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libcproject/lib/hash_map.c

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#include "hash_map.h"
uint64_t hash(string_t key, size_t capacity) {
uint64_t hash_value = 0;
for (size_t iteration = 0; iteration < capacity; iteration++) {
hash_value += key[iteration];
hash_value *= key[iteration];
}
return hash_value % capacity;
}
struct hash_map *hash_map_initialization() {
struct hash_map *hash_map = malloc(sizeof(struct hash_map));
hash_map->items = malloc(sizeof(struct linked_list *) * HASH_MAP_INITIAL_CAPACITY);
hash_map->length = 0;
hash_map->capacity = HASH_MAP_INITIAL_CAPACITY;
for (size_t index = 0; index < hash_map->capacity; index++) {
hash_map->items[index] = NULL;
}
return hash_map;
}
void hash_map_add(struct hash_map *hash_map, string_t key, void *data) {
if (hash_map->length == hash_map->capacity) {
size_t previous_capacity = hash_map->capacity;
hash_map->capacity += HASH_MAP_INITIAL_CAPACITY;
hash_map->items = realloc(hash_map->items, sizeof(struct linked_list *) * hash_map->capacity);
for (size_t index = previous_capacity; index < hash_map->capacity; index++) {
hash_map->items[index] = NULL;
}
}
uint64_t hash_value = hash(key, hash_map->capacity);
struct linked_list *list = hash_map->items[hash_value];
struct hash_map_item *item = malloc(sizeof(struct hash_map_item));
item->key = key;
item->data = data;
if (list == NULL) {
list = linked_list_initialization();
hash_map->items[hash_value] = list;
linked_list_add_in_head(list, (void *)item);
hash_map->length++;
} else {
struct linked_list_node *node = list->head;
bool found = false;
while (node != NULL && !found) {
struct hash_map_item *item = (struct hash_map_item *)node->data;
if (string_equals(key, item->key)) {
item->data = data;
found = true;
}
node = node->next;
}
if (!found) {
linked_list_add_in_head(list, (void *)item);
hash_map->length++;
}
}
}
void hash_map_remove(struct hash_map *hash_map, string_t key) {
uint64_t hash_value = hash(key, hash_map->capacity);
struct linked_list *list = hash_map->items[hash_value];
if (list == NULL) {
return;
}
struct linked_list *new_list = linked_list_initialization();
struct linked_list_node *node = list->head;
while (node != NULL) {
struct hash_map_item *item = (struct hash_map_item *)node->data;
if (!string_equals(key, item->key)) {
linked_list_add_in_head(new_list, item);
}
node = node->next;
}
free(list);
hash_map->items[hash_value] = new_list;
hash_map->length--;
}
void *hash_map_get(struct hash_map *hash_map, string_t key) {
uint64_t hash_value = hash(key, hash_map->capacity);
struct linked_list *list = hash_map->items[hash_value];
if (list == NULL) {
return NULL;
}
struct linked_list_node *node = list->head;
while (node != NULL) {
struct hash_map_item *item = (struct hash_map_item *)node->data;
if (string_equals(key, item->key)) {
return item->data;
}
node = node->next;
}
return NULL;
}
bool hash_map_contains_key(struct hash_map *hash_map, string_t key) {
return hash_map_get(hash_map, key) != NULL;
}
string_t *hash_map_get_keys(struct hash_map *hash_map) {
string_t *keys = malloc(sizeof(string_t) * hash_map->length);
size_t index = 0;
for (size_t hash_value = 0; hash_value < hash_map->capacity; hash_value++) {
struct linked_list *list = hash_map->items[hash_value];
if (list != NULL) {
struct linked_list_node *node = list->head;
while (node != NULL) {
struct hash_map_item *item = (struct hash_map_item *)node->data;
keys[index++] = item->key;
node = node->next;
}
}
}
return keys;
}