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Fledasty/Src/Core/HashTable.c

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/*
* 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.
*
* -----------------------------------------------------------------------------
* File: HashTable.c
* Description:
* This file contains the functions for modifying the Hash Table. It includes functions
* to get, Insert, Remove, check if has key and check if empty.
*
* Author: Mineplay
* -----------------------------------------------------------------------------
*/
#include "../../Include/Fledasty/Core/HashTable.h"
#include <Hallocy/Core/Allocator.h>
#include <Hallocy/Core/Memory.h>
#include <Hallocy/Utils/Error.h>
static const int FLEDASTY_HASH_TABLE_SIZE_THRESHOLD = 75;
FledastyError fledasty_hash_table_initialize(FledastyHashTable *new_hash_table, const size_t key_byte_size, const size_t value_byte_size, size_t (*hash_function)(const void *key)) {
if (new_hash_table == NULL || hash_function == NULL) {
return FLEDASTY_ERROR_INVALID_POINTER;
}
new_hash_table->key_byte_size = key_byte_size;
new_hash_table->value_byte_size = value_byte_size;
new_hash_table->hash_function = hash_function;
new_hash_table->size = 0;
new_hash_table->capacity = 1024;
new_hash_table->Table = (FledastyDynamicArray*)hallocy_calloc(sizeof(FledastyDynamicArray), new_hash_table->capacity);
if (new_hash_table->Table == NULL) {
return FLEDASTY_ERROR_FAILED_ALLOCATION;
}
return FLEDASTY_ERROR_NONE;
}
FledastyError fledasty_hash_table_destroy(FledastyHashTable *current_hash_table) {
if (current_hash_table == NULL) {
return FLEDASTY_ERROR_INVALID_POINTER;
}
for (size_t i = 0; i < current_hash_table->capacity; i += 1) {
FledastyError result = fledasty_dynamic_array_destroy(&current_hash_table->Table[i]);
if (result != FLEDASTY_ERROR_NONE) {
return result;
}
}
if (hallocy_free(current_hash_table->Table) != HALLOCY_ERROR_NONE) {
return FLEDASTY_ERROR_FAILED_ALLOCATION;
}
return FLEDASTY_ERROR_NONE;
}
FledastyError fledasty_hash_table_insert(FledastyHashTable *current_hash_table, void *key, void *value) {
if (current_hash_table == NULL || key == NULL || value == NULL) {
return FLEDASTY_ERROR_INVALID_POINTER;
}
current_hash_table->size += 1;
if (current_hash_table->size >= (current_hash_table->capacity * FLEDASTY_HASH_TABLE_SIZE_THRESHOLD) / 100) {
const size_t old_capacity = current_hash_table->capacity;
FledastyDynamicArray *previous_table = current_hash_table->Table;
current_hash_table->capacity += current_hash_table->capacity;
current_hash_table->Table = (FledastyDynamicArray*)hallocy_calloc(sizeof(FledastyDynamicArray), current_hash_table->capacity);
if (current_hash_table->Table == NULL) {
return FLEDASTY_ERROR_FAILED_ALLOCATION;
}
for (size_t index = 0; index < old_capacity; index += 1) {
FledastyDynamicArray *current_dynamic_array = previous_table + index;
if (current_dynamic_array->buffer != NULL) {
for (size_t list_index = 0; list_index < current_dynamic_array->size; list_index += 1) {
FledastyHashTablePair *pair = (FledastyHashTablePair*)fledasty_dynamic_array_get(current_dynamic_array, list_index);
const size_t key_index = current_hash_table->hash_function(pair->key) % current_hash_table->capacity;
if (current_hash_table->Table[key_index].buffer == NULL) {
FledastyError result = fledasty_dynamic_array_initialize(current_hash_table->Table + key_index, NULL, 0, sizeof(FledastyHashTablePair));
if (result != FLEDASTY_ERROR_NONE) {
return result;
}
}
fledasty_dynamic_array_append(current_hash_table->Table + key_index, pair);
}
fledasty_dynamic_array_destroy(current_dynamic_array);
}
}
hallocy_free(previous_table);
}
const size_t index = current_hash_table->hash_function(key) % current_hash_table->capacity;
