/* * Author: Patrick-Christopher Mattulat * Company: Lynar Studios * E-Mail: webmaster@lynarstudios.com * Created: 2020-08-14 * Changed: 2022-05-16 * * */ #include #include #include namespace { class DateTest : public ::testing::Test { protected: DateTest() = default; ~DateTest() override = default; void SetUp() override {} void TearDown() override {} }; // arithmetic operators TEST_F(DateTest, operator_add) { ls::std::time::Date date{}; time_t timestamp = date.getTime(); date = date + 1; ASSERT_EQ(timestamp + 86400, date.getTime()); } TEST_F(DateTest, operator_add_with_negative_value) { ls::std::time::Date date{}; time_t timestamp = date.getTime(); date = date + (-1); ASSERT_EQ(timestamp - 86400, date.getTime()); } TEST_F(DateTest, operator_subtraction) { ls::std::time::Date date{}; time_t timestamp = date.getTime(); date = date - 1; ASSERT_EQ(timestamp - 86400, date.getTime()); } TEST_F(DateTest, operator_subtraction_with_negative_value) { ls::std::time::Date date{}; time_t timestamp = date.getTime(); date = date - (-1); ASSERT_EQ(timestamp + 86400, date.getTime()); } TEST_F(DateTest, operator_plus_equals) { ls::std::time::Date date{}; time_t timestamp = date.getTime(); date += 2; time_t expectedTimestamp = timestamp + 86400 * 2; ASSERT_EQ(expectedTimestamp, date.getTime()); } TEST_F(DateTest, operator_plus_equals_with_negative_value) { ls::std::time::Date date{}; time_t timestamp = date.getTime(); date += -2; time_t expectedTimestamp = timestamp - 86400 * 2; ASSERT_EQ(expectedTimestamp, date.getTime()); } TEST_F(DateTest, operator_minus_equals) { ls::std::time::Date date{}; time_t timestamp = date.getTime(); date -= 2; time_t expectedTimestamp = timestamp - 86400 * 2; ASSERT_EQ(expectedTimestamp, date.getTime()); } TEST_F(DateTest, operator_minus_equals_with_negative_value) { ls::std::time::Date date{}; time_t timestamp = date.getTime(); date -= -2; time_t expectedTimestamp = timestamp + 86400 * 2; ASSERT_EQ(expectedTimestamp, date.getTime()); } // additional functionality TEST_F(DateTest, after) { ls::std::time::Date date{}; // today ls::std::time::Date referenceDate{}; referenceDate = referenceDate - 1; // yesterday ASSERT_TRUE(date.after(referenceDate)); } TEST_F(DateTest, after_is_before_refernce_date) { ls::std::time::Date date{}; // is today ls::std::time::Date referenceDate{}; referenceDate = referenceDate + 1; // is tomorrow ASSERT_FALSE(date.after(referenceDate)); } TEST_F(DateTest, before) { ls::std::time::Date date{}; date = date - 1; // yesterday ls::std::time::Date referenceDate{}; // today ASSERT_TRUE(date.before(referenceDate)); } TEST_F(DateTest, before_is_after_reference_date) { ls::std::time::Date date{}; // today ls::std::time::Date referenceDate{}; referenceDate = referenceDate - 1; // yesterday ASSERT_FALSE(date.before(referenceDate)); } TEST_F(DateTest, getDay) { ls::std::time::Date date{}; date.setTime(1597433693); ASSERT_EQ(14, date.getDay()); } TEST_F(DateTest, getHour) { ls::std::time::Date date{}; date.setTime(1597433693); ASSERT_EQ(21, date.getHour()); } TEST_F(DateTest, getMinute) { ls::std::time::Date date{}; date.setTime(1597433693); ASSERT_EQ(34, date.getMinute()); } TEST_F(DateTest, getMonth) { ls::std::time::Date date{}; date.setTime(1597433693); ASSERT_EQ(8, date.getMonth()); } TEST_F(DateTest, getSecond) { ls::std::time::Date date{}; date.setTime(1597433693); ASSERT_EQ(53, date.getSecond()); } TEST_F(DateTest, getTime) { ls::std::time::Date date{}; ASSERT_TRUE(date.getTime() > 0); } TEST_F(DateTest, getYear) { ls::std::time::Date date{}; date.setTime(1597433693); ASSERT_EQ(2020, date.getYear()); } TEST_F(DateTest, setTime) { ls::std::time::Date date{}; ASSERT_TRUE(date.getTime() > 1000000); date.setTime(1000); ASSERT_EQ(1000, date.getTime()); } TEST_F(DateTest, toString) { ls::std::time::Date date{}; std::string regexSearchString = R"((\d{4}-\d{2}-\d{2} \d{2}:\d{2}:\d{2}))"; std::regex _regex{regexSearchString}; std::string dateString = date.toString(); ASSERT_TRUE(std::regex_match(dateString, _regex)); } }