499 lines
12 KiB
C
499 lines
12 KiB
C
/*
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* Unit tests for Vector data type
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*/
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#define TEST(NAME) do { \
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printf("Running test_%s...", #NAME); \
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test_##NAME(); \
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printf(" PASSED\n"); \
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} while(0)
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#include <stdio.h>
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#include <assert.h>
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#include <string.h>
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#include "../src/vector.h"
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// Create a new vector
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void test_vector_new(void) {
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vector_result_t res = vector_new(5, sizeof(int));
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assert(res.status == VECTOR_OK);
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assert(res.value.vector != NULL);
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assert(vector_size(res.value.vector) == 0);
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assert(vector_capacity(res.value.vector) == 5);
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vector_destroy(res.value.vector);
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}
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// Create a vector with zero capacity
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void test_vector_new_zcap(void) {
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vector_result_t res = vector_new(0, sizeof(int));
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assert(res.status == VECTOR_ERR_ALLOCATE);
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}
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// Push elements to vector
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void test_vector_push(void) {
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vector_result_t res = vector_new(5, sizeof(int));
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assert(res.status == VECTOR_OK);
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vector_t *v = res.value.vector;
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int x = 42, y = 84;
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vector_result_t x_res = vector_push(v, &x);
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assert(x_res.status == VECTOR_OK);
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assert(vector_size(v) == 1);
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vector_result_t y_res = vector_push(v, &y);
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assert(y_res.status == VECTOR_OK);
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assert(vector_size(v) == 2);
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vector_destroy(v);
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}
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// Trigger vector reallocation
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void test_vector_push_realloc(void) {
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vector_result_t res = vector_new(1, sizeof(int));
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assert(res.status == VECTOR_OK);
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vector_t *v = res.value.vector;
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for (int i = 0; i < 5; i++) {
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vector_result_t push_res = vector_push(v, &i);
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assert(push_res.status == VECTOR_OK);
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}
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assert(vector_size(v) == 5);
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assert(vector_capacity(v) > 5);
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vector_destroy(v);
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}
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// Get vector elements
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void test_vector_get(void) {
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vector_result_t res = vector_new(5, sizeof(int));
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assert(res.status == VECTOR_OK);
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vector_t *v = res.value.vector;
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int val = 123;
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vector_push(v, &val);
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vector_result_t get_res = vector_get(v, 0);
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assert(get_res.status == VECTOR_OK);
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assert(*(int*)get_res.value.element == 123);
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vector_destroy(v);
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}
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// Test out of bounds
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void test_vector_get_ofb(void) {
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vector_result_t res = vector_new(5, sizeof(int));
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assert(res.status == VECTOR_OK);
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vector_t *v = res.value.vector;
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int val = 123;
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vector_push(v, &val);
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vector_result_t get_res = vector_get(v, 10);
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assert(get_res.status != VECTOR_OK);
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vector_destroy(v);
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}
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// Sort integers in ascending order
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vector_order_t cmp_int_asc(const void *x, const void *y) {
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int x_int = *(const int*)x;
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int y_int = *(const int*)y;
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if (x_int < y_int) return VECTOR_ORDER_LT;
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if (x_int > y_int) return VECTOR_ORDER_GT;
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return VECTOR_ORDER_EQ;
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}
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vector_order_t cmp_int_desc(const void *x, const void *y) {
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return cmp_int_asc(y, x);
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}
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void test_vector_sort_int_asc(void) {
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vector_result_t res = vector_new(5, sizeof(int));
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assert(res.status == VECTOR_OK);
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vector_t *v = res.value.vector;
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int values[] = { 25, 4, 12, -7, 25, 71, 1, 6 };
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for (size_t idx = 0; idx < 8; idx++) {
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vector_push(v, &values[idx]);
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}
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vector_result_t sort_res = vector_sort(v, cmp_int_asc);
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assert(sort_res.status == VECTOR_OK);
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const int expected[] = { -7, 1, 4, 6, 12, 25, 25, 71 };
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for (size_t idx = 0; idx < vector_size(v); idx++) {
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int *val = (int*)vector_get(v, idx).value.element;
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assert(*val == expected[idx]);
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}
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vector_destroy(v);
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}
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void test_vector_sort_int_desc(void) {
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vector_result_t res = vector_new(5, sizeof(int));
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assert(res.status == VECTOR_OK);
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vector_t *v = res.value.vector;
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int values[] = { 25, 4, 12, -7, 25, 71, 1, 6 };
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for (size_t idx = 0; idx < 8; idx++) {
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vector_push(v, &values[idx]);
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}
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vector_result_t sort_res = vector_sort(v, cmp_int_desc);
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assert(sort_res.status == VECTOR_OK);
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const int expected[] = { 71, 25, 25, 12, 6, 4, 1, -7 };
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for (size_t idx = 0; idx < vector_size(v); idx++) {
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int *val = (int*)vector_get(v, idx).value.element;
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assert(*val == expected[idx]);
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}
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vector_destroy(v);
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}
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// Sort strings in descending order
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vector_order_t cmp_string_desc(const void *x, const void *y) {
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const char *x_str = *(const char* const*)x;
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const char *y_str = *(const char* const*)y;
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// strcmp() returns an integer indicating the result of the comparison, as follows:
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// - 0, if the s1 and s2 are equal;
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// - a negative value if s1 is less than s2;
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// - a positive value if s1 is greater than s2.
