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hashmap.h
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hashmap.h
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/*
* Copyright (c) 2016-2018 David Leeds <davidesleeds@gmail.com>
*
* Hashmap is free software; you can redistribute it and/or modify
* it under the terms of the MIT license. See LICENSE for details.
*/
#ifndef __HASHMAP_H__
#define __HASHMAP_H__
#include <stddef.h>
/*
* Define HASHMAP_METRICS to compile in performance analysis
* functions for use in assessing hash function performance.
*/
/* #define HASHMAP_METRICS */
/*
* Define HASHMAP_NOASSERT to compile out all assertions used internally.
*/
/* #define HASHMAP_NOASSERT */
/*
* Macros to declare type-specific versions of hashmap_*() functions to
* allow compile-time type checking and avoid the need for type casting.
*/
#define HASHMAP_FUNCS_DECLARE(name, key_type, data_type) \
data_type *name##_hashmap_put(struct hashmap *map, \
const key_type *key, data_type *data); \
data_type *name##_hashmap_get(const struct hashmap *map, \
const key_type *key); \
data_type *name##_hashmap_remove(struct hashmap *map, \
const key_type *key); \
const key_type *name##_hashmap_iter_get_key( \
const struct hashmap_iter *iter); \
data_type *name##_hashmap_iter_get_data( \
const struct hashmap_iter *iter); \
void name##_hashmap_iter_set_data(const struct hashmap_iter *iter, \
data_type *data); \
int name##_hashmap_foreach(const struct hashmap *map, \
int (*func)(const key_type *, data_type *, void *), void *arg);
#define HASHMAP_FUNCS_CREATE(name, key_type, data_type) \
data_type *name##_hashmap_put(struct hashmap *map, \
const key_type *key, data_type *data) \
{ \
return (data_type *)hashmap_put(map, (const void *)key, \
(void *)data); \
} \
data_type *name##_hashmap_get(const struct hashmap *map, \
const key_type *key) \
{ \
return (data_type *)hashmap_get(map, (const void *)key); \
} \
data_type *name##_hashmap_remove(struct hashmap *map, \
const key_type *key) \
{ \
return (data_type *)hashmap_remove(map, (const void *)key); \
} \
const key_type *name##_hashmap_iter_get_key( \
const struct hashmap_iter *iter) \
{ \
return (const key_type *)hashmap_iter_get_key(iter); \
} \
data_type *name##_hashmap_iter_get_data( \
const struct hashmap_iter *iter) \
{ \
return (data_type *)hashmap_iter_get_data(iter); \
} \
void name##_hashmap_iter_set_data(const struct hashmap_iter *iter, \
data_type *data) \
{ \
hashmap_iter_set_data(iter, (void *)data); \
} \
struct __##name##_hashmap_foreach_state { \
int (*func)(const key_type *, data_type *, void *); \
void *arg; \
}; \
static inline int __##name##_hashmap_foreach_callback( \
const void *key, void *data, void *arg) \
{ \
struct __##name##_hashmap_foreach_state *s = \
(struct __##name##_hashmap_foreach_state *)arg; \
return s->func((const key_type *)key, \
(data_type *)data, s->arg); \
} \
int name##_hashmap_foreach(const struct hashmap *map, \
int (*func)(const key_type *, data_type *, void *), \
void *arg) \
{ \
struct __##name##_hashmap_foreach_state s = { func, arg }; \
return hashmap_foreach(map, \
__##name##_hashmap_foreach_callback, &s); \
}
struct hashmap_iter;
struct hashmap_entry;
/*
* The hashmap state structure.
*/
struct hashmap {
size_t table_size_init;
size_t table_size;
size_t num_entries;
struct hashmap_entry *table;
size_t (*hash)(const void *);
int (*key_compare)(const void *, const void *);
void *(*key_alloc)(const void *);
void (*key_free)(void *);
};
/*
* Initialize an empty hashmap.
*
* hash_func should return an even distribution of numbers between 0
* and SIZE_MAX varying on the key provided. If set to NULL, the default
* case-sensitive string hash function is used: hashmap_hash_string
*
* key_compare_func should return 0 if the keys match, and non-zero otherwise.
* If set to NULL, the default case-sensitive string comparator function is
* used: hashmap_compare_string
*
* initial_size is optional, and may be set to the max number of entries
* expected to be put in the hash table. This is used as a hint to
* pre-allocate the hash table to the minimum size needed to avoid
* gratuitous rehashes. If initial_size is 0, a default size will be used.
