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|
/**
* Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
* SPDX-License-Identifier: Apache-2.0.
*/
#include <aws/common/array_list.h>
#include <aws/common/string.h>
#include <aws/testing/aws_test_harness.h>
static int s_array_list_order_push_back_pop_front_fn(struct aws_allocator *allocator, void *ctx) {
(void)ctx;
struct aws_array_list list;
size_t list_size = 4;
int first = 1, second = 2, third = 3, fourth = 4;
ASSERT_SUCCESS(
aws_array_list_init_dynamic(&list, allocator, list_size, sizeof(int)),
"List setup should have been successful. err code %d",
aws_last_error());
ASSERT_INT_EQUALS(0, list.length, "List size should be 0.");
ASSERT_INT_EQUALS(
list_size, list.current_size / sizeof(int), "Allocated list size should be %d.", (int)list_size * sizeof(int));
ASSERT_SUCCESS(
aws_array_list_push_back(&list, (void *)&first), "List push failed with error code %d", aws_last_error());
ASSERT_SUCCESS(
aws_array_list_push_back(&list, (void *)&second), "List push failed with error code %d", aws_last_error());
ASSERT_SUCCESS(
aws_array_list_push_back(&list, (void *)&third), "List push failed with error code %d", aws_last_error());
ASSERT_SUCCESS(
aws_array_list_push_back(&list, (void *)&fourth), "List push failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(list_size, list.length, "List size should be %d.", (int)list_size);
ASSERT_INT_EQUALS(
list_size, list.current_size / sizeof(int), "Allocated list size should be %d.", (int)list_size * sizeof(int));
int item = 0;
ASSERT_SUCCESS(
aws_array_list_front(&list, (void *)&item), "List front failed with error code %d", aws_last_error());
ASSERT_SUCCESS(aws_array_list_pop_front(&list), "List pop front failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(first, item, "Item should have been the first item.");
ASSERT_INT_EQUALS(list_size - 1, list.length, "List size should be %d.", (int)list_size - 1);
ASSERT_INT_EQUALS(
list_size, list.current_size / sizeof(int), "Allocated list size should be %d.", (int)list_size * sizeof(int));
ASSERT_SUCCESS(
aws_array_list_front(&list, (void *)&item), "List front failed with error code %d", aws_last_error());
ASSERT_SUCCESS(aws_array_list_pop_front(&list), "List pop front failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(second, item, "Item should have been the second item.");
ASSERT_INT_EQUALS(list_size - 2, list.length, "List size should be %d.", (int)list_size - 2);
ASSERT_INT_EQUALS(
list_size, list.current_size / sizeof(int), "Allocated list size should be %d.", (int)list_size * sizeof(int));
ASSERT_SUCCESS(
aws_array_list_front(&list, (void *)&item), "List front failed with error code %d", aws_last_error());
ASSERT_SUCCESS(aws_array_list_pop_front(&list), "List pop front failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(third, item, "Item should have been the third item.");
ASSERT_INT_EQUALS(list_size - 3, list.length, "List size should be %d.", (int)list_size - 3);
ASSERT_INT_EQUALS(
list_size, list.current_size / sizeof(int), "Allocated list size should be %d.", (int)list_size * sizeof(int));
ASSERT_SUCCESS(
aws_array_list_front(&list, (void *)&item), "List front failed with error code %d", aws_last_error());
ASSERT_SUCCESS(aws_array_list_pop_front(&list), "List pop front failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(fourth, item, "Item should have been the fourth item.");
ASSERT_INT_EQUALS(list_size - 4, list.length, "List size should be %d.", (int)list_size - 4);
ASSERT_INT_EQUALS(
list_size, list.current_size / sizeof(int), "Allocated list size should be %d.", (int)list_size * sizeof(int));
aws_array_list_clean_up(&list);
return 0;
}
AWS_TEST_CASE(array_list_order_push_back_pop_front_test, s_array_list_order_push_back_pop_front_fn)
static int s_array_list_order_push_back_pop_back_fn(struct aws_allocator *allocator, void *ctx) {
(void)ctx;
struct aws_array_list list;
static size_t list_size = 4;
ASSERT_SUCCESS(
aws_array_list_init_dynamic(&list, allocator, list_size, sizeof(int)),
"List initialization failed with error %d",
aws_last_error());
int first = 1, second = 2, third = 3, fourth = 4;
ASSERT_INT_EQUALS(0, list.length, "List size should be 0.");
ASSERT_INT_EQUALS(
list_size, list.current_size / sizeof(int), "Allocated list size should be %d.", (int)list_size * sizeof(int));
ASSERT_SUCCESS(
aws_array_list_push_back(&list, (void *)&first), "List push failed with error code %d", aws_last_error());
ASSERT_SUCCESS(
aws_array_list_push_back(&list, (void *)&second), "List push failed with error code %d", aws_last_error());
ASSERT_SUCCESS(
aws_array_list_push_back(&list, (void *)&third), "List push failed with error code %d", aws_last_error());
ASSERT_SUCCESS(
aws_array_list_push_back(&list, (void *)&fourth), "List push failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(list_size, list.length, "List size should be %d.", (int)list_size);
ASSERT_INT_EQUALS(
list_size, list.current_size / sizeof(int), "Allocated list size should be %d.", (int)list_size * sizeof(int));
int item = 0;
ASSERT_SUCCESS(aws_array_list_back(&list, (void *)&item), "List back failed with error code %d", aws_last_error());
ASSERT_SUCCESS(aws_array_list_pop_back(&list), "List pop back failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(fourth, item, "Item should have been the fourth item.");
ASSERT_INT_EQUALS(list_size - 1, list.length, "List size should be %d.", (int)list_size - 4);
ASSERT_INT_EQUALS(
list_size, list.current_size / sizeof(int), "Allocated list size should be %d.", (int)list_size * sizeof(int));
ASSERT_SUCCESS(aws_array_list_back(&list, (void *)&item), "List back failed with error code %d", aws_last_error());
ASSERT_SUCCESS(aws_array_list_pop_back(&list), "List pop back failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(third, item, "Item should have been the third item.");
ASSERT_INT_EQUALS(list_size - 2, list.length, "List size should be %d.", (int)list_size - 3);
ASSERT_INT_EQUALS(
