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/* SPDX-License-Identifier: LGPL-2.1-or-later */
#pragma once
#include <limits.h>
#include <stdbool.h>
#include <stddef.h>
#include "hash-funcs.h"
#include "macro.h"
#include "util.h"
/*
* A hash table implementation. As a minor optimization a NULL hashmap object
* will be treated as empty hashmap for all read operations. That way it is not
* necessary to instantiate an object for each Hashmap use.
*
* If ENABLE_DEBUG_HASHMAP is defined (by configuring with -Ddebug-extra=hashmap),
* the implementation will:
* - store extra data for debugging and statistics (see tools/gdb-sd_dump_hashmaps.py)
* - perform extra checks for invalid use of iterators
*/
#define HASH_KEY_SIZE 16
typedef void* (*hashmap_destroy_t)(void *p);
/* The base type for all hashmap and set types. Many functions in the implementation take (HashmapBase*)
* parameters and are run-time polymorphic, though the API is not meant to be polymorphic (do not call
* underscore-prefixed functions directly). */
typedef struct HashmapBase HashmapBase;
/* Specific hashmap/set types */
typedef struct Hashmap Hashmap; /* Maps keys to values */
typedef struct OrderedHashmap OrderedHashmap; /* Like Hashmap, but also remembers entry insertion order */
typedef struct Set Set; /* Stores just keys */
typedef struct IteratedCache IteratedCache; /* Caches the iterated order of one of the above */
/* Ideally the Iterator would be an opaque struct, but it is instantiated
* by hashmap users, so the definition has to be here. Do not use its fields
* directly. */
typedef struct {
unsigned idx; /* index of an entry to be iterated next */
const void *next_key; /* expected value of that entry's key pointer */
#if ENABLE_DEBUG_HASHMAP
unsigned put_count; /* hashmap's put_count recorded at start of iteration */
unsigned rem_count; /* hashmap's rem_count in previous iteration */
unsigned prev_idx; /* idx in previous iteration */
#endif
} Iterator;
#define _IDX_ITERATOR_FIRST (UINT_MAX - 1)
#define ITERATOR_FIRST ((Iterator) { .idx = _IDX_ITERATOR_FIRST, .next_key = NULL })
#define ITERATOR_IS_FIRST(i) ((i).idx == _IDX_ITERATOR_FIRST)
/* Macros for type checking */
#define PTR_COMPATIBLE_WITH_HASHMAP_BASE(h) \
(__builtin_types_compatible_p(typeof(h), HashmapBase*) || \
__builtin_types_compatible_p(typeof(h), Hashmap*) || \
__builtin_types_compatible_p(typeof(h), OrderedHashmap*) || \
__builtin_types_compatible_p(typeof(h), Set*))
#define PTR_COMPATIBLE_WITH_PLAIN_HASHMAP(h) \
(__builtin_types_compatible_p(typeof(h), Hashmap*) || \
__builtin_types_compatible_p(typeof(h), OrderedHashmap*)) \
#define HASHMAP_BASE(h) \
__builtin_choose_expr(PTR_COMPATIBLE_WITH_HASHMAP_BASE(h), \
(HashmapBase*)(h), \
(void)0)
#define PLAIN_HASHMAP(h) \
__builtin_choose_expr(PTR_COMPATIBLE_WITH_PLAIN_HASHMAP(h), \
(Hashmap*)(h), \
(void)0)
#if ENABLE_DEBUG_HASHMAP
# define HASHMAP_DEBUG_PARAMS , const char *func, const char *file, int line
# define HASHMAP_DEBUG_SRC_ARGS , __func__, PROJECT_FILE, __LINE__
# define HASHMAP_DEBUG_PASS_ARGS , func, file, line
#else
# define HASHMAP_DEBUG_PARAMS
# define HASHMAP_DEBUG_SRC_ARGS
# define HASHMAP_DEBUG_PASS_ARGS
#endif
Hashmap* _hashmap_new(const struct hash_ops *hash_ops HASHMAP_DEBUG_PARAMS);
OrderedHashmap* _ordered_hashmap_new(const struct hash_ops *hash_ops HASHMAP_DEBUG_PARAMS);
