#include "hashmap.h" #include uint32_t ext2fs_djb2_hash(const void *str, size_t size) { int c; const char *s = str; uint32_t hash = 5381; while (size-- > 0) { c = *s++; hash = ((hash << 5) + hash) + c; } return hash; } struct ext2fs_hashmap *ext2fs_hashmap_create( uint32_t(*hash_fct)(const void*, size_t), void(*free_fct)(void*), size_t size) { struct ext2fs_hashmap *h = calloc(sizeof(struct ext2fs_hashmap) + sizeof(struct ext2fs_hashmap_entry) * size, 1); h->size = size; h->free = free_fct; h->hash = hash_fct; h->first = h->last = NULL; return h; } void ext2fs_hashmap_add(struct ext2fs_hashmap *h, void *data, const void *key, size_t key_len) { uint32_t hash = h->hash(key, key_len) % h->size; struct ext2fs_hashmap_entry *e = malloc(sizeof(*e)); e->data = data; e->key = key; e->key_len = key_len; e->next = h->entries[hash]; h->entries[hash] = e; e->list_prev = NULL; e->list_next = h->first; if (h->first) h->first->list_prev = e; h->first = e; if (!h->last) h->last = e; } void *ext2fs_hashmap_lookup(struct ext2fs_hashmap *h, const void *key, size_t key_len) { struct ext2fs_hashmap_entry *iter; uint32_t hash = h->hash(key, key_len) % h->size; for (iter = h->entries[hash]; iter; iter = iter->next) if (iter->key_len == key_len && !memcmp(iter->key, key, key_len)) return iter->data; return NULL; } void *ext2fs_hashmap_iter_in_order(struct ext2fs_hashmap *h, struct ext2fs_hashmap_entry **it) { *it = *it ? (*it)->list_next : h->first; return *it ? (*it)->data : NULL; } void ext2fs_hashmap_free(struct ext2fs_hashmap *h) { for (size_t i = 0; i < h->size; ++i) { struct ext2fs_hashmap_entry *it = h->entries[i]; while (it) { struct ext2fs_hashmap_entry *tmp = it->next; if (h->free) h->free(it->data); free(it); it = tmp; } } free(h); }