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netsurf/utils/hashmap.h

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/*
* Copyright 2020 Daniel Silverstone <dsilvers@netsurf-browser.org>
*
* This file is part of NetSurf, http://www.netsurf-browser.org/
*
* NetSurf 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; version 2 of the License.
*
* NetSurf 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, see <http://www.gnu.org/licenses/>.
*/
#ifndef NETSURF_HASHMAP_H
#define NETSURF_HASHMAP_H
#include <stdint.h>
#include <stdbool.h>
/**
* Generic hashmap.
*
* Hashmaps take ownership of the keys inserted into them by means of a
* clone function in their parameters. They also manage the value memory
* directly.
*/
typedef struct hashmap_s hashmap_t;
/**
* Key cloning function type
*/
typedef void* (*hashmap_key_clone_t)(void *);
/**
* Key destructor function type
*/
typedef void (*hashmap_key_destroy_t)(void *);
/**
* Key hashing function type
*/
typedef uint32_t (*hashmap_key_hash_t)(void *);
/**
* Key comparison function type
*/
typedef bool (*hashmap_key_eq_t)(void *, void*);
/**
* Value allocation function type
*/
typedef void* (*hashmap_value_alloc_t)(void *);
/**
* Value destructor function type
*/
typedef void (*hashmap_value_destroy_t)(void *);
/**
* Hashmap iteration callback function type.
*
* First parameter is the key, second is the value.
* The final parameter is the context pointer for the iteration.
*
* Return true to stop iterating early
*/
typedef bool (*hashmap_iteration_cb_t)(void *, void *, void *);
/**
* Parameters for hashmaps
*/
typedef struct {
/**
* A function which when called will clone a key and give
* ownership of the returned object to the hashmap
*/
hashmap_key_clone_t key_clone;
/**
* A function which when given a key will return its hash.
*/
hashmap_key_hash_t key_hash;
/**
* A function to compare two keys and return if they are equal.
* Note: identity is not necessary, nor strict equality, so long
* as the function is a full equality model.
* (i.e. key1 == key2 => key2 == key1)
*/
hashmap_key_eq_t key_eq;
/**
* A function which when called will destroy a key object
*/
hashmap_key_destroy_t key_destroy;
/**
* A function which when called will allocate a value object
*/
hashmap_value_alloc_t value_alloc;
/**
* A function which when called will destroy a value object
*/
hashmap_value_destroy_t value_destroy;
} hashmap_parameters_t;
/**
* Create a hashmap
*
* The provided hashmap parameter table will be used for map operations
* which need to allocate/free etc.
*
* \param params The hashmap parameters for this map
*/
hashmap_t* hashmap_create(hashmap_parameters_t *params);
/**
* Destroy a hashmap
*
* After this, all keys and values will have been destroyed and all memory
* associated with this hashmap will be invalidated.
*
* \param hashmap The hashmap to destroy
*/
void hashmap_destroy(hashmap_t *hashmap);
/**
* Look up a key in a hashmap
*
* If the key has an associated value in the hashmap then the pointer to it
* is returned, otherwise NULL.
*
* \param hashmap The hashmap to look up the key inside
* \param key The key to look up in the hashmap
* \return A pointer to the value if found, NULL otherwise
*/
void* hashmap_lookup(hashmap_t *hashmap, void *key);
/**
* Create an entry in a hashmap
*
* This creates a blank value using the parameters and then associates it with
* a clone of the given key, inserting it into the hashmap. If a value was
* present for the given key already, then it is destroyed first.
*
* NOTE: If allocation of the new value object fails, then any existing entry
* will be left alone, but NULL will be returned.
*
* \param hashmap The hashmap to insert into
* \param key The key to insert an entry for
* \return The value pointer for that key, or NULL if allocation failed.
*/
void *hashmap_insert(hashmap_t *hashmap, void *key);
/**
* Remove an entry from the hashmap
*
* This will remove the entry for the given key from the hashmap
* If there is no such entry, this will safely do nothing.
* The value associated with the entry will be destroyed and so should not
* be used beyond calling this function.
*
* \param hashmap The hashmap to remove the entry from
* \param key The key to remove the entry for
* \return true if an entry was removed, false otherwise
*/
bool hashmap_remove(hashmap_t *hashmap, void *key);
/**
* Iterate the hashmap
*
* For each key/value pair in the hashmap, call the callback passing in
* the key and value. During iteration you MUST NOT mutate the hashmap.
*
* \param hashmap The hashmap to iterate
* \param cb The callback for each key,value pair
* \param ctx The callback context
* \return Whether or not we stopped iteration early
*/
bool hashmap_iterate(hashmap_t *hashmap, hashmap_iteration_cb_t cb, void *ctx);
/**
* Get the number of entries in this map
*
* \param hashmap The hashmap to retrieve the entry count from
* \return The number of entries in the hashmap
*/
size_t hashmap_count(hashmap_t *hashmap);
#endif