#define hashmap_new(ops) _hashmap_new(ops HASHMAP_DEBUG_SRC_ARGS)
#define ordered_hashmap_new(ops) _ordered_hashmap_new(ops HASHMAP_DEBUG_SRC_ARGS)
#define hashmap_free_and_replace(a, b) \
({ \
hashmap_free(a); \
(a) = (b); \
(b) = NULL; \
0; \
})
HashmapBase* _hashmap_free(HashmapBase *h, free_func_t default_free_key, free_func_t default_free_value);
static inline Hashmap* hashmap_free(Hashmap *h) {
return (void*) _hashmap_free(HASHMAP_BASE(h), NULL, NULL);
}
static inline OrderedHashmap* ordered_hashmap_free(OrderedHashmap *h) {
return (void*) _hashmap_free(HASHMAP_BASE(h), NULL, NULL);
}
static inline Hashmap* hashmap_free_free(Hashmap *h) {
return (void*) _hashmap_free(HASHMAP_BASE(h), NULL, free);
}
static inline OrderedHashmap* ordered_hashmap_free_free(OrderedHashmap *h) {
return (void*) _hashmap_free(HASHMAP_BASE(h), NULL, free);
}
static inline Hashmap* hashmap_free_free_key(Hashmap *h) {
return (void*) _hashmap_free(HASHMAP_BASE(h), free, NULL);
}
static inline OrderedHashmap* ordered_hashmap_free_free_key(OrderedHashmap *h) {
return (void*) _hashmap_free(HASHMAP_BASE(h), free, NULL);
}
static inline Hashmap* hashmap_free_free_free(Hashmap *h) {
return (void*) _hashmap_free(HASHMAP_BASE(h), free, free);
}
static inline OrderedHashmap* ordered_hashmap_free_free_free(OrderedHashmap *h) {
return (void*) _hashmap_free(HASHMAP_BASE(h), free, free);
}
IteratedCache* iterated_cache_free(IteratedCache *cache);
int iterated_cache_get(IteratedCache *cache, const void ***res_keys, const void ***res_values, unsigned *res_n_entries);
HashmapBase* _hashmap_copy(HashmapBase *h HASHMAP_DEBUG_PARAMS);
#define hashmap_copy(h) ((Hashmap*) _hashmap_copy(HASHMAP_BASE(h) HASHMAP_DEBUG_SRC_ARGS))
#define ordered_hashmap_copy(h) ((OrderedHashmap*) _hashmap_copy(HASHMAP_BASE(h) HASHMAP_DEBUG_SRC_ARGS))
int _hashmap_ensure_allocated(Hashmap **h, const struct hash_ops *hash_ops HASHMAP_DEBUG_PARAMS);
int _hashmap_ensure_put(Hashmap **h, const struct hash_ops *hash_ops, const void *key, void *value HASHMAP_DEBUG_PARAMS);
int _ordered_hashmap_ensure_allocated(OrderedHashmap **h, const struct hash_ops *hash_ops HASHMAP_DEBUG_PARAMS);
#define hashmap_ensure_allocated(h, ops) _hashmap_ensure_allocated(h, ops HASHMAP_DEBUG_SRC_ARGS)
#define hashmap_ensure_put(s, ops, key, value) _hashmap_ensure_put(s, ops, key, value HASHMAP_DEBUG_SRC_ARGS)
#define ordered_hashmap_ensure_allocated(h, ops) _ordered_hashmap_ensure_allocated(h, ops HASHMAP_DEBUG_SRC_ARGS)
int _ordered_hashmap_ensure_put(OrderedHashmap **h, const struct hash_ops *hash_ops, const void *key, void *value HASHMAP_DEBUG_PARAMS);
#define ordered_hashmap_ensure_put(s, ops, key, value) _ordered_hashmap_ensure_put(s, ops, key, value HASHMAP_DEBUG_SRC_ARGS)
IteratedCache* _hashmap_iterated_cache_new(HashmapBase *h);
static inline IteratedCache* hashmap_iterated_cache_new(Hashmap *h) {
return (IteratedCache*) _hashmap_iterated_cache_new(HASHMAP_BASE(h));
}
static inline IteratedCache* ordered_hashmap_iterated_cache_new(OrderedHashmap *h) {
return (IteratedCache*) _hashmap_iterated_cache_new(HASHMAP_BASE(h));
}
int hashmap_put(Hashmap *h, const void *key, void *value);
static inline int ordered_hashmap_put(OrderedHashmap *h, const void *key, void *value) {
return hashmap_put(PLAIN_HASHMAP(h), key, value);
}
