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#include "../pkmem.h"
#include "../pktmpln.h"
#define PK_IMPL_ITER
#define PK_IMPL_MEM
#define PK_IMPL_BKTARR
#include "../pkbktarr.h"
void test_spinup(struct pk_membucket **bkt_buckets, struct pk_membucket **bkt_data)
{
*bkt_buckets = pk_mem_bucket_create("buckets", 1 << 16, PK_MEMBUCKET_FLAG_NONE);
*bkt_data = pk_mem_bucket_create("data", 1 << 16, PK_MEMBUCKET_FLAG_NONE);
}
void test_teardown(struct pk_membucket **bkt_buckets, struct pk_membucket **bkt_data)
{
// reverse order
pk_mem_bucket_destroy(*bkt_data);
pk_mem_bucket_destroy(*bkt_buckets);
*bkt_buckets = nullptr;
*bkt_data = nullptr;
}
int main(int argc, char *argv[])
{
(void)argc;
(void)argv;
struct pk_membucket *bkt_buckets = nullptr;
struct pk_membucket *bkt_data = nullptr;
// test it works
test_spinup(&bkt_buckets, &bkt_data);
{
assert(bkt_buckets != nullptr);
assert(bkt_data != nullptr);
struct pk_bkt_arr_t<int> arr(pk_bkt_arr_handle_MAX_constexpr, bkt_buckets, bkt_data);
struct pk_bkt_arr_handle h = pk_bkt_arr_new_handle(&arr);
arr[h] = 128;
if (h.b != 0) exit(1);
if (h.i != 0) exit(1);
if (arr.head_l.b != 0) exit(1);
if (arr.head_l.i != 1) exit(1);
if (arr.head_r.b != 0) exit(1);
if (arr.head_r.i != 1) exit(1);
if (arr.idx_unused[0] != 0xFFFFFFFFFFFFFFFE) exit(1);
#ifndef PK_MEMORY_FORCE_MALLOC
if (bkt_buckets->alloc_count != 2) exit(1);
if (bkt_data->alloc_count != 1) exit(1);
#endif
if (arr[h] != 128) exit(1);
pk_bkt_arr_free_handle(&arr, h);
if (arr.head_l.b != 0) exit(1);
if (arr.head_l.i != 0) exit(1);
if (arr.head_r.b != 0) exit(1);
if (arr.head_r.i != 1) exit(1);
if (arr.idx_unused[0] != 0xFFFFFFFFFFFFFFFF) exit(1);
#ifndef PK_MEMORY_FORCE_MALLOC
if (bkt_buckets->alloc_count != 2) exit(1);
if (bkt_data->alloc_count != 1) exit(1);
#endif
pk_bkt_arr_teardown(&arr);
#ifndef PK_MEMORY_FORCE_MALLOC
if (bkt_buckets->alloc_count != 0) exit(1);
if (bkt_data->alloc_count != 0) exit(1);
#endif
}
test_teardown(&bkt_buckets, &bkt_data);
// test typed find first index
test_spinup(&bkt_buckets, &bkt_data);
{
assert(bkt_buckets != nullptr);
assert(bkt_data != nullptr);
struct pk_bkt_arr_t<int> arr(pk_bkt_arr_handle_MAX_constexpr, bkt_buckets, bkt_data);
int val = 128;
struct pk_bkt_arr_handle h2 = pk_bkt_arr_new_handle(&arr);
struct pk_bkt_arr_handle h3 = pk_bkt_arr_new_handle(&arr);
struct pk_bkt_arr_handle h = pk_bkt_arr_new_handle(&arr);
pk_bkt_arr_free_handle(&arr, h2);
pk_bkt_arr_free_handle(&arr, h3);
arr[h] = val;
if (h.b != 0) exit(1);
if (h.i != 2) exit(1);
if (arr.head_l.b != 0) exit(1);
if (arr.head_l.i != 0) exit(1);
if (arr.head_r.b != 0) exit(1);
if (arr.head_r.i != 3) exit(1);
if (arr.idx_unused[0] != 0xFFFFFFFFFFFFFFFB) exit(1);
#ifndef PK_MEMORY_FORCE_MALLOC
if (bkt_buckets->alloc_count != 2) exit(1);
if (bkt_data->alloc_count != 1) exit(1);
#endif
if (arr[h] != val) exit(1);
int count = 0;
pk_bkt_arr_t<int>::FN_Find cb_wrapper{};
cb_wrapper.func = [&count](const int *lhs, const int *rhs)
{
count++;
return *lhs == *rhs;
};
pk_bkt_arr_handle found_h = pk_bkt_arr_find_first_handle(&arr, &pk_bkt_arr_t<int>::FN_Find::invoke, &cb_wrapper, &val);
if (pk_bkt_arr_handle_compare(found_h, h) != 0) exit(1);
if (count != 1) exit(1);
pk_bkt_arr_teardown(&arr);
#ifndef PK_MEMORY_FORCE_MALLOC
if (bkt_buckets->alloc_count != 0) exit(1);
if (bkt_data->alloc_count != 0) exit(1);
#endif
}
test_teardown(&bkt_buckets, &bkt_data);
// test iter
test_spinup(&bkt_buckets, &bkt_data);
{
assert(bkt_buckets != nullptr);
assert(bkt_data != nullptr);
struct pk_bkt_arr_t<int> arr(pk_bkt_arr_handle_MAX_constexpr, bkt_buckets, bkt_data);
int val = 128;
struct pk_bkt_arr_handle h = pk_bkt_arr_new_handle(&arr);
arr[h] = val;
if (h.b != 0) exit(1);
if (h.i != 0) exit(1);
if (arr.head_l.b != 0) exit(1);
if (arr.head_l.i != 1) exit(1);
if (arr.head_r.b != 0) exit(1);
if (arr.head_r.i != 1) exit(1);
if (arr.idx_unused[0] != 0xFFFFFFFFFFFFFFFE) exit(1);
#ifndef PK_MEMORY_FORCE_MALLOC
if (bkt_buckets->alloc_count != 2) exit(1);
if (bkt_data->alloc_count != 1) exit(1);
#endif
if (arr[h] != val) exit(1);
int some_counter = 0;
pk_bkt_arr_t<int>::FN_Iter cb_wrapper{};
cb_wrapper.func = [&some_counter](int *lhs)
{
(void)lhs;
some_counter += 1;
return;
};
pk_bkt_arr_iterate(&arr, &pk_bkt_arr_t<int>::FN_Iter::invoke, &cb_wrapper);
if (some_counter != 1) exit(1);
pk_bkt_arr_teardown(&arr);
#ifndef PK_MEMORY_FORCE_MALLOC
if (bkt_buckets->alloc_count != 0) exit(1);
if (bkt_data->alloc_count != 0) exit(1);
#endif
}
test_teardown(&bkt_buckets, &bkt_data);
// test pointers
test_spinup(&bkt_buckets, &bkt_data);
{
assert(bkt_buckets != nullptr);
assert(bkt_data != nullptr);
const int base_array_len = 16;
int i;
struct pk_bkt_arr_t<int *> arr(pk_bkt_arr_handle_MAX_constexpr, bkt_buckets, bkt_data);
for (i = 0; i < base_array_len; ++i) {
auto handle = pk_bkt_arr_new_handle(&arr);
arr[handle] = new int{i};
}
pk_bkt_arr_t<int*>::FN_Iter cb_wrapper{};
i = 0;
cb_wrapper.func = [&i](int **lhs)
{
int *val_ptr = *lhs;
int val = *val_ptr;
if (val != i) {
fprintf(stderr, "[pkbktarr.cpp] int pointer did not match, expected: %i, got: %i", i, val);
exit(1);
}
i += 1;
delete val_ptr;
return;
};
pk_bkt_arr_iterate(&arr, &pk_bkt_arr_t<int>::FN_Iter::invoke, &cb_wrapper);
pk_bkt_arr_teardown(&arr);
#ifndef PK_MEMORY_FORCE_MALLOC
if (bkt_buckets->alloc_count != 0) exit(1);
if (bkt_data->alloc_count != 0) exit(1);
#endif
}
test_teardown(&bkt_buckets, &bkt_data);
fprintf(stdout, "[%s] test iter forwards w/ empty slot begin\n", __FILE__);
test_spinup(&bkt_buckets, &bkt_data);
{
assert(bkt_buckets != nullptr);
assert(bkt_data != nullptr);
uint8_t u, uu;
bool b;
struct pk_bkt_arr_handle h;
struct pk_bkt_arr_handle limits;
limits.b = 2;
limits.i = 5;
struct pk_bkt_arr_t<uint8_t> arr(limits, bkt_buckets, bkt_data);
for (u = 0; u < limits.b; ++u) {
for (uu = 0; uu < limits.i; ++uu) {
h = pk_bkt_arr_new_handle(&arr);
arr[h] = uu;
}
}
h.b = 0;
h.i = 2;
pk_bkt_arr_free_handle(&arr, h);
h.b = 1;
pk_bkt_arr_free_handle(&arr, h);
struct pk_iter_t<uint8_t> it;
for (u = 0; u < limits.b; ++u) {
for (uu = 0; uu < limits.i; ++uu) {
if (uu == 2) continue;
if (u == 0 && uu == 0) {
b = pk_bkt_arr_iter_begin(&arr, &it);
} else {
b = pk_bkt_arr_iter_increment(&arr, &it);
}
if (b == false) exit(1);
fprintf(stdout, "it.data: %p, val: %i\n", it.data, *(uint8_t*)it.data);
if (it.id.bkt.b != u) exit(1);
if (it.id.bkt.i != uu) exit(1);
if (*it != uu) exit(1);
}
}
b = pk_bkt_arr_iter_increment(&arr, &it);
if (b == true) exit(1);
pk_bkt_arr_teardown(&arr);
}
fprintf(stdout, "[%s] test iter forwards w/ empty slot end\n\n", __FILE__);
test_teardown(&bkt_buckets, &bkt_data);
fprintf(stdout, "[%s] test iter reverse w/ empty slot begin\n", __FILE__);
test_spinup(&bkt_buckets, &bkt_data);
{
assert(bkt_buckets != nullptr);
assert(bkt_data != nullptr);
uint8_t u, uu;
bool b;
struct pk_bkt_arr_handle h;
struct pk_bkt_arr_handle limits;
limits.b = 2;
limits.i = 5;
pk_bkt_arr_t<uint8_t> arr(limits, bkt_buckets, bkt_data);
for (u = 0; u < 5; ++u) {
for (uu = 0; uu < 5; ++uu) {
h = pk_bkt_arr_new_handle(&arr);
arr[h] = uu;
}
}
h.b = 0;
h.i = 2;
pk_bkt_arr_free_handle(&arr, h);
h.b = 1;
pk_bkt_arr_free_handle(&arr, h);
struct pk_iter_t<uint8_t> it;
for (u = limits.b; u > 0; --u) {
for (uu = limits.i; uu > 0; --uu) {
if (uu-1 == 2) continue;
if (u == limits.b && uu == limits.i) {
b = pk_bkt_arr_iter_end(&arr, &it);
} else {
b = pk_bkt_arr_iter_decrement(&arr, &it);
}
if (b == false) exit(1);
fprintf(stdout, "it.data: %p, val: %i\n", it.data, *(uint8_t*)it.data);
if (it.id.bkt.b != u-1) exit(1);
if (it.id.bkt.i != uu-1) exit(1);
if (*it != uu-1) exit(1);
}
}
b = pk_bkt_arr_iter_decrement(&arr, &it);
if (b == true) exit(1);
pk_bkt_arr_teardown(&arr);
}
test_teardown(&bkt_buckets, &bkt_data);
fprintf(stdout, "[%s] test iter reverse w/ empty slot end\n\n", __FILE__);
}
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