list_size, list.current_size / sizeof(int), "Allocated list size should be %d.", (int)list_size * sizeof(int));
ASSERT_SUCCESS(aws_array_list_back(&list, (void *)&item), "List back failed with error code %d", aws_last_error());
ASSERT_SUCCESS(aws_array_list_pop_back(&list), "List pop back failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(second, item, "Item should have been the second item.");
ASSERT_INT_EQUALS(list_size - 3, list.length, "List size should be %d.", (int)list_size - 2);
ASSERT_INT_EQUALS(
list_size, list.current_size / sizeof(int), "Allocated list size should be %d.", (int)list_size * sizeof(int));
ASSERT_SUCCESS(aws_array_list_back(&list, (void *)&item), "List back failed with error code %d", aws_last_error());
ASSERT_SUCCESS(aws_array_list_pop_back(&list), "List pop back failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(first, item, "Item should have been the first item.");
ASSERT_INT_EQUALS(list_size - 4, list.length, "List size should be %d.", (int)list_size - 1);
ASSERT_INT_EQUALS(
list_size, list.current_size / sizeof(int), "Allocated list size should be %d.", (int)list_size * sizeof(int));
aws_array_list_clean_up(&list);
return 0;
}
AWS_TEST_CASE(array_list_order_push_back_pop_back_test, s_array_list_order_push_back_pop_back_fn)
static int s_array_list_order_push_front_pop_front_fn(struct aws_allocator *allocator, void *ctx) {
(void)ctx;
struct aws_array_list list;
size_t list_size = 4;
size_t init_size = 2;
int first = 1, second = 2, third = 3, fourth = 4;
ASSERT_SUCCESS(
aws_array_list_init_dynamic(&list, allocator, init_size, sizeof(int)),
"List setup should have been successful. err code %d",
aws_last_error());
ASSERT_INT_EQUALS(0, list.length, "List size should be 0.");
ASSERT_INT_EQUALS(
init_size, list.current_size / sizeof(int), "Allocated list size should be %d.", (int)init_size * sizeof(int));
ASSERT_SUCCESS(
aws_array_list_push_front(&list, (void *)&first), "List push failed with error code %d", aws_last_error());
ASSERT_SUCCESS(
aws_array_list_push_front(&list, (void *)&second), "List push failed with error code %d", aws_last_error());
ASSERT_SUCCESS(
aws_array_list_push_front(&list, (void *)&third), "List push failed with error code %d", aws_last_error());
ASSERT_SUCCESS(
aws_array_list_push_front(&list, (void *)&fourth), "List push failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(list_size, list.length, "List size should be %d.", (int)list_size);
ASSERT_INT_EQUALS(
list_size, list.current_size / sizeof(int), "Allocated list size should be %d.", (int)list_size * sizeof(int));
int item = 0;
ASSERT_SUCCESS(
aws_array_list_front(&list, (void *)&item), "List front failed with error code %d", aws_last_error());
ASSERT_SUCCESS(aws_array_list_pop_front(&list), "List pop front failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(fourth, item, "Item should have been the fourth item.");
ASSERT_INT_EQUALS(list_size - 1, list.length, "List size should be %d.", (int)list_size - 1);
ASSERT_INT_EQUALS(
list_size, list.current_size / sizeof(int), "Allocated list size should be %d.", (int)list_size * sizeof(int));
ASSERT_SUCCESS(
aws_array_list_front(&list, (void *)&item), "List front failed with error code %d", aws_last_error());
ASSERT_SUCCESS(aws_array_list_pop_front(&list), "List pop front failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(third, item, "Item should have been the third item.");
ASSERT_INT_EQUALS(list_size - 2, list.length, "List size should be %d.", (int)list_size - 2);
ASSERT_INT_EQUALS(
list_size, list.current_size / sizeof(int), "Allocated list size should be %d.", (int)list_size * sizeof(int));
ASSERT_SUCCESS(
aws_array_list_front(&list, (void *)&item), "List front failed with error code %d", aws_last_error());
ASSERT_SUCCESS(aws_array_list_pop_front(&list), "List pop front failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(second, item, "Item should have been the second item.");
ASSERT_INT_EQUALS(list_size - 3, list.length, "List size should be %d.", (int)list_size - 3);
ASSERT_INT_EQUALS(
list_size, list.current_size / sizeof(int), "Allocated list size should be %d.", (int)list_size * sizeof(int));
ASSERT_SUCCESS(
aws_array_list_front(&list, (void *)&item), "List front failed with error code %d", aws_last_error());
ASSERT_SUCCESS(aws_array_list_pop_front(&list), "List pop front failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(first, item, "Item should have been the first item.");
ASSERT_INT_EQUALS(list_size - 4, list.length, "List size should be %d.", (int)list_size - 4);
ASSERT_INT_EQUALS(
list_size, list.current_size / sizeof(int), "Allocated list size should be %d.", (int)list_size * sizeof(int));
aws_array_list_clean_up(&list);
return 0;
}
AWS_TEST_CASE(array_list_order_push_front_pop_front_test, s_array_list_order_push_front_pop_front_fn)
static int s_array_list_pop_front_n_fn(struct aws_allocator *allocator, void *ctx) {
(void)ctx;
struct aws_array_list list;
ASSERT_SUCCESS(aws_array_list_init_dynamic(&list, allocator, 8, sizeof(int)));
int first = 1, second = 2, third = 3, fourth = 4;
int item = 0;
ASSERT_SUCCESS(aws_array_list_push_back(&list, (void *)&first));
ASSERT_SUCCESS(aws_array_list_push_back(&list, (void *)&second));
ASSERT_SUCCESS(aws_array_list_push_back(&list, (void *)&third));
ASSERT_SUCCESS(aws_array_list_push_back(&list, (void *)&fourth));
/* Popping 0 front elements should have no effect */
aws_array_list_pop_front_n(&list, 0);
ASSERT_INT_EQUALS(4, aws_array_list_length(&list));
/* Pop 2/4 front elements. Third item should be in front. */
aws_array_list_pop_front_n(&list, 2);
ASSERT_INT_EQUALS(2, aws_array_list_length(&list));
ASSERT_SUCCESS(aws_array_list_front(&list, &item));
ASSERT_INT_EQUALS(third, item);
/* Pop last 2/2 elements. List should be empty. */
aws_array_list_pop_front_n(&list, 2);
ASSERT_INT_EQUALS(0, aws_array_list_length(&list), "List should be empty after popping last 2 items");
/* Put some elements into list again.
