#include #include // Other 1st party headers #include #include #include #include #include #include TEST_CASE("[Graphics] sf::Font", runDisplayTests()) { SECTION("Type traits") { STATIC_CHECK(!std::is_default_constructible_v); STATIC_CHECK(std::is_copy_constructible_v); STATIC_CHECK(std::is_copy_assignable_v); STATIC_CHECK(std::is_move_constructible_v); STATIC_CHECK(std::is_move_assignable_v); } SECTION("loadFromFile()") { SECTION("Invalid filename") { CHECK(!sf::Font::loadFromFile("does/not/exist.ttf")); } SECTION("Successful load") { const auto font = sf::Font::loadFromFile("Graphics/tuffy.ttf").value(); CHECK(font.getInfo().family == "Tuffy"); const auto& glyph = font.getGlyph(0x45, 16, false); CHECK(glyph.advance == 9); CHECK(glyph.lsbDelta == 9); CHECK(glyph.rsbDelta == 16); CHECK(glyph.bounds == sf::FloatRect({0, -12}, {8, 12})); CHECK(glyph.textureRect == sf::IntRect({2, 5}, {8, 12})); CHECK(font.hasGlyph(0x41)); CHECK(font.hasGlyph(0xC0)); CHECK(font.getKerning(0x41, 0x42, 12) == -1); CHECK(font.getKerning(0x43, 0x44, 24, true) == 0); CHECK(font.getLineSpacing(24) == 30); CHECK(font.getUnderlinePosition(36) == Approx(2.20312f)); CHECK(font.getUnderlineThickness(48) == Approx(1.17188f)); const auto& texture = font.getTexture(10); CHECK(texture.getSize() == sf::Vector2u(128, 128)); CHECK(texture.isSmooth()); CHECK(!texture.isSrgb()); CHECK(!texture.isRepeated()); CHECK(texture.getNativeHandle() != 0); CHECK(font.isSmooth()); } } SECTION("loadFromMemory()") { SECTION("Invalid data and size") { CHECK(!sf::Font::loadFromMemory(nullptr, 1)); const std::byte testByte{0xCD}; CHECK(!sf::Font::loadFromMemory(&testByte, 0)); } SECTION("Successful load") { const auto memory = loadIntoMemory("Graphics/tuffy.ttf"); const auto font = sf::Font::loadFromMemory(memory.data(), memory.size()).value(); CHECK(font.getInfo().family == "Tuffy"); const auto& glyph = font.getGlyph(0x45, 16, false); CHECK(glyph.advance == 9); CHECK(glyph.lsbDelta == 9); CHECK(glyph.rsbDelta == 16); CHECK(glyph.bounds == sf::FloatRect({0, -12}, {8, 12})); CHECK(glyph.textureRect == sf::IntRect({2, 5}, {8, 12})); CHECK(font.hasGlyph(0x41)); CHECK(font.hasGlyph(0xC0)); CHECK(font.getKerning(0x41, 0x42, 12) == -1); CHECK(font.getKerning(0x43, 0x44, 24, true) == 0); CHECK(font.getLineSpacing(24) == 30); CHECK(font.getUnderlinePosition(36) == Approx(2.20312f)); CHECK(font.getUnderlineThickness(48) == Approx(1.17188f)); const auto& texture = font.getTexture(10); CHECK(texture.getSize() == sf::Vector2u(128, 128)); CHECK(texture.isSmooth()); CHECK(!texture.isSrgb()); CHECK(!texture.isRepeated()); CHECK(texture.getNativeHandle() != 0); CHECK(font.isSmooth()); } } SECTION("loadFromStream()") { sf::FileInputStream stream; SECTION("Invalid stream") { CHECK(!sf::Font::loadFromStream(stream)); } SECTION("Successful load") { REQUIRE(stream.open("Graphics/tuffy.ttf")); const auto font = sf::Font::loadFromStream(stream).value(); CHECK(font.getInfo().family == "Tuffy"); const auto& glyph = font.getGlyph(0x45, 16, false); CHECK(glyph.advance == 9); CHECK(glyph.lsbDelta == 9); CHECK(glyph.rsbDelta == 16); CHECK(glyph.bounds == sf::FloatRect({0, -12}, {8, 12})); CHECK(glyph.textureRect == sf::IntRect({2, 5}, {8, 12})); CHECK(font.hasGlyph(0x41)); CHECK(font.hasGlyph(0xC0)); CHECK(font.getKerning(0x41, 0x42, 12) == -1); CHECK(font.getKerning(0x43, 0x44, 24, true) == 0); CHECK(font.getLineSpacing(24) == 30); CHECK(font.getUnderlinePosition(36) == Approx(2.20312f)); CHECK(font.getUnderlineThickness(48) == Approx(1.17188f)); const auto& texture = font.getTexture(10); CHECK(texture.getSize() == sf::Vector2u(128, 128)); CHECK(texture.isSmooth()); CHECK(!texture.isSrgb()); CHECK(!texture.isRepeated()); CHECK(texture.getNativeHandle() != 0); CHECK(font.isSmooth()); } } SECTION("Set/get smooth") { auto font = sf::Font::loadFromFile("Graphics/tuffy.ttf").value(); font.setSmooth(false); CHECK(!font.isSmooth()); } }