/* * Copyright (c) 2009, 2010 Petri Lehtinen * * This library is free software; you can redistribute it and/or modify * it under the terms of the MIT license. See LICENSE for details. */ #ifndef HASHTABLE_H #define HASHTABLE_H typedef unsigned int (*key_hash_fn)(const void *key); typedef int (*key_cmp_fn)(const void *key1, const void *key2); typedef void (*free_fn)(void *key); struct hashtable_list { struct hashtable_list *prev; struct hashtable_list *next; }; struct hashtable_pair { void *key; void *value; unsigned int hash; struct hashtable_list list; }; struct hashtable_bucket { struct hashtable_list *first; struct hashtable_list *last; }; typedef struct hashtable { unsigned int size; struct hashtable_bucket *buckets; unsigned int num_buckets; /* index to primes[] */ struct hashtable_list list; key_hash_fn hash_key; key_cmp_fn cmp_keys; /* returns non-zero for equal keys */ free_fn free_key; free_fn free_value; } hashtable_t; /** * hashtable_create - Create a hashtable object * * @hash_key: The key hashing function * @cmp_keys: The key compare function. Returns non-zero for equal and * zero for unequal unequal keys * @free_key: If non-NULL, called for a key that is no longer referenced. * @free_value: If non-NULL, called for a value that is no longer referenced. * * Returns a new hashtable object that should be freed with * hashtable_destroy when it's no longer used, or NULL on failure (out * of memory). */ hashtable_t *hashtable_create(key_hash_fn hash_key, key_cmp_fn cmp_keys, free_fn free_key, free_fn free_value); /** * hashtable_destroy - Destroy a hashtable object * * @hashtable: The hashtable * * Destroys a hashtable created with hashtable_create(). */ void hashtable_destroy(hashtable_t *hashtable); /** * hashtable_init - Initialize a hashtable object * * @hashtable: The (statically allocated) hashtable object * @hash_key: The key hashing function * @cmp_keys: The key compare function. Returns non-zero for equal and * zero for unequal unequal keys * @free_key: If non-NULL, called for a key that is no longer referenced. * @free_value: If non-NULL, called for a value that is no longer referenced. * * Initializes a statically allocated hashtable object. The object * should be cleared with hashtable_close when it's no longer used. * * Returns 0 on success, -1 on error (out of memory). */ int hashtable_init(hashtable_t *hashtable, key_hash_fn hash_key, key_cmp_fn cmp_keys, free_fn free_key, free_fn free_value); /** * hashtable_close - Release all resources used by a hashtable object * * @hashtable: The hashtable * * Destroys a statically allocated hashtable object. */ void hashtable_close(hashtable_t *hashtable); /** * hashtable_set - Add/modify value in hashtable * * @hashtable: The hashtable object * @key: The key * @value: The value * * If a value with the given key already exists, its value is replaced * with the new value. * * Key and value are "stealed" in the sense that hashtable frees them * automatically when they are no longer used. The freeing is * accomplished by calling free_key and free_value functions that were * supplied to hashtable_new. In case one or both of the free * functions is NULL, the corresponding item is not "stealed". * * Returns 0 on success, -1 on failure (out of memory). */ int hashtable_set(hashtable_t *hashtable, void *key, void *value); /** * hashtable_get - Get a value associated with a key * * @hashtable: The hashtable object * @key: The key * * Returns value if it is found, or NULL otherwise. */ void *hashtable_get(hashtable_t *hashtable, const void *key); /** * hashtable_del - Remove a value from the hashtable * * @hashtable: The hashtable object * @key: The key * * Returns 0 on success, or -1 if the key was not found. */ int hashtable_del(hashtable_t *hashtable, const void *key); /** * hashtable_clear - Clear hashtable * * @hashtable: The hashtable object * * Removes all items from the hashtable. */ void hashtable_clear(hashtable_t *hashtable); /** * hashtable_iter - Iterate over hashtable * * @hashtable: The hashtable object * * Returns an opaque iterator to the first element in the hashtable. * The iterator should be passed to hashtable_iter_* functions. * The hashtable items are not iterated over in any particular order. * * There's no need to free the iterator in any way. The iterator is * valid as long as the item that is referenced by the iterator is not * deleted. Other values may be added or deleted. In particular, * hashtable_iter_next() may be called on an iterator, and after that * the key/value pair pointed by the old iterator may be deleted. */ void *hashtable_iter(hashtable_t *hashtable); /** * hashtable_iter_at - Return an iterator at a specific key * * @hashtable: The hashtable object * @key: The key that the iterator should point to * * Like hashtable_iter() but returns an iterator pointing to a * specific key. */ void *hashtable_iter_at(hashtable_t *hashtable, const void *key); /** * hashtable_iter_next - Advance an iterator * * @hashtable: The hashtable object * @iter: The iterator * * Returns a new iterator pointing to the next element in the * hashtable or NULL if the whole hastable has been iterated over. */ void *hashtable_iter_next(hashtable_t *hashtable, void *iter); /** * hashtable_iter_key - Retrieve the key pointed by an iterator * * @iter: The iterator */ void *hashtable_iter_key(void *iter); /** * hashtable_iter_value - Retrieve the value pointed by an iterator * * @iter: The iterator */ void *hashtable_iter_value(void *iter); /** * hashtable_iter_set - Set the value pointed by an iterator * * @iter: The iterator * @value: The value to set */ void hashtable_iter_set(hashtable_t *hashtable, void *iter, void *value); #endif