scrcpy/app/tests/test_vector.c

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#include "common.h"
#include <assert.h>
#include "util/vector.h"
static void test_vector_insert_remove(void) {
struct SC_VECTOR(int) vec = SC_VECTOR_INITIALIZER;
bool ok;
ok = sc_vector_push(&vec, 42);
assert(ok);
assert(vec.data[0] == 42);
assert(vec.size == 1);
ok = sc_vector_push(&vec, 37);
assert(ok);
assert(vec.size == 2);
assert(vec.data[0] == 42);
assert(vec.data[1] == 37);
ok = sc_vector_insert(&vec, 1, 100);
assert(ok);
assert(vec.size == 3);
assert(vec.data[0] == 42);
assert(vec.data[1] == 100);
assert(vec.data[2] == 37);
ok = sc_vector_push(&vec, 77);
assert(ok);
assert(vec.size == 4);
assert(vec.data[0] == 42);
assert(vec.data[1] == 100);
assert(vec.data[2] == 37);
assert(vec.data[3] == 77);
sc_vector_remove(&vec, 1);
assert(vec.size == 3);
assert(vec.data[0] == 42);
assert(vec.data[1] == 37);
assert(vec.data[2] == 77);
sc_vector_clear(&vec);
assert(vec.size == 0);
sc_vector_destroy(&vec);
}
static void test_vector_push_array(void) {
struct SC_VECTOR(int) vec = SC_VECTOR_INITIALIZER;
bool ok;
ok = sc_vector_push(&vec, 3); assert(ok);
ok = sc_vector_push(&vec, 14); assert(ok);
ok = sc_vector_push(&vec, 15); assert(ok);
ok = sc_vector_push(&vec, 92); assert(ok);
ok = sc_vector_push(&vec, 65); assert(ok);
assert(vec.size == 5);
int items[] = { 1, 2, 3, 4, 5, 6, 7, 8 };
ok = sc_vector_push_all(&vec, items, 8);
assert(ok);
assert(vec.size == 13);
assert(vec.data[0] == 3);
assert(vec.data[1] == 14);
assert(vec.data[2] == 15);
assert(vec.data[3] == 92);
assert(vec.data[4] == 65);
assert(vec.data[5] == 1);
assert(vec.data[6] == 2);
assert(vec.data[7] == 3);
assert(vec.data[8] == 4);
assert(vec.data[9] == 5);
assert(vec.data[10] == 6);
assert(vec.data[11] == 7);
assert(vec.data[12] == 8);
sc_vector_destroy(&vec);
}
static void test_vector_insert_array(void) {
struct SC_VECTOR(int) vec = SC_VECTOR_INITIALIZER;
bool ok;
ok = sc_vector_push(&vec, 3); assert(ok);
ok = sc_vector_push(&vec, 14); assert(ok);
ok = sc_vector_push(&vec, 15); assert(ok);
ok = sc_vector_push(&vec, 92); assert(ok);
ok = sc_vector_push(&vec, 65); assert(ok);
assert(vec.size == 5);
int items[] = { 1, 2, 3, 4, 5, 6, 7, 8 };
ok = sc_vector_insert_all(&vec, 3, items, 8);
assert(ok);
assert(vec.size == 13);
assert(vec.data[0] == 3);
assert(vec.data[1] == 14);
assert(vec.data[2] == 15);
assert(vec.data[3] == 1);
assert(vec.data[4] == 2);
assert(vec.data[5] == 3);
assert(vec.data[6] == 4);
assert(vec.data[7] == 5);
assert(vec.data[8] == 6);
assert(vec.data[9] == 7);
assert(vec.data[10] == 8);
assert(vec.data[11] == 92);
assert(vec.data[12] == 65);
sc_vector_destroy(&vec);
}
static void test_vector_remove_slice(void) {
struct SC_VECTOR(int) vec = SC_VECTOR_INITIALIZER;
bool ok;
for (int i = 0; i < 100; ++i)
{
ok = sc_vector_push(&vec, i);
assert(ok);
}
assert(vec.size == 100);
sc_vector_remove_slice(&vec, 32, 60);
assert(vec.size == 40);
assert(vec.data[31] == 31);
assert(vec.data[32] == 92);
sc_vector_destroy(&vec);
}
static void test_vector_swap_remove(void) {
struct SC_VECTOR(int) vec = SC_VECTOR_INITIALIZER;
bool ok;
ok = sc_vector_push(&vec, 3); assert(ok);
ok = sc_vector_push(&vec, 14); assert(ok);
ok = sc_vector_push(&vec, 15); assert(ok);
ok = sc_vector_push(&vec, 92); assert(ok);
ok = sc_vector_push(&vec, 65); assert(ok);
assert(vec.size == 5);
sc_vector_swap_remove(&vec, 1);
assert(vec.size == 4);
assert(vec.data[0] == 3);
assert(vec.data[1] == 65);
assert(vec.data[2] == 15);
assert(vec.data[3] == 92);
sc_vector_destroy(&vec);
}
static void test_vector_index_of(void) {
struct SC_VECTOR(int) vec;
sc_vector_init(&vec);
bool ok;
for (int i = 0; i < 10; ++i)
{
ok = sc_vector_push(&vec, i);
assert(ok);
}
ssize_t idx;
idx = sc_vector_index_of(&vec, 0);
assert(idx == 0);
idx = sc_vector_index_of(&vec, 1);
assert(idx == 1);
idx = sc_vector_index_of(&vec, 4);
assert(idx == 4);
idx = sc_vector_index_of(&vec, 9);
assert(idx == 9);
idx = sc_vector_index_of(&vec, 12);
assert(idx == -1);
sc_vector_destroy(&vec);
}
static void test_vector_grow() {
struct SC_VECTOR(int) vec = SC_VECTOR_INITIALIZER;
bool ok;
for (int i = 0; i < 50; ++i)
{
ok = sc_vector_push(&vec, i); /* append */
assert(ok);
}
assert(vec.cap >= 50);
assert(vec.size == 50);
for (int i = 0; i < 25; ++i)
{
ok = sc_vector_insert(&vec, 20, i); /* insert in the middle */
assert(ok);
}
assert(vec.cap >= 75);
assert(vec.size == 75);
for (int i = 0; i < 25; ++i)
{
ok = sc_vector_insert(&vec, 0, i); /* prepend */
assert(ok);
}
assert(vec.cap >= 100);
assert(vec.size == 100);
for (int i = 0; i < 50; ++i)
sc_vector_remove(&vec, 20); /* remove from the middle */
assert(vec.cap >= 50);
assert(vec.size == 50);
for (int i = 0; i < 25; ++i)
sc_vector_remove(&vec, 0); /* remove from the head */
assert(vec.cap >= 25);
assert(vec.size == 25);
for (int i = 24; i >=0; --i)
sc_vector_remove(&vec, i); /* remove from the tail */
assert(vec.size == 0);
sc_vector_destroy(&vec);
}
static void test_vector_exp_growth(void) {
struct SC_VECTOR(int) vec = SC_VECTOR_INITIALIZER;
size_t oldcap = vec.cap;
int realloc_count = 0;
bool ok;
for (int i = 0; i < 10000; ++i)
{
ok = sc_vector_push(&vec, i);
assert(ok);
if (vec.cap != oldcap)
{
realloc_count++;
oldcap = vec.cap;
}
}
/* Test speciically for an expected growth factor of 1.5. In practice, the
* result is even lower (19) due to the first alloc of size 10 */
assert(realloc_count <= 23); /* ln(10000) / ln(1.5) ~= 23 */
realloc_count = 0;
for (int i = 9999; i >= 0; --i)
{
sc_vector_remove(&vec, i);
if (vec.cap != oldcap)
{
realloc_count++;
oldcap = vec.cap;
}
}
assert(realloc_count <= 23); /* same expectations for removals */
assert(realloc_count > 0); /* sc_vector_remove() must autoshrink */
sc_vector_destroy(&vec);
}
static void test_vector_reserve(void) {
struct SC_VECTOR(int) vec = SC_VECTOR_INITIALIZER;
bool ok;
ok = sc_vector_reserve(&vec, 800);
assert(ok);
assert(vec.cap >= 800);
assert(vec.size == 0);
size_t initial_cap = vec.cap;
for (int i = 0; i < 800; ++i)
{
ok = sc_vector_push(&vec, i);
assert(ok);
assert(vec.cap == initial_cap); /* no realloc */
}
sc_vector_destroy(&vec);
}
static void test_vector_shrink_to_fit(void) {
struct SC_VECTOR(int) vec = SC_VECTOR_INITIALIZER;
bool ok;
ok = sc_vector_reserve(&vec, 800);
assert(ok);
for (int i = 0; i < 250; ++i)
{
ok = sc_vector_push(&vec, i);
assert(ok);
}
assert(vec.cap >= 800);
assert(vec.size == 250);
sc_vector_shrink_to_fit(&vec);
assert(vec.cap == 250);
assert(vec.size == 250);
sc_vector_destroy(&vec);
}
static void test_vector_move(void) {
struct SC_VECTOR(int) vec = SC_VECTOR_INITIALIZER;
for (int i = 0; i < 7; ++i)
{
bool ok = sc_vector_push(&vec, i);
assert(ok);
}
/* move item at 1 so that its new position is 4 */
sc_vector_move(&vec, 1, 4);
assert(vec.size == 7);
assert(vec.data[0] == 0);
assert(vec.data[1] == 2);
assert(vec.data[2] == 3);
assert(vec.data[3] == 4);
assert(vec.data[4] == 1);
assert(vec.data[5] == 5);
assert(vec.data[6] == 6);
sc_vector_destroy(&vec);
}
static void test_vector_move_slice_forward(void) {
struct SC_VECTOR(int) vec = SC_VECTOR_INITIALIZER;
for (int i = 0; i < 10; ++i)
{
bool ok = sc_vector_push(&vec, i);
assert(ok);
}
/* move slice {2, 3, 4, 5} so that its new position is 5 */
sc_vector_move_slice(&vec, 2, 4, 5);
assert(vec.size == 10);
assert(vec.data[0] == 0);
assert(vec.data[1] == 1);
assert(vec.data[2] == 6);
assert(vec.data[3] == 7);
assert(vec.data[4] == 8);
assert(vec.data[5] == 2);
assert(vec.data[6] == 3);
assert(vec.data[7] == 4);
assert(vec.data[8] == 5);
assert(vec.data[9] == 9);
sc_vector_destroy(&vec);
}
static void test_vector_move_slice_backward(void) {
struct SC_VECTOR(int) vec = SC_VECTOR_INITIALIZER;
for (int i = 0; i < 10; ++i)
{
bool ok = sc_vector_push(&vec, i);
assert(ok);
}
/* move slice {5, 6, 7} so that its new position is 2 */
sc_vector_move_slice(&vec, 5, 3, 2);
assert(vec.size == 10);
assert(vec.data[0] == 0);
assert(vec.data[1] == 1);
assert(vec.data[2] == 5);
assert(vec.data[3] == 6);
assert(vec.data[4] == 7);
assert(vec.data[5] == 2);
assert(vec.data[6] == 3);
assert(vec.data[7] == 4);
assert(vec.data[8] == 8);
assert(vec.data[9] == 9);
sc_vector_destroy(&vec);
}
int main(int argc, char *argv[]) {
(void) argc;
(void) argv;
test_vector_insert_remove();
test_vector_push_array();
test_vector_insert_array();
test_vector_remove_slice();
test_vector_swap_remove();
test_vector_move();
test_vector_move_slice_forward();
test_vector_move_slice_backward();
test_vector_index_of();
test_vector_grow();
test_vector_exp_growth();
test_vector_reserve();
test_vector_shrink_to_fit();
return 0;
}