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Containers/tst/test_unordered_set.c
Bailey Thompson 33fe92dade Use GitHub actions as test suite (#91) 
Use GitHub actions as a test suite. Can get rid of CircleCI,
and now Valgrind is part of the test suite.
2020-08-12 19:06:49 -04:00

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#include "test.h"
#include "../src/include/unordered_set.h"
static int compare_int(const void *const one, const void *const two)
{
const int a = *(int *) one;
const int b = *(int *) two;
return a - b;
}
static int hash_count;
static unsigned long hash_int(const void *const key)
{
unsigned long hash = 17;
hash_count++;
hash = 31 * hash + *(int *) key;
return hash;
}
static unsigned long bad_hash_int()
{
return 5;
}
static void test_invalid_init(void)
{
assert(!unordered_set_init(0, hash_int, compare_int));
assert(!unordered_set_init(sizeof(int), NULL, compare_int));
assert(!unordered_set_init(sizeof(int), hash_int, NULL));
}
static void test_put(unordered_set me)
{
int val_arr[10] = {5, 9, 4, -5, 0, 6, 1, 5, 7, 2};
int key;
int i;
int j;
assert(unordered_set_size(me) == 0);
assert(unordered_set_is_empty(me));
key = 4;
unordered_set_put(me, &key);
assert(unordered_set_size(me) == 1);
unordered_set_put(me, &key);
assert(unordered_set_size(me) == 1);
assert(!unordered_set_is_empty(me));
assert(unordered_set_contains(me, &key));
key = 7;
assert(!unordered_set_contains(me, &key));
unordered_set_put(me, &key);
assert(unordered_set_size(me) == 2);
assert(unordered_set_contains(me, &key));
for (i = 0; i < 10; i++) {
unordered_set_put(me, &val_arr[i]);
assert(unordered_set_contains(me, &val_arr[i]));
}
assert(unordered_set_size(me) == 9);
for (i = 0; i < 10; i++) {
assert(unordered_set_contains(me, &val_arr[i]));
}
for (i = -100; i < 100; i++) {
int contains = 0;
for (j = 0; j < 10; j++) {
if (val_arr[j] == i) {
contains = 1;
}
}
assert(unordered_set_contains(me, &i) == contains);
}
}
static void test_remove(unordered_set me)
{
int num = -3;
assert(!unordered_set_remove(me, &num));
assert(unordered_set_size(me) == 9);
assert(!unordered_set_contains(me, &num));
num = 6;
assert(unordered_set_remove(me, &num));
assert(unordered_set_size(me) == 8);
assert(!unordered_set_contains(me, &num));
num = 4;
assert(unordered_set_remove(me, &num));
assert(unordered_set_size(me) == 7);
assert(!unordered_set_contains(me, &num));
num = 7;
assert(unordered_set_remove(me, &num));
assert(unordered_set_size(me) == 6);
assert(!unordered_set_contains(me, &num));
num = 9;
assert(unordered_set_remove(me, &num));
assert(unordered_set_size(me) == 5);
assert(!unordered_set_contains(me, &num));
num = -5;
assert(unordered_set_remove(me, &num));
assert(unordered_set_size(me) == 4);
assert(!unordered_set_contains(me, &num));
num = 0;
assert(unordered_set_remove(me, &num));
assert(unordered_set_size(me) == 3);
assert(!unordered_set_contains(me, &num));
num = 1;
assert(unordered_set_remove(me, &num));
assert(unordered_set_size(me) == 2);
assert(!unordered_set_contains(me, &num));
num = 5;
assert(unordered_set_remove(me, &num));
assert(unordered_set_size(me) == 1);
assert(!unordered_set_contains(me, &num));
num = 2;
assert(unordered_set_remove(me, &num));
assert(unordered_set_size(me) == 0);
assert(!unordered_set_contains(me, &num));
}
static void test_stress_remove(unordered_set me)
{
int i;
for (i = 5000; i < 6000; i++) {
unordered_set_put(me, &i);
assert(unordered_set_contains(me, &i));
}
assert(unordered_set_size(me) == 1000);
for (i = 5000; i < 6000; i++) {
unordered_set_remove(me, &i);
assert(!unordered_set_contains(me, &i));
}
assert(unordered_set_size(me) == 0);
assert(unordered_set_is_empty(me));
unordered_set_clear(me);
assert(unordered_set_size(me) == 0);
assert(unordered_set_is_empty(me));
}
static void test_stress_clear(unordered_set me)
{
int i;
int p = 0xfacade;
for (i = 5000; i < 6000; i++) {
unordered_set_put(me, &i);
assert(unordered_set_contains(me, &i));
}
assert(unordered_set_size(me) == 1000);
hash_count = 0;
unordered_set_rehash(me);
assert(hash_count == 1000);
unordered_set_clear(me);
assert(!unordered_set_remove(me, &p));
assert(unordered_set_size(me) == 0);
assert(unordered_set_is_empty(me));
}
static void test_basic(void)
{
unordered_set me = unordered_set_init(sizeof(int), hash_int, compare_int);
assert(me);
test_put(me);
test_remove(me);
test_stress_remove(me);
test_stress_clear(me);
assert(!unordered_set_destroy(me));
}
static void test_bad_hash(void)
{
int num;
unordered_set me = unordered_set_init(sizeof(int), bad_hash_int,
compare_int);
assert(me);
num = 1;
unordered_set_put(me, &num);
num = 2;
unordered_set_put(me, &num);
num = 3;
unordered_set_put(me, &num);
num = 4;
unordered_set_put(me, &num);
assert(unordered_set_size(me) == 4);
unordered_set_put(me, &num);
assert(unordered_set_size(me) == 4);
assert(unordered_set_remove(me, &num));
assert(!unordered_set_remove(me, &num));
assert(unordered_set_size(me) == 3);
unordered_set_rehash(me);
assert(unordered_set_size(me) == 3);
assert(!unordered_set_destroy(me));
}
#if STUB_MALLOC
static void test_init_out_of_memory(void)
{
fail_malloc = 1;
assert(!unordered_set_init(sizeof(int), hash_int, compare_int));
fail_calloc = 1;
assert(!unordered_set_init(sizeof(int), hash_int, compare_int));
}
#endif
#if STUB_MALLOC
static void test_rehash_out_of_memory(void)
{
int key = 5;
unordered_set me = unordered_set_init(sizeof(int), hash_int, compare_int);
assert(me);
unordered_set_put(me, &key);
assert(unordered_set_size(me) == 1);
assert(unordered_set_contains(me, &key));
fail_calloc = 1;
assert(unordered_set_rehash(me) == -ENOMEM);
assert(unordered_set_size(me) == 1);
assert(unordered_set_contains(me, &key));
assert(!unordered_set_destroy(me));
}
#endif
#if STUB_MALLOC
static void test_put_out_of_memory(void)
{
int key = 5;
unordered_set me = unordered_set_init(sizeof(int), bad_hash_int,
compare_int);
assert(me);
fail_malloc = 1;
assert(unordered_set_put(me, &key) == -ENOMEM);
fail_malloc = 1;
delay_fail_malloc = 1;
assert(unordered_set_put(me, &key) == -ENOMEM);
assert(unordered_set_put(me, &key) == 0);
key = 7;
fail_malloc = 1;
assert(unordered_set_put(me, &key) == -ENOMEM);
fail_malloc = 1;
delay_fail_malloc = 1;
assert(unordered_set_put(me, &key) == -ENOMEM);
assert(!unordered_set_destroy(me));
}
#endif
#if STUB_MALLOC
static void test_resize_out_of_memory(void)
{
int i;
unordered_set me = unordered_set_init(sizeof(int), hash_int, compare_int);
for (i = 0; i < 5; i++) {
assert(unordered_set_put(me, &i) == 0);
}
assert(unordered_set_size(me) == 5);
i++;
fail_calloc = 1;
assert(unordered_set_put(me, &i) == -ENOMEM);
assert(unordered_set_size(me) == 5);
for (i = 0; i < 5; i++) {
assert(unordered_set_contains(me, &i));
}
assert(!unordered_set_destroy(me));
}
#endif
#if STUB_MALLOC
static void test_clear_out_of_memory(void)
{
int key = 5;
unordered_set me = unordered_set_init(sizeof(int), hash_int, compare_int);
assert(me);
assert(unordered_set_put(me, &key) == 0);
assert(unordered_set_size(me) == 1);
assert(unordered_set_contains(me, &key));
fail_calloc = 1;
assert(unordered_set_clear(me) == -ENOMEM);
assert(unordered_set_size(me) == 1);
assert(unordered_set_contains(me, &key));
assert(!unordered_set_destroy(me));
}
#endif
void test_unordered_set(void)
{
test_invalid_init();
test_basic();
test_bad_hash();
#if STUB_MALLOC
test_init_out_of_memory();
test_rehash_out_of_memory();
test_put_out_of_memory();
test_resize_out_of_memory();
test_clear_out_of_memory();
#endif
}
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