OVMS3-idf/components/bt/bluedroid/osi/hash_map.c
Tian Hao b80325604d component/bt: add bluedroid 1st version
1. add bluedroid 1st version
2. alarm adapter
3. task semaphore lock
4. other bugs resolved
2016-09-26 21:37:39 +08:00

247 lines
7.3 KiB
C
Executable file

/******************************************************************************
*
* Copyright (C) 2014 Google, Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
******************************************************************************/
#include "bt_defs.h"
#include "bt_trace.h"
#include "list.h"
#include "hash_map.h"
#include "allocator.h"
struct hash_map_t;
typedef struct hash_map_bucket_t {
list_t *list;
} hash_map_bucket_t;
typedef struct hash_map_t {
hash_map_bucket_t *bucket;
size_t num_bucket;
size_t hash_size;
hash_index_fn hash_fn;
key_free_fn key_fn;
data_free_fn data_fn;
const allocator_t *allocator;
key_equality_fn keys_are_equal;
} hash_map_t;
// Hidden constructor for list, only to be used by us.
list_t *list_new_internal(list_free_cb callback, const allocator_t *zeroed_allocator);
static void bucket_free_(void *data);
static bool default_key_equality(const void *x, const void *y);
static hash_map_entry_t *find_bucket_entry_(list_t *hash_bucket_list,
const void *key);
// Hidden constructor, only to be used by the allocation tracker. Behaves the same as
// |hash_map_new|, except you get to specify the allocator.
hash_map_t *hash_map_new_internal(
size_t num_bucket,
hash_index_fn hash_fn,
key_free_fn key_fn,
data_free_fn data_fn,
key_equality_fn equality_fn,
const allocator_t *zeroed_allocator) {
assert(hash_fn != NULL);
assert(num_bucket > 0);
assert(zeroed_allocator != NULL);
hash_map_t *hash_map = zeroed_allocator->alloc(sizeof(hash_map_t));
if (hash_map == NULL)
return NULL;
hash_map->hash_fn = hash_fn;
hash_map->key_fn = key_fn;
hash_map->data_fn = data_fn;
hash_map->allocator = zeroed_allocator;
hash_map->keys_are_equal = equality_fn ? equality_fn : default_key_equality;
hash_map->num_bucket = num_bucket;
hash_map->bucket = zeroed_allocator->alloc(sizeof(hash_map_bucket_t) * num_bucket);
if (hash_map->bucket == NULL) {
zeroed_allocator->free(hash_map);
return NULL;
}
return hash_map;
}
hash_map_t *hash_map_new(
size_t num_bucket,
hash_index_fn hash_fn,
key_free_fn key_fn,
data_free_fn data_fn,
key_equality_fn equality_fn) {
return hash_map_new_internal(num_bucket, hash_fn, key_fn, data_fn, equality_fn, &allocator_calloc);
}
void hash_map_free(hash_map_t *hash_map) {
if (hash_map == NULL)
return;
hash_map_clear(hash_map);
hash_map->allocator->free(hash_map->bucket);
hash_map->allocator->free(hash_map);
}
/*
bool hash_map_is_empty(const hash_map_t *hash_map) {
assert(hash_map != NULL);
return (hash_map->hash_size == 0);
}
size_t hash_map_size(const hash_map_t *hash_map) {
assert(hash_map != NULL);
return hash_map->hash_size;
}
size_t hash_map_num_buckets(const hash_map_t *hash_map) {
assert(hash_map != NULL);
return hash_map->num_bucket;
}
*/
bool hash_map_has_key(const hash_map_t *hash_map, const void *key) {
assert(hash_map != NULL);
hash_index_t hash_key = hash_map->hash_fn(key) % hash_map->num_bucket;
list_t *hash_bucket_list = hash_map->bucket[hash_key].list;
hash_map_entry_t *hash_map_entry = find_bucket_entry_(hash_bucket_list, key);
return (hash_map_entry != NULL);
}
bool hash_map_set(hash_map_t *hash_map, const void *key, void *data) {
assert(hash_map != NULL);
assert(data != NULL);
hash_index_t hash_key = hash_map->hash_fn(key) % hash_map->num_bucket;
if (hash_map->bucket[hash_key].list == NULL) {
hash_map->bucket[hash_key].list = list_new_internal(bucket_free_, hash_map->allocator);
if (hash_map->bucket[hash_key].list == NULL)
return false;
}
list_t *hash_bucket_list = hash_map->bucket[hash_key].list;
hash_map_entry_t *hash_map_entry = find_bucket_entry_(hash_bucket_list, key);
if (hash_map_entry) {
// Calls hash_map callback to delete the hash_map_entry.