if (current_hash_table->Table[index].buffer == NULL) {
FledastyError result = fledasty_dynamic_array_initialize(&current_hash_table->Table[index], NULL, 0, sizeof(FledastyHashTablePair));
if (result != FLEDASTY_ERROR_NONE) {
return result;
}
}
FledastyHashTablePair pair;
pair.key = hallocy_malloc(current_hash_table->key_byte_size);
if (pair.key == NULL) {
return FLEDASTY_ERROR_FAILED_ALLOCATION;
}
hallocy_copy_memory(pair.key, key, current_hash_table->key_byte_size);
pair.value = hallocy_malloc(current_hash_table->value_byte_size);
if (pair.value == NULL) {
return FLEDASTY_ERROR_FAILED_ALLOCATION;
}
hallocy_copy_memory(pair.value, value, current_hash_table->value_byte_size);
fledasty_dynamic_array_append(&current_hash_table->Table[index], &pair);
return FLEDASTY_ERROR_NONE;
}
void *fledasty_hash_table_get(const FledastyHashTable *current_hash_table, void *key) {
if (current_hash_table == NULL || key == NULL) {
return NULL;
}
const size_t index = current_hash_table->hash_function(key) % current_hash_table->capacity;
if (current_hash_table->Table[index].buffer == NULL) {
return NULL;
}
size_t list_index = 0;
while (list_index < current_hash_table->Table[index].size) {
const FledastyHashTablePair *value = (FledastyHashTablePair*)fledasty_dynamic_array_get(&current_hash_table->Table[index], list_index);
if (hallocy_compare_memory(value->key, key, current_hash_table->key_byte_size)) {
return value->value;
}
list_index += 1;
}
return NULL;
}
FledastyError fledasty_hash_table_remove(FledastyHashTable *current_hash_table, void *key) {
if (current_hash_table == NULL || key == NULL) {
return FLEDASTY_ERROR_INVALID_POINTER;
}
const size_t index = current_hash_table->hash_function(key) % current_hash_table->capacity;
if (current_hash_table->Table[index].buffer == NULL) {
return FLEDASTY_ERROR_KEY_NOT_FOUND;
}
size_t list_index = 0;
while (list_index < current_hash_table->Table[index].size) {
FledastyHashTablePair *value = (FledastyHashTablePair*)fledasty_dynamic_array_get(&current_hash_table->Table[index], list_index);
if (hallocy_compare_memory(value->key, key, current_hash_table->key_byte_size)) {
if (hallocy_free(value->key) != HALLOCY_ERROR_NONE) {
return FLEDASTY_ERROR_FAILED_ALLOCATION;
}
if (hallocy_free(value->value) != HALLOCY_ERROR_NONE) {
return FLEDASTY_ERROR_FAILED_ALLOCATION;
}
fledasty_dynamic_array_remove_at_index(&current_hash_table->Table[index], list_index);
current_hash_table->size -= 1;
return FLEDASTY_ERROR_NONE;
}
list_index += 1;
}
return FLEDASTY_ERROR_KEY_NOT_FOUND;
}
FledastyError fledasty_hash_table_clear(FledastyHashTable *current_hash_table) {
if (current_hash_table == NULL) {
return FLEDASTY_ERROR_INVALID_POINTER;
}
for (size_t index = 0; index < current_hash_table->capacity; index += 1) {
if (current_hash_table->Table[index].buffer != NULL) {
FledastyError result = fledasty_dynamic_array_destroy(&current_hash_table->Table[index]);
if (result != FLEDASTY_ERROR_NONE) {
return result;
}
}
}
current_hash_table->size = 0;
return FLEDASTY_ERROR_NONE;
}
bool fledasty_hash_table_has_key(const FledastyHashTable *current_hash_table, void *key) {
if (current_hash_table == NULL || key == NULL) {
return false;
}
const size_t index = current_hash_table->hash_function(key) % current_hash_table->capacity;
if (current_hash_table->Table[index].buffer == NULL) {
return false;
}
size_t list_index = 0;
while (list_index < current_hash_table->Table[index].size) {
const FledastyHashTablePair *value = (FledastyHashTablePair*)fledasty_dynamic_array_get(&current_hash_table->Table[index], list_index);
if (hallocy_compare_memory(value->key, key, current_hash_table->key_byte_size)) {
return true;
}
list_index += 1;
}
return false;
}
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