/*************************************************************************** gb_hash_temp.h (c) 2000-2017 BenoƮt Minisini This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. ***************************************************************************/ #define __GB_HASH_C #include #include "gb_common.h" #include "gb_common_case.h" #include "gb_common_string.h" #include "gb_alloc.h" #include "gb_hash.h" #define NODE_value(_node) ((void *)((char *)_node) + sizeof(HASH_NODE)) //#define NODE_length(_table, _node) (*((ushort *)(((char *)_node) + sizeof(HASH_NODE) + (_table)->s_value))) #define NODE_key(_table, _node) ((HASH_KEY *)(((char *)_node) + sizeof(HASH_NODE) + (_table)->s_value)) #define MUST_RESIZE(hash) ((hash_table->size >= 3 * hash_table->nnodes && hash_table->size > HASH_TABLE_MIN_SIZE) || (3 * hash_table->size <= hash_table->nnodes && hash_table->size < HASH_TABLE_MAX_SIZE)) static void hash_table_resize(HASH_TABLE *hash_table); static HASH_NODE **hash_table_lookup_node(HASH_TABLE *hash_table, const char *key, int len); static HASH_NODE *hash_node_new(HASH_TABLE *hash_table, const char *key, int len); static void hash_node_destroy(HASH_NODE *hash_node); #ifdef KEEP_ORDER #else static void hash_nodes_destroy(HASH_NODE *hash_node); #endif // Put a random number in that if you want to be safe on the Internet uint HASH_seed = 0x9A177BA5; static const int primes[] = { 11, 19, 37, 73, 109, 163, 251, 367, 557, 823, 1237, 1861, 2777, 4177, 6247, 9371, 14057, 21089, 31627, 47431, 71143, 106721, 160073, 240101, 360163, 540217, 810343, 1215497, 1823231, 2734867, 4102283, 6153409, 9230113, 13845163 }; //static const uint seed[] = { 0x9A177BA5, 0x9A177BA4, 0x9A177BA7, 0x9A177BA6, 0x9A177BA1, 0x9A177BA0, 0x9A177BA3, 0x9A177BA2, 0x9A177BAD }; static const int nprimes = sizeof (primes) / sizeof (primes[0]); static int spaced_primes_closest(int num) { int i; for (i = 0; i < nprimes; i++) if (primes[i] > num) return primes[i]; return primes[nprimes - 1]; } // Fast hashing functions. Sometimes Microsoft Research produces useful things. static uint key_hash_binary(const char *key, int len) { static const void *jump[] = { &&__LEN_0, &&__LEN_1, &&__LEN_2, &&__LEN_3, &&__LEN_4, &&__LEN_5, &&__LEN_6, &&__LEN_7, &&__LEN_8 }; uint seed = HASH_seed; uint hash = seed ^ len; if (len > 8) { key += len - 8; len = 8; } goto *jump[len]; __LEN_8: hash = hash * seed + key[7]; __LEN_7: hash = hash * seed + key[6]; __LEN_6: hash = hash * seed + key[5]; __LEN_5: hash = hash * seed + key[4]; __LEN_4: hash = hash * seed + key[3]; __LEN_3: hash = hash * seed + key[2]; __LEN_2: hash = hash * seed + key[1]; __LEN_1: hash = hash * seed + key[0]; __LEN_0: return hash; } static uint key_hash_text(const char *key, int len) { static const void *jump[] = { &&__LEN_0, &&__LEN_1, &&__LEN_2, &&__LEN_3, &&__LEN_4, &&__LEN_5, &&__LEN_6, &&__LEN_7, &&__LEN_8 }; uint seed = HASH_seed; uint hash = seed ^ len; if (len > 8) { key += len - 8; len = 8; } goto *jump[len]; __LEN_8: hash = hash * seed + ((uint)key[7] & ~0x20U); __LEN_7: hash = hash * seed + ((uint)key[6] & ~0x20U); __LEN_6: hash = hash * seed + ((uint)key[5] & ~0x20U); __LEN_5: hash = hash * seed + ((uint)key[4] & ~0x20U); __LEN_4: hash = hash * seed + ((uint)key[3] & ~0x20U); __LEN_3: hash = hash * seed + ((uint)key[2] & ~0x20U); __LEN_2: hash = hash * seed + ((uint)key[1] & ~0x20U); __LEN_1: hash = hash * seed + ((uint)key[0] & ~0x20U); __LEN_0: return hash; } #define get_hash_func(_hash) ((_hash)->mode ? key_hash_text : key_hash_binary) void HASH_TABLE_create(HASH_TABLE **hash, size_t s_value, HASH_FLAG mode) { HASH_TABLE *hash_table; /*int i;*/ ALLOC_ZERO(&hash_table, sizeof(HASH_TABLE)); hash_table->size = HASH_TABLE_MIN_SIZE; hash_table->s_value = s_value; ALLOC_ZERO(&hash_table->nodes, sizeof(HASH_NODE *) * hash_table->size); if (mode == HF_IGNORE_CASE) hash_table->mode = mode; else hash_table->mode = HF_NORMAL; *hash = hash_table; } void HASH_TABLE_delete(HASH_TABLE **hash) { HASH_TABLE *hash_table = *hash; if (hash_table == NULL) return; #ifdef KEEP_ORDER HASH_NODE *node, *next; node = hash_table->sfirst; hash_table->sfirst = NULL; hash_table->slast = NULL; while (node) { next = node->snext; FREE(&node); node = next; } #else int i; for (i = 0; i < hash_table->size; i++) hash_nodes_destroy(hash_table->nodes[i]); #endif FREE(&hash_table->nodes); FREE(hash); } int HASH_TABLE_size(HASH_TABLE *hash_table) { return hash_table->nnodes; } static HASH_NODE **hash_table_lookup_node(HASH_TABLE *hash_table, const char *key, int len) { HASH_NODE **node; HASH_KEY *node_key; uint hash; //int n; if (hash_table->mode) { hash = key_hash_text(key, len); node = &hash_table->nodes[hash % hash_table->size]; //n = 0; while (*node) { node_key = NODE_key(hash_table, *node); //n++; if (node_key->len == len && STRING_equal_ignore_case_same(key, node_key->key, len)) break; node = &(*node)->next; } } else { hash = key_hash_binary(key, len); node = &hash_table->nodes[hash % hash_table->size]; //n = 0; while (*node) { node_key = NODE_key(hash_table, *node); //n++; if (node_key->len == len && STRING_equal_same(key, node_key->key, len)) break; node = &(*node)->next; } } //fprintf(stderr, "hash_table_lookup_node %p: %d %d -> %d\n", hash_table, hash_table->size, hash_table->nnodes, n); return node; } void *HASH_TABLE_lookup(HASH_TABLE *hash_table, const char *key, int len, bool set_last) { HASH_NODE *node; if (len == 0) return NULL; node = *hash_table_lookup_node(hash_table, key, len); if (set_last) hash_table->last = node; return node ? NODE_value(node) : NULL; } void *HASH_TABLE_insert(HASH_TABLE *hash_table, const char *key, int len) { HASH_NODE **node; void *value; node = hash_table_lookup_node(hash_table, key, len); if (*node != NULL) return NODE_value(*node); *node = hash_node_new(hash_table, key, len); hash_table->nnodes++; /*if (!hash_table->frozen)*/ value = NODE_value(*node); if (MUST_RESIZE(hash_table)) hash_table_resize(hash_table); return value; } void HASH_TABLE_remove(HASH_TABLE *hash_table, const char *key, int len) { HASH_NODE **node, *dest; node = hash_table_lookup_node(hash_table, key, len); if (*node != NULL) { dest = *node; (*node) = dest->next; #ifdef KEEP_ORDER if (dest->sprev) dest->sprev->snext = dest->snext; else hash_table->sfirst = dest->snext; if (dest->snext) dest->snext->sprev = dest->sprev; else hash_table->slast = dest->sprev; #endif hash_node_destroy(dest); hash_table->nnodes--; hash_table->last = NULL; /*if (!hash_table->frozen)*/ if (MUST_RESIZE(hash_table)) hash_table_resize(hash_table); } } void *HASH_TABLE_next(HASH_TABLE *hash_table, HASH_ENUM *iter, bool set_last) { #ifdef KEEP_ORDER if (iter->node == NULL) iter->node = hash_table->sfirst; else iter->node = iter->next; if (set_last) hash_table->last = iter->node; if (iter->node) { iter->next = iter->node->snext; return NODE_value(iter->node); } else