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// for descending order, just invert the result
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const int result = strcmp(x_str, y_str);
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if (result < 0) return VECTOR_ORDER_GT;
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if (result > 0) return VECTOR_ORDER_LT;
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return VECTOR_ORDER_EQ;
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}
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void test_vector_sort_string(void) {
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vector_result_t res = vector_new(5, sizeof(char*));
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assert(res.status == VECTOR_OK);
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vector_t *v = res.value.vector;
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const char *values[] = { "embedded", "system-programming", "foo", "bar", "hello", "world!" };
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for (size_t idx = 0; idx < 6; idx++) {
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vector_push(v, &values[idx]);
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}
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vector_result_t sort_res = vector_sort(v, cmp_string_desc);
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assert(sort_res.status == VECTOR_OK);
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const char *expected[] = { "world!", "system-programming", "hello", "foo", "embedded", "bar"};
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for (size_t idx = 0; idx < vector_size(v); idx++) {
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const char *val = *(const char**)vector_get(v, idx).value.element;
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assert(!strcmp(val, expected[idx]));
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}
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vector_destroy(v);
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}
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// Sort vector with custom data type
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typedef struct {
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const char *name;
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int age;
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} Person;
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vector_order_t cmp_person_by_age(const void *x, const void *y) {
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const Person *x_person = (const Person*)x;
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const Person *y_person = (const Person*)y;
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if (x_person->age < y_person->age) return VECTOR_ORDER_LT;
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if (x_person->age > y_person->age) return VECTOR_ORDER_GT;
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return VECTOR_ORDER_EQ;
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}
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vector_order_t cmp_person_by_name(const void *x, const void *y) {
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const Person *x_person = (const Person*)x;
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const Person *y_person = (const Person*)y;
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const int result = strcmp(x_person->name, y_person->name);
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if(result < 0) return VECTOR_ORDER_LT;
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if(result > 0) return VECTOR_ORDER_GT;
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return VECTOR_ORDER_EQ;
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}
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void test_vector_sort_struct_by_age(void) {
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vector_result_t res = vector_new(5, sizeof(Person));
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assert(res.status == VECTOR_OK);
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vector_t *people = res.value.vector;
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Person p1 = { .name = "Bob", .age = 45 };
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Person p2 = { .name = "Alice", .age = 28 };
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Person p3 = { .name = "Marco", .age = 25 };
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vector_push(people, &p1);
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vector_push(people, &p2);
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vector_push(people, &p3);
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vector_result_t sort_res = vector_sort(people, cmp_person_by_age);
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assert(sort_res.status == VECTOR_OK);
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Person expected[] = {
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{ .name = "Marco", .age = 25 },
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{ .name = "Alice", .age = 28 },
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{ .name = "Bob", .age = 45 }
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};
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for (size_t idx = 0; idx < vector_size(people); idx++) {
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Person *p = (Person*)vector_get(people, idx).value.element;
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assert(!strcmp(p->name, expected[idx].name));
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assert(p->age == expected[idx].age);
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}
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vector_destroy(people);
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}
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void test_vector_sort_struct_by_name(void) {
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vector_result_t res = vector_new(5, sizeof(Person));
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assert(res.status == VECTOR_OK);
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vector_t *people = res.value.vector;
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Person p1 = { .name = "Sophia", .age = 45 };
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Person p2 = { .name = "Robert", .age = 28 };
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Person p3 = { .name = "Barbara", .age = 25 };
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Person p4 = { .name = "Christopher", .age = 65 };
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Person p5 = { .name = "Paul", .age = 53 };
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vector_push(people, &p1);
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vector_push(people, &p2);
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vector_push(people, &p3);
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vector_push(people, &p4);
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vector_push(people, &p5);
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vector_result_t sort_res = vector_sort(people, cmp_person_by_name);
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assert(sort_res.status == VECTOR_OK);
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Person expected[] = {
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{ .name = "Barbara", .age = 25 },
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{ .name = "Christopher", .age = 65 },
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{ .name = "Paul", .age = 53 },
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{ .name = "Robert", .age = 28 },
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{ .name = "Sophia", .age = 45 }
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};
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for (size_t idx = 0; idx < vector_size(people); idx++) {
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Person *p = (Person*)vector_get(people, idx).value.element;
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assert(!strcmp(p->name, expected[idx].name));
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assert(p->age == expected[idx].age);
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}
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vector_destroy(people);
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}
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// Set vector element
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void test_vector_set(void) {
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vector_result_t res = vector_new(5, sizeof(int));
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assert(res.status == VECTOR_OK);
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vector_t *v = res.value.vector;
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int x = 123, y = 999;
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vector_push(v, &x);
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vector_result_t set_res = vector_set(v, 0, &y);
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assert(set_res.status == VECTOR_OK);
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vector_result_t get_res = vector_get(v, 0);
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assert(*(int*)get_res.value.element == 999);
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vector_destroy(v);
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}
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// Set vector element out of bounds
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void test_vector_set_ofb(void) {
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vector_result_t res = vector_new(5, sizeof(int));
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assert(res.status == VECTOR_OK);