int _hashmap_put_strdup_full(Hashmap **h, const struct hash_ops *hash_ops, const char *k, const char *v HASHMAP_DEBUG_PARAMS);
#define hashmap_put_strdup_full(h, hash_ops, k, v) _hashmap_put_strdup_full(h, hash_ops, k, v HASHMAP_DEBUG_SRC_ARGS)
#define hashmap_put_strdup(h, k, v) hashmap_put_strdup_full(h, &string_hash_ops_free_free, k, v)
int hashmap_update(Hashmap *h, const void *key, void *value);
static inline int ordered_hashmap_update(OrderedHashmap *h, const void *key, void *value) {
return hashmap_update(PLAIN_HASHMAP(h), key, value);
}
int hashmap_replace(Hashmap *h, const void *key, void *value);
static inline int ordered_hashmap_replace(OrderedHashmap *h, const void *key, void *value) {
return hashmap_replace(PLAIN_HASHMAP(h), key, value);
}
void* _hashmap_get(HashmapBase *h, const void *key);
static inline void *hashmap_get(Hashmap *h, const void *key) {
return _hashmap_get(HASHMAP_BASE(h), key);
}
static inline void *ordered_hashmap_get(OrderedHashmap *h, const void *key) {
return _hashmap_get(HASHMAP_BASE(h), key);
}
void* hashmap_get2(Hashmap *h, const void *key, void **rkey);
static inline void *ordered_hashmap_get2(OrderedHashmap *h, const void *key, void **rkey) {
return hashmap_get2(PLAIN_HASHMAP(h), key, rkey);
}
bool _hashmap_contains(HashmapBase *h, const void *key);
static inline bool hashmap_contains(Hashmap *h, const void *key) {
return _hashmap_contains(HASHMAP_BASE(h), key);
}
static inline bool ordered_hashmap_contains(OrderedHashmap *h, const void *key) {
return _hashmap_contains(HASHMAP_BASE(h), key);
}
void* _hashmap_remove(HashmapBase *h, const void *key);
static inline void *hashmap_remove(Hashmap *h, const void *key) {
return _hashmap_remove(HASHMAP_BASE(h), key);
}
static inline void *ordered_hashmap_remove(OrderedHashmap *h, const void *key) {
return _hashmap_remove(HASHMAP_BASE(h), key);
}
void* hashmap_remove2(Hashmap *h, const void *key, void **rkey);
static inline void *ordered_hashmap_remove2(OrderedHashmap *h, const void *key, void **rkey) {
return hashmap_remove2(PLAIN_HASHMAP(h), key, rkey);
}
void* _hashmap_remove_value(HashmapBase *h, const void *key, void *value);
static inline void *hashmap_remove_value(Hashmap *h, const void *key, void *value) {
return _hashmap_remove_value(HASHMAP_BASE(h), key, value);
}
static inline void* ordered_hashmap_remove_value(OrderedHashmap *h, const void *key, void *value) {
return hashmap_remove_value(PLAIN_HASHMAP(h), key, value);
}
int hashmap_remove_and_put(Hashmap *h, const void *old_key, const void *new_key, void *value);
static inline int ordered_hashmap_remove_and_put(OrderedHashmap *h, const void *old_key, const void *new_key, void *value) {
return hashmap_remove_and_put(PLAIN_HASHMAP(h), old_key, new_key, value);
}
int hashmap_remove_and_replace(Hashmap *h, const void *old_key, const void *new_key, void *value);
static inline int ordered_hashmap_remove_and_replace(OrderedHashmap *h, const void *old_key, const void *new_key, void *value) {
return hashmap_remove_and_replace(PLAIN_HASHMAP(h), old_key, new_key, value);
}
/* Since merging data from an OrderedHashmap into a Hashmap or vice-versa
* should just work, allow this by having looser type-checking here. */
int _hashmap_merge(Hashmap *h, Hashmap *other);
#define hashmap_merge(h, other) _hashmap_merge(PLAIN_HASHMAP(h), PLAIN_HASHMAP(other))
