/***************************************************************************** * hash_table - Hash table functions for libxlsxwriter. * * Used in conjunction with the libxlsxwriter library. * * Copyright 2014-2018, John McNamara, jmcnamara@cpan.org. See LICENSE.txt. * */ #include #include #include #include #include "xlsxwriter/hash_table.h" /* * Calculate the hash key using the FNV function. See: * http://en.wikipedia.org/wiki/Fowler-Noll-Vo_hash_function */ STATIC size_t _generate_hash_key(void *data, size_t data_len, size_t num_buckets) { unsigned char *p = data; size_t hash = 2166136261U; size_t i; for (i = 0; i < data_len; i++) hash = (hash * 16777619) ^ p[i]; return hash % num_buckets; } /* * Check if an element exists in the hash table and return a pointer * to it if it does. */ lxw_hash_element * lxw_hash_key_exists(lxw_hash_table *lxw_hash, void *key, size_t key_len) { size_t hash_key = _generate_hash_key(key, key_len, lxw_hash->num_buckets); struct lxw_hash_bucket_list *list; lxw_hash_element *element; if (!lxw_hash->buckets[hash_key]) { /* The key isn't in the LXW_HASH hash table. */ return NULL; } else { /* The key is already in the table or there is a hash collision. */ list = lxw_hash->buckets[hash_key]; /* Iterate over the keys in the bucket's linked list. */ SLIST_FOREACH(element, list, lxw_hash_list_pointers) { if (memcmp(element->key, key, key_len) == 0) { /* The key already exists in the table. */ return element; } } /* Key doesn't exist in the list so this is a hash collision. */ return NULL; } } /* * Insert or update a value in the LXW_HASH table based on a key * and return a pointer to the new or updated element. */ lxw_hash_element * lxw_insert_hash_element(lxw_hash_table *lxw_hash, void *key, void *value, size_t key_len) { size_t hash_key = _generate_hash_key(key, key_len, lxw_hash->num_buckets); struct lxw_hash_bucket_list *list = NULL; lxw_hash_element *element = NULL; if (!lxw_hash->buckets[hash_key]) { /* The key isn't in the LXW_HASH hash table. */ /* Create a linked list in the bucket to hold the lxw_hash keys. */ list = calloc(1, sizeof(struct lxw_hash_bucket_list)); GOTO_LABEL_ON_MEM_ERROR(list, mem_error1); /* Initialize the bucket linked list. */ SLIST_INIT(list); /* Create an lxw_hash element to add to the linked list. */ element = calloc(1, sizeof(lxw_hash_element)); GOTO_LABEL_ON_MEM_ERROR(element, mem_error1); /* Store the key and value. */ element->key = key; element->value = value; /* Add the lxw_hash element to the bucket's linked list. */ SLIST_INSERT_HEAD(list, element, lxw_hash_list_pointers); /* Also add it to the insertion order linked list. */ STAILQ_INSERT_TAIL(lxw_hash->order_list, element, lxw_hash_order_pointers); /* Store the bucket list at the hash index. */ lxw_hash->buckets[hash_key] = list; lxw_hash->used_buckets++; lxw_hash->unique_count++; return element; } else { /* The key is already in the table or there is a hash collision. */ list = lxw_hash->buckets[hash_key]; /* Iterate over the keys in the bucket's linked list. */ SLIST_FOREACH(element, list, lxw_hash_list_pointers) { if (memcmp(element->key, key, key_len) == 0) { /* The key already exists in the table. Update the value. */ if (lxw_hash->free_value) free(element->value); element->value = value; return element; } } /* Key doesn't exist in the list so this is a hash collision. * Create an lxw_hash element to add to the linked list. */ element = calloc(1, sizeof(lxw_hash_element)); GOTO_LABEL_ON_MEM_ERROR(element, mem_error2); /* Store the key and value. */ element->key = key; element->value = value; /* Add the lxw_hash element to the bucket linked list. */ SLIST_INSERT_HEAD(list, element, lxw_hash_list_pointers); /* Also add it to the insertion order linked list. */ STAILQ_INSERT_TAIL(lxw_hash->order_list, element, lxw_hash_order_pointers); lxw_hash->unique_count++; return element; } mem_error1: free(list); mem_error2: free(element); return NULL; } /* * Create a new LXW_HASH hash table object. */ lxw_hash_table * lxw_hash_new(uint32_t num_buckets, uint8_t free_key, uint8_t free_value) { /* Create the new hash table. */ lxw_hash_table *lxw_hash = calloc(1, sizeof(lxw_hash_table)); RETURN_ON_MEM_ERROR(lxw_hash, NULL); lxw_hash->free_key = free_key; lxw_hash->free_value = free_value; /* Add the lxw_hash element buckets. */ lxw_hash->buckets = calloc(num_buckets, sizeof(struct lxw_hash_bucket_list *)); GOTO_LABEL_ON_MEM_ERROR(lxw_hash->buckets, mem_error); /* Add a list for tracking the insertion order. */ lxw_hash->order_list = calloc(1, sizeof(struct lxw_hash_order_list)); GOTO_LABEL_ON_MEM_ERROR(lxw_hash->order_list, mem_error); /* Initialize the order list. */ STAILQ_INIT(lxw_hash->order_list); /* Store the number of buckets to calculate the load factor. */ lxw_hash->num_buckets = num_buckets; return lxw_hash; mem_error: lxw_hash_free(lxw_hash); return NULL; } /* * Free the LXW_HASH hash table object. */ void lxw_hash_free(lxw_hash_table *lxw_hash) { size_t i; lxw_hash_element *element; lxw_hash_element *element_temp; if (!lxw_hash) return; /* Free the lxw_hash_elements and data using the ordered linked list. */ if (lxw_hash->order_list) { STAILQ_FOREACH_SAFE(element, lxw_hash->order_list, lxw_hash_order_pointers, element_temp) { if (lxw_hash->free_key) free(element->key); if (lxw_hash->free_value) free(element->value); free(element); } } /* Free the buckets from the hash table. */ for (i = 0; i < lxw_hash->num_buckets; i++) { free(lxw_hash->buckets[i]); } free(lxw_hash->order_list); free(lxw_hash->buckets); free(lxw_hash); }