/*
* smartmap is MIT-licensed, but for this file:
*
* To the extent possible under law, the author(s) of this file have
* waived all copyright and related or neighboring rights to this
* work. See for
* details.
*/
#define MUNIT_NO_FORK (1)
#define MUNIT_ENABLE_ASSERT_ALIASES (1)
#include
#include
#include
#include
#include "../include/sparsemap.h"
#include "common.h"
#include "munit.h"
#define munit_free free
#if defined(_MSC_VER)
#pragma warning(disable : 4127)
#endif
#define SELECT_FALSE
/* !!! Duplicated here for testing purposes. Keep in sync, or suffer. !!! */
struct sparsemap {
size_t m_capacity;
size_t m_data_used;
uint8_t *m_data;
};
struct user_data {
int foo;
};
/* -------------------------- Supporting Functions for Testing */
void
populate_map(sparsemap_t *map, int size, int max_value)
{
int array[size];
size_t before;
setup_test_array(array, size, max_value);
shuffle(array, size);
before = sparsemap_count(map);
for (int i = 0; i < size; i++) {
sparsemap_set(map, array[i], true);
bool set = sparsemap_is_set(map, array[i]);
assert_true(set);
}
assert_true(sparsemap_count(map) == before + size);
}
static void *
test_api_setup(const MunitParameter params[], void *user_data)
{
struct test_info *info = (struct test_info *)user_data;
(void)info;
(void)params;
sparsemap_t *map = munit_calloc(1, sizeof(sparsemap_t));
assert_ptr_not_null(map);
return (void *)(uintptr_t)map;
}
static void
test_api_tear_down(void *fixture)
{
sparsemap_t *map = (sparsemap_t *)fixture;
assert_ptr_not_null(map);
munit_free(map);
}
/* -------------------------- API Tests */
static MunitResult
test_api_new(const MunitParameter params[], void *data)
{
sparsemap_t *map = sparsemap(1024);
(void)params;
(void)data;
assert_ptr_not_null(map);
assert_true(map->m_capacity == 1024);
assert_true(map->m_data_used == sizeof(uint32_t));
munit_free(map);
return MUNIT_OK;
}
static MunitResult
test_api_new_realloc(const MunitParameter params[], void *data)
{
sparsemap_t *map = sparsemap(1024);
(void)params;
(void)data;
assert_ptr_not_null(map);
assert_true(map->m_capacity == 1024);
assert_true(map->m_data_used == sizeof(uint32_t));
map = sparsemap_set_data_size(map, NULL, 2048);
assert_true(map->m_capacity == 2048);
assert_true(map->m_data_used == sizeof(uint32_t));
munit_free(map);
return MUNIT_OK;
}
static MunitResult
test_api_new_heap(const MunitParameter params[], void *data)
{
sparsemap_t *map;
uint8_t *buf;
(void)params;
(void)data;
map = munit_malloc(sizeof(sparsemap_t));
assert_ptr_not_null(map);
buf = munit_calloc(1024, sizeof(uint8_t));
assert_ptr_not_null(buf);
sparsemap_init(map, buf, 1024);
sparsemap_init(map, buf, 1024);
assert_ptr_equal(buf, map->m_data);
assert_true(map->m_capacity == 1024);
assert_true(map->m_data_used == sizeof(uint32_t));
munit_free(map->m_data);
munit_free(map);
return MUNIT_OK;
}
static MunitResult
test_api_new_static(const MunitParameter params[], void *data)
{
sparsemap_t a_map, *map = &a_map;
uint8_t *buf;
(void)params;
(void)data;
buf = munit_calloc(1024, sizeof(uint8_t));
assert_ptr_not_null(buf);
sparsemap_init(map, buf, 1024);
sparsemap_init(map, buf, 1024);
assert_ptr_equal(buf, map->m_data);
assert_true(map->m_capacity == 1024);
assert_true(map->m_data_used == sizeof(uint32_t));
munit_free(map->m_data);
return MUNIT_OK;
}
static MunitResult
test_api_new_stack(const MunitParameter params[], void *data)
{
sparsemap_t a_map, *map = &a_map;
uint8_t buf[1024] = { 0 };
(void)params;
(void)data;
sparsemap_init(map, buf, 1024);
assert_ptr_equal(&buf, map->m_data);
assert_true(map->m_capacity == 1024);
assert_true(map->m_data_used == sizeof(uint32_t));
return MUNIT_OK;
}
static void *
test_api_clear_setup(const MunitParameter params[], void *user_data)
{
uint8_t *buf = munit_calloc(1024, sizeof(uint8_t));
assert_ptr_not_null(buf);
sparsemap_t *map = (sparsemap_t *)test_api_setup(params, user_data);
sparsemap_init(map, buf, 1024);
return (void *)map;
}
static void
test_api_clear_tear_down(void *fixture)
{
sparsemap_t *map = (sparsemap_t *)fixture;
assert_ptr_not_null(map->m_data);
munit_free(map->m_data);
test_api_tear_down(fixture);
}
static MunitResult
test_api_clear(const MunitParameter params[], void *data)
{
sparsemap_t *map = (sparsemap_t *)data;
(void)params;
assert_ptr_not_null(map);
sparsemap_set(map, 42, true);
assert_true(sparsemap_is_set(map, 42));
sparsemap_clear(map);
assert_false(sparsemap_is_set(map, 42));
return MUNIT_OK;
}
static void *
test_api_open_setup(const MunitParameter params[], void *user_data)
{
uint8_t *buf = munit_calloc(1024, sizeof(uint8_t));
assert_ptr_not_null(buf);
sparsemap_t *map = (sparsemap_t *)test_api_setup(params, user_data);
sparsemap_init(map, buf, 1024);
populate_map(map, 1024, 3 * 1024);
return (void *)map;
}
static void
test_api_open_tear_down(void *fixture)
{
sparsemap_t *map = (sparsemap_t *)fixture;
assert_ptr_not_null(map->m_data);
munit_free(map->m_data);
test_api_tear_down(fixture);
}
static MunitResult
test_api_open(const MunitParameter params[], void *data)
{
sparsemap_t _sm, *sm = &_sm, *map = (sparsemap_t *)data;
(void)params;
assert_ptr_not_null(map);
sparsemap_open(sm, (uint8_t *)map->m_data, map->m_capacity);
for (int i = 0; i < 3 * 1024; i++) {
assert_true(sparsemap_is_set(sm, i) == sparsemap_is_set(map, i));
}
return MUNIT_OK;
}
static void *
test_api_set_data_size_setup(const MunitParameter params[], void *user_data)
{
uint8_t *buf = munit_calloc(1024, sizeof(uint8_t));
assert_ptr_not_null(buf);
sparsemap_t *map = (sparsemap_t *)test_api_setup(params, user_data);
sparsemap_init(map, buf, 1024);
populate_map(map, 1024, 3 * 1024);
return (void *)map;
}
static void
test_api_set_data_size_tear_down(void *fixture)
{
sparsemap_t *map = (sparsemap_t *)fixture;
assert_ptr_not_null(map->m_data);
munit_free(map->m_data);
test_api_tear_down(fixture);
}
static MunitResult
test_api_set_data_size(const MunitParameter params[], void *data)
{
sparsemap_t *map = (sparsemap_t *)data;
(void)params;
assert_ptr_not_null(map);
assert_true(map->m_capacity == 1024);
assert_true(map->m_capacity == sparsemap_get_capacity(map));
sparsemap_set_data_size(map, NULL, 512);
assert_true(map->m_capacity == 512);
assert_true(map->m_capacity == sparsemap_get_capacity(map));
return MUNIT_OK;
}
static void *
test_api_remaining_capacity_setup(const MunitParameter params[], void *user_data)
{
uint8_t *buf = munit_calloc(1024, sizeof(uint8_t));
assert_ptr_not_null(buf);
sparsemap_t *map = (sparsemap_t *)test_api_setup(params, user_data);
sparsemap_init(map, buf, 1024);
return (void *)map;
}
static void
test_api_remaining_capacity_tear_down(void *fixture)
{
sparsemap_t *map = (sparsemap_t *)fixture;
assert_ptr_not_null(map->m_data);
munit_free(map->m_data);
test_api_tear_down(fixture);
}
static MunitResult
test_api_remaining_capacity(const MunitParameter params[], void *data)
{
sparsemap_t *map = (sparsemap_t *)data;
(void)params;
assert_ptr_not_null(map);
int i = 0;
double cap;
do {
sparsemap_set(map, i++, true);
cap = sparsemap_capacity_remaining(map);
} while (cap > 1.0 && errno != ENOSPC);
errno = 0;
assert_true(cap <= 2.0);
sparsemap_clear(map);
cap = sparsemap_capacity_remaining(map);
assert_true(cap > 99);
i = 0;
do {
int p = munit_rand_int_range(0, 150000);
sparsemap_set(map, p, true);
i++;
cap = sparsemap_capacity_remaining(map);
} while (cap > 1.0 && errno != ENOSPC);
errno = 0;
assert_true(cap <= 2.0);
return MUNIT_OK;
}
static void *
test_api_get_capacity_setup(const MunitParameter params[], void *user_data)
{
uint8_t *buf = munit_calloc(1024, sizeof(uint8_t));
assert_ptr_not_null(buf);
sparsemap_t *map = (sparsemap_t *)test_api_setup(params, user_data);
sparsemap_init(map, buf, 1024);
populate_map(map, 1024, 3 * 1024);
return (void *)map;
}
static void
test_api_get_capacity_tear_down(void *fixture)
{
sparsemap_t *map = (sparsemap_t *)fixture;
assert_ptr_not_null(map->m_data);
munit_free(map->m_data);
test_api_tear_down(fixture);
}
static MunitResult
test_api_get_capacity(const MunitParameter params[], void *data)
{
sparsemap_t *map = (sparsemap_t *)data;
(void)params;
assert_ptr_not_null(map);
sparsemap_set(map, 42, true);
assert_true(sparsemap_is_set(map, 42));
assert_true(sparsemap_get_capacity(map) == 1024);
return MUNIT_OK;
}
static void *
test_api_is_set_setup(const MunitParameter params[], void *user_data)
{
uint8_t *buf = munit_calloc(1024, sizeof(uint8_t));
assert_ptr_not_null(buf);
sparsemap_t *map = (sparsemap_t *)test_api_setup(params, user_data);
sparsemap_init(map, buf, 1024);
populate_map(map, 1024, 3 * 1024);
return (void *)map;
}
static void
test_api_is_set_tear_down(void *fixture)
{
sparsemap_t *map = (sparsemap_t *)fixture;
assert_ptr_not_null(map->m_data);
munit_free(map->m_data);
test_api_tear_down(fixture);
}
static MunitResult
test_api_is_set(const MunitParameter params[], void *data)
{
sparsemap_t *map = (sparsemap_t *)data;
(void)params;
assert_ptr_not_null(map);
sparsemap_set(map, 42, true);
assert_true(sparsemap_is_set(map, 42));
return MUNIT_OK;
}
static void *
test_api_set_setup(const MunitParameter params[], void *user_data)
{
uint8_t *buf = munit_calloc(1024, sizeof(uint8_t));
assert_ptr_not_null(buf);
sparsemap_t *map = (sparsemap_t *)test_api_setup(params, user_data);
sparsemap_init(map, buf, 1024);
return (void *)map;
}
static void
test_api_set_tear_down(void *fixture)
{
sparsemap_t *map = (sparsemap_t *)fixture;
assert_ptr_not_null(map->m_data);
munit_free(map->m_data);
test_api_tear_down(fixture);
}
static MunitResult
test_api_set(const MunitParameter params[], void *data)
{
sparsemap_t *map = (sparsemap_t *)data;
(void)params;
assert_ptr_not_null(map);
assert_false(sparsemap_is_set(map, 1));
assert_false(sparsemap_is_set(map, 8192));
sparsemap_set(map, 1, true);
sparsemap_set(map, 8192, true);
assert_true(sparsemap_is_set(map, 1));
assert_true(sparsemap_is_set(map, 8192));
sparsemap_set(map, 1, false);
sparsemap_set(map, 8192, false);
assert_false(sparsemap_is_set(map, 1));
assert_false(sparsemap_is_set(map, 8192));
return MUNIT_OK;
}
static void *
test_api_get_size_setup(const MunitParameter params[], void *user_data)
{
uint8_t *buf = munit_calloc(1024, sizeof(uint8_t));
assert_ptr_not_null(buf);
sparsemap_t *map = (sparsemap_t *)test_api_setup(params, user_data);
sparsemap_init(map, buf, 1024);
populate_map(map, 1024, 3 * 1024);
return (void *)map;
}
static void
test_api_get_size_tear_down(void *fixture)
{
sparsemap_t *map = (sparsemap_t *)fixture;
assert_ptr_not_null(map->m_data);
munit_free(map->m_data);
test_api_tear_down(fixture);
}
static MunitResult
test_api_get_size(const MunitParameter params[], void *data)
{
sparsemap_t *map = (sparsemap_t *)data;
(void)params;
assert_ptr_not_null(map);
size_t size = sparsemap_get_size(map);
assert_true(size > 400);
return MUNIT_OK;
}
static void *
test_api_count_setup(const MunitParameter params[], void *user_data)
{
uint8_t *buf = munit_calloc(1024, sizeof(uint8_t));
assert_ptr_not_null(buf);
sparsemap_t *map = (sparsemap_t *)test_api_setup(params, user_data);
sparsemap_init(map, buf, 1024);
populate_map(map, 1024, 3 * 1024);
return (void *)map;
}
static void
test_api_count_tear_down(void *fixture)
{
sparsemap_t *map = (sparsemap_t *)fixture;
assert_ptr_not_null(map->m_data);
munit_free(map->m_data);
test_api_tear_down(fixture);
}
static MunitResult
test_api_count(const MunitParameter params[], void *data)
{
sparsemap_t *map = (sparsemap_t *)data;
(void)params;
assert_ptr_not_null(map);
assert_true(sparsemap_count(map) == 1024);
sparsemap_clear(map);
sparsemap_set(map, 0, true);
assert_true(sparsemap_count(map) == 1);
sparsemap_set(map, 8675309, true);
assert_true(sparsemap_count(map) == 2);
sparsemap_clear(map);
for (int i = 0; i < 512; i++) {
sparsemap_set(map, i + 13, true);
}
assert_true(sparsemap_count(map) == 512);
sparsemap_clear(map);
assert_true(sparsemap_count(map) == 0);
return MUNIT_OK;
}
static MunitResult
test_api_get_data(const MunitParameter params[], void *data)
{
(void)data;
(void)params;
uint8_t *buf = munit_calloc(1024, sizeof(uint8_t));
assert_ptr_not_null(buf);
sparsemap_t *map = (sparsemap_t *)sparsemap_wrap(buf, 1024);
assert_ptr_not_null(map);
populate_map(map, 1024, 3 * 1024);
assert_true(sparsemap_get_data(map) == buf);
munit_free(buf);
munit_free(map);
return MUNIT_OK;
}
static void *
test_api_get_starting_offset_setup(const MunitParameter params[], void *user_data)
{
uint8_t *buf = munit_calloc(1024, sizeof(uint8_t));
assert_ptr_not_null(buf);
sparsemap_t *map = (sparsemap_t *)test_api_setup(params, user_data);
sparsemap_init(map, buf, 1024);
return (void *)map;
}
static void
test_api_get_starting_offset_tear_down(void *fixture)
{
sparsemap_t *map = (sparsemap_t *)fixture;
assert_ptr_not_null(map->m_data);
munit_free(map->m_data);
test_api_tear_down(fixture);
}
static MunitResult
test_api_get_starting_offset(const MunitParameter params[], void *data)
{
sparsemap_t *map = (sparsemap_t *)data;
(void)params;
assert_ptr_not_null(map);
sparsemap_set(map, 0, true);
assert_true(sparsemap_get_starting_offset(map) == 0);
sparsemap_clear(map);
sparsemap_set(map, 1, true);
assert_true(sparsemap_get_starting_offset(map) == 1);
sparsemap_clear(map);
sparsemap_set(map, 1025, true);
assert_true(sparsemap_get_starting_offset(map) == 1025);
sparsemap_clear(map);
for (int i = 0; i < 1000; i++) {
sparsemap_set(map, i, true);
}
assert_true(sparsemap_get_starting_offset(map) == 0);
sparsemap_clear(map);
for (int i = 0; i < 1000; i++) {
sparsemap_set(map, i + 1024, true);
}
assert_true(sparsemap_get_starting_offset(map) == 1024);
sparsemap_clear(map);
sparsemap_set(map, 13012, true);
assert_true(sparsemap_get_starting_offset(map) == 13012);
return MUNIT_OK;
}
static void *
test_api_get_ending_offset_setup(const MunitParameter params[], void *user_data)
{
uint8_t *buf = munit_calloc(1024, sizeof(uint8_t));
assert_ptr_not_null(buf);
sparsemap_t *map = (sparsemap_t *)test_api_setup(params, user_data);
sparsemap_init(map, buf, 1024);
return (void *)map;
}
static void
test_api_get_ending_offset_tear_down(void *fixture)
{
sparsemap_t *map = (sparsemap_t *)fixture;
assert_ptr_not_null(map->m_data);
munit_free(map->m_data);
test_api_tear_down(fixture);
}
static MunitResult
test_api_get_ending_offset(const MunitParameter params[], void *data)
{
sparsemap_t *map = (sparsemap_t *)data;
(void)params;
assert_ptr_not_null(map);
sparsemap_set(map, 0, true);
assert_true(sparsemap_get_ending_offset(map) == 0);
sparsemap_clear(map);
sparsemap_set(map, 0, true);
sparsemap_set(map, 1, true);
assert_true(sparsemap_get_ending_offset(map) == 1);
sparsemap_clear(map);
sparsemap_set(map, 0, true);
sparsemap_set(map, 67, true);
sparsemap_set(map, 1002, true);
sparsemap_set(map, 3087, true);
sparsemap_set(map, 13012, true);
assert_true(sparsemap_get_ending_offset(map) == 13012);
return MUNIT_OK;
}
static void *
test_api_get_starting_offset_rolling_setup(const MunitParameter params[], void *user_data)
{
(void)params;
(void)user_data;
sparsemap_t *map = sparsemap(10 * 1024);
assert_ptr_not_null(map);
return (void *)map;
}
static void
test_api_get_starting_offset_rolling_tear_down(void *fixture)
{
sparsemap_t *map = (sparsemap_t *)fixture;
assert_ptr_not_null(map);
munit_free(map);
}
static MunitResult
test_api_get_starting_offset_rolling(const MunitParameter params[], void *data)
{
sparsemap_t *map = (sparsemap_t *)data;
(void)params;
for (sparsemap_idx_t i = 0; i < 10 * 2048; i++) {
sparsemap_set(map, i, true);
if (i > 2047) {
sparsemap_set(map, i - 2048, false);
assert_true(sparsemap_get_starting_offset(map) == i - 2047);
// printf("%d\t%d\t%zu\n", i, i - 2047, sparsemap_get_starting_offset(map));
}
}
return MUNIT_OK;
}
static void *
test_api_scan_setup(const MunitParameter params[], void *user_data)
{
uint8_t *buf = munit_calloc(1024, sizeof(uint8_t));
assert_ptr_not_null(buf);
sparsemap_t *map = (sparsemap_t *)test_api_setup(params, user_data);
sparsemap_init(map, buf, 1024);
return (void *)map;
}
static void
test_api_scan_tear_down(void *fixture)
{
sparsemap_t *map = (sparsemap_t *)fixture;
assert_ptr_not_null(map->m_data);
munit_free(map->m_data);
test_api_tear_down(fixture);
}
void
scan_for_0xfeedfacebadcoffee(sm_idx_t v[], size_t n, void *aux)
{
size_t bit_pos[] = { 1, 2, 3, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 22, 23, 24, 26, 27, 29, 31, 32, 33, 34, 35, 38, 39, 41, 43, 44, 45, 46, 47, 48, 50, 51,
53, 54, 55, 57, 58, 59, 60, 61, 62, 63 };
(void)aux;
for (size_t i = 0; i < n; i++) {
assert(v[i] == bit_pos[i]);
}
}
static MunitResult
test_api_scan(const MunitParameter params[], void *data)
{
sparsemap_t *map = (sparsemap_t *)data;
(void)params;
assert_ptr_not_null(map);
sm_bitmap_from_uint64(map, 0, ((uint64_t)0xfeedface << 32) | 0xbadc0ffee);
sparsemap_scan(map, scan_for_0xfeedfacebadcoffee, 0, NULL);
return MUNIT_OK;
}
static void *
test_api_split_setup(const MunitParameter params[], void *user_data)
{
uint8_t *buf = munit_calloc(1024, sizeof(uint8_t));
assert_ptr_not_null(buf);
sparsemap_t *map = (sparsemap_t *)test_api_setup(params, user_data);
sparsemap_init(map, buf, 1024);
return (void *)map;
}
static void
test_api_split_tear_down(void *fixture)
{
sparsemap_t *map = (sparsemap_t *)fixture;
assert_ptr_not_null(map->m_data);
munit_free(map->m_data);
test_api_tear_down(fixture);
}
static MunitResult
test_api_split(const MunitParameter params[], void *data)
{
sparsemap_t *map = (sparsemap_t *)data;
uint8_t buf[1024] = { 0 };
sparsemap_t portion;
(void)params;
assert_ptr_not_null(map);
sparsemap_init(&portion, buf, 1024);
for (sparsemap_idx_t off = 0; off < 1024; off++) {
for (sparsemap_idx_t seg = 0; seg < 10 * 1024; seg += 1024) {
for (sparsemap_idx_t i = 0; i < 1024; i++) {
assert_true(sparsemap_set(map, i + seg, true) == i + seg);
}
for (sparsemap_idx_t i = 0; i < 1024; i++) {
assert_true(sparsemap_is_set(map, i + seg));
assert_false(sparsemap_is_set(&portion, i + seg));
}
sparsemap_split(map, seg + off, &portion);
for (sparsemap_idx_t i = seg; i < seg + 1024; i++) {
if (i < seg + off) {
assert_true(sparsemap_is_set(map, i));
assert_false(sparsemap_is_set(&portion, i));
} else {
assert_false(sparsemap_is_set(map, i));
assert_true(sparsemap_is_set(&portion, i));
}
}
sparsemap_clear(map);
sparsemap_clear(&portion);
}
}
for (sparsemap_idx_t i = 0; i < 100; i++) {
assert_true(sparsemap_set(map, i, true) == i);
}
for (sparsemap_idx_t i = 0; i < 100; i++) {
assert_true(sparsemap_is_set(map, i));
assert_false(sparsemap_is_set(&portion, i));
}
sparsemap_idx_t offset = sparsemap_split(map, SPARSEMAP_IDX_MAX, &portion);
for (size_t i = 0; i < offset; i++) {
assert_true(sparsemap_is_set(map, i));
assert_false(sparsemap_is_set(&portion, i));
}
for (int i = offset; i < 100; i++) {
assert_false(sparsemap_is_set(map, i));
assert_true(sparsemap_is_set(&portion, i));
}
sparsemap_clear(&portion);
sparsemap_clear(map);
sparsemap_init(&portion, buf, 1024);
for (sparsemap_idx_t i = 0; i < 13; i++) {
assert_true(sparsemap_set(map, i + 24, true) == i + 24);
}
offset = sparsemap_split(map, SPARSEMAP_IDX_MAX, &portion);
for (sparsemap_idx_t i = 0; i < offset - 24; i++) {
assert_true(sparsemap_is_set(map, i + 24));
assert_false(sparsemap_is_set(&portion, i + 24));
}
for (sparsemap_idx_t i = offset - 24; i < 13; i++) {
assert_false(sparsemap_is_set(map, i + 24));
assert_true(sparsemap_is_set(&portion, i + 24));
}
return MUNIT_OK;
}
static void *
test_api_merge_setup(const MunitParameter params[], void *user_data)
{
(void)params;
(void)user_data;
sparsemap_t *map = sparsemap(10 * 1024);
assert_ptr_not_null(map);
return (void *)map;
}
static void
test_api_merge_tear_down(void *fixture)
{
sparsemap_t *map = (sparsemap_t *)fixture;
assert_ptr_not_null(map);
munit_free(map);
}
static MunitResult
test_api_merge(const MunitParameter params[], void *data)
{
sparsemap_t *map = (sparsemap_t *)data;
sparsemap_t *other = sparsemap(1024);
(void)params;
assert_ptr_not_null(map);
assert_ptr_not_null(other);
// Merge two empty maps to get an empty map.
sparsemap_merge(map, other);
// Merge a single set bit in the first chunk into the empty map.
sparsemap_set(other, 0, true);
sparsemap_merge(map, other);
assert_true(sparsemap_is_set(other, 0));
assert_true(sparsemap_is_set(map, 0));
sparsemap_clear(map);
sparsemap_clear(other);
// Merge two maps with the same single bit set.
sparsemap_set(map, 0, true);
sparsemap_set(other, 0, true);
sparsemap_merge(map, other);
assert_true(sparsemap_is_set(map, 0));
sparsemap_clear(map);
sparsemap_clear(other);
// Merge an empty map with one that has the first bit set.
sparsemap_set(map, 0, true);
sparsemap_merge(map, other);
assert_true(sparsemap_is_set(map, 0));
sparsemap_clear(map);
sparsemap_clear(other);
sparsemap_set(other, 2049, true);
sparsemap_merge(map, other);
assert_true(sparsemap_is_set(map, 2049));
sparsemap_clear(map);
sparsemap_clear(other);
sparsemap_set(other, 1, true);
sparsemap_set(other, 2049, true);
sparsemap_set(map, 2050, true);
sparsemap_set(other, 4097, true);
sparsemap_set(map, 6113, true);
sparsemap_set(other, 8193, true);
sparsemap_merge(map, other);
assert_true(sparsemap_is_set(map, 1));
assert_true(sparsemap_is_set(map, 2049));
assert_true(sparsemap_is_set(map, 2050));
assert_true(sparsemap_is_set(map, 4097));
assert_true(sparsemap_is_set(map, 6113));
assert_true(sparsemap_is_set(map, 8193));
for (int i = 0; i < 10000; i++) {
if (i == 2049 || i == 1 || i == 2050 || i == 4097 || i == 6113 || i == 8193)
continue;
else
assert_false(sparsemap_is_set(map, i));
}
sparsemap_clear(map);
sparsemap_clear(other);
sparsemap_set(map, 0, true);
sparsemap_set(map, 2048, true);
sparsemap_set(map, 8193, true);
for (int i = 2049; i < 4096; i++) {
sparsemap_set(other, i, true);
}
sparsemap_merge(map, other);
assert(sparsemap_is_set(map, 0));
assert(sparsemap_is_set(map, 2048));
assert(sparsemap_is_set(map, 8193));
for (int i = 2049; i < 4096; i++) {
assert(sparsemap_is_set(map, i));
}
sparsemap_clear(map);
sparsemap_clear(other);
for (int i = 2049; i < 4096; i++) {
sparsemap_set(map, i, true);
}
sparsemap_split(map, 2051, other);
for (int i = 2049; i < 4096; i++) {
if (i < 2051) {
assert_true(sparsemap_is_set(map, i));
assert_false(sparsemap_is_set(other, i));
} else {
assert_false(sparsemap_is_set(map, i));
assert_true(sparsemap_is_set(other, i));
}
}
sparsemap_merge(map, other);
for (int i = 2049; i < 4096; i++) {
sparsemap_is_set(map, i);
}
munit_free(other);
return MUNIT_OK;
}
static void *
test_api_select_setup(const MunitParameter params[], void *user_data)
{
uint8_t *buf = munit_calloc(1024, sizeof(uint8_t));
assert_ptr_not_null(buf);
sparsemap_t *map = (sparsemap_t *)test_api_setup(params, user_data);
sparsemap_init(map, buf, 1024);
sm_bitmap_from_uint64(map, 0, ((uint64_t)0xfeedface << 32) | 0xbadc0ffee);
return (void *)map;
}
static void
test_api_select_tear_down(void *fixture)
{
sparsemap_t *map = (sparsemap_t *)fixture;
assert_ptr_not_null(map->m_data);
munit_free(map->m_data);
test_api_tear_down(fixture);
}
static MunitResult
test_api_select(const MunitParameter params[], void *data)
{
sparsemap_t *map = (sparsemap_t *)data;
(void)params;
assert_ptr_not_null(map);
/* NOTE: select() is 0-based, to get the bit position of the 1st logical bit set
call select(map, 0), to get the 18th, select(map, 17), etc. */
assert_true(sparsemap_select(map, 0, true) == 1);
assert_true(sparsemap_select(map, 4, true) == 6);
assert_true(sparsemap_select(map, 17, true) == 26);
return MUNIT_OK;
}
#ifdef SELECT_FALSE
static void *
test_api_select_false_setup(const MunitParameter params[], void *user_data)
{
uint8_t *buf = munit_calloc(1024, sizeof(uint8_t));
assert_ptr_not_null(buf);
sparsemap_t *map = (sparsemap_t *)test_api_setup(params, user_data);
sparsemap_init(map, buf, 1024);
sm_bitmap_from_uint64(map, 0, ((uint64_t)0xfeedface << 32) | 0xbadc0ffee);
return (void *)map;
}
static void
test_api_select_false_tear_down(void *fixture)
{
sparsemap_t *map = (sparsemap_t *)fixture;
assert_ptr_not_null(map->m_data);
munit_free(map->m_data);
test_api_tear_down(fixture);
}
static MunitResult
test_api_select_false(const MunitParameter params[], void *data)
{
sparsemap_t *map = (sparsemap_t *)data;
(void)params;
assert_ptr_not_null(map);
/* First few 0/off/unset-bits in ((uint64_t)0xfeedface << 32) | 0xbadc0ffee) expressed as an array of offsets. */
size_t off[] = { 0, 4, 16, 17, 18, 19, 20, 21, 25, 28, 30, 36, 37, 40, 42, 49, 52, 56, 64, 65 };
for (size_t i = 0; i < 20; i++) {
sparsemap_idx_t f = sparsemap_select(map, i, false);
assert_true(f == off[i]);
assert_true(sparsemap_is_set(map, f) == false);
}
return MUNIT_OK;
}
#endif
#ifdef SELECT_NEG
static void *
test_api_select_neg_setup(const MunitParameter params[], void *user_data)
{
uint8_t *buf = munit_calloc(1024, sizeof(uint8_t));
assert_ptr_not_null(buf);
sparsemap_t *map = (sparsemap_t *)test_api_setup(params, user_data);
sparsemap_init(map, buf, 1024);
sm_bitmap_from_uint64(map, 0, ((uint64_t)0xfeedface << 32) | 0xbadc0ffee);
return (void *)map;
}
static void
test_api_select_neg_tear_down(void *fixture)
{
sparsemap_t *map = (sparsemap_t *)fixture;
assert_ptr_not_null(map->m_data);
munit_free(map->m_data);
test_api_tear_down(fixture);
}
static MunitResult
test_api_select_neg(const MunitParameter params[], void *data)
{
sparsemap_t *map = (sparsemap_t *)data;
(void)params;
assert_ptr_not_null(map);
sparsemap_set(map, 42, true);
sparsemap_set(map, 420, true);
sparsemap_set(map, 4200, true);
f = sparsemap_select(map, 0, false);
assert_true(f == 0);
f = sparsemap_select(map, -1, true);
assert_true(f == 4200);
f = sparsemap_select(map, -2, true);
assert_true(f == 420);
f = sparsemap_select(map, -3, true);
assert_true(f == 42);
return MUNIT_OK;
}
#endif
static void *
test_api_rank_true_setup(const MunitParameter params[], void *user_data)
{
uint8_t *buf = munit_calloc(1024, sizeof(uint8_t));
assert_ptr_not_null(buf);
sparsemap_t *map = (sparsemap_t *)test_api_setup(params, user_data);
sparsemap_init(map, buf, 1024);
return (void *)map;
}
static void
test_api_rank_true_tear_down(void *fixture)
{
sparsemap_t *map = (sparsemap_t *)fixture;
assert_ptr_not_null(map->m_data);
munit_free(map->m_data);
test_api_tear_down(fixture);
}
static MunitResult
test_api_rank_true(const MunitParameter params[], void *data)
{
int r1, r2;
sparsemap_t *map = (sparsemap_t *)data;
(void)params;
assert_ptr_not_null(map);
for (int i = 0; i < 10; i++) {
sparsemap_set(map, i, true);
}
/* rank() is also 0-based, for consistency (and confusion sake); consider the
range as [start, end] of [0, 9] counts the bits set in the first 10
positions (starting from the LSB) in the index. */
r1 = rank_uint64((uint64_t)-1, 0, 9);
r2 = sparsemap_rank(map, 0, 9, true);
assert_true(r1 == r2);
assert_true(sparsemap_rank(map, 0, 9, true) == 10);
assert_true(sparsemap_rank(map, 1000, 1050, true) == 0);
sparsemap_clear(map);
for (int i = 0; i < 10000; i++) {
sparsemap_set(map, i, true);
}
sparsemap_idx_t hole = 4999;
sparsemap_set(map, hole, false);
for (size_t i = 0; i < 10000; i++) {
for (size_t j = i; j < 10000; j++) {
size_t amt = (i > j) ? 0 : j - i + 1 - ((hole >= i && j >= hole) ? 1 : 0);
size_t r = sparsemap_rank(map, i, j, true);
assert_true(r == amt);
}
}
return MUNIT_OK;
}
static void *
test_api_rank_false_setup(const MunitParameter params[], void *user_data)
{
uint8_t *buf = munit_calloc(1024, sizeof(uint8_t));
assert_ptr_not_null(buf);
sparsemap_t *map = (sparsemap_t *)test_api_setup(params, user_data);
sparsemap_init(map, buf, 1024);
return (void *)map;
}
static void
test_api_rank_false_tear_down(void *fixture)
{
sparsemap_t *map = (sparsemap_t *)fixture;
assert_ptr_not_null(map->m_data);
munit_free(map->m_data);
test_api_tear_down(fixture);
}
static MunitResult
test_api_rank_false(const MunitParameter params[], void *data)
{
int r;
sparsemap_t *map = (sparsemap_t *)data;
(void)params;
assert_ptr_not_null(map);
// empty map
for (int i = 0; i < 10000; i++) {
for (int j = i; j < 10000; j++) {
r = sparsemap_rank(map, i, j, false);
assert_true(r == j - i + 1);
}
}
// One chunk means not so empty now!
sparsemap_idx_t hole = 4999;
sparsemap_set(map, hole, true);
for (size_t i = 0; i < 10000; i++) {
for (size_t j = i; j < 10000; j++) {
int amt = (i > j) ? 0 : j - i + 1 - ((hole >= i && j >= hole) ? 1 : 0);
r = sparsemap_rank(map, i, j, false);
assert_true(r == amt);
}
}
sparsemap_clear(map);
sparsemap_set(map, 1, true);
sparsemap_set(map, 11, true);
r = sparsemap_rank(map, 0, 11, false);
assert_true(r == 10);
return MUNIT_OK;
}
static void *
test_api_span_setup(const MunitParameter params[], void *user_data)
{
uint8_t *buf = munit_calloc(1024, sizeof(uint8_t));
assert_ptr_not_null(buf);
sparsemap_t *map = (sparsemap_t *)test_api_setup(params, user_data);
sparsemap_init(map, buf, 1024);
return (void *)map;
}
static void
test_api_span_tear_down(void *fixture)
{
sparsemap_t *map = (sparsemap_t *)fixture;
assert_ptr_not_null(map->m_data);
munit_free(map->m_data);
test_api_tear_down(fixture);
}
static MunitResult
test_api_span(const MunitParameter params[], void *data)
{
sparsemap_t *map = (sparsemap_t *)data;
(void)params;
assert_ptr_not_null(map);
int located_at, placed_at, amt = 10000;
placed_at = sm_add_span(map, amt, 1);
located_at = sparsemap_span(map, 0, 1, true);
assert_true(located_at == placed_at);
sparsemap_clear(map);
placed_at = sm_add_span(map, amt, 50);
located_at = sparsemap_span(map, 0, 50, true);
assert_true(located_at == placed_at);
sparsemap_clear(map);
placed_at = sm_add_span(map, amt, 50);
located_at = sparsemap_span(map, placed_at / 2, 50, true);
assert_true(located_at == placed_at);
return MUNIT_OK;
}
// clang-format off
static MunitTest api_test_suite[] = {
{ (char *)"/new", test_api_new, NULL, NULL, MUNIT_TEST_OPTION_NONE, NULL },
{ (char *)"/new/realloc", test_api_new_realloc, NULL, NULL, MUNIT_TEST_OPTION_NONE, NULL },
{ (char *)"/new/heap", test_api_new_heap, NULL, NULL, MUNIT_TEST_OPTION_NONE, NULL },
{ (char *)"/new/static", test_api_new_static, NULL, NULL, MUNIT_TEST_OPTION_NONE, NULL },
{ (char *)"/new/stack", test_api_new_stack, NULL, NULL, MUNIT_TEST_OPTION_NONE, NULL },
{ (char *)"/clear", test_api_clear, test_api_clear_setup, test_api_clear_tear_down, MUNIT_TEST_OPTION_NONE, NULL },
{ (char *)"/open", test_api_open, test_api_open_setup, test_api_open_tear_down, MUNIT_TEST_OPTION_NONE, NULL },
{ (char *)"/set_data_size", test_api_set_data_size, test_api_set_data_size_setup, test_api_set_data_size_tear_down, MUNIT_TEST_OPTION_NONE, NULL },
{ (char *)"/remaining_capacity", test_api_remaining_capacity, test_api_remaining_capacity_setup, test_api_remaining_capacity_tear_down,
MUNIT_TEST_OPTION_NONE, NULL },
{ (char *)"/get_capacity", test_api_get_capacity, test_api_get_capacity_setup, test_api_get_capacity_tear_down, MUNIT_TEST_OPTION_NONE, NULL },
{ (char *)"/is_set", test_api_is_set, test_api_is_set_setup, test_api_is_set_tear_down, MUNIT_TEST_OPTION_NONE, NULL },
{ (char *)"/set", test_api_set, test_api_set_setup, test_api_set_tear_down, MUNIT_TEST_OPTION_NONE, NULL },
{ (char *)"/get_size", test_api_get_size, test_api_get_size_setup, test_api_get_size_tear_down, MUNIT_TEST_OPTION_NONE, NULL },
{ (char *)"/count", test_api_count, test_api_count_setup, test_api_count_tear_down, MUNIT_TEST_OPTION_NONE, NULL },
{ (char *)"/get_data", test_api_get_data, NULL, NULL, MUNIT_TEST_OPTION_NONE, NULL },
{ (char *)"/get_starting_offset", test_api_get_starting_offset, test_api_get_starting_offset_setup, test_api_get_starting_offset_tear_down, MUNIT_TEST_OPTION_NONE, NULL },
{ (char *)"/get_starting_offset/rolling", test_api_get_starting_offset_rolling, test_api_get_starting_offset_rolling_setup, test_api_get_starting_offset_rolling_tear_down, MUNIT_TEST_OPTION_NONE, NULL },
{ (char *)"/get_ending_offset", test_api_get_ending_offset, test_api_get_ending_offset_setup, test_api_get_ending_offset_tear_down, MUNIT_TEST_OPTION_NONE, NULL },
{ (char *)"/scan", test_api_scan, test_api_scan_setup, test_api_scan_tear_down, MUNIT_TEST_OPTION_NONE, NULL },
{ (char *)"/split", test_api_split, test_api_split_setup, test_api_split_tear_down, MUNIT_TEST_OPTION_NONE, NULL },
{ (char *)"/merge", test_api_merge, test_api_merge_setup, test_api_merge_tear_down, MUNIT_TEST_OPTION_NONE, NULL },
{ (char *)"/select/true", test_api_select, test_api_select_setup, test_api_select_tear_down, MUNIT_TEST_OPTION_NONE, NULL },
#ifdef SELECT_FALSE
{ (char *)"/select/false", test_api_select_false, test_api_select_false_setup, test_api_select_false_tear_down, MUNIT_TEST_OPTION_NONE, NULL },
#endif
#ifdef SELECT_NEG
{ (char *)"/select/neg", test_api_select_neg, test_api_select_neg_setup, test_api_select_neg_tear_down, MUNIT_TEST_OPTION_NONE, NULL },
#endif
{ (char *)"/rank/true", test_api_rank_true, test_api_rank_true_setup, test_api_rank_true_tear_down, MUNIT_TEST_OPTION_NONE, NULL },
{ (char *)"/rank/false", test_api_rank_false, test_api_rank_false_setup, test_api_rank_false_tear_down, MUNIT_TEST_OPTION_NONE, NULL },
{ (char *)"/span", test_api_span, test_api_span_setup, test_api_span_tear_down, MUNIT_TEST_OPTION_NONE, NULL },
{ NULL, NULL, NULL, NULL, MUNIT_TEST_OPTION_NONE, NULL }
};
// clang-format on
/* -------------------------- Scale Tests */
static void *
test_scale_lots_o_spans_setup(const MunitParameter params[], void *user_data)
{
(void)params;
(void)user_data;
sparsemap_t *map = sparsemap(10 * 1024);
assert_ptr_not_null(map);
return (void *)map;
}
static void
test_scale_lots_o_spans_tear_down(void *fixture)
{
sparsemap_t *map = (sparsemap_t *)fixture;
assert_ptr_not_null(map);
munit_free(map);
}
static MunitResult
test_scale_lots_o_spans(const MunitParameter params[], void *data)
{
size_t amt = 897915; // 268435456
sparsemap_t *map = (sparsemap_t *)data;
(void)params;
assert_ptr_not_null(map);
for (size_t i = 0; i < amt;) {
int l = i % 31 + 16;
sm_add_span(map, 10000, l);
if (errno == ENOSPC) {
map = sparsemap_set_data_size(map, NULL, sparsemap_get_capacity(map) * 2);
errno = 0;
}
i += l;
/* ANSI esc code to clear line, carriage return, then print on the same line */
// printf("\033[2K\r%d", i);
// printf("%d\t%d\n", l, i);
}
return MUNIT_OK;
}
#ifdef SCALE_ONDREJ
static void *
test_scale_ondrej_setup(const MunitParameter params[], void *user_data)
{
(void)params;
(void)user_data;
sparsemap_t *map = sparsemap(10 * 1024);
assert_ptr_not_null(map);
return (void *)map;
}
static void
test_scale_ondrej_tear_down(void *fixture)
{
sparsemap_t *map = (sparsemap_t *)fixture;
assert_ptr_not_null(map);
munit_free(map);
}
static MunitResult
test_scale_ondrej(const MunitParameter params[], void *data)
{
sparsemap_t *map = (sparsemap_t *)data;
(void)params;
assert_ptr_not_null(map);
sparsemap_idx_t stride = 18;
// sparsemap_idx_t top = 268435456;
sparsemap_idx_t top = 2000;
sparsemap_idx_t needle = munit_rand_int_range(1, top / stride);
for (sparsemap_idx_t i = 0; i < top / stride; i += stride) {
for (sparsemap_idx_t j = 0; j < stride; j++) {
bool set = (i != needle) ? (j < 10) : (j < 9);
sparsemap_set(map, i, set);
if (errno == ENOSPC) {
map = sparsemap_set_data_size(map, NULL, sparsemap_get_capacity(map) * 2);
errno = 0;
}
}
assert_true(sm_is_span(map, i + ((i != needle) ? 10 : 9), (i != needle) ? 8 : 9, true));
}
sparsemap_idx_t a = sparsemap_span(map, 0, 9, false);
sparsemap_idx_t l = a / stride;
printf("%ld\t%ld\n", a, l);
assert_true(l == needle);
return MUNIT_OK;
}
#endif // SCALE_ONDREJ
static void *
test_scale_fuzz_setup(const MunitParameter params[], void *user_data)
{
(void)params;
(void)user_data;
sparsemap_t *map = sparsemap(10 * 1024);
assert_ptr_not_null(map);
return (void *)map;
}
static void
test_scale_fuzz_tear_down(void *fixture)
{
sparsemap_t *map = (sparsemap_t *)fixture;
assert_ptr_not_null(map);
munit_free(map);
}
static MunitResult
test_scale_fuzz(const MunitParameter params[], void *data)
{
sparsemap_t *map = (sparsemap_t *)data;
(void)params;
(void)map; // TODO...
return MUNIT_OK;
}
static void *
test_scale_alternating_setup(const MunitParameter params[], void *user_data)
{
(void)params;
(void)user_data;
sparsemap_t *map = sparsemap(10 * 1024);
assert_ptr_not_null(map);
return (void *)map;
}
static void
test_scale_alternating_tear_down(void *fixture)
{
sparsemap_t *map = (sparsemap_t *)fixture;
assert_ptr_not_null(map);
munit_free(map);
}
extern char *bytes_as(double bytes, char *s, size_t size);
static MunitResult
test_scale_alternating(const MunitParameter params[], void *data)
{
sparsemap_t *map = (sparsemap_t *)data;
(void)params;
for (sparsemap_idx_t i = 0; i < (1000 * 8192); i++) {
if (i % 2) {
if (sparsemap_set(map, i, true) != i) {
// printf("%zu\n", i);
break;
}
}
}
return MUNIT_OK;
}
static void *
test_scale_spans_come_spans_go_setup(const MunitParameter params[], void *user_data)
{
(void)params;
(void)user_data;
sparsemap_t *map = sparsemap(1024);
assert_ptr_not_null(map);
return (void *)map;
}
static void
test_scale_spans_come_spans_go_tear_down(void *fixture)
{
sparsemap_t *map = (sparsemap_t *)fixture;
assert_ptr_not_null(map);
munit_free(map);
}
static MunitResult
test_scale_spans_come_spans_go(const MunitParameter params[], void *data)
{
size_t amt = 8192; // 268435456; // ~5e7 iterations due to 2e9 / avg(l)
sparsemap_t *map = (sparsemap_t *)data;
(void)params;
assert_ptr_not_null(map);
for (size_t i = 0; i < amt;) {
int l = i % 31 + 16;
sm_add_span(map, amt, l);
if (errno == ENOSPC) {
map = sparsemap_set_data_size(map, NULL, sparsemap_get_capacity(map) + 1024);
assert_ptr_not_null(map);
errno = 0;
}
/* After 1,000 spans are in the map start consuming a span every iteration. */
if (l > 1000) {
do {
int s = munit_rand_int_range(1, 30);
int o = munit_rand_int_range(1, 268435456 - s - 1);
size_t b = sparsemap_span(map, o, s, true);
if (b == SPARSEMAP_IDX_MAX) {
continue;
}
for (int j = b; j < s; j++) {
assert_true(sparsemap_is_set(map, j) == true);
}
for (int j = b; j < s; j++) {
sparsemap_set(map, j, false);
}
for (int j = b; j < s; j++) {
assert_true(sparsemap_is_set(map, j) == false);
}
break;
} while (true);
}
i += l;
}
return MUNIT_OK;
}
static void *
test_scale_best_case_setup(const MunitParameter params[], void *user_data)
{
uint8_t *buf = munit_calloc(1024, sizeof(uint8_t));
assert_ptr_not_null(buf);
sparsemap_t *map = (sparsemap_t *)test_api_setup(params, user_data);
sparsemap_init(map, buf, 1024);
return (void *)map;
}
static void
test_scale_best_case_tear_down(void *fixture)
{
sparsemap_t *map = (sparsemap_t *)fixture;
assert_ptr_not_null(map->m_data);
munit_free(map->m_data);
test_api_tear_down(fixture);
}
static MunitResult
test_scale_best_case(const MunitParameter params[], void *data)
{
sparsemap_t *map = (sparsemap_t *)data;
(void)params;
assert_ptr_not_null(map);
/* Best case a map can contain 2048 bits in 8 bytes.
So, in a 1KiB buffer you have:
(1024 KiB / 8 bytes) * 2048 = 268,435,456 bits
or 1.09 TiB of 4KiB pages. Let's investigate, and find out if that's the case.
*/
/* Set every bit on, that should be the best case. */
// for (int i = 0; i < 268435456; i++) {
for (int i = 0; i < 172032; i++) {
/* ANSI esc code to clear line, carrage return, then print on the same line */
// printf("\033[2K\r%d", i);
sparsemap_set(map, i, true);
}
return MUNIT_OK;
}
static void *
test_scale_worst_case_setup(const MunitParameter params[], void *user_data)
{
uint8_t *buf = munit_calloc(1024, sizeof(uint8_t));
assert_ptr_not_null(buf);
sparsemap_t *map = (sparsemap_t *)test_api_setup(params, user_data);
sparsemap_init(map, buf, 1024);
return (void *)map;
}
static void
test_scale_worst_case_tear_down(void *fixture)
{
sparsemap_t *map = (sparsemap_t *)fixture;
assert_ptr_not_null(map->m_data);
munit_free(map->m_data);
test_api_tear_down(fixture);
}
static MunitResult
test_scale_worst_case(const MunitParameter params[], void *data)
{
sparsemap_t *map = (sparsemap_t *)data;
(void)params;
assert_ptr_not_null(map);
/* Worst case a map can contain 2048 bits in 265 + 8 = 264 bytes.
So, in a 1KiB buffer you have:
(1024 KiB / 264 bytes) * 2048 = 8,134,407.75758 bits
or 33.3 GiB of 4KiB pages. Let's investigate, and find out if that's the case.
*/
/* Set every other bit, that has to be the "worst case" for this index. */
// for (int i = 0; i < 8134407; i += 2) {
for (int i = 0; i < 7744; i += 2) {
/* ANSI esc code to clear line, carrage return, then print on the same line */
// printf("\033[2K\r%d", i);
sparsemap_set(map, i, true);
}
return MUNIT_OK;
}
/* -------------------------- Performance Tests */
static void *
test_perf_span_solo_setup(const MunitParameter params[], void *user_data)
{
uint8_t *buf = munit_calloc(1024 * 3, sizeof(uint8_t));
assert_ptr_not_null(buf);
sparsemap_t *map = (sparsemap_t *)test_api_setup(params, user_data);
sparsemap_init(map, buf, 3 * 1024);
return (void *)map;
}
static void
test_perf_span_solo_tear_down(void *fixture)
{
sparsemap_t *map = (sparsemap_t *)fixture;
assert_ptr_not_null(map->m_data);
munit_free(map->m_data);
test_api_tear_down(fixture);
}
static MunitResult
test_perf_span_solo(const MunitParameter params[], void *data)
{
sparsemap_t *map = (sparsemap_t *)data;
(void)params;
int located_at, placed_at, amt = 500;
assert_ptr_not_null(map);
for (int i = 1; i < amt; i++) {
for (int length = 1; length <= 100; length++) {
sparsemap_clear(map);
placed_at = sm_add_span(map, amt, length);
located_at = sparsemap_span(map, 0, length, true);
if (placed_at != located_at)
logf("a: i = %d, length = %d\tplaced_at %d located_at %d\n", i, length, placed_at, located_at);
}
}
return MUNIT_OK;
}
static void *
test_perf_span_tainted_setup(const MunitParameter params[], void *user_data)
{
uint8_t *buf = munit_calloc(1024 * 3, sizeof(uint8_t));
assert_ptr_not_null(buf);
sparsemap_t *map = (sparsemap_t *)test_api_setup(params, user_data);
sparsemap_init(map, buf, 3 * 1024);
return (void *)map;
}
static void
test_perf_span_tainted_tear_down(void *fixture)
{
sparsemap_t *map = (sparsemap_t *)fixture;
assert_ptr_not_null(map->m_data);
munit_free(map->m_data);
test_api_tear_down(fixture);
}
static MunitResult
test_perf_span_tainted(const MunitParameter params[], void *data)
{
sparsemap_t *map = (sparsemap_t *)data;
// double stop, start;
(void)params;
assert_ptr_not_null(map);
int located_at, placed_at, amt = 500;
for (int i = 1; i < amt; i++) {
for (int j = 100; j <= 10; j++) {
sparsemap_clear(map);
populate_map(map, 1024, 1 * 1024);
placed_at = sm_add_span(map, amt, j);
// start = nsts();
located_at = sparsemap_span(map, 0, j, true);
// stop = nsts();
// double amt = (stop - start) * 1e6;
// if (amt > 0) {
// fprintf(stdout, "%0.8f\n", amt);
// }
if (located_at >= placed_at)
logf("b: i = %d, j = %d\tplaced_at %d located_at %d\n", i, j, placed_at, located_at);
}
}
return MUNIT_OK;
}
// clang-format off
static MunitTest scale_test_suite[] = {
{ (char *)"/lots-o-spans", test_scale_lots_o_spans, test_scale_lots_o_spans_setup, test_scale_lots_o_spans_tear_down, MUNIT_TEST_OPTION_NONE, NULL },
#ifdef SCALE_ONDREJ
{ (char *)"/ondrej", test_scale_ondrej, test_scale_ondrej_setup, test_scale_ondrej_tear_down, MUNIT_TEST_OPTION_NONE, NULL },
#endif
{ (char *)"/fuzz", test_scale_fuzz, test_scale_fuzz_setup, test_scale_fuzz_tear_down, MUNIT_TEST_OPTION_NONE, NULL },
{ (char *)"/alternating", test_scale_alternating, test_scale_alternating_setup, test_scale_alternating_tear_down, MUNIT_TEST_OPTION_NONE, NULL },
{ (char *)"/spans_come_spans_go", test_scale_spans_come_spans_go, test_scale_spans_come_spans_go_setup, test_scale_spans_come_spans_go_tear_down, MUNIT_TEST_OPTION_NONE, NULL },
{ (char *)"/best-case", test_scale_best_case, test_scale_best_case_setup, test_scale_best_case_tear_down, MUNIT_TEST_OPTION_NONE, NULL },
{ (char *)"/worst-case", test_scale_worst_case, test_scale_worst_case_setup, test_scale_worst_case_tear_down, MUNIT_TEST_OPTION_NONE, NULL },
{ NULL, NULL, NULL, NULL, MUNIT_TEST_OPTION_NONE, NULL } };
// clang-format on
// clang-format off
static MunitTest perf_test_suite[] = {
{ (char *)"/span/solo", test_perf_span_solo, test_perf_span_solo_setup, test_perf_span_solo_tear_down, MUNIT_TEST_OPTION_NONE, NULL },
{ (char *)"/span/tainted", test_perf_span_tainted, test_perf_span_tainted_setup, test_perf_span_tainted_tear_down, MUNIT_TEST_OPTION_NONE, NULL },
{ NULL, NULL, NULL, NULL, MUNIT_TEST_OPTION_NONE, NULL } };
// clang-format on
// clang-format off
static MunitSuite other_test_suite[] = {
{ "/api", api_test_suite, NULL, 1, MUNIT_SUITE_OPTION_NONE },
{ "/perf", perf_test_suite, NULL, 1, MUNIT_SUITE_OPTION_NONE },
{ "/scale", scale_test_suite, NULL, 1, MUNIT_SUITE_OPTION_NONE },
{ NULL, NULL, NULL, 0, MUNIT_SUITE_OPTION_NONE } };
// clang-format on
// clang-format off
static MunitTest sparsemap_test_suite[] = {
{ NULL, NULL, NULL, NULL, MUNIT_TEST_OPTION_NONE, NULL }
};
// clang-format on
static const MunitSuite main_test_suite = { (char *)"/sparsemap", sparsemap_test_suite, other_test_suite, 1, MUNIT_SUITE_OPTION_NONE };
int
main(int argc, char *argv[MUNIT_ARRAY_PARAM(argc + 1)])
{
struct user_data info;
/* Disable buffering on std{out,err} to avoid having to call fflush(). */
setvbuf(stdout, NULL, _IONBF, 0);
setvbuf(stderr, NULL, _IONBF, 0);
return munit_suite_main(&main_test_suite, (void *)&info, argc, argv);
}
/* ARGS: --no-fork --seed 8675309 */