#define ordered_hashmap_merge(h, other) hashmap_merge(h, other)
int _hashmap_reserve(HashmapBase *h, unsigned entries_add);
static inline int hashmap_reserve(Hashmap *h, unsigned entries_add) {
return _hashmap_reserve(HASHMAP_BASE(h), entries_add);
}
static inline int ordered_hashmap_reserve(OrderedHashmap *h, unsigned entries_add) {
return _hashmap_reserve(HASHMAP_BASE(h), entries_add);
}
int _hashmap_move(HashmapBase *h, HashmapBase *other);
/* Unlike hashmap_merge, hashmap_move does not allow mixing the types. */
static inline int hashmap_move(Hashmap *h, Hashmap *other) {
return _hashmap_move(HASHMAP_BASE(h), HASHMAP_BASE(other));
}
static inline int ordered_hashmap_move(OrderedHashmap *h, OrderedHashmap *other) {
return _hashmap_move(HASHMAP_BASE(h), HASHMAP_BASE(other));
}
int _hashmap_move_one(HashmapBase *h, HashmapBase *other, const void *key);
static inline int hashmap_move_one(Hashmap *h, Hashmap *other, const void *key) {
return _hashmap_move_one(HASHMAP_BASE(h), HASHMAP_BASE(other), key);
}
static inline int ordered_hashmap_move_one(OrderedHashmap *h, OrderedHashmap *other, const void *key) {
return _hashmap_move_one(HASHMAP_BASE(h), HASHMAP_BASE(other), key);
}
unsigned _hashmap_size(HashmapBase *h) _pure_;
static inline unsigned hashmap_size(Hashmap *h) {
return _hashmap_size(HASHMAP_BASE(h));
}
static inline unsigned ordered_hashmap_size(OrderedHashmap *h) {
return _hashmap_size(HASHMAP_BASE(h));
}
static inline bool hashmap_isempty(Hashmap *h) {
return hashmap_size(h) == 0;
}
static inline bool ordered_hashmap_isempty(OrderedHashmap *h) {
return ordered_hashmap_size(h) == 0;
}
unsigned _hashmap_buckets(HashmapBase *h) _pure_;
static inline unsigned hashmap_buckets(Hashmap *h) {
return _hashmap_buckets(HASHMAP_BASE(h));
}
static inline unsigned ordered_hashmap_buckets(OrderedHashmap *h) {
return _hashmap_buckets(HASHMAP_BASE(h));
}
bool _hashmap_iterate(HashmapBase *h, Iterator *i, void **value, const void **key);
static inline bool hashmap_iterate(Hashmap *h, Iterator *i, void **value, const void **key) {
return _hashmap_iterate(HASHMAP_BASE(h), i, value, key);
}
static inline bool ordered_hashmap_iterate(OrderedHashmap *h, Iterator *i, void **value, const void **key) {
return _hashmap_iterate(HASHMAP_BASE(h), i, value, key);
}
void _hashmap_clear(HashmapBase *h, free_func_t default_free_key, free_func_t default_free_value);
static inline void hashmap_clear(Hashmap *h) {
_hashmap_clear(HASHMAP_BASE(h), NULL, NULL);
}
static inline void ordered_hashmap_clear(OrderedHashmap *h) {
_hashmap_clear(HASHMAP_BASE(h), NULL, NULL);
}
static inline void hashmap_clear_free(Hashmap *h) {
_hashmap_clear(HASHMAP_BASE(h), NULL, free);
}
static inline void ordered_hashmap_clear_free(OrderedHashmap *h) {
_hashmap_clear(HASHMAP_BASE(h), NULL, free);
}
static inline void hashmap_clear_free_key(Hashmap *h) {
_hashmap_clear(HASHMAP_BASE(h), free, NULL);
}
static inline void ordered_hashmap_clear_free_key(OrderedHashmap *h) {
_hashmap_clear(HASHMAP_BASE(h), free, NULL);
}
static inline void hashmap_clear_free_free(Hashmap *h) {
_hashmap_clear(HASHMAP_BASE(h), free, free);
}
static inline void ordered_hashmap_clear_free_free(OrderedHashmap *h) {
_hashmap_clear(HASHMAP_BASE(h), free, free);
}
/*
* Note about all *_first*() functions
*
* For plain Hashmaps and Sets the order of entries is undefined.
