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// Copyright © Tavian Barnes <tavianator@tavianator.com>
// SPDX-License-Identifier: 0BSD
/**
* Memory allocation.
*/
#ifndef BFS_ALLOC_H
#define BFS_ALLOC_H
#include "bfs.h"
#include <errno.h>
#include <stddef.h>
#include <stdlib.h>
#define IS_ALIGNED(align, size) \
(((size) & ((align) - 1)) == 0)
/** Check if a size is properly aligned. */
static inline bool is_aligned(size_t align, size_t size) {
return IS_ALIGNED(align, size);
}
#define ALIGN_FLOOR(align, size) \
((size) & ~((align) - 1))
/** Round down to a multiple of an alignment. */
static inline size_t align_floor(size_t align, size_t size) {
return ALIGN_FLOOR(align, size);
}
#define ALIGN_CEIL(align, size) \
((((size) - 1) | ((align) - 1)) + 1)
/** Round up to a multiple of an alignment. */
static inline size_t align_ceil(size_t align, size_t size) {
return ALIGN_CEIL(align, size);
}
/**
* Saturating size addition.
*/
static inline size_t size_add(size_t lhs, size_t rhs) {
size_t ret = lhs + rhs;
return ret >= lhs ? ret : (size_t)-1;
}
/**
* Saturating size multiplication.
*/
static inline size_t size_mul(size_t size, size_t count) {
size_t ret = size * count;
return ret / size == count ? ret : (size_t)-1;
}
/** Saturating array sizeof. */
#define sizeof_array(type, count) \
size_mul(sizeof(type), count)
/** Size of a struct/union field. */
#define sizeof_member(type, member) \
sizeof(((type *)NULL)->member)
/**
* @internal
* Our flexible struct size calculations assume that structs have the minimum
* trailing padding to align the type properly. A pathological ABI that adds
* extra padding would result in us under-allocating space for those structs,
* so we static_assert() that no such padding exists.
*/
#define ASSERT_FLEX_ABI(type, member) \
ASSERT_FLEX_ABI_( \
ALIGN_CEIL(alignof(type), offsetof(type, member)) >= sizeof(type), \
"Unexpected tail padding in " #type)
/**
* @internal
* The contortions here allow static_assert() to be used in expressions, rather
* than just declarations.
*/
#define ASSERT_FLEX_ABI_(...) \
((void)sizeof(struct { char _; static_assert(__VA_ARGS__); }))
/**
* Saturating flexible struct size.
*
* @align
* Struct alignment.
* @offset
* Flexible array member offset.
* @size
* Flexible array element size.
* @count
* Flexible array element count.
* @return
* The size of the struct with count flexible array elements. Saturates
* to the maximum aligned value on overflow.
*/
static inline size_t flex_size(size_t align, size_t offset, size_t size, size_t count) {
size_t ret = size_mul(size, count);
ret = size_add(ret, offset + align - 1);
ret = align_floor(align, ret);
return ret;
}
/**
* Computes the size of a flexible struct.
*
* @type
* The type of the struct containing the flexible array.
* @member
* The name of the flexible array member.
* @count
* The length of the flexible array.
* @return
* The size of the struct with count flexible array elements. Saturates
* to the maximum aligned value on overflow.
*/
#define sizeof_flex(type, member, count) \
(ASSERT_FLEX_ABI(type, member), flex_size( \
alignof(type), offsetof(type, member), sizeof_member(type, member[0]), count))
/**
* General memory allocator.
*
* @align
* The required alignment.
* @size
* The size of the allocation.
* @return
* The allocated memory, or NULL on failure.
*/
_malloc(free, 1)
_aligned_alloc(1, 2)
void *alloc(size_t align, size_t size);
/**
* Zero-initialized memory allocator.
*
* @align
* The required alignment.
* @size
* The size of the allocation.
* @return
* The allocated memory, or NULL on failure.
*/
_malloc(free, 1)
_aligned_alloc(1, 2)
void *zalloc(size_t align, size_t size);
/** Allocate memory for the given type. */
#define ALLOC(type) \
(type *)alloc(alignof(type), sizeof(type))
/** Allocate zeroed memory for the given type. */
#define ZALLOC(type) \
(type *)zalloc(alignof(type), sizeof(type))
/** Allocate memory for an array. */
#define ALLOC_ARRAY(type, count) \
(type *)alloc(alignof(type), sizeof_array(type, count))
/** Allocate zeroed memory for an array. */
#define ZALLOC_ARRAY(type, count) \
(type *)zalloc(alignof(type), sizeof_array(type, count))
/** Allocate memory for a flexible struct. */
#define ALLOC_FLEX(type, member, count) \
(type *)alloc(alignof(type), sizeof_flex(type, member, count))
/** Allocate zeroed memory for a flexible struct. */
#define ZALLOC_FLEX(type, member, count) \
(type *)zalloc(alignof(type), sizeof_flex(type, member, count))
/**
* Alignment-aware realloc().
*
* @ptr
* The pointer to reallocate.
* @align
* The required alignment.
* @old_size
* The previous allocation size.
* @new_size
* The new allocation size.
* @return
* The reallocated memory, or NULL on failure.
