/* * Copyright (C) 2007 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include #include #include #include #include #include #include typedef struct Entry Entry; struct Entry { void* key; int hash; void* value; Entry* next; }; struct Hashmap { Entry** buckets; size_t bucketCount; int (*hash)(void* key); bool (*equals)(void* keyA, void* keyB); mutex_t lock; size_t size; }; Hashmap* hashmapCreate(size_t initialCapacity, int (*hash)(void* key), bool (*equals)(void* keyA, void* keyB)) { assert(hash != NULL); assert(equals != NULL); Hashmap* map = malloc(sizeof(Hashmap)); if (map == NULL) { return NULL; } // 0.75 load factor. size_t minimumBucketCount = initialCapacity * 4 / 3; map->bucketCount = 1; while (map->bucketCount <= minimumBucketCount) { // Bucket count must be power of 2. map->bucketCount <<= 1; } map->buckets = calloc(map->bucketCount, sizeof(Entry*)); if (map->buckets == NULL) { free(map); return NULL; } map->size = 0; map->hash = hash; map->equals = equals; mutex_init(&map->lock); return map; } /** * Hashes the given key. */ #ifdef __clang__ __attribute__((no_sanitize("integer"))) #endif static inline int hashKey(Hashmap* map, void* key) { int h = map->hash(key); // We apply this secondary hashing discovered by Doug Lea to defend // against bad hashes. h += ~(h << 9); h ^= (((unsigned int) h) >> 14); h += (h << 4); h ^= (((unsigned int) h) >> 10); return h; } size_t hashmapSize(Hashmap* map) { return map->size; } static inline size_t calculateIndex(size_t bucketCount, int hash) { return ((size_t) hash) & (bucketCount - 1); } static void expandIfNecessary(Hashmap* map) { // If the load factor exceeds 0.75... if (map->size > (map->bucketCount * 3 / 4)) { // Start off with a 0.33 load factor. size_t newBucketCount = map->bucketCount << 1; Entry** newBuckets = calloc(newBucketCount, sizeof(Entry*)); if (newBuckets == NULL) { // Abort expansion. return; } // Move over existing entries. size_t i; for (i = 0; i < map->bucketCount; i++) { Entry* entry = map->buckets[i]; while (entry != NULL) { Entry* next = entry->next; size_t index = calculateIndex(newBucketCount, entry->hash); entry->next = newBuckets[index]; newBuckets[index] = entry; entry = next; } } // Copy over internals. free(map->buckets); map->buckets = newBuckets; map->bucketCount = newBucketCount; } } void hashmapLock(Hashmap* map) { mutex_lock(&map->lock); } void hashmapUnlock(Hashmap* map) { mutex_unlock(&map->lock); } void hashmapFree(Hashmap* map) { size_t i; for (i = 0; i < map->bucketCount; i++) { Entry* entry = map->buckets[i]; while (entry != NULL) { Entry* next = entry->next; free(entry); entry = next; } } free(map->buckets); mutex_destroy(&map->lock); free(map); } #ifdef __clang__ __attribute__((no_sanitize("integer"))) #endif /* FIXME: relies on signed integer overflow, which is undefined behavior */ int hashmapHash(void* key, size_t keySize) { int h = keySize; char* data = (char*) key; size_t i; for (i = 0; i < keySize; i++) { h = h * 31 + *data; data++; } return h; } static Entry* createEntry(void* key, int hash, void* value) { Entry* entry = malloc(sizeof(Entry)); if (entry == NULL) { return NULL; } entry->key = key; entry->hash = hash; entry->value = value; entry->next = NULL; return entry; } static inline bool equalKeys(void* keyA, int hashA, void* keyB, int hashB, bool (*equals)(void*, void*)) { if (keyA == keyB) { return true; } if (hashA != hashB) { return false; } return equals(keyA, keyB); } void* hashmapPut(Hashmap* map, void* key, void* value) { int hash = hashKey(map, key); size_t index = calculateIndex(map->bucketCount, hash); Entry** p = &(map->buckets[index]); while (true) { Entry* current = *p; // Add a new entry. if (current == NULL) { *p = createEntry(key, hash, value); if (*p == NULL) { errno = ENOMEM; return NULL; } map->size++; expandIfNecessary(map); return NULL; } // Replace existing entry. if (equalKeys(current->key, current->hash, key, hash, map->equals)) { void* oldValue = current->value; current->value = value; return oldValue; } // Move to next entry. p = ¤t->next; } } void* hashmapGet(Hashmap* map, void* key) { int hash = hashKey(map, key); size_t index = calculateIndex(map->bucketCount, hash); Entry* entry = map->buckets[index]; while (entry != NULL) { if (equalKeys(entry->key, entry->hash, key, hash, map->equals)) { return entry->value; } entry = entry->next; } return NULL; } bool hashmapContainsKey(Hashmap* map, void* key) { int hash = hashKey(map, key); size_t index = calculateIndex(map->bucketCount, hash); Entry* entry = map->buckets[index]; while (entry != NULL) { if (equalKeys(entry->key, entry->hash, key, hash, map->equals)) { return true; } entry = entry->next; } return false; } void* hashmapMemoize(Hashmap* map, void* key, void* (*initialValue)(void* key, void* context), void* context) { int hash = hashKey(map, key); size_t index = calculateIndex(map->bucketCount, hash); Entry** p = &(map->buckets[index]); while (true) { Entry* current = *p; // Add a new entry. if (current == NULL) { *p = createEntry(key, hash, NULL); if (*p == NULL) { errno = ENOMEM; return NULL; } void* value = initialValue(key, context); (*p)->value = value; map->size++; expandIfNecessary(map); return value; } // Return existing value. if (equalKeys(current->key, current->hash, key, hash, map->equals)) { return current->value; } // Move to next entry. p = ¤t->next; } } void* hashmapRemove(Hashmap* map, void* key) { int hash = hashKey(map, key); size_t index = calculateIndex(map->bucketCount, hash); // Pointer to the current entry. Entry** p = &(map->buckets[index]); Entry* current; while ((current = *p) != NULL) { if (equalKeys(current->key, current->hash, key, hash, map->equals)) { void* value = current->value; *p = current->next; free(current); map->size--; return value; } p = ¤t->next; } return NULL; } void hashmapForEach(Hashmap* map, bool (*callback)(void* key, void* value, void* context), void* context) { size_t i; for (i = 0; i < map->bucketCount; i++) { Entry* entry = map->buckets[i]; while (entry != NULL) { Entry *next = entry->next; if (!callback(entry->key, entry->value, context)) { return; } entry = next; } } } size_t hashmapCurrentCapacity(Hashmap* map) { size_t bucketCount = map->bucketCount; return bucketCount * 3 / 4; } size_t hashmapCountCollisions(Hashmap* map) { size_t collisions = 0; size_t i; for (i = 0; i < map->bucketCount; i++) { Entry* entry = map->buckets[i]; while (entry != NULL) { if (entry->next != NULL) { collisions++; } entry = entry->next; } } return collisions; } int hashmapIntHash(void* key) { // Return the key value itself. return *((int*) key); } bool hashmapIntEquals(void* keyA, void* keyB) { int a = *((int*) keyA); int b = *((int*) keyB); return a == b; }