* The functions find whatever entry is first in the implementation
* internal order.
*
* Only for OrderedHashmaps the order is well defined and finding
* the first entry is O(1).
*/
void *_hashmap_first_key_and_value(HashmapBase *h, bool remove, void **ret_key);
static inline void *hashmap_steal_first_key_and_value(Hashmap *h, void **ret) {
return _hashmap_first_key_and_value(HASHMAP_BASE(h), true, ret);
}
static inline void *ordered_hashmap_steal_first_key_and_value(OrderedHashmap *h, void **ret) {
return _hashmap_first_key_and_value(HASHMAP_BASE(h), true, ret);
}
static inline void *hashmap_first_key_and_value(Hashmap *h, void **ret) {
return _hashmap_first_key_and_value(HASHMAP_BASE(h), false, ret);
}
static inline void *ordered_hashmap_first_key_and_value(OrderedHashmap *h, void **ret) {
return _hashmap_first_key_and_value(HASHMAP_BASE(h), false, ret);
}
static inline void *hashmap_steal_first(Hashmap *h) {
return _hashmap_first_key_and_value(HASHMAP_BASE(h), true, NULL);
}
static inline void *ordered_hashmap_steal_first(OrderedHashmap *h) {
return _hashmap_first_key_and_value(HASHMAP_BASE(h), true, NULL);
}
static inline void *hashmap_first(Hashmap *h) {
return _hashmap_first_key_and_value(HASHMAP_BASE(h), false, NULL);
}
static inline void *ordered_hashmap_first(OrderedHashmap *h) {
return _hashmap_first_key_and_value(HASHMAP_BASE(h), false, NULL);
}
static inline void *_hashmap_first_key(HashmapBase *h, bool remove) {
void *key = NULL;
(void) _hashmap_first_key_and_value(HASHMAP_BASE(h), remove, &key);
return key;
}
static inline void *hashmap_steal_first_key(Hashmap *h) {
return _hashmap_first_key(HASHMAP_BASE(h), true);
}
static inline void *ordered_hashmap_steal_first_key(OrderedHashmap *h) {
return _hashmap_first_key(HASHMAP_BASE(h), true);
}
static inline void *hashmap_first_key(Hashmap *h) {
return _hashmap_first_key(HASHMAP_BASE(h), false);
}
static inline void *ordered_hashmap_first_key(OrderedHashmap *h) {
return _hashmap_first_key(HASHMAP_BASE(h), false);
}
#define hashmap_clear_with_destructor(h, f) \
({ \
Hashmap *_h = (h); \
void *_item; \
while ((_item = hashmap_steal_first(_h))) \
f(_item); \
_h; \
})
#define hashmap_free_with_destructor(h, f) \
hashmap_free(hashmap_clear_with_destructor(h, f))
#define ordered_hashmap_clear_with_destructor(h, f) \
({ \
OrderedHashmap *_h = (h); \
void *_item; \
while ((_item = ordered_hashmap_steal_first(_h))) \
f(_item); \
_h; \
})
#define ordered_hashmap_free_with_destructor(h, f) \
ordered_hashmap_free(ordered_hashmap_clear_with_destructor(h, f))
/* no hashmap_next */
void* ordered_hashmap_next(OrderedHashmap *h, const void *key);
char** _hashmap_get_strv(HashmapBase *h);
static inline char** hashmap_get_strv(Hashmap *h) {
return _hashmap_get_strv(HASHMAP_BASE(h));
}
static inline char** ordered_hashmap_get_strv(OrderedHashmap *h) {
return _hashmap_get_strv(HASHMAP_BASE(h));
}
/*
* Hashmaps are iterated in unpredictable order.
