is what this implement does) or return
* a unique pointer that can later be freed with `free`.
* `NULL` is returned on error, and `errno` is set to
* indicate the error.
*
* @throws ENOMEM The process cannot allocate more memory.
*
* @since Always.
*/
void* pvalloc(size_t)
__GCC_ONLY(__attribute__((__malloc__, __warn_unused_result__)))
__deprecated("'pvalloc' is deprecated, use 'memalign' or 'posix_memalign' instead.");
#if defined(__C11__) || defined(__BUILDING_SLIBC)
/**
* This function is identical to `memalign`,
* except it can be freed with `free`.
*
* Variant of `malloc` that returns an address with a
* specified alignment.
*
* It is unspecified how the function works. This implemention
* will allocate a bit of extra memory and shift the returned
* pointer so that it is aligned.
*
* @etymology (Align)ed memory (alloc)ation.
*
* @param boundary The alignment.
* @param size The number of bytes to allocated.
* @return Pointer to the beginning of the new allocation.
* If `size` is zero, this function will either return
* `NULL` (that is what this implement does) or return
* a unique pointer that can later be freed with `free`.
* `NULL` is returned on error, and `errno` is set to
* indicate the error.
*
* @throws ENOMEM The process cannot allocate more memory.
* @throws EINVAL If `boundary` is not a power of two.
*
* @since Always.
*/
void* aligned_alloc(size_t, size_t)
__GCC_ONLY(__attribute__((__malloc__, __warn_unused_result__)));
#endif
#if defined(__GNU_SOURCE)
/**
* This function returns the allocation size of
* a memory segment.
*
* `p = malloc(n), malloc_usable_size(p)` will return `n`.
*
* @etymology (`malloc`)-subsystem: user-(usable size) of allocation.
*
* @param segment The memory segment.
* @return The size of the memory segment, 0 if `segment` is `NULL`.
*
* @since Always.
*/
size_t malloc_usable_size(void*)
__GCC_ONLY(__attribute__((__warn_unused_result__)));
#endif
/* TODO add mallopt, M_TRIME_THRESHOLD, M_TOP_PAD, M_MMAP_THRESHOLD, and M_MMAP_MAX */
/* TODO add struct mallinfo, and mallinfo */
#endif