malloc always returns memory that is set to the maximum alignment required by any of the primitive types. This allows
malloc'd memory to store any type you may need. My understanding of the description of
posix_memalign, is that it returns a memory location who's address will be a multiple of whatever you specify as the alignment.
Im not sure how useful this would be when writing a custom memory pool, but I have had a go at providing an example of how this could be implemented. The difference is with my example, anything allocated with
malloc_aligned has to be freed with
free_aligned; however, with
posix_memalign you can use
void *malloc_aligned(size_t alignment, size_t bytes)
// we need to allocate enough storage for the requested bytes, some
// book-keeping (to store the location returned by malloc) and some extra
// padding to allow us to find an aligned byte. im not entirely sure if
// 2 * alignment is enough here, its just a guess.
const size_t total_size = bytes + (2 * alignment) + sizeof(size_t);
// use malloc to allocate the memory.
char *data = malloc(sizeof(char) * total_size);
// store the original start of the malloc'd data.
const void * const data_start = data;
// dedicate enough space to the book-keeping.
data += sizeof(size_t);
// find a memory location with correct alignment. the alignment minus
// the remainder of this mod operation is how many bytes forward we need
// to move to find an aligned byte.
const size_t offset = alignment - (((size_t)data) % alignment);
// set data to the aligned memory.
data += offset;
// write the book-keeping.
size_t *book_keeping = (size_t*)(data - sizeof(size_t));
*book_keeping = (size_t)data_start;
void free_aligned(void *raw_data)
char *data = raw_data;
// we have to assume this memory was allocated with malloc_aligned.
// this means the sizeof(size_t) bytes before data are the book-keeping
// which points to the location we need to pass to free.
data -= sizeof(size_t);
// set data to the location stored in book-keeping.
data = (char*)(*((size_t*)data));
// free the memory.
char *ptr = malloc_aligned(7, 100);
printf("is 5 byte aligned = %s\n", (((size_t)ptr) % 5) ? "no" : "yes");
printf("is 7 byte aligned = %s\n", (((size_t)ptr) % 7) ? "no" : "yes");