*/
_aligned_alloc(2, 4)
_nodiscard
void *xrealloc(void *ptr, size_t align, size_t old_size, size_t new_size);
/** Reallocate memory for an array. */
#define REALLOC_ARRAY(type, ptr, old_count, new_count) \
(type *)xrealloc((ptr), alignof(type), sizeof_array(type, old_count), sizeof_array(type, new_count))
/** Reallocate memory for a flexible struct. */
#define REALLOC_FLEX(type, member, ptr, old_count, new_count) \
(type *)xrealloc((ptr), alignof(type), sizeof_flex(type, member, old_count), sizeof_flex(type, member, new_count))
/**
* Reserve space for one more element in a dynamic array.
*
* @ptr
* The pointer to reallocate.
* @align
* The required alignment.
* @count
* The current size of the array.
* @return
* The reallocated memory, on both success *and* failure. On success,
* errno will be set to zero, and the returned pointer will have room
* for (count + 1) elements. On failure, errno will be non-zero, and
* ptr will returned unchanged.
*/
_nodiscard
void *reserve(void *ptr, size_t align, size_t size, size_t count);
/**
* Convenience macro to grow a dynamic array.
*
* @type
* The array element type.
* @type **ptr
* A pointer to the array.
* @size_t *count
* A pointer to the array's size.
* @return
* On success, a pointer to the newly reserved array element, i.e.
* `*ptr + *count++`. On failure, NULL is returned, and both *ptr and
* *count remain unchanged.
*/
#define RESERVE(type, ptr, count) \
((*ptr) = reserve((*ptr), alignof(type), sizeof(type), (*count)), \
errno ? NULL : (*ptr) + (*count)++)
/**
* An arena allocator for fixed-size types.
*
* Arena allocators are intentionally not thread safe.
*/
struct arena {
/** The number of allocated slabs. */
size_t nslabs;
/** The array of slabs. */
struct slab **slabs;
/** Chunk alignment. */
size_t align;
/** Chunk size. */
size_t size;
};
/**
* Initialize an arena for chunks of the given size and alignment.
*/
void arena_init(struct arena *arena, size_t align, size_t size);
/**
* Initialize an arena for the given type.
*/
#define ARENA_INIT(arena, type) \
arena_init((arena), alignof(type), sizeof(type))
/**
* Free an object from the arena.
*/
void arena_free(struct arena *arena, void *ptr);
/**
* Allocate an object out of the arena.
*/
_malloc(arena_free, 2)
void *arena_alloc(struct arena *arena);
/**
* Free all allocations from an arena.
*/
void arena_clear(struct arena *arena);
/**
* Destroy an arena, freeing all allocations.
*/
void arena_destroy(struct arena *arena);
/**
* An arena allocator for flexibly-sized types.
*/
struct varena {
/** The alignment of the struct. */
size_t align;
/** The offset of the flexible array. */
size_t offset;
/** The size of the flexible array elements. */
size_t size;
/** Shift amount for the smallest size class. */
size_t shift;
/** The number of arenas of different sizes. */
size_t narenas;
/** The array of differently-sized arenas. */
struct arena *arenas;
};
/**
* Initialize a varena for a struct with the given layout.
*
* @varena
* The varena to initialize.
* @align
* alignof(type)
* @offset
* offsetof(type, flexible_array)
* @size
* sizeof(flexible_array[i])
*/
void varena_init(struct varena *varena, size_t align, size_t offset, size_t size);
/**
* Initialize a varena for the given type and flexible array.
*
* @varena
* The varena to initialize.
* @type
* A struct type containing a flexible array.
* @member
* The name of the flexible array member.
*/
#define VARENA_INIT(varena, type, member) \
(ASSERT_FLEX_ABI(type, member), varena_init( \
varena, alignof(type), offsetof(type, member), sizeof_member(type, member[0])))
/**
* Free an arena-allocated flexible struct.
*
* @varena
* The that allocated the object.
* @ptr
* The object to free.
*/
void varena_free(struct varena *varena, void *ptr);
/**
* Arena-allocate a flexible struct.
*
* @varena
* The varena to allocate from.
* @count
* The length of the flexible array.
* @return
* The allocated struct, or NULL on failure.
*/
_malloc(varena_free, 2)
void *varena_alloc(struct varena *varena, size_t count);
/**
* Resize a flexible struct.
*
* @varena
* The varena to allocate from.
* @ptr
* The object to resize.
* @count
* The new array length.
* @return
* The resized struct, or NULL on failure.
*/
_nodiscard
void *varena_realloc(struct varena *varena, void *ptr, size_t count);
/**
* Grow a flexible struct by an arbitrary amount.
*
* @varena
* The varena to allocate from.
* @ptr
* The object to resize.
* @count[in,out]
* Pointer to the flexible array length.
* @return
* The resized struct, or NULL on failure.
*/
_nodiscard
void *varena_grow(struct varena *varena, void *ptr, size_t *count);
/**
* Free all allocations from a varena.
*/
void varena_clear(struct varena *varena);
/**
* Destroy a varena, freeing all allocations.
*/
void varena_destroy(struct varena *varena);
#endif // BFS_ALLOC_H
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