bool rc = list_remove(hash_bucket_list, hash_map_entry);
assert(rc == true);
} else {
hash_map->hash_size++;
}
hash_map_entry = hash_map->allocator->alloc(sizeof(hash_map_entry_t));
if (hash_map_entry == NULL)
return false;
hash_map_entry->key = key;
hash_map_entry->data = data;
hash_map_entry->hash_map = hash_map;
return list_append(hash_bucket_list, hash_map_entry);
}
bool hash_map_erase(hash_map_t *hash_map, const void *key) {
assert(hash_map != NULL);
hash_index_t hash_key = hash_map->hash_fn(key) % hash_map->num_bucket;
list_t *hash_bucket_list = hash_map->bucket[hash_key].list;
hash_map_entry_t *hash_map_entry = find_bucket_entry_(hash_bucket_list, key);
if (hash_map_entry == NULL) {
return false;
}
hash_map->hash_size--;
return list_remove(hash_bucket_list, hash_map_entry);
}
void *hash_map_get(const hash_map_t *hash_map, const void *key) {
assert(hash_map != NULL);
hash_index_t hash_key = hash_map->hash_fn(key) % hash_map->num_bucket;
list_t *hash_bucket_list = hash_map->bucket[hash_key].list;
hash_map_entry_t *hash_map_entry = find_bucket_entry_(hash_bucket_list, key);
if (hash_map_entry != NULL)
return hash_map_entry->data;
return NULL;
}
void hash_map_clear(hash_map_t *hash_map) {
assert(hash_map != NULL);
for (hash_index_t i = 0; i < hash_map->num_bucket; i++){
if (hash_map->bucket[i].list == NULL)
continue;
list_free(hash_map->bucket[i].list);
hash_map->bucket[i].list = NULL;
}
}
void hash_map_foreach(hash_map_t *hash_map, hash_map_iter_cb callback, void *context) {
assert(hash_map != NULL);
assert(callback != NULL);
for (hash_index_t i = 0; i < hash_map->num_bucket; ++i){
if (hash_map->bucket[i].list == NULL)
continue;
for (const list_node_t *iter = list_begin(hash_map->bucket[i].list);
iter != list_end(hash_map->bucket[i].list);
iter = list_next(iter)) {
hash_map_entry_t *hash_map_entry = (hash_map_entry_t *)list_node(iter);
if (!callback(hash_map_entry, context))
return;
}
}
}
static void bucket_free_(void *data) {
assert(data != NULL);
hash_map_entry_t *hash_map_entry = (hash_map_entry_t *)data;
const hash_map_t *hash_map = hash_map_entry->hash_map;
if (hash_map->key_fn)
hash_map->key_fn((void *)hash_map_entry->key);
if (hash_map->data_fn)
hash_map->data_fn(hash_map_entry->data);
hash_map->allocator->free(hash_map_entry);
}
static hash_map_entry_t * find_bucket_entry_(list_t *hash_bucket_list,
const void *key) {
if (hash_bucket_list == NULL)
return NULL;
for (const list_node_t *iter = list_begin(hash_bucket_list);
iter != list_end(hash_bucket_list);
iter = list_next(iter)) {
hash_map_entry_t *hash_map_entry = (hash_map_entry_t *)list_node(iter);
if (hash_map_entry->hash_map->keys_are_equal(hash_map_entry->key, key)) {
return hash_map_entry;
}
}
return NULL;
}
static bool default_key_equality(const void *x, const void *y) {
return x == y;
}