/* * Author: Patrick-Christopher Mattulat * Company: Lynar Studios * E-Mail: webmaster@lynarstudios.com * Created: 2020-08-09 * Changed: 2023-02-04 * * */ #include #include #include using namespace ls::std::boxing; using namespace ls::std::core; using namespace ::std; namespace { class BooleanTest : public ::testing::Test { protected: BooleanTest() = default; ~BooleanTest() override = default; void SetUp() override {} void TearDown() override {} }; // assignment operators TEST_F(BooleanTest, operator_assignment_boolean) { Boolean expression{}; expression = true; ASSERT_TRUE(expression); } TEST_F(BooleanTest, operator_assignment_integer) { Boolean expression{}; expression = 1; ASSERT_TRUE(expression); } // stream operators TEST_F(BooleanTest, operator_output_stream) { Boolean expression{true}; ostringstream _stream{}; _stream << expression; ASSERT_STREQ("true", _stream.str().c_str()); } // logical operators TEST_F(BooleanTest, operator_negation_negative_value) { Boolean expression{}; ASSERT_TRUE(!expression); } TEST_F(BooleanTest, operator_negation_positive_value) { Boolean expression{true}; ASSERT_FALSE(!expression); } TEST_F(BooleanTest, operator_and) { Boolean expressionA{true}; Boolean expressionB{3 == 3}; ASSERT_TRUE(expressionA && expressionB); ASSERT_TRUE(expressionB && expressionA); ASSERT_TRUE(expressionA && true); ASSERT_TRUE(expressionA && 1); ASSERT_TRUE(1 && expressionB); } TEST_F(BooleanTest, operator_and_with_false_result) { Boolean expressionA{true}; Boolean expressionB{3 == 4}; ASSERT_FALSE(expressionA && expressionB); ASSERT_FALSE(expressionB && expressionA); ASSERT_FALSE(expressionB && (3 == 4)); ASSERT_FALSE(expressionB && 0); ASSERT_FALSE(expressionB && false); } TEST_F(BooleanTest, operator_or) { Boolean expressionA{false}; Boolean expressionB{3 == 3}; ASSERT_TRUE(expressionA || expressionB); ASSERT_TRUE(expressionB || expressionA); ASSERT_TRUE(expressionA || 1); ASSERT_TRUE(expressionA || true); ASSERT_TRUE(1 || expressionA); } TEST_F(BooleanTest, operator_or_with_false_result) { Boolean expressionA{false}; Boolean expressionB{3 == 4}; ASSERT_FALSE(expressionA || expressionB); ASSERT_FALSE(expressionB || expressionA); ASSERT_FALSE(expressionA || 0); ASSERT_FALSE(expressionA || false); ASSERT_FALSE(0 || expressionA); } // implementation TEST_F(BooleanTest, parse_true_value) { Boolean expression{}; expression.parse("true"); ASSERT_TRUE(expression); expression.parse("tRue"); ASSERT_TRUE(expression); expression.parse("TRUE"); ASSERT_TRUE(expression); } TEST_F(BooleanTest, parse_false_value) { Boolean expression{}; expression.parse("false"); ASSERT_FALSE(expression); expression.parse("fAlSe"); ASSERT_FALSE(expression); expression.parse("FALSE"); ASSERT_FALSE(expression); } TEST_F(BooleanTest, parse_with_invalid_parameter) { EXPECT_THROW( { try { Boolean expression{}; expression.parse("hello"); } catch (const IllegalArgumentException &_exception) { throw; } }, IllegalArgumentException); } TEST_F(BooleanTest, toString_true) { Boolean expression{2 < 3}; ASSERT_STREQ("true", expression.toString().c_str()); } TEST_F(BooleanTest, toString_false) { Boolean expression{4 < 3}; ASSERT_STREQ("false", expression.toString().c_str()); } // additional functionality TEST_F(BooleanTest, getValue) { Boolean x{2 < 3}; ASSERT_TRUE(x.getValue()); } TEST_F(BooleanTest, XOR_with_positive_result) { Boolean x{2 < 3}; Boolean y{4 < 3}; ASSERT_TRUE(Boolean::XOR(x, y)); ASSERT_TRUE(Boolean::XOR(y, x)); ASSERT_TRUE(Boolean::XOR(y, true)); ASSERT_TRUE(Boolean::XOR(true, y)); ASSERT_TRUE(Boolean::XOR(true, false)); ASSERT_TRUE(Boolean::XOR(false, true)); } TEST_F(BooleanTest, XOR_with_negative_result) { Boolean w{}; Boolean x{true}; Boolean y{}; Boolean z{true}; ASSERT_FALSE(Boolean::XOR(x, z)); ASSERT_FALSE(Boolean::XOR(w, y)); ASSERT_FALSE(Boolean::XOR(true, true)); ASSERT_FALSE(Boolean::XOR(false, false)); ASSERT_FALSE(Boolean::XOR(w, false)); ASSERT_FALSE(Boolean::XOR(false, w)); } }