return NULL; #else HASH_NODE *enum_node = iter->node; int enum_i = iter->index; if (enum_node) enum_node = enum_node->next; while (enum_node == NULL) { enum_i++; if (enum_i >= hash_table->size) break; enum_node = hash_table->nodes[enum_i]; }; iter->node = enum_node; iter->index = enum_i; if (set_last) hash_table->last = enum_node; if (enum_node) return NODE_value(enum_node); else return NULL; #endif } #if 0 static void dump_hash_table(HASH_TABLE *hash_table) { int i; HASH_NODE *node; HASH_KEY *node_key; for (i = 0; i < hash_table->size; i++) { fprintf(stderr, "%5d: ", i); for (node = hash_table->nodes[i]; node; node = node->next) { node_key = NODE_key(hash_table, node); fprintf(stderr, "%.*s ", node_key->len, node_key->key); } fprintf(stderr, "\n"); } fprintf(stderr, "\n"); } #endif static void hash_table_resize(HASH_TABLE *hash_table) { HASH_NODE **old_nodes; HASH_NODE **new_nodes; HASH_NODE *node; HASH_NODE *next; HASH_KEY *node_key; int hash_val; int new_size; int i; HASH_FUNC hash_func = get_hash_func(hash_table); new_size = MinMax(spaced_primes_closest(hash_table->nnodes), HASH_TABLE_MIN_SIZE, HASH_TABLE_MAX_SIZE); //fprintf(stderr, "**** hash_table_resize %p %d: %d -> %d\n", hash_table, hash_table->nnodes, hash_table->size, new_size); //fprintf(stderr, "BEFORE:\n"); //dump_hash_table(hash_table); old_nodes = hash_table->nodes; ALLOC_ZERO(&new_nodes, new_size * sizeof(HASH_NODE *)); for (i = 0; i < hash_table->size; i++) for (node = hash_table->nodes[i]; node; node = next) { next = node->next; node_key = NODE_key(hash_table, node); hash_val = (*hash_func)(node_key->key, node_key->len) % new_size; node->next = new_nodes[hash_val]; new_nodes[hash_val] = node; } FREE(&old_nodes); hash_table->nodes = new_nodes; hash_table->size = new_size; //fprintf(stderr, "AFTER:\n"); //dump_hash_table(hash_table); } static HASH_NODE *hash_node_new(HASH_TABLE *hash_table, const char *key, int len) { HASH_NODE *hash_node; int size; HASH_KEY *node_key; if (len > 65535) len = 65535; size = sizeof(HASH_NODE) + hash_table->s_value + sizeof(HASH_KEY) + len; ALLOC_ZERO(&hash_node, size); node_key = NODE_key(hash_table, hash_node); memcpy(node_key->key, key, len); node_key->len = len; //node_key->hash = hash_table->mode ? key_hash_text(key, len) : key_hash_binary(key, len); #ifdef KEEP_ORDER if (!hash_table->sfirst) { hash_table->sfirst = hash_node; hash_table->slast = hash_node; } else { hash_node->sprev = hash_table->slast; hash_node->sprev->snext = hash_node; hash_table->slast = hash_node; } #endif return hash_node; } static void hash_node_destroy(HASH_NODE *hash_node) { FREE(&hash_node); } #ifdef KEEP_ORDER #else static void hash_nodes_destroy(HASH_NODE *hash_node) { HASH_NODE *node = hash_node; HASH_NODE *next; for(;;) { if (node == NULL) return; next = node->next; FREE(&node); node = next; } } #endif void HASH_TABLE_get_key(HASH_TABLE *hash_table, HASH_NODE *node, char **key, int *len) { HASH_KEY *node_key; if (node != NULL) { node_key = NODE_key(hash_table, node); *key = node_key->key; *len = node_key->len; } else *len = 0; } bool HASH_TABLE_get_last_key(HASH_TABLE *hash_table, char **key, int *len) { if (hash_table->last == NULL) return TRUE; HASH_TABLE_get_key(hash_table, hash_table->last, key, len); return FALSE; } void HASH_TABLE_set_last_key(HASH_TABLE *hash_table, char *key, int len) { hash_table->last = (len == 0) ? NULL : *hash_table_lookup_node(hash_table, key, len); }