*
* Returns 0 on success and -errno on failure.
*/
int hashmap_init(struct hashmap *map, size_t (*hash_func)(const void *),
int (*key_compare_func)(const void *, const void *),
size_t initial_size);
/*
* Free the hashmap and all associated memory.
*/
void hashmap_destroy(struct hashmap *map);
/*
* Enable internal memory allocation and management of hash keys.
*/
void hashmap_set_key_alloc_funcs(struct hashmap *map,
void *(*key_alloc_func)(const void *),
void (*key_free_func)(void *));
/*
* Add an entry to the hashmap. If an entry with a matching key already
* exists and has a data pointer associated with it, the existing data
* pointer is returned, instead of assigning the new value. Compare
* the return value with the data passed in to determine if a new entry was
* created. Returns NULL if memory allocation failed.
*/
void *hashmap_put(struct hashmap *map, const void *key, void *data);
/*
* Return the data pointer, or NULL if no entry exists.
*/
void *hashmap_get(const struct hashmap *map, const void *key);
/*
* Remove an entry with the specified key from the map.
* Returns the data pointer, or NULL, if no entry was found.
*/
void *hashmap_remove(struct hashmap *map, const void *key);
/*
* Remove all entries.
*/
void hashmap_clear(struct hashmap *map);
/*
* Remove all entries and reset the hash table to its initial size.
*/
void hashmap_reset(struct hashmap *map);
/*
* Return the number of entries in the hash map.
*/
size_t hashmap_size(const struct hashmap *map);
/*
* Get a new hashmap iterator. The iterator is an opaque
* pointer that may be used with hashmap_iter_*() functions.
* Hashmap iterators are INVALID after a put or remove operation is performed.
* hashmap_iter_remove() allows safe removal during iteration.
*/
struct hashmap_iter *hashmap_iter(const struct hashmap *map);
/*
* Return an iterator to the next hashmap entry. Returns NULL if there are
* no more entries.
*/
struct hashmap_iter *hashmap_iter_next(const struct hashmap *map,
const struct hashmap_iter *iter);
/*
* Remove the hashmap entry pointed to by this iterator and returns an
* iterator to the next entry. Returns NULL if there are no more entries.
*/
struct hashmap_iter *hashmap_iter_remove(struct hashmap *map,
const struct hashmap_iter *iter);
/*
* Return the key of the entry pointed to by the iterator.
*/
const void *hashmap_iter_get_key(const struct hashmap_iter *iter);
/*
* Return the data of the entry pointed to by the iterator.
*/
void *hashmap_iter_get_data(const struct hashmap_iter *iter);
/*
* Set the data pointer of the entry pointed to by the iterator.
*/
void hashmap_iter_set_data(const struct hashmap_iter *iter, void *data);
/*
* Invoke func for each entry in the hashmap. Unlike the hashmap_iter_*()
* interface, this function supports calls to hashmap_remove() during iteration.
* However, it is an error to put or remove an entry other than the current one,
* and doing so will immediately halt iteration and return an error.
* Iteration is stopped if func returns non-zero. Returns func's return
* value if it is < 0, otherwise, 0.
*/
int hashmap_foreach(const struct hashmap *map,
int (*func)(const void *, void *, void *), void *arg);
/*
* Default hash function for string keys.
* This is an implementation of the well-documented Jenkins one-at-a-time
* hash function.
*/
size_t hashmap_hash_string(const void *key);
/*
* Default key comparator function for string keys.
*/
int hashmap_compare_string(const void *a, const void *b);
/*
* Default key allocation function for string keys. Use free() for the
* key_free_func.
*/
void *hashmap_alloc_key_string(const void *key);
/*
* Case insensitive hash function for string keys.
*/
size_t hashmap_hash_string_i(const void *key);
/*
* Case insensitive key comparator function for string keys.
*/
int hashmap_compare_string_i(const void *a, const void *b);
#ifdef HASHMAP_METRICS
/*
* Return the load factor.
*/
double hashmap_load_factor(const struct hashmap *map);
/*
* Return the average number of collisions per entry.
*/
double hashmap_collisions_mean(const struct hashmap *map);
/*
* Return the variance between entry collisions. The higher the variance,
* the more likely the hash function is poor and is resulting in clustering.
*/
double hashmap_collisions_variance(const struct hashmap *map);
#endif
#endif /* __HASHMAP_H__ */