* Popping more items than list contains should just clear the list */
ASSERT_SUCCESS(aws_array_list_push_back(&list, (void *)&first));
ASSERT_SUCCESS(aws_array_list_push_back(&list, (void *)&second));
ASSERT_SUCCESS(aws_array_list_push_back(&list, (void *)&third));
ASSERT_SUCCESS(aws_array_list_push_back(&list, (void *)&fourth));
aws_array_list_pop_front_n(&list, 99);
ASSERT_INT_EQUALS(0, aws_array_list_length(&list));
aws_array_list_clean_up(&list);
return 0;
}
AWS_TEST_CASE(array_list_pop_front_n_test, s_array_list_pop_front_n_fn)
static int s_reset_list(struct aws_array_list *list, const int *array, size_t array_len) {
aws_array_list_clear(list);
for (size_t i = 0; i < array_len; ++i) {
ASSERT_SUCCESS(aws_array_list_push_back(list, &array[i]));
}
return AWS_OP_SUCCESS;
}
static int s_check_list_eq(const struct aws_array_list *list, const int *array, size_t array_len) {
ASSERT_UINT_EQUALS(array_len, aws_array_list_length(list));
for (size_t i = 0; i < array_len; ++i) {
int item;
ASSERT_SUCCESS(aws_array_list_get_at(list, &item, i));
ASSERT_INT_EQUALS(array[i], item);
}
return AWS_OP_SUCCESS;
}
static int s_array_list_erase_fn(struct aws_allocator *allocator, void *ctx) {
(void)ctx;
struct aws_array_list list;
ASSERT_SUCCESS(aws_array_list_init_dynamic(&list, allocator, 10, sizeof(int)));
{
/* Attempts to erase invalid indices should fail */
const int starting_values[] = {1, 2, 3, 4};
ASSERT_SUCCESS(s_reset_list(&list, starting_values, AWS_ARRAY_SIZE(starting_values)));
ASSERT_ERROR(AWS_ERROR_INVALID_INDEX, aws_array_list_erase(&list, AWS_ARRAY_SIZE(starting_values)));
ASSERT_ERROR(AWS_ERROR_INVALID_INDEX, aws_array_list_erase(&list, AWS_ARRAY_SIZE(starting_values) + 100));
ASSERT_SUCCESS(s_check_list_eq(&list, starting_values, AWS_ARRAY_SIZE(starting_values)));
}
{
/* Erase front item */
const int starting_values[] = {1, 2, 3, 4};
ASSERT_SUCCESS(s_reset_list(&list, starting_values, AWS_ARRAY_SIZE(starting_values)));
ASSERT_SUCCESS(aws_array_list_erase(&list, 0));
const int expected_values[] = {2, 3, 4};
ASSERT_SUCCESS(s_check_list_eq(&list, expected_values, AWS_ARRAY_SIZE(expected_values)));
}
{
/* Erase back item */
const int starting_values[] = {1, 2, 3, 4};
ASSERT_SUCCESS(s_reset_list(&list, starting_values, AWS_ARRAY_SIZE(starting_values)));
ASSERT_SUCCESS(aws_array_list_erase(&list, 3));
const int expected_values[] = {1, 2, 3};
ASSERT_SUCCESS(s_check_list_eq(&list, expected_values, AWS_ARRAY_SIZE(expected_values)));
}
{
/* Erase middle item */
const int starting_values[] = {1, 2, 3, 4};
ASSERT_SUCCESS(s_reset_list(&list, starting_values, AWS_ARRAY_SIZE(starting_values)));
ASSERT_SUCCESS(aws_array_list_erase(&list, 1));
const int expected_values[] = {1, 3, 4};
ASSERT_SUCCESS(s_check_list_eq(&list, expected_values, AWS_ARRAY_SIZE(expected_values)));
}
aws_array_list_clean_up(&list);
return AWS_OP_SUCCESS;
}
AWS_TEST_CASE(array_list_erase_test, s_array_list_erase_fn)
static int s_array_list_exponential_mem_model_test_fn(struct aws_allocator *allocator, void *ctx) {
(void)ctx;
struct aws_array_list list;
static size_t list_size = 1;
ASSERT_SUCCESS(
aws_array_list_init_dynamic(&list, allocator, list_size, sizeof(int)),
"List initialization failed with error %d",
aws_last_error());
int first = 1, second = 2, third = 3;
ASSERT_INT_EQUALS(0, list.length, "List size should be 0.");
ASSERT_INT_EQUALS(
list_size, list.current_size / sizeof(int), "Allocated list size should be %d.", (int)list_size * sizeof(int));
ASSERT_SUCCESS(
aws_array_list_push_back(&list, (void *)&first), "array list push back failed with error %d", aws_last_error());
ASSERT_INT_EQUALS(list_size, list.current_size / sizeof(int));
ASSERT_SUCCESS(
aws_array_list_push_back(&list, (void *)&second),
"array list push back failed with error %d",
aws_last_error());
ASSERT_INT_EQUALS(
list_size << 1,
list.current_size / sizeof(int),
"Allocated list size should be %d.",
(int)(list_size << 1) * sizeof(int));
ASSERT_SUCCESS(
aws_array_list_push_back(&list, (void *)&third), "array list push back failed with error %d", aws_last_error());
ASSERT_INT_EQUALS(
list_size << 2,
list.current_size / sizeof(int),
"Allocated list size should be %d.",
(int)(list_size << 2) * sizeof(int));
ASSERT_INT_EQUALS(3, list.length, "List size should be %d.", 3);
int item = 0;
ASSERT_SUCCESS(
aws_array_list_front(&list, (void *)&item), "List front failed with error code %d", aws_last_error());
ASSERT_SUCCESS(aws_array_list_pop_front(&list), "List pop front failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(first, item, "Item should have been the first item.");
ASSERT_SUCCESS(
aws_array_list_front(&list, (void *)&item), "List front failed with error code %d", aws_last_error());
ASSERT_SUCCESS(aws_array_list_pop_front(&list), "List pop front failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(second, item, "Item should have been the second item.");
ASSERT_SUCCESS(
aws_array_list_front(&list, (void *)&item), "List front failed with error code %d", aws_last_error());
ASSERT_SUCCESS(aws_array_list_pop_front(&list), "List pop front failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(third, item, "Item should have been the third item.");
