#include // Other 1st party headers #include #include #include #include #include #include TEST_CASE("[Audio] sf::Music", runAudioDeviceTests()) { SECTION("Type traits") { STATIC_CHECK(!std::is_copy_constructible_v); STATIC_CHECK(!std::is_copy_assignable_v); STATIC_CHECK(std::is_nothrow_move_constructible_v); STATIC_CHECK(std::is_nothrow_move_assignable_v); STATIC_CHECK(std::has_virtual_destructor_v); } SECTION("Span") { const sf::Music::Span span; CHECK(span.offset == 0); CHECK(span.length == 0); const sf::Music::TimeSpan timeSpan; CHECK(timeSpan.offset == sf::Time::Zero); CHECK(timeSpan.length == sf::Time::Zero); } SECTION("openFromFile()") { SECTION("Invalid file") { CHECK(!sf::Music::openFromFile("does/not/exist.wav")); } SECTION("Valid file") { const auto music = sf::Music::openFromFile("Audio/ding.mp3").value(); CHECK(music.getDuration() == sf::microseconds(1990884)); const auto [offset, length] = music.getLoopPoints(); CHECK(offset == sf::Time::Zero); CHECK(length == sf::microseconds(1990884)); CHECK(music.getChannelCount() == 1); CHECK(music.getSampleRate() == 44100); CHECK(music.getStatus() == sf::Music::Status::Stopped); CHECK(music.getPlayingOffset() == sf::Time::Zero); CHECK(!music.getLoop()); } } SECTION("openFromMemory()") { std::vector memory; SECTION("Invalid buffer") { CHECK(!sf::Music::openFromMemory(memory.data(), memory.size())); } SECTION("Valid buffer") { memory = loadIntoMemory("Audio/ding.flac"); const auto music = sf::Music::openFromMemory(memory.data(), memory.size()).value(); CHECK(music.getDuration() == sf::microseconds(1990884)); const auto [offset, length] = music.getLoopPoints(); CHECK(offset == sf::Time::Zero); CHECK(length == sf::microseconds(1990884)); CHECK(music.getChannelCount() == 1); CHECK(music.getSampleRate() == 44100); CHECK(music.getStatus() == sf::Music::Status::Stopped); CHECK(music.getPlayingOffset() == sf::Time::Zero); CHECK(!music.getLoop()); } } SECTION("openFromStream()") { sf::FileInputStream stream; SECTION("Invalid stream") { CHECK(!sf::Music::openFromStream(stream)); } SECTION("Valid stream") { REQUIRE(stream.open("Audio/doodle_pop.ogg")); const auto music = sf::Music::openFromStream(stream).value(); CHECK(music.getDuration() == sf::microseconds(24002176)); const auto [offset, length] = music.getLoopPoints(); CHECK(offset == sf::Time::Zero); CHECK(length == sf::microseconds(24002176)); CHECK(music.getChannelCount() == 2); CHECK(music.getSampleRate() == 44100); CHECK(music.getStatus() == sf::Music::Status::Stopped); CHECK(music.getPlayingOffset() == sf::Time::Zero); CHECK(!music.getLoop()); } } SECTION("play/pause/stop") { auto music = sf::Music::openFromFile("Audio/ding.mp3").value(); // Wait for background thread to start music.play(); while (music.getStatus() == sf::Music::Status::Stopped) std::this_thread::sleep_for(std::chrono::milliseconds(10)); CHECK(music.getStatus() == sf::Music::Status::Playing); // Wait for background thread to pause music.pause(); while (music.getStatus() == sf::Music::Status::Playing) std::this_thread::sleep_for(std::chrono::milliseconds(10)); CHECK(music.getStatus() == sf::Music::Status::Paused); // Wait for background thread to stop music.stop(); while (music.getStatus() == sf::Music::Status::Paused) std::this_thread::sleep_for(std::chrono::milliseconds(10)); CHECK(music.getStatus() == sf::Music::Status::Stopped); } SECTION("setLoopPoints()") { auto music = sf::Music::openFromFile("Audio/killdeer.wav").value(); music.setLoopPoints({sf::seconds(1), sf::seconds(2)}); const auto [offset, length] = music.getLoopPoints(); CHECK(offset == sf::seconds(1)); CHECK(length == sf::seconds(2)); CHECK(music.getChannelCount() == 1); CHECK(music.getSampleRate() == 22050); CHECK(music.getStatus() == sf::Music::Status::Stopped); CHECK(music.getPlayingOffset() == sf::Time::Zero); CHECK(!music.getLoop()); } }