/* Copyright 2011-2018 David Robillard Permission to use, copy, modify, and/or distribute this software for any purpose with or without fee is hereby granted, provided that the above copyright notice and this permission notice appear in all copies. THIS SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include "zix/hash.h" #include #include #include /** Primes, each slightly less than twice its predecessor, and as far away from powers of two as possible. */ static const unsigned sizes[] = { 53, 97, 193, 389, 769, 1543, 3079, 6151, 12289, 24593, 49157, 98317, 196613, 393241, 786433, 1572869, 3145739, 6291469, 12582917, 25165843, 50331653, 100663319, 201326611, 402653189, 805306457, 1610612741, 0 }; typedef struct ZixHashEntry { struct ZixHashEntry* next; ///< Next entry in bucket uint32_t hash; ///< Non-modulo hash value // Value follows here (access with zix_hash_value) } ZixHashEntry; struct ZixHashImpl { ZixHashFunc hash_func; ZixEqualFunc equal_func; ZixHashEntry** buckets; const unsigned* n_buckets; size_t value_size; unsigned count; }; static inline void* zix_hash_value(ZixHashEntry* entry) { return entry + 1; } ZixHash* zix_hash_new(ZixHashFunc hash_func, ZixEqualFunc equal_func, size_t value_size) { ZixHash* hash = (ZixHash*)malloc(sizeof(ZixHash)); if (hash) { hash->hash_func = hash_func; hash->equal_func = equal_func; hash->n_buckets = &sizes[0]; hash->value_size = value_size; hash->count = 0; if (!(hash->buckets = (ZixHashEntry**)calloc(*hash->n_buckets, sizeof(ZixHashEntry*)))) { free(hash); return NULL; } } return hash; } void zix_hash_free(ZixHash* hash) { if (!hash) { return; } for (unsigned b = 0; b < *hash->n_buckets; ++b) { ZixHashEntry* bucket = hash->buckets[b]; for (ZixHashEntry* e = bucket; e;) { ZixHashEntry* next = e->next; free(e); e = next; } } free(hash->buckets); free(hash); } size_t zix_hash_size(const ZixHash* hash) { return hash->count; } static inline void insert_entry(ZixHashEntry** bucket, ZixHashEntry* entry) { entry->next = *bucket; *bucket = entry; } static inline ZixStatus rehash(ZixHash* hash, unsigned new_n_buckets) { ZixHashEntry** new_buckets = (ZixHashEntry**)calloc( new_n_buckets, sizeof(ZixHashEntry*)); if (!new_buckets) { return ZIX_STATUS_NO_MEM; } const unsigned old_n_buckets = *hash->n_buckets; for (unsigned b = 0; b < old_n_buckets; ++b) { for (ZixHashEntry* e = hash->buckets[b]; e;) { ZixHashEntry* const next = e->next; const unsigned h = e->hash % new_n_buckets; insert_entry(&new_buckets[h], e); e = next; } } free(hash->buckets); hash->buckets = new_buckets; return ZIX_STATUS_SUCCESS; } static inline ZixHashEntry* find_entry(const ZixHash* hash, const void* key, const unsigned h, const unsigned h_nomod) { for (ZixHashEntry* e = hash->buckets[h]; e; e = e->next) { if (e->hash == h_nomod && hash->equal_func(zix_hash_value(e), key)) { return e; } } return NULL; } void* zix_hash_find(const ZixHash* hash, const void* value) { const unsigned h_nomod = hash->hash_func(value); const unsigned h = h_nomod % *hash->n_buckets; ZixHashEntry* const entry = find_entry(hash, value, h, h_nomod); return entry ? zix_hash_value(entry) : 0; } ZixStatus zix_hash_insert(ZixHash* hash, const void* value, void** inserted) { unsigned h_nomod = hash->hash_func(value); unsigned h = h_nomod % *hash->n_buckets; ZixHashEntry* elem = find_entry(hash, value, h, h_nomod); if (elem) { assert(elem->hash == h_nomod); if (inserted) { *inserted = zix_hash_value(elem); } return ZIX_STATUS_EXISTS; } elem = (ZixHashEntry*)malloc(sizeof(ZixHashEntry) + hash->value_size); if (!elem) { return ZIX_STATUS_NO_MEM; } elem->next = NULL; elem->hash = h_nomod; memcpy(elem + 1, value, hash->value_size); const unsigned next_n_buckets = *(hash->n_buckets + 1); if (next_n_buckets != 0 && (hash->count + 1) >= next_n_buckets) { if (!rehash(hash, next_n_buckets)) { h = h_nomod % *(++hash->n_buckets); } } insert_entry(&hash->buckets[h], elem); ++hash->count; if (inserted) { *inserted = zix_hash_value(elem); } return ZIX_STATUS_SUCCESS; } ZixStatus zix_hash_remove(ZixHash* hash, const void* value) { const unsigned h_nomod = hash->hash_func(value); const unsigned h = h_nomod % *hash->n_buckets; ZixHashEntry** next_ptr = &hash->buckets[h]; for (ZixHashEntry* e = hash->buckets[h]; e; e = e->next) { if (h_nomod == e->hash && hash->equal_func(zix_hash_value(e), value)) { *next_ptr = e->next; free(e); return ZIX_STATUS_SUCCESS; } next_ptr = &e->next; } if (hash->n_buckets != sizes) { const unsigned prev_n_buckets = *(hash->n_buckets - 1); if (hash->count - 1 <= prev_n_buckets) { if (!rehash(hash, prev_n_buckets)) { --hash->n_buckets; } } } --hash->count; return ZIX_STATUS_NOT_FOUND; } void zix_hash_foreach(ZixHash* hash, ZixHashVisitFunc f, void* user_data) { for (unsigned b = 0; b < *hash->n_buckets; ++b) { ZixHashEntry* bucket = hash->buckets[b]; for (ZixHashEntry* e = bucket; e; e = e->next) { f(zix_hash_value(e), user_data); } } }