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vector_t *v = res.value.vector;
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int x = 10, y = 999;
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vector_push(v, &x);
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vector_result_t set_res = vector_set(v, 10, &y);
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assert(set_res.status != VECTOR_OK);
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vector_destroy(v);
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}
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// Pop element from vector
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void test_vector_pop(void) {
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vector_result_t res = vector_new(5, sizeof(int));
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assert(res.status == VECTOR_OK);
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vector_t *v = res.value.vector;
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int x = 10, y = 20;
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vector_push(v, &x);
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vector_push(v, &y);
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assert(vector_size(v) == 2);
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vector_result_t pop_res = vector_pop(v);
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assert(pop_res.status == VECTOR_OK);
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assert(*(int*)pop_res.value.element == 20);
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assert(vector_size(v) == 1);
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vector_destroy(v);
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}
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// Test pop element from empty vector
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void test_vector_pop_empty(void) {
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vector_result_t res = vector_new(5, sizeof(int));
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assert(res.status == VECTOR_OK);
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vector_t *v = res.value.vector;
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vector_result_t pop_res = vector_pop(v);
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assert(pop_res.status != VECTOR_OK);
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vector_destroy(v);
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}
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// Clear vector
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void test_vector_clear(void) {
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vector_result_t res = vector_new(5, sizeof(int));
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assert(res.status == VECTOR_OK);
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vector_t *v = res.value.vector;
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for (int i = 0; i < 5; i++) {
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vector_push(v, &i);
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}
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assert(vector_size(v) == 5);
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vector_result_t clear_res = vector_clear(v);
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assert(clear_res.status == VECTOR_OK);
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assert(vector_size(v) == 0);
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// Capacity should be unchanged, this is by design!
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assert(vector_capacity(v) == 5);
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vector_destroy(v);
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}
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// Multiple operations in sequence (push, set, pop and clear)
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void test_vector_sequence(void) {
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vector_result_t res = vector_new(2, sizeof(int));
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assert(res.status == VECTOR_OK);
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vector_t *v = res.value.vector;
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// push
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for (int i = 0; i < 5; i++) {
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vector_push(v, &i);
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}
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// Set
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int new_val = 0xBABE;
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vector_set(v, 2, &new_val);
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vector_result_t get_res = vector_get(v, 2);
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assert(*(int*)get_res.value.element == 0xBABE);
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// Pop
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vector_pop(v);
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assert(vector_size(v) == 4);
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// Clear
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vector_clear(v);
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assert(vector_size(v) == 0);
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vector_destroy(v);
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}
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// Vector with chars
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void test_vector_char(void) {
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vector_result_t res = vector_new(5, sizeof(char));
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assert(res.status == VECTOR_OK);
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vector_t *v = res.value.vector;
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char x = 'A', y = 'B', z = 'C';
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vector_push(v, &x);
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vector_push(v, &y);
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vector_push(v, &z);
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vector_result_t get_res = vector_get(v, 1);
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assert(*(char *)get_res.value.element == 'B');
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vector_destroy(v);
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}
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// Test vector with product data type
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typedef struct {
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int x;
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int y;
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} Point;
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void test_vector_struct(void) {
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vector_result_t res = vector_new(5, sizeof(Point));
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assert(res.status == VECTOR_OK);
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vector_t *v = res.value.vector;
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Point p1 = {10, 20};
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Point p2 = {30, 40};
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vector_push(v, &p1);
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vector_push(v, &p2);
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vector_result_t get_res = vector_get(v, 0);
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Point *retr = (Point*)get_res.value.element;
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assert(retr->x == 10);
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assert(retr->y == 20);
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vector_destroy(v);
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}
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int main(void) {
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printf("=== Running Vector unit tests ===\n\n");
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TEST(vector_new);
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TEST(vector_new_zcap);
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TEST(vector_push);
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TEST(vector_push_realloc);
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TEST(vector_get);
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TEST(vector_get_ofb);
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TEST(vector_sort_int_asc);
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TEST(vector_sort_int_desc);
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TEST(vector_sort_string);
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TEST(vector_sort_struct_by_age);
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TEST(vector_sort_struct_by_name);
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TEST(vector_set);
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TEST(vector_set_ofb);
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TEST(vector_pop);
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TEST(vector_pop_empty);
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TEST(vector_clear);
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TEST(vector_sequence);
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TEST(vector_char);
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TEST(vector_struct);
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printf("\n=== All tests passed! ===\n");
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return 0;
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}
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