Sat, 23 Nov 2024 15:15:09 +0100
automatically disable szmul builtin when testing with coverage
/* * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS HEADER. * * Copyright 2023 Mike Becker, Olaf Wintermann All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include "cx/test.h" #include "util_allocator.h" #include "cx/hash_map.h" CX_TEST(test_hash_map_create) { CxTestingAllocator talloc; cx_testing_allocator_init(&talloc); CxAllocator *allocator = &talloc.base; CX_TEST_DO { CxMap *map = cxHashMapCreate(allocator, 1, 0); struct cx_hash_map_s *hmap = (struct cx_hash_map_s *) map; CX_TEST_ASSERT(hmap->bucket_count > 0); for(size_t i = 0 ; i < hmap->bucket_count ; i++) { CX_TEST_ASSERT(hmap->buckets[i] == NULL); } CX_TEST_ASSERT(map->collection.elem_size == 1); CX_TEST_ASSERT(map->collection.size == 0); CX_TEST_ASSERT(map->collection.allocator == allocator); CX_TEST_ASSERT(!map->collection.store_pointer); CX_TEST_ASSERT(map->collection.cmpfunc == NULL); CX_TEST_ASSERT(map->collection.simple_destructor == NULL); CX_TEST_ASSERT(map->collection.advanced_destructor == NULL); CX_TEST_ASSERT(map->collection.destructor_data == NULL); cxMapStorePointers(map); CX_TEST_ASSERT(map->collection.store_pointer); CX_TEST_ASSERT(map->collection.elem_size == sizeof(void *)); cxMapStoreObjects(map); CX_TEST_ASSERT(!map->collection.store_pointer); cxMapDestroy(map); CX_TEST_ASSERT(cx_testing_allocator_verify(&talloc)); } cx_testing_allocator_destroy(&talloc); } CX_TEST(test_hash_map_create_store_pointers) { CxTestingAllocator talloc; cx_testing_allocator_init(&talloc); CxAllocator *allocator = &talloc.base; CX_TEST_DO { CxMap *map = cxHashMapCreate(allocator, CX_STORE_POINTERS, 0); struct cx_hash_map_s *hmap = (struct cx_hash_map_s *) map; CX_TEST_ASSERT(hmap->bucket_count > 0); for (size_t i = 0; i < hmap->bucket_count; i++) { CX_TEST_ASSERT(hmap->buckets[i] == NULL); } CX_TEST_ASSERT(map->collection.size == 0); CX_TEST_ASSERT(map->collection.allocator == allocator); CX_TEST_ASSERT(map->collection.store_pointer); CX_TEST_ASSERT(map->collection.elem_size == sizeof(void *)); cxMapDestroy(map); CX_TEST_ASSERT(cx_testing_allocator_verify(&talloc)); } cx_testing_allocator_destroy(&talloc); } CX_TEST(test_hash_map_rehash) { CxTestingAllocator talloc; cx_testing_allocator_init(&talloc); CxAllocator *allocator = &talloc.base; CX_TEST_DO { CxMap *map = cxHashMapCreate(allocator, CX_STORE_POINTERS, 7); cxMapPut(map, "key 1", (void *) "val 1"); cxMapPut(map, "key 2", (void *) "val 2"); cxMapPut(map, "key 3", (void *) "val 3"); cxMapPut(map, "foo 4", (void *) "val 4"); cxMapPut(map, "key 5", (void *) "val 5"); cxMapPut(map, "key 6", (void *) "val 6"); cxMapPut(map, "bar 7", (void *) "val 7"); cxMapPut(map, "key 8", (void *) "val 8"); cxMapPut(map, "key 9", (void *) "val 9"); cxMapPut(map, "key 10", (void *) "val 10"); CX_TEST_ASSERT(((struct cx_hash_map_s *)map)->bucket_count == 7); int result = cxMapRehash(map); CX_TEST_ASSERT(result == 0); CX_TEST_ASSERT(((struct cx_hash_map_s *)map)->bucket_count == 25); CX_TEST_ASSERT(map->collection.size == 10); CX_TEST_ASSERT(0 == strcmp(cxMapGet(map, "key 1"), "val 1")); CX_TEST_ASSERT(0 == strcmp(cxMapGet(map, "key 2"), "val 2")); CX_TEST_ASSERT(0 == strcmp(cxMapGet(map, "key 3"), "val 3")); CX_TEST_ASSERT(0 == strcmp(cxMapGet(map, "foo 4"), "val 4")); CX_TEST_ASSERT(0 == strcmp(cxMapGet(map, "key 5"), "val 5")); CX_TEST_ASSERT(0 == strcmp(cxMapGet(map, "key 6"), "val 6")); CX_TEST_ASSERT(0 == strcmp(cxMapGet(map, "bar 7"), "val 7")); CX_TEST_ASSERT(0 == strcmp(cxMapGet(map, "key 8"), "val 8")); CX_TEST_ASSERT(0 == strcmp(cxMapGet(map, "key 9"), "val 9")); CX_TEST_ASSERT(0 == strcmp(cxMapGet(map, "key 10"), "val 10")); cxMapDestroy(map); CX_TEST_ASSERT(cx_testing_allocator_verify(&talloc)); } cx_testing_allocator_destroy(&talloc); } CX_TEST(test_hash_map_rehash_not_required) { CxTestingAllocator talloc; cx_testing_allocator_init(&talloc); CxAllocator *allocator = &talloc.base; CX_TEST_DO { CxMap *map = cxHashMapCreate(allocator, CX_STORE_POINTERS, 8); cxMapPut(map, "key 1", (void *) "val 1"); cxMapPut(map, "key 2", (void *) "val 2"); cxMapPut(map, "key 3", (void *) "val 3"); cxMapPut(map, "key 4", (void *) "val 4"); cxMapPut(map, "key 5", (void *) "val 5"); cxMapPut(map, "key 6", (void *) "val 6"); // 6/8 does not exceed 0.75, therefore the function should not rehash int result = cxMapRehash(map); CX_TEST_ASSERT(result == 0); CX_TEST_ASSERT(((struct cx_hash_map_s *)map)->bucket_count == 8); cxMapDestroy(map); CX_TEST_ASSERT(cx_testing_allocator_verify(&talloc)); } cx_testing_allocator_destroy(&talloc); } CX_TEST(test_hash_map_clear) { CxTestingAllocator talloc; cx_testing_allocator_init(&talloc); CxAllocator *allocator = &talloc.base; CX_TEST_DO { CxMap *map = cxHashMapCreate(allocator, CX_STORE_POINTERS, 0); cxMapPut(map, "key 1", (void *) "val 1"); cxMapPut(map, "key 2", (void *) "val 2"); cxMapPut(map, "key 3", (void *) "val 3"); CX_TEST_ASSERT(map->collection.size == 3); cxMapClear(map); CX_TEST_ASSERT(map->collection.size == 0); CX_TEST_ASSERT(cxMapGet(map, "key 1") == NULL); CX_TEST_ASSERT(cxMapGet(map, "key 2") == NULL); CX_TEST_ASSERT(cxMapGet(map, "key 3") == NULL); cxMapDestroy(map); CX_TEST_ASSERT(cx_testing_allocator_verify(&talloc)); } cx_testing_allocator_destroy(&talloc); } CX_TEST(test_hash_map_store_ucx_strings) { CxTestingAllocator talloc; cx_testing_allocator_init(&talloc); CxAllocator *allocator = &talloc.base; CX_TEST_DO { // create the map CxMap *map = cxHashMapCreate(allocator, sizeof(cxstring), 8); // define some strings cxstring s1 = CX_STR("this"); cxstring s2 = CX_STR("is"); cxstring s3 = CX_STR("a"); cxstring s4 = CX_STR("test"); cxstring s5 = CX_STR("setup"); // put them into the map cxMapPut(map, "s1", &s1); cxMapPut(map, "s2", &s2); cxMapPut(map, "s3", &s3); cxMapPut(map, "s4", &s4); // overwrite a value cxMapPut(map, "s1", &s5); // look up a string cxstring * s3p = cxMapGet(map, "s3"); CX_TEST_ASSERT(s3p->length == s3.length); CX_TEST_ASSERT(s3p->ptr == s3.ptr); CX_TEST_ASSERT(s3p != &s3); // remove a string cxMapRemove(map, "s2"); CX_TEST_ASSERT(map->collection.size == 3); // iterate bool s3found = false, s4found = false, s5found = false; CxIterator iter = cxMapIteratorValues(map); cx_foreach(cxstring*, s, iter) { s3found |= s3.ptr == s->ptr; s4found |= s4.ptr == s->ptr; s5found |= s5.ptr == s->ptr; } CX_TEST_ASSERT(s3found && s4found && s5found); cxMapDestroy(map); CX_TEST_ASSERT(cx_testing_allocator_verify(&talloc)); } cx_testing_allocator_destroy(&talloc); } CX_TEST(test_hash_map_remove_via_iterator) { CxTestingAllocator talloc; cx_testing_allocator_init(&talloc); CxAllocator *allocator = &talloc.base; CX_TEST_DO { CxMap *map = cxHashMapCreate(allocator, CX_STORE_POINTERS, 4); cxMapPut(map, "key 1", (void *) "val 1"); cxMapPut(map, "key 2", (void *) "val 2"); cxMapPut(map, "key 3", (void *) "val 3"); cxMapPut(map, "key 4", (void *) "val 4"); cxMapPut(map, "key 5", (void *) "val 5"); cxMapPut(map, "key 6", (void *) "val 6"); CxIterator iter = cxMapMutIterator(map); cx_foreach(CxMapEntry*, entry, iter) { if (((const char *)entry->key->data)[4] % 2 == 1) cxIteratorFlagRemoval(iter); } CX_TEST_ASSERT(map->collection.size == 3); CX_TEST_ASSERT(iter.index == map->collection.size); CX_TEST_ASSERT(cxMapGet(map, "key 1") == NULL); CX_TEST_ASSERT(cxMapGet(map, "key 2") != NULL); CX_TEST_ASSERT(cxMapGet(map, "key 3") == NULL); CX_TEST_ASSERT(cxMapGet(map, "key 4") != NULL); CX_TEST_ASSERT(cxMapGet(map, "key 5") == NULL); CX_TEST_ASSERT(cxMapGet(map, "key 6") != NULL); cxMapDestroy(map); CX_TEST_ASSERT(cx_testing_allocator_verify(&talloc)); } cx_testing_allocator_destroy(&talloc); } static void test_simple_destructor(void *data) { strcpy(data, "OK"); } static void test_advanced_destructor( cx_attr_unused void *unused, void *data ) { strcpy(data, "OK"); } static CX_TEST_SUBROUTINE(verify_any_destructor, CxMap *map) { CxHashKey k1 = cx_hash_key_str("key 1"); CxHashKey k2 = cx_hash_key_str("key 2"); CxHashKey k3 = cx_hash_key_str("key 3"); CxHashKey k4 = cx_hash_key_str("key 4"); CxHashKey k5 = cx_hash_key_str("key 5"); char v1[] = "val 1"; char v2[] = "val 2"; char v3[] = "val 3"; char v4[] = "val 4"; char v5[] = "val 5"; cxMapPut(map, k1, v1); cxMapPut(map, k2, v2); cxMapPut(map, k3, v3); cxMapPut(map, k4, v4); cxMapRemove(map, k2); char *r = cxMapRemoveAndGet(map, k3); cxMapDetach(map, k1); CX_TEST_ASSERT(0 == strcmp(v1, "val 1")); CX_TEST_ASSERT(0 == strcmp(v2, "OK")); CX_TEST_ASSERT(0 == strcmp(v3, "val 3")); CX_TEST_ASSERT(0 == strcmp(v4, "val 4")); CX_TEST_ASSERT(0 == strcmp(v5, "val 5")); CX_TEST_ASSERT(r == v3); cxMapClear(map); CX_TEST_ASSERT(0 == strcmp(v1, "val 1")); CX_TEST_ASSERT(0 == strcmp(v2, "OK")); CX_TEST_ASSERT(0 == strcmp(v3, "val 3")); CX_TEST_ASSERT(0 == strcmp(v4, "OK")); CX_TEST_ASSERT(0 == strcmp(v5, "val 5")); cxMapPut(map, k1, (void *) v1); cxMapPut(map, k3, (void *) v3); cxMapPut(map, k5, (void *) v5); { CxIterator iter = cxMapMutIteratorKeys(map); cx_foreach(CxHashKey*, key, iter) { if (((char*)key->data)[4] == '1') cxIteratorFlagRemoval(iter); } } { CxIterator iter = cxMapMutIteratorValues(map); cx_foreach(char*, v, iter) { if (v[4] == '5') cxIteratorFlagRemoval(iter); } } CX_TEST_ASSERT(0 == strcmp(v1, "OK")); CX_TEST_ASSERT(0 == strcmp(v2, "OK")); CX_TEST_ASSERT(0 == strcmp(v3, "val 3")); CX_TEST_ASSERT(0 == strcmp(v4, "OK")); CX_TEST_ASSERT(0 == strcmp(v5, "OK")); v1[0] = v2[0] = v4[0] = v5[0] = 'c'; cxMapDestroy(map); CX_TEST_ASSERT(0 == strcmp(v1, "cK")); CX_TEST_ASSERT(0 == strcmp(v2, "cK")); CX_TEST_ASSERT(0 == strcmp(v3, "OK")); CX_TEST_ASSERT(0 == strcmp(v4, "cK")); CX_TEST_ASSERT(0 == strcmp(v5, "cK")); } CX_TEST(test_hash_map_simple_destructor) { CxTestingAllocator talloc; cx_testing_allocator_init(&talloc); CxAllocator *allocator = &talloc.base; CX_TEST_DO { CxMap *map = cxHashMapCreate(allocator, CX_STORE_POINTERS, 0); map->collection.simple_destructor = test_simple_destructor; CX_TEST_CALL_SUBROUTINE(verify_any_destructor, map); CX_TEST_ASSERT(cx_testing_allocator_verify(&talloc)); } cx_testing_allocator_destroy(&talloc); } CX_TEST(test_hash_map_advanced_destructor) { CxTestingAllocator talloc; cx_testing_allocator_init(&talloc); CxAllocator *allocator = &talloc.base; CX_TEST_DO { CxMap *map = cxHashMapCreate(allocator, CX_STORE_POINTERS, 0); map->collection.advanced_destructor = test_advanced_destructor; CX_TEST_CALL_SUBROUTINE(verify_any_destructor, map); CX_TEST_ASSERT(cx_testing_allocator_verify(&talloc)); } cx_testing_allocator_destroy(&talloc); } CX_TEST(test_empty_map_size) { CX_TEST_DO { CX_TEST_ASSERT(cxEmptyMap->collection.size == 0); CX_TEST_ASSERT(cxMapSize(cxEmptyMap) == 0); } } CX_TEST(test_empty_map_iterator) { CxMap *map = cxEmptyMap; CxIterator it1 = cxMapIterator(map); CxIterator it2 = cxMapIteratorValues(map); CxIterator it3 = cxMapIteratorKeys(map); CxIterator it4 = cxMapMutIterator(map); CxIterator it5 = cxMapMutIteratorValues(map); CxIterator it6 = cxMapMutIteratorKeys(map); CX_TEST_DO { CX_TEST_ASSERT(!cxIteratorValid(it1)); CX_TEST_ASSERT(!cxIteratorValid(it2)); CX_TEST_ASSERT(!cxIteratorValid(it3)); CX_TEST_ASSERT(!cxIteratorValid(it4)); CX_TEST_ASSERT(!cxIteratorValid(it5)); CX_TEST_ASSERT(!cxIteratorValid(it6)); int c = 0; cx_foreach(void*, data, it1) c++; cx_foreach(void*, data, it2) c++; cx_foreach(void*, data, it3) c++; cx_foreach(void*, data, it4) c++; cx_foreach(void*, data, it5) c++; cx_foreach(void*, data, it6) c++; CX_TEST_ASSERT(c == 0); } } CX_TEST(test_empty_map_no_ops) { CX_TEST_DO { // assertion not possible // test that no segfault happens and valgrind is happy cxMapClear(cxEmptyMap); cxMapDestroy(cxEmptyMap); CX_TEST_ASSERT(true); } } CX_TEST(test_empty_map_get) { CX_TEST_DO { CxHashKey key = cx_hash_key_str("test"); CX_TEST_ASSERT(cxMapGet(cxEmptyMap, key) == NULL); } } CX_TEST(test_hash_map_generics) { CxTestingAllocator talloc; cx_testing_allocator_init(&talloc); CxAllocator *allocator = &talloc.base; CX_TEST_DO { CxMap *map = cxHashMapCreate(allocator, sizeof(cxstring), 0); cxMapPut(map, "test", "test"); cxMapPut(map, cx_mutstr("foo"), "bar"); cxMapPut(map, cx_str("hallo"), "welt"); CX_TEST_ASSERT(map->collection.size == 3); CX_TEST_ASSERT(0 == strcmp(cxMapGet(map, "test"), "test")); CX_TEST_ASSERT(0 == strcmp(cxMapGet(map, "foo"), "bar")); CX_TEST_ASSERT(0 == strcmp(cxMapGet(map, "hallo"), "welt")); // note: we don't have a destructor here, so remove and detach are the same cxMapRemove(map, cx_str("test")); const char *hallo = "hallo"; cxMapDetach(map, hallo); cxMapPut(map, cx_hash_key_str("key"), "value"); CX_TEST_ASSERT(map->collection.size == 2); CX_TEST_ASSERT(0 == strcmp(cxMapGet(map, "key"), "value")); CX_TEST_ASSERT(0 == strcmp(cxMapGet(map, "foo"), "bar")); void *r; r = cxMapRemoveAndGet(map, "key"); r = cxMapRemoveAndGet(map, cx_str("foo")); if (r != NULL) map->collection.size = 47; CX_TEST_ASSERT(map->collection.size == 0); cxMapDestroy(map); CX_TEST_ASSERT(cx_testing_allocator_verify(&talloc)); } cx_testing_allocator_destroy(&talloc); } struct test_map_kv { const char *key; const char *value; }; static struct test_map_kv const test_map_operations[] = { {"key 1", "test"}, {"key 2", "blub"}, {"key 3", "hallo"}, {"key 2", "foobar"}, {"key 4", "value 4"}, {"key 5", "value 5"}, {"key 6", "value 6"}, {"key 4", NULL}, {"key 7", "value 7"}, {"key 8", "value 8"}, {"does not exist", NULL}, {"key 9", "value 9"}, {"key 6", "other value"}, {"key 7", "something else"}, {"key 8", NULL}, {"key 2", NULL}, {"key 8", "new value"}, }; static const size_t test_map_operations_len = sizeof(test_map_operations) / sizeof(struct test_map_kv); static struct test_map_kv test_map_reference[] = { {"key 1", NULL}, {"key 2", NULL}, {"key 3", NULL}, {"key 4", NULL}, {"key 5", NULL}, {"key 6", NULL}, {"key 7", NULL}, {"key 8", NULL}, {"key 9", NULL}, }; static const size_t test_map_reference_len = sizeof(test_map_reference) / sizeof(struct test_map_kv); static void test_map_reference_put(const char *key, const char *value) { for (size_t i = 0 ; i < test_map_reference_len ; i++) { if (0 == strcmp(key, test_map_reference[i].key)) { test_map_reference[i].value = value; return; } } } static const char *test_map_reference_get(const char *key) { for (size_t i = 0 ; i < test_map_reference_len ; i++) { if (0 == strcmp(key, test_map_reference[i].key)) { return test_map_reference[i].value; } } return NULL; } static const char *test_map_reference_remove(const char *key) { for (size_t i = 0 ; i < test_map_reference_len ; i++) { if (0 == strcmp(key, test_map_reference[i].key)) { const char *ret = test_map_reference[i].value; test_map_reference[i].value = NULL; return ret; } } return NULL; } static size_t test_map_reference_size(void) { size_t size = 0; for (size_t i = 0; i < test_map_reference_len; i++) { if (test_map_reference[i].value != NULL) { size++; } } return size; } static CX_TEST_SUBROUTINE(verify_map_contents, CxMap *map) { // verify that the reference map has same size (i.e. no other keys are mapped) CX_TEST_ASSERT(map->collection.size == test_map_reference_size()); // verify key iterator { // collect the keys from the map iterator CxIterator keyiter = cxMapIteratorKeys(map); CX_TEST_ASSERT(keyiter.elem_size == sizeof(CxHashKey)); CX_TEST_ASSERT(keyiter.elem_count == map->collection.size); CxHashKey *keys = calloc(map->collection.size, sizeof(CxHashKey)); cx_foreach(CxHashKey*, elem, keyiter) { keys[keyiter.index] = *elem; } CX_TEST_ASSERT(keyiter.index == map->collection.size); // verify that all keys are mapped to values in reference map for (size_t i = 0 ; i < map->collection.size ; i++) { cxmutstr ksz = cx_strdup(cx_strn(keys[i].data, keys[i].len)); CX_TEST_ASSERT(test_map_reference_get(ksz.ptr) != NULL); cx_strfree(&ksz); } free(keys); } // verify value iterator { // by using that the values in our test data are unique strings // we can re-use a similar approach as above CxIterator valiter = cxMapIteratorValues(map); CX_TEST_ASSERT(valiter.elem_size == map->collection.elem_size); CX_TEST_ASSERT(valiter.elem_count == map->collection.size); const char ** values = calloc(map->collection.size, sizeof(const char *)); cx_foreach(const char *, elem, valiter) { values[valiter.index] = elem; } CX_TEST_ASSERT(valiter.index == map->collection.size); // verify that all values are present in the reference map for (size_t i = 0 ; i < map->collection.size ; i++) { bool found = false; for (size_t j = 0; j < test_map_reference_len ; j++) { if (test_map_reference[j].value == values[i]) { found = true; break; } } CX_TEST_ASSERTM(found, "A value was not found in the reference map"); } free(values); } // verify pair iterator { CxIterator pairiter = cxMapIterator(map); CX_TEST_ASSERT(pairiter.elem_size == sizeof(CxMapEntry)); CX_TEST_ASSERT(pairiter.elem_count == map->collection.size); struct test_map_kv *pairs = calloc(map->collection.size, sizeof(struct test_map_kv)); cx_foreach(CxMapEntry*, entry, pairiter) { const CxHashKey *key = entry->key; pairs[pairiter.index].key = cx_strdup(cx_strn(key->data, key->len)).ptr; pairs[pairiter.index].value = entry->value; } CX_TEST_ASSERT(pairiter.index == map->collection.size); // verify that all pairs are present in the reference map for (size_t i = 0 ; i < map->collection.size ; i++) { CX_TEST_ASSERT(test_map_reference_get(pairs[i].key) == pairs[i].value); // this was strdup'ed free((void*)pairs[i].key); } free(pairs); } } CX_TEST(test_hash_map_basic_operations) { CxTestingAllocator talloc; cx_testing_allocator_init(&talloc); CxAllocator *allocator = &talloc.base; CX_TEST_DO { // create the map CxMap *map = cxHashMapCreate(allocator, CX_STORE_POINTERS, 8); // clear the reference map for (size_t i = 0 ; i < test_map_reference_len ; i++) { test_map_reference[i].value = NULL; } // verify iterators for empty map CX_TEST_CALL_SUBROUTINE(verify_map_contents, map); // execute operations and verify results for (size_t i = 0 ; i < test_map_operations_len ; i++) { struct test_map_kv kv = test_map_operations[i]; CxHashKey key = cx_hash_key_str(kv.key); key.hash = 0; // force the hash map to compute the hash if (kv.value != NULL) { // execute a put operation and verify that the exact value can be read back test_map_reference_put(kv.key, kv.value); int result = cxMapPut(map, key, (void *) kv.value); CX_TEST_ASSERT(result == 0); void *added = cxMapGet(map, key); CX_TEST_ASSERT(0 == memcmp(kv.value, added, strlen(kv.value))); } else { // execute a remove and verify that the removed element was returned (or NULL) const char *found = test_map_reference_remove(kv.key); void *removed = cxMapRemoveAndGet(map, key); CX_TEST_ASSERT(found == removed); } // compare the current map state with the reference map CX_TEST_CALL_SUBROUTINE(verify_map_contents, map); } // destroy the map and verify the memory (de)allocations cxMapDestroy(map); CX_TEST_ASSERT(cx_testing_allocator_verify(&talloc)); } cx_testing_allocator_destroy(&talloc); } CxTestSuite *cx_test_suite_hash_map(void) { CxTestSuite *suite = cx_test_suite_new("map"); cx_test_register(suite, test_hash_map_create); cx_test_register(suite, test_hash_map_create_store_pointers); cx_test_register(suite, test_hash_map_basic_operations); cx_test_register(suite, test_hash_map_rehash); cx_test_register(suite, test_hash_map_rehash_not_required); cx_test_register(suite, test_hash_map_clear); cx_test_register(suite, test_hash_map_store_ucx_strings); cx_test_register(suite, test_hash_map_remove_via_iterator); cx_test_register(suite, test_empty_map_no_ops); cx_test_register(suite, test_empty_map_size); cx_test_register(suite, test_empty_map_get); cx_test_register(suite, test_empty_map_iterator); cx_test_register(suite, test_hash_map_generics); return suite; }