* OrderedHashmaps are an exception to this. They are iterated in the order
* the entries were inserted.
* It is safe to remove the current entry.
*/
#define _HASHMAP_FOREACH(e, h, i) \
for (Iterator i = ITERATOR_FIRST; hashmap_iterate((h), &i, (void**)&(e), NULL); )
#define HASHMAP_FOREACH(e, h) \
_HASHMAP_FOREACH(e, h, UNIQ_T(i, UNIQ))
#define _ORDERED_HASHMAP_FOREACH(e, h, i) \
for (Iterator i = ITERATOR_FIRST; ordered_hashmap_iterate((h), &i, (void**)&(e), NULL); )
#define ORDERED_HASHMAP_FOREACH(e, h) \
_ORDERED_HASHMAP_FOREACH(e, h, UNIQ_T(i, UNIQ))
#define _HASHMAP_FOREACH_KEY(e, k, h, i) \
for (Iterator i = ITERATOR_FIRST; hashmap_iterate((h), &i, (void**)&(e), (const void**) &(k)); )
#define HASHMAP_FOREACH_KEY(e, k, h) \
_HASHMAP_FOREACH_KEY(e, k, h, UNIQ_T(i, UNIQ))
#define _ORDERED_HASHMAP_FOREACH_KEY(e, k, h, i) \
for (Iterator i = ITERATOR_FIRST; ordered_hashmap_iterate((h), &i, (void**)&(e), (const void**) &(k)); )
#define ORDERED_HASHMAP_FOREACH_KEY(e, k, h) \
_ORDERED_HASHMAP_FOREACH_KEY(e, k, h, UNIQ_T(i, UNIQ))
DEFINE_TRIVIAL_CLEANUP_FUNC(Hashmap*, hashmap_free);
DEFINE_TRIVIAL_CLEANUP_FUNC(Hashmap*, hashmap_free_free);
DEFINE_TRIVIAL_CLEANUP_FUNC(Hashmap*, hashmap_free_free_key);
DEFINE_TRIVIAL_CLEANUP_FUNC(Hashmap*, hashmap_free_free_free);
DEFINE_TRIVIAL_CLEANUP_FUNC(OrderedHashmap*, ordered_hashmap_free);
DEFINE_TRIVIAL_CLEANUP_FUNC(OrderedHashmap*, ordered_hashmap_free_free);
DEFINE_TRIVIAL_CLEANUP_FUNC(OrderedHashmap*, ordered_hashmap_free_free_key);
DEFINE_TRIVIAL_CLEANUP_FUNC(OrderedHashmap*, ordered_hashmap_free_free_free);
#define _cleanup_hashmap_free_ _cleanup_(hashmap_freep)
#define _cleanup_hashmap_free_free_ _cleanup_(hashmap_free_freep)
#define _cleanup_hashmap_free_free_free_ _cleanup_(hashmap_free_free_freep)
#define _cleanup_ordered_hashmap_free_ _cleanup_(ordered_hashmap_freep)
#define _cleanup_ordered_hashmap_free_free_ _cleanup_(ordered_hashmap_free_freep)
#define _cleanup_ordered_hashmap_free_free_free_ _cleanup_(ordered_hashmap_free_free_freep)
DEFINE_TRIVIAL_CLEANUP_FUNC(IteratedCache*, iterated_cache_free);
#define _cleanup_iterated_cache_free_ _cleanup_(iterated_cache_freep)
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