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424 lines
14 KiB
C++
424 lines
14 KiB
C++
#include <SFML/Graphics/Texture.hpp>
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// Other 1st party headers
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#include <SFML/Graphics/Image.hpp>
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#include <SFML/System/Exception.hpp>
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#include <SFML/System/FileInputStream.hpp>
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#include <catch2/catch_test_macros.hpp>
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#include <GraphicsUtil.hpp>
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#include <WindowUtil.hpp>
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#include <array>
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#include <type_traits>
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TEST_CASE("[Graphics] sf::Texture", runDisplayTests())
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{
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SECTION("Type traits")
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{
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STATIC_CHECK(std::is_copy_constructible_v<sf::Texture>);
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STATIC_CHECK(std::is_copy_assignable_v<sf::Texture>);
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STATIC_CHECK(std::is_nothrow_move_constructible_v<sf::Texture>);
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STATIC_CHECK(std::is_nothrow_move_assignable_v<sf::Texture>);
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STATIC_CHECK(std::is_nothrow_swappable_v<sf::Texture>);
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}
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SECTION("Construction")
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{
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SECTION("Default constructor")
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{
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const sf::Texture texture;
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CHECK(texture.getSize() == sf::Vector2u());
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CHECK(!texture.isSmooth());
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CHECK(!texture.isSrgb());
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CHECK(!texture.isRepeated());
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CHECK(texture.getNativeHandle() == 0);
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}
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SECTION("Vector")
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{
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SECTION("At least one zero dimension")
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{
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CHECK_THROWS_AS(sf::Texture(sf::Vector2u()), sf::Exception);
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CHECK_THROWS_AS(sf::Texture(sf::Vector2u(0, 1)), sf::Exception);
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CHECK_THROWS_AS(sf::Texture(sf::Vector2u(1, 0)), sf::Exception);
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}
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SECTION("Valid size")
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{
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const sf::Texture texture(sf::Vector2u(100, 100));
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CHECK(texture.getSize() == sf::Vector2u(100, 100));
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CHECK(texture.getNativeHandle() != 0);
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}
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SECTION("Too large")
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{
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CHECK_THROWS_AS(sf::Texture(sf::Vector2u(100'000, 100'000)), sf::Exception);
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CHECK_THROWS_AS(sf::Texture(sf::Vector2u(1'000'000, 1'000'000)), sf::Exception);
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}
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}
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SECTION("File")
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{
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const sf::Texture texture("Graphics/sfml-logo-big.png");
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CHECK(texture.getSize() == sf::Vector2u(1001, 304));
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CHECK(!texture.isSmooth());
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CHECK(!texture.isSrgb());
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CHECK(!texture.isRepeated());
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CHECK(texture.getNativeHandle() != 0);
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}
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SECTION("Memory")
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{
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const auto memory = loadIntoMemory("Graphics/sfml-logo-big.png");
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const sf::Texture texture(memory.data(), memory.size());
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CHECK(texture.getSize() == sf::Vector2u(1001, 304));
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CHECK(!texture.isSmooth());
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CHECK(!texture.isSrgb());
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CHECK(!texture.isRepeated());
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CHECK(texture.getNativeHandle() != 0);
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}
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SECTION("Stream")
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{
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sf::FileInputStream stream("Graphics/sfml-logo-big.png");
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const sf::Texture texture(stream);
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CHECK(texture.getSize() == sf::Vector2u(1001, 304));
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CHECK(!texture.isSmooth());
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CHECK(!texture.isSrgb());
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CHECK(!texture.isRepeated());
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CHECK(texture.getNativeHandle() != 0);
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}
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SECTION("Image")
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{
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SECTION("Subarea of image")
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{
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const sf::Image image(sf::Vector2u(10, 15));
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SECTION("Non-truncated area")
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{
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const sf::Texture texture(image, false, {{0, 0}, {5, 10}});
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CHECK(texture.getSize() == sf::Vector2u(5, 10));
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CHECK(texture.getNativeHandle() != 0);
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}
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SECTION("Truncated area (negative position)")
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{
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const sf::Texture texture(image, false, {{-5, -5}, {4, 8}});
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CHECK(texture.getSize() == sf::Vector2u(4, 8));
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CHECK(texture.getNativeHandle() != 0);
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}
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SECTION("Truncated area (width/height too big)")
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{
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const sf::Texture texture(image, false, {{5, 5}, {12, 18}});
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CHECK(texture.getSize() == sf::Vector2u(5, 10));
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CHECK(texture.getNativeHandle() != 0);
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}
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}
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}
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}
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SECTION("Move semantics")
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{
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SECTION("Construction")
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{
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sf::Texture movedTexture;
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const sf::Texture texture = std::move(movedTexture);
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CHECK(texture.getSize() == sf::Vector2u());
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CHECK(!texture.isSmooth());
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CHECK(!texture.isSrgb());
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CHECK(!texture.isRepeated());
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CHECK(texture.getNativeHandle() == 0);
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}
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SECTION("Assignment")
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{
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sf::Texture movedTexture;
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sf::Texture texture;
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texture = std::move(movedTexture);
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CHECK(texture.getSize() == sf::Vector2u());
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CHECK(!texture.isSmooth());
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CHECK(!texture.isSrgb());
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CHECK(!texture.isRepeated());
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CHECK(texture.getNativeHandle() == 0);
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}
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}
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SECTION("Move semantics")
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{
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SECTION("Construction")
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{
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sf::Texture movedTexture(sf::Vector2u(64, 64));
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const sf::Texture texture = std::move(movedTexture);
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CHECK(texture.getSize() == sf::Vector2u(64, 64));
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CHECK(!texture.isSmooth());
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CHECK(!texture.isSrgb());
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CHECK(!texture.isRepeated());
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CHECK(texture.getNativeHandle() != