/* * @file test_set.c * @author: Radek Krejci * @brief unit tests for functions from set.c * * Copyright (c) 2018 CESNET, z.s.p.o. * * This source code is licensed under BSD 3-Clause License (the "License"). * You may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://opensource.org/licenses/BSD-3-Clause */ #define _POSIX_C_SOURCE 200809L /* strdup */ #define _UTEST_MAIN_ #include "utests.h" #include #include #include "set.h" static void test_basics(void **UNUSED(state)) { struct ly_set *set; char *str; unsigned int u; void *ptr; uint32_t index; /* creation - everything is empty */ assert_int_equal(LY_SUCCESS, ly_set_new(&set)); assert_non_null(set); assert_int_equal(0, set->count); assert_int_equal(0, set->size); assert_null(set->objs); /* add a testing object */ str = strdup("test string"); assert_non_null(str); assert_int_equal(LY_SUCCESS, ly_set_add(set, str, 0, NULL)); assert_int_not_equal(0, set->size); assert_int_equal(1, set->count); assert_non_null(set->objs); assert_non_null(set->objs[0]); /* check the presence of the testing data */ assert_int_equal(1, ly_set_contains(set, str, &index)); assert_int_equal(0, index); assert_int_equal(0, ly_set_contains(set, str - 1, NULL)); /* remove data, but keep the set */ u = set->size; ptr = set->objs; ly_set_clean(set, free); assert_int_equal(0, set->count); assert_int_equal(u, set->size); assert_ptr_equal(ptr, set->objs); /* remove buffer, but keep the set object */ ly_set_erase(set, NULL); assert_int_equal(0, set->count); assert_int_equal(0, set->size); assert_ptr_equal(NULL, set->objs); /* final cleanup */ ly_set_free(set, NULL); } static void test_inval(void **state) { struct ly_set set; memset(&set, 0, sizeof set); ly_set_clean(NULL, NULL); CHECK_LOG(NULL, NULL); ly_set_erase(NULL, NULL); CHECK_LOG(NULL, NULL); ly_set_free(NULL, NULL); CHECK_LOG(NULL, NULL); assert_int_equal(LY_EINVAL, ly_set_dup(NULL, NULL, NULL)); CHECK_LOG("Invalid argument set (ly_set_dup()).", NULL); assert_int_equal(LY_EINVAL, ly_set_add(NULL, NULL, 0, NULL)); CHECK_LOG("Invalid argument set (ly_set_add()).", NULL); assert_int_equal(LY_EINVAL, ly_set_merge(NULL, NULL, 0, NULL)); CHECK_LOG("Invalid argument trg (ly_set_merge()).", NULL); assert_int_equal(LY_SUCCESS, ly_set_merge(&set, NULL, 0, NULL)); assert_int_equal(LY_EINVAL, ly_set_rm_index(NULL, 0, NULL)); CHECK_LOG("Invalid argument set (ly_set_rm_index()).", NULL); assert_int_equal(LY_EINVAL, ly_set_rm_index(&set, 1, NULL)); CHECK_LOG("Invalid argument index (ly_set_rm_index()).", NULL); assert_int_equal(LY_EINVAL, ly_set_rm(NULL, NULL, NULL)); CHECK_LOG("Invalid argument set (ly_set_rm()).", NULL); assert_int_equal(LY_EINVAL, ly_set_rm(&set, NULL, NULL)); CHECK_LOG("Invalid argument object (ly_set_rm()).", NULL); assert_int_equal(LY_EINVAL, ly_set_rm(&set, &set, NULL)); CHECK_LOG("Invalid argument object (ly_set_rm()).", NULL); } static void test_duplication(void **UNUSED(state)) { struct ly_set *orig, *new; char *str; uint32_t index; assert_int_equal(LY_SUCCESS, ly_set_new(&orig)); assert_non_null(orig); /* add a testing object */ str = strdup("test string"); assert_non_null(str); assert_int_equal(LY_SUCCESS, ly_set_add(orig, str, 0, &index)); assert_int_equal(0, index); /* duplicate the set - without duplicator, so the new set will point to the same string */ assert_int_equal(LY_SUCCESS, ly_set_dup(orig, NULL, &new)); assert_non_null(new); assert_ptr_not_equal(orig, new); assert_int_equal(orig->count, new->count); assert_ptr_equal(orig->objs[0], new->objs[0]); ly_set_free(new, NULL); /* duplicate the set - with duplicator, so the new set will point to a different buffer with the same content */ assert_int_equal(LY_SUCCESS, ly_set_dup(orig, (void *(*)(const void *))strdup, &new)); assert_non_null(new); assert_ptr_not_equal(orig, new); assert_int_equal(orig->count, new->count); assert_ptr_not_equal(orig->objs[0], new->objs[0]); assert_string_equal(orig->objs[0], new->objs[0]); /* cleanup */ ly_set_free(new, free); ly_set_free(orig, free); } static void test_add(void **UNUSED(state)) { uint32_t u, index; char *str = "test string"; struct ly_set set; memset(&set, 0, sizeof set); /* add a testing object */ assert_int_equal(LY_SUCCESS, ly_set_add(&set, str, 0, &index)); assert_int_equal(0, index); /* test avoiding data duplicities */ assert_int_equal(LY_SUCCESS, ly_set_add(&set, str, 0, &index)); assert_int_equal(0, index); assert_int_equal(1, set.count); assert_int_equal(LY_SUCCESS, ly_set_add(&set, str, 1, &index)); assert_int_equal(1, index); assert_int_equal(2, set.count); /* test array resizing */ u = set.size; for (uint32_t expected_index = 2; expected_index <= u; ++expected_index) { assert_int_equal(LY_SUCCESS, ly_set_add(&set, str, 1, &index)); assert_int_equal(expected_index, index); } assert_true(u != set.size); /* cleanup */ ly_set_erase(&set, NULL); } static void test_merge(void **UNUSED(state)) { char *str1, *str2; struct ly_set one, two; memset(&one, 0, sizeof one); memset(&two, 0, sizeof two); str1 = strdup("string1"); str2 = strdup("string2"); /* fill first set * - str1 is the same as in two, so it must not be freed! */ assert_int_equal(LY_SUCCESS, ly_set_add(&one, str1, 0, NULL)); /* fill second set */ assert_int_equal(LY_SUCCESS, ly_set_add(&two, str1, 0, NULL)); assert_int_equal(LY_SUCCESS, ly_set_add(&two, str2, 0, NULL)); /* merge with checking duplicities - only one item is added into one; * also without duplicating data, so it must not be freed at the end */ assert_int_equal(LY_SUCCESS, ly_set_merge(&one, &two, 0, NULL)); assert_int_equal(2, one.count); assert_ptr_equal(one.objs[1], two.objs[1]); /* clean and re-fill one (now duplicating str1, to allow testing duplicator) */ ly_set_clean(&one, NULL); assert_int_equal(LY_SUCCESS, ly_set_add(&one, strdup(str1), 0, NULL)); /* merge without checking duplicities - two items are added into one; * here also with duplicator */ assert_int_equal(LY_SUCCESS, ly_set_merge(&one, &two, 1, (void *(*)(const void *))strdup)); assert_int_equal(3, one.count); assert_ptr_not_equal(one.objs[1], two.objs[0]); assert_string_equal(one.objs[1], two.objs[0]); /* cleanup */ ly_set_erase(&one, free); ly_set_erase(&two, free); } static void test_rm(void **UNUSED(state)) { char *str1, *str2, *str3; struct ly_set set; memset(&set, 0, sizeof set); /* fill the set */ assert_int_equal(LY_SUCCESS, ly_set_add(&set, "string1", 0, NULL)); assert_int_equal(LY_SUCCESS, ly_set_add(&set, strdup("string2"), 0, NULL)); assert_int_equal(LY_SUCCESS, ly_set_add(&set, "string3", 0, NULL)); /* remove by index ... */ /* ... in the middle ... */ assert_int_equal(LY_SUCCESS, ly_set_rm_index(&set, 1, free)); assert_int_equal(2, set.count); assert_string_not_equal("string2", set.objs[0]); assert_string_not_equal("string2", set.objs[1]); /* ... last .. */ assert_int_equal(LY_SUCCESS, ly_set_rm_index(&set, 1, NULL)); assert_int_equal(1, set.count); assert_string_not_equal("string3", set.objs[0]); /* ... first .. */ assert_int_equal(LY_SUCCESS, ly_set_rm_index(&set, 0, NULL)); assert_int_equal(0, set.count); /* fill the set */ assert_int_equal(LY_SUCCESS, ly_set_add(&set, str1 = "string1", 0, NULL)); assert_int_equal(LY_SUCCESS, ly_set_add(&set, str2 = "string2", 0, NULL)); assert_int_equal(LY_SUCCESS, ly_set_add(&set, str3 = strdup("string3"), 0, NULL)); /* remove by pointer ... */ /* ... in the middle ... */ assert_int_equal(LY_SUCCESS, ly_set_rm(&set, str2, NULL)); assert_int_equal(2, set.count); assert_string_not_equal("string2", set.objs[0]); assert_string_not_equal("string2", set.objs[1]); /* ... last (with destructor) .. */ assert_int_equal(LY_SUCCESS, ly_set_rm(&set, str3, free)); assert_int_equal(1, set.count); assert_string_not_equal("string3", set.objs[0]); /* ... first .. */ assert_int_equal(LY_SUCCESS, ly_set_rm(&set, str1, NULL)); assert_int_equal(0, set.count); /* cleanup */ ly_set_erase(&set, NULL); } int main(void) { const struct CMUnitTest tests[] = { UTEST(test_basics), UTEST(test_duplication), UTEST(test_add), UTEST(test_merge), UTEST(test_rm), UTEST(test_inval), }; return cmocka_run_group_tests(tests, NULL, NULL); }