ASSERT_INT_EQUALS(0, list.length, "List size should be 0.");
ASSERT_INT_EQUALS(
list_size << 2,
list.current_size / sizeof(int),
"Allocated list size should be %d.",
(int)(list_size << 2) * sizeof(int));
aws_array_list_clean_up(&list);
return 0;
}
AWS_TEST_CASE(array_list_exponential_mem_model_test, s_array_list_exponential_mem_model_test_fn)
static int s_array_list_exponential_mem_model_iteration_test_fn(struct aws_allocator *allocator, void *ctx) {
(void)ctx;
struct aws_array_list list;
static size_t list_size = 1;
ASSERT_SUCCESS(
aws_array_list_init_dynamic(&list, allocator, list_size, sizeof(int)),
"List initialization failed with error %d",
aws_last_error());
int first = 1, second = 2, third = 3;
ASSERT_INT_EQUALS(0, list.length, "List size should be 0.");
ASSERT_INT_EQUALS(
list_size, list.current_size / sizeof(int), "Allocated list size should be %d.", (int)list_size * sizeof(int));
ASSERT_SUCCESS(
aws_array_list_set_at(&list, (void *)&first, 0), "array list push back failed with error %d", aws_last_error());
ASSERT_INT_EQUALS(list_size, list.current_size / sizeof(int));
ASSERT_SUCCESS(
aws_array_list_set_at(&list, (void *)&second, 1),
"array list push back failed with error %d",
aws_last_error());
ASSERT_INT_EQUALS(
list_size << 1,
list.current_size / sizeof(int),
"Allocated list size should be %d.",
(int)(list_size << 1) * sizeof(int));
ASSERT_SUCCESS(
aws_array_list_set_at(&list, (void *)&third, 2), "array list push back failed with error %d", aws_last_error());
ASSERT_INT_EQUALS(
list_size << 2,
list.current_size / sizeof(int),
"Allocated list size should be %d.",
(int)(list_size << 2) * sizeof(int));
ASSERT_INT_EQUALS(3, list.length, "List size should be %d.", 3);
int item = 0;
ASSERT_SUCCESS(
aws_array_list_front(&list, (void *)&item), "List front failed with error code %d", aws_last_error());
ASSERT_SUCCESS(aws_array_list_pop_front(&list), "List pop front failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(first, item, "Item should have been the first item.");
ASSERT_SUCCESS(
aws_array_list_front(&list, (void *)&item), "List front failed with error code %d", aws_last_error());
ASSERT_SUCCESS(aws_array_list_pop_front(&list), "List pop front failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(second, item, "Item should have been the second item.");
ASSERT_SUCCESS(
aws_array_list_front(&list, (void *)&item), "List front failed with error code %d", aws_last_error());
ASSERT_SUCCESS(aws_array_list_pop_front(&list), "List pop front failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(third, item, "Item should have been the third item.");
ASSERT_INT_EQUALS(0, list.length, "List size should be 0.");
ASSERT_INT_EQUALS(
list_size << 2,
list.current_size / sizeof(int),
"Allocated list size should be %d.",
(int)(list_size << 2) * sizeof(int));
aws_array_list_clean_up(&list);
return 0;
}
AWS_TEST_CASE(array_list_exponential_mem_model_iteration_test, s_array_list_exponential_mem_model_iteration_test_fn)
static int s_array_list_set_at_overwrite_safety_fn(struct aws_allocator *allocator, void *ctx) {
(void)allocator;
(void)ctx;
struct aws_array_list list;
size_t list_size = 4;
int overwrite_data[5];
aws_array_list_init_static(&list, overwrite_data, list_size, sizeof(int));
memset(overwrite_data, 0x11, sizeof(overwrite_data));
list.current_size = list_size * sizeof(int);
unsigned value = 0xFFFFFFFF;
ASSERT_SUCCESS(aws_array_list_set_at(&list, (void *)&value, 3));
ASSERT_ERROR(AWS_ERROR_INVALID_INDEX, aws_array_list_set_at(&list, (void *)&value, 4));
ASSERT_INT_EQUALS(0x11111111, overwrite_data[4]);
aws_array_list_clean_up(&list);
return 0;
}
AWS_TEST_CASE(array_list_set_at_overwrite_safety, s_array_list_set_at_overwrite_safety_fn)
static int s_array_list_iteration_test_fn(struct aws_allocator *allocator, void *ctx) {
(void)ctx;
struct aws_array_list list;
static size_t list_size = 4;
ASSERT_SUCCESS(
aws_array_list_init_dynamic(&list, allocator, list_size, sizeof(int)),
"List initialization failed with error %d",
aws_last_error());
int first = 1, second = 2, third = 3, fourth = 4;
ASSERT_SUCCESS(
aws_array_list_set_at(&list, (void *)&first, 0), "Array set failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(1, list.length, "List size should be %d.", 1);
ASSERT_SUCCESS(
aws_array_list_set_at(&list, (void *)&second, 1), "Array set failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(2, list.length, "List size should be %d.", 2);
ASSERT_SUCCESS(
aws_array_list_set_at(&list, (void *)&third, 2), "Array set failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(3, list.length, "List size should be %d.", 3);
ASSERT_SUCCESS(
aws_array_list_set_at(&list, (void *)&fourth, 3), "Array set failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(4, list.length, "List size should be %d.", 4);
int item = 0;
ASSERT_SUCCESS(
aws_array_list_get_at(&list, (void *)&item, 0), "Array set failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(first, item, "Item should have been the first item.");
ASSERT_SUCCESS(
aws_array_list_get_at(&list, (void *)&item, 1), "Array set failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(second, item, "Item should have been the second item.");
ASSERT_SUCCESS(
aws_array_list_get_at(&list, (void *)&item, 2), "Array set failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(third, item, "Item should have been the third item.");
ASSERT_SUCCESS(
aws_array_list_get_at(&list, (void *)&item, 3), "Array set failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(fourth, item, "Item should have been the fourth item.");
aws_array_list_clean_up(&list);
return 0;
}
AWS_TEST_CASE(array_list_iteration_test, s_array_list_iteration_test_fn)
static int s_array_list_iteration_by_ptr_test_fn(struct aws_allocator *allocator, void *ctx) {
(void)ctx;
struct aws_array_list list;
static size_t list_size = 4;
ASSERT_SUCCESS(
aws_array_list_init_dynamic(&list, allocator, list_size, sizeof(int)),
"List initialization failed with error %d",
aws_last_error());
int first = 1, second = 2, third = 3, fourth = 4;
ASSERT_SUCCESS(
aws_array_list_set_at(&list, (void *)&first, 0), "Array set failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(1, list.length, "List size should be %d.", 1);
ASSERT_SUCCESS(
aws_array_list_set_at(&list, (void *)&second, 1), "Array set failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(2, list.length, "List size should be %d.", 2);
ASSERT_SUCCESS(
aws_array_list_set_at(&list, (void *)&third, 2), "Array set failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(3, list.length, "List size should be %d.", 3);
ASSERT_SUCCESS(
aws_array_list_set_at(&list, (void *)&fourth, 3), "Array set failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(4, list.length, "List size should be %d.", 4);
int *item;
ASSERT_SUCCESS(
aws_array_list_get_at_ptr(&list, (void **)&item, 0), "Array set failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(first, *item, "Item should have been the first item.");
ASSERT_SUCCESS(
aws_array_list_get_at_ptr(&list, (void **)&item, 1), "Array set failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(second, *item, "Item should have been the second item.");
ASSERT_SUCCESS(
aws_array_list_get_at_ptr(&list, (void **)&item, 2), "Array set failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(third, *item, "Item should have been the third item.");
ASSERT_SUCCESS(
aws_array_list_get_at_ptr(&list, (void **)&item, 3), "Array set failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(fourth, *item, "Item should have been the fourth item.");
aws_array_list_clean_up(&list);
return 0;
}
AWS_TEST_CASE(array_list_iteration_by_ptr_test, s_array_list_iteration_by_ptr_test_fn)
static int s_array_list_preallocated_iteration_test_fn(struct aws_allocator *allocator, void *ctx) {
(void)allocator;
(void)ctx;
struct aws_array_list list;
int list_data[4];
size_t list_size = 4;
aws_array_list_init_static(&list, (void *)list_data, list_size, sizeof(int));
int first = 1, second = 2, third = 3, fourth = 4;
ASSERT_SUCCESS(
aws_array_list_set_at(&list, (void *)&first, 0), "Array set failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(1, list.length, "List size should be %d.", 1);
ASSERT_SUCCESS(
aws_array_list_set_at(&list, (void *)&second, 1), "Array set failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(2, list.length, "List size should be %d.", 2);
ASSERT_SUCCESS(
aws_array_list_set_at(&list, (void *)&third, 2), "Array set failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(3, list.length, "List size should be %d.", 3);
ASSERT_SUCCESS(
aws_array_list_set_at(&list, (void *)&fourth, 3), "Array set failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(4, list.length, "List size should be %d.", 4);
ASSERT_FAILS(aws_array_list_set_at(&list, (void *)&fourth, 4), "Adding element past the end should have failed");
ASSERT_INT_EQUALS(
AWS_ERROR_INVALID_INDEX,
aws_last_error(),
"Error code should have been INVALID_INDEX but was %d",
aws_last_error());
int item = 0;
ASSERT_SUCCESS(
aws_array_list_get_at(&list, (void *)&item, 0), "Array set failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(first, item, "Item should have been the first item.");
ASSERT_SUCCESS(
aws_array_list_get_at(&list, (void *)&item, 1), "Array set failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(second, item, "Item should have been the second item.");
ASSERT_SUCCESS(
aws_array_list_get_at(&list, (void *)&item, 2), "Array set failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(third, item, "Item should have been the third item.");
ASSERT_SUCCESS(
aws_array_list_get_at(&list, (void *)&item, 3), "Array set failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(fourth, item, "Item should have been the fourth item.");
ASSERT_FAILS(aws_array_list_get_at(&list, (void *)&item, 4), "Getting an element past the end should have failed");
ASSERT_INT_EQUALS(
AWS_ERROR_INVALID_INDEX,
aws_last_error(),
"Error code should have been INVALID_INDEX but was %d",
aws_last_error());
aws_array_list_clean_up(&list);
return 0;
}
AWS_TEST_CASE(array_list_preallocated_iteration_test, s_array_list_preallocated_iteration_test_fn)
static int s_array_list_preallocated_push_test_fn(struct aws_allocator *allocator, void *ctx) {
(void)allocator;
(void)ctx;
struct aws_array_list list;
int list_data[4];
const size_t list_size = 4;
aws_array_list_init_static(&list, (void *)list_data, list_size, sizeof(int));
int first = 1, second = 2, third = 3, fourth = 4;
ASSERT_INT_EQUALS(0, list.length, "List size should be 0.");
ASSERT_INT_EQUALS(sizeof(list_data), list.current_size, "Allocated list size should be %d.", sizeof(list_data));
ASSERT_SUCCESS(aws_array_list_push_back(&list, &first), "List push failed with error code %d", aws_last_error());
ASSERT_SUCCESS(aws_array_list_push_back(&list, &second), "List push failed with error code %d", aws_last_error());
ASSERT_SUCCESS(aws_array_list_push_back(&list, &third), "List push failed with error code %d", aws_last_error());
ASSERT_SUCCESS(aws_array_list_push_back(&list, &fourth), "List push failed with error code %d", aws_last_error());
ASSERT_ERROR(
AWS_ERROR_LIST_EXCEEDS_MAX_SIZE,
aws_array_list_push_back(&list, &fourth),
"List push past static size should have failed with AWS_ERROR_LIST_EXCEEDS_MAX_SIZE but was %d",
aws_last_error());
aws_array_list_clean_up(&list);
return 0;
}
AWS_TEST_CASE(array_list_preallocated_push_test, s_array_list_preallocated_push_test_fn)
static int s_array_list_shrink_to_fit_test_fn(struct aws_allocator *allocator, void *ctx) {
(void)ctx;
struct aws_array_list list;
static size_t list_size = 4;
ASSERT_SUCCESS(
aws_array_list_init_dynamic(&list, allocator, list_size, sizeof(int)),
"List initialization failed with error %d",
aws_last_error());
int first = 1, second = 2;
ASSERT_SUCCESS(aws_array_list_push_back(&list, &first), "List push failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(1, list.length, "List size should be %d.", 1);
ASSERT_SUCCESS(aws_array_list_push_back(&list, &second), "List push failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(2, list.length, "List size should be %d.", 2);
ASSERT_INT_EQUALS(
list_size, list.current_size / sizeof(int), "size before shrink should be %d.", list_size * sizeof(int));
ASSERT_SUCCESS(
aws_array_list_shrink_to_fit(&list), "List shrink to fit failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(2, list.length, "List size should be %d.", 2);
ASSERT_INT_EQUALS(2, list.current_size / sizeof(int), "Shrunken size should be %d.", 2 * sizeof(int));
int item = 0;
ASSERT_SUCCESS(aws_array_list_get_at(&list, &item, 0), "Array set failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(first, item, "Item should have been the first item.");
ASSERT_SUCCESS(aws_array_list_get_at(&list, &item, 1), "Array set failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(second, item, "Item should have been the second item.");
ASSERT_FAILS(aws_array_list_get_at(&list, &item, 2), "Getting an element past the end should have failed");
ASSERT_INT_EQUALS(
AWS_ERROR_INVALID_INDEX,
aws_last_error(),
"Error code should have been INVALID_INDEX but was %d",
aws_last_error());
aws_array_list_clean_up(&list);
return 0;
}
AWS_TEST_CASE(array_list_shrink_to_fit_test, s_array_list_shrink_to_fit_test_fn)
static int s_array_list_shrink_to_fit_static_test_fn(struct aws_allocator *allocator, void *ctx) {
(void)allocator;
(void)ctx;
struct aws_array_list list;
int list_data[4];
const size_t list_size = 4;
aws_array_list_init_static(&list, (void *)list_data, list_size, sizeof(int));
int first = 1, second = 2;
ASSERT_SUCCESS(
aws_array_list_push_back(&list, (void *)&first), "List push failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(1, list.length, "List size should be %d.", 1);
ASSERT_SUCCESS(
aws_array_list_push_back(&list, (void *)&second), "List push failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(2, list.length, "List size should be %d.", 2);
ASSERT_INT_EQUALS(sizeof(list_data), list.current_size, "size before shrink should be %d.", sizeof(list_data));
ASSERT_FAILS(aws_array_list_shrink_to_fit(&list), "List shrink of static list should have failed.");
ASSERT_INT_EQUALS(
AWS_ERROR_LIST_STATIC_MODE_CANT_SHRINK,
aws_last_error(),
"Error code should have been LIST_STATIC_MODE_CANT_SHRINK but was %d",
aws_last_error());
ASSERT_PTR_EQUALS(&list_data, list.data, "The underlying allocation should not have changed");
ASSERT_INT_EQUALS(sizeof(list_data), list.current_size, "List size should not have been changed");
aws_array_list_clean_up(&list);
return 0;
}
AWS_TEST_CASE(array_list_shrink_to_fit_static_test, s_array_list_shrink_to_fit_static_test_fn)
static int s_array_list_clear_test_fn(struct aws_allocator *allocator, void *ctx) {
(void)ctx;
struct aws_array_list list;
static size_t list_size = 4;
ASSERT_SUCCESS(
aws_array_list_init_dynamic(&list, allocator, list_size, sizeof(int)),
"List initialization failed with error %d",
aws_last_error());
int first = 1, second = 2;
ASSERT_SUCCESS(
aws_array_list_push_back(&list, (void *)&first), "List push failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(1, list.length, "List size should be %d.", 1);
ASSERT_SUCCESS(
aws_array_list_push_back(&list, (void *)&second), "List push failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(2, list.length, "List size should be %d.", 2);
ASSERT_INT_EQUALS(
list_size, list.current_size / sizeof(int), "size before clear should be %d.", list_size * sizeof(int));
aws_array_list_clear(&list);
ASSERT_INT_EQUALS(0, list.length, "List size should be %d after clear.", 0);
ASSERT_INT_EQUALS(
list_size, list.current_size / sizeof(int), "cleared size should be %d.", (int)list_size * sizeof(int));
int item;
ASSERT_FAILS(aws_array_list_front(&list, (void *)&item), "front() after a clear on list should have been an error");
ASSERT_INT_EQUALS(
AWS_ERROR_LIST_EMPTY, aws_last_error(), "Error code should have been LIST_EMPTY but was %d", aws_last_error());
aws_array_list_clean_up(&list);
return 0;
}
AWS_TEST_CASE(array_list_clear_test, s_array_list_clear_test_fn)
static int s_array_list_copy_test_fn(struct aws_allocator *allocator, void *ctx) {
(void)ctx;
struct aws_array_list list_a;
struct aws_array_list list_b;
static size_t list_size = 4;
ASSERT_SUCCESS(
aws_array_list_init_dynamic(&list_a, allocator, list_size, sizeof(int)),
"List initialization failed with error %d",
aws_last_error());
ASSERT_SUCCESS(
aws_array_list_init_dynamic(&list_b, allocator, 0, sizeof(int)),
"List initialization failed with error %d",
aws_last_error());
int first = 1, second = 2;
ASSERT_SUCCESS(
aws_array_list_push_back(&list_a, (void *)&first), "List push failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(1, list_a.length, "List size should be %d.", 1);
ASSERT_SUCCESS(
aws_array_list_push_back(&list_a, (void *)&second), "List push failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(2, list_a.length, "List size should be %d.", 2);
ASSERT_SUCCESS(aws_array_list_copy(&list_a, &list_b), "List copy failed with error code %d", aws_last_error());
int item = 0;
ASSERT_SUCCESS(
aws_array_list_get_at(&list_b, (void *)&item, 0), "Array set failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(first, item, "Item should have been the first item.");
ASSERT_SUCCESS(
aws_array_list_get_at(&list_b, (void *)&item, 1), "Array set failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(second, item, "Item should have been the second item.");
ASSERT_INT_EQUALS(
aws_array_list_length(&list_a), aws_array_list_length(&list_b), "list lengths should have matched.");
aws_array_list_clean_up(&list_a);
aws_array_list_clean_up(&list_b);
return 0;
}
AWS_TEST_CASE(array_list_copy_test, s_array_list_copy_test_fn)
static int s_array_list_swap_contents_test_fn(struct aws_allocator *allocator, void *ctx) {
(void)ctx;
/* build lists */
struct aws_array_list list_a;
int a_1 = 1;
int a_capacity = 1;
ASSERT_SUCCESS(aws_array_list_init_dynamic(&list_a, allocator, a_capacity, sizeof(int)));
ASSERT_SUCCESS(aws_array_list_push_back(&list_a, (void *)&a_1));
struct aws_array_list list_b;
int b_1 = 5;
int b_2 = 6;
int b_capacity = 3;
ASSERT_SUCCESS(aws_array_list_init_dynamic(&list_b, allocator, b_capacity, sizeof(int)));
ASSERT_SUCCESS(aws_array_list_push_back(&list_b, (void *)&b_1));
ASSERT_SUCCESS(aws_array_list_push_back(&list_b, (void *)&b_2));
void *a_buffer;
ASSERT_SUCCESS(aws_array_list_get_at_ptr(&list_a, &a_buffer, 0));
void *b_buffer;
ASSERT_SUCCESS(aws_array_list_get_at_ptr(&list_b, &b_buffer, 0));
/* swap */
aws_array_list_swap_contents(&list_a, &list_b);
/* compare state after swap */
void *a_buffer_after_swap;
ASSERT_SUCCESS(aws_array_list_get_at_ptr(&list_a, &a_buffer_after_swap, 0));
ASSERT_PTR_EQUALS(b_buffer, a_buffer_after_swap, "Lists A and B should have swapped buffer ownership, but did not");
void *b_buffer_after_swap;
ASSERT_SUCCESS(aws_array_list_get_at_ptr(&list_b, &b_buffer_after_swap, 0));
ASSERT_PTR_EQUALS(a_buffer, b_buffer_after_swap, "Lists A and B should have swapped buffer ownership, but did not");
int item;
ASSERT_INT_EQUALS(2, aws_array_list_length(&list_a), "List A should have taken B's old length");
ASSERT_INT_EQUALS(b_capacity, aws_array_list_capacity(&list_a), "List A should have taken B's old capacity");
ASSERT_SUCCESS(aws_array_list_get_at(&list_a, &item, 0), "List A should have B's old first item");
ASSERT_INT_EQUALS(b_1, item, "List A should have B's old first item");
ASSERT_SUCCESS(aws_array_list_get_at(&list_a, &item, 1), "List A should have B's old second item");
ASSERT_INT_EQUALS(b_2, item, "List A should have B's old second item");
ASSERT_INT_EQUALS(1, aws_array_list_length(&list_b), "List B should have taken A's old length");
ASSERT_INT_EQUALS(a_capacity, aws_array_list_capacity(&list_b), "List B should have taken A's old capacity");
ASSERT_SUCCESS(aws_array_list_get_at(&list_b, &item, 0), "List B should have A's old first item");
ASSERT_INT_EQUALS(a_1, item, "List B should have A's old first item");
aws_array_list_clean_up(&list_a);
aws_array_list_clean_up(&list_b);
return 0;
}
AWS_TEST_CASE(array_list_swap_contents_test, s_array_list_swap_contents_test_fn)
static int s_array_list_not_enough_space_test_fn(struct aws_allocator *allocator, void *ctx) {
(void)ctx;
struct aws_array_list list_a;
struct aws_array_list list_b;
static size_t list_size = 4;
ASSERT_SUCCESS(
aws_array_list_init_dynamic(&list_a, allocator, list_size, sizeof(int)),
"List initialization failed with error %d",
aws_last_error());
ASSERT_SUCCESS(
aws_array_list_init_dynamic(&list_b, allocator, 1, sizeof(int)),
"List initialization failed with error %d",
aws_last_error());
int first = 1, second = 2;
ASSERT_SUCCESS(
aws_array_list_push_back(&list_a, (void *)&first), "List push failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(1, list_a.length, "List size should be %d.", 1);
ASSERT_SUCCESS(
aws_array_list_push_back(&list_a, (void *)&second), "List push failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(2, list_a.length, "List size should be %d.", 2);
ASSERT_SUCCESS(aws_array_list_copy(&list_a, &list_b), "Copy from list_a to list_b should have succeeded");
ASSERT_INT_EQUALS(list_a.length, list_b.length, "List b should have grown to the length of list a");
ASSERT_INT_EQUALS(
2 * sizeof(int),
list_b.current_size,
"List b should have grown to the size of the number of elements in list a");
aws_array_list_clean_up(&list_a);
aws_array_list_clean_up(&list_b);
return 0;
}
AWS_TEST_CASE(array_list_not_enough_space_test, s_array_list_not_enough_space_test_fn)
static int s_array_list_not_enough_space_test_failure_fn(struct aws_allocator *allocator, void *ctx) {
(void)ctx;
struct aws_array_list list_a;
struct aws_array_list list_b;
size_t list_size = 4;
int static_list[1];
ASSERT_SUCCESS(
aws_array_list_init_dynamic(&list_a, allocator, list_size, sizeof(int)),
"List initialization failed with error %d",
aws_last_error());
ASSERT_TRUE(list_a.data);
aws_array_list_init_static(&list_b, static_list, 1, sizeof(int));
ASSERT_TRUE(list_b.data);
int first = 1, second = 2;
ASSERT_SUCCESS(
aws_array_list_push_back(&list_a, (void *)&first), "List push failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(1, list_a.length, "List size should be %d.", 1);
ASSERT_SUCCESS(
aws_array_list_push_back(&list_a, (void *)&second), "List push failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(2, list_a.length, "List size should be %d.", 2);
ASSERT_ERROR(
AWS_ERROR_DEST_COPY_TOO_SMALL,
aws_array_list_copy(&list_a, &list_b),
"Copying to a static list too small should have failed with TOO_SMALL but got %d instead",
aws_last_error());
aws_array_list_clean_up(&list_a);
aws_array_list_clean_up(&list_b);
return 0;
}
AWS_TEST_CASE(array_list_not_enough_space_test_failure, s_array_list_not_enough_space_test_failure_fn)
static int s_array_list_of_strings_sort_fn(struct aws_allocator *allocator, void *ctx) {
(void)ctx;
AWS_STATIC_STRING_FROM_LITERAL(empty, "");
AWS_STATIC_STRING_FROM_LITERAL(foo, "foo");
AWS_STATIC_STRING_FROM_LITERAL(bar, "bar");
AWS_STATIC_STRING_FROM_LITERAL(foobar, "foobar");
AWS_STATIC_STRING_FROM_LITERAL(foo2, "foo");
AWS_STATIC_STRING_FROM_LITERAL(foobaz, "foobaz");
AWS_STATIC_STRING_FROM_LITERAL(bar_food, "bar food");
AWS_STATIC_STRING_FROM_LITERAL(bar_null_food, "bar\0food");
AWS_STATIC_STRING_FROM_LITERAL(bar_null_back, "bar\0back");
const struct aws_string *strings[] = {
empty, foo, bar, foobar, foo2, foobaz, bar_food, bar_null_food, bar_null_back};
const struct aws_string *sorted[] = {empty, bar, bar_null_back, bar_null_food, bar_food, foo, foo2, foobar, foobaz};
int num_strings = AWS_ARRAY_SIZE(strings);
struct aws_array_list list;
ASSERT_SUCCESS(
aws_array_list_init_dynamic(&list, allocator, num_strings, sizeof(const struct aws_string *)),
"List initialization failed with error %d",
aws_last_error());
for (int idx = 0; idx < num_strings; ++idx) {
ASSERT_SUCCESS(
aws_array_list_push_back(&list, (void *)(strings + idx)),
"List push failed with error code %d",
aws_last_error());
}
aws_array_list_sort(&list, aws_array_list_comparator_string);
/* No control over whether foo or foo2 will be first, but checking for
* string equality with sorted array makes that irrelevant.
*/
for (int idx = 0; idx < num_strings; ++idx) {
const struct aws_string *str;
ASSERT_SUCCESS(
aws_array_list_get_at(&list, (void **)&str, idx), "List get failed with error code %d", aws_last_error());
ASSERT_INT_EQUALS(0, aws_string_compare(str, sorted[idx]), "Strings should be equal");
}
aws_array_list_clean_up(&list);
return 0;
}
AWS_TEST_CASE(array_list_of_strings_sort, s_array_list_of_strings_sort_fn)
static int s_array_list_empty_sort_fn(struct aws_allocator *allocator, void *ctx) {
(void)ctx;
struct aws_array_list list;
ASSERT_SUCCESS(
aws_array_list_init_dynamic(&list, allocator, 5, sizeof(const struct aws_string *)),
"List initialization failed with error %d",
aws_last_error());
/* Nothing much to check, just want to make sure sort run on empty list
* doesn't crash. */
ASSERT_INT_EQUALS(0, aws_array_list_length(&list));
ASSERT_INT_EQUALS(5, aws_array_list_capacity(&list));
aws_array_list_sort(&list, aws_array_list_comparator_string);
ASSERT_INT_EQUALS(0, aws_array_list_length(&list));
ASSERT_INT_EQUALS(5, aws_array_list_capacity(&list));
aws_array_list_clean_up(&list);
return 0;
}
AWS_TEST_CASE(array_list_empty_sort, s_array_list_empty_sort_fn)
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