#define NO_ALLOCATOR 1 /* number of bytes a page hold, not including the header */ #define PAGE_BYTES (16384 - sizeof(Page)) #define PAGE_MAX_ALIGNS (PAGE_BYTES / sizeof(max_align_t)) static void allocr_create(Allocator *a) { a->first = a->last = NULL; } static void *allocr_malloc(Allocator *a, size_t bytes) { assert(bytes); #if NO_ALLOCATOR (void)a; return err_malloc(bytes); #else /* position in this page to return */ size_t pos = PAGE_MAX_ALIGNS; if (a->last) pos = a->last->used; size_t max_aligns = (bytes + sizeof(max_align_t) - 1) / sizeof(max_align_t); if (pos + max_aligns > PAGE_MAX_ALIGNS) { /* make a new page for this data */ Page *page = err_malloc(sizeof *page + (bytes > PAGE_BYTES ? bytes : PAGE_BYTES)); page->next = NULL; page->used = max_aligns; if (a->last) a->last->next = page; else a->first = page; a->last = page; return page->data; } else { a->last->used += max_aligns; return &a->last->data[pos]; } #endif } static void *allocr_calloc(Allocator *a, size_t n, size_t sz) { #if NO_ALLOCATOR (void)a; return err_calloc(n, sz); #else /* OPTIM: use calloc */ size_t bytes = n * sz; void *data = allocr_malloc(a, bytes); memset(data, 0, bytes); return data; #endif } /* OPTIM */ static void *allocr_realloc(Allocator *a, void *data, size_t old_size, size_t new_size) { #if NO_ALLOCATOR (void)a; (void)old_size; return err_realloc(data, new_size); #else void *ret = allocr_malloc(a, new_size); memcpy(ret, data, old_size); return ret; #endif } static void allocr_free_all(Allocator *a) { for (Page *page = a->first; page;) { Page *next = page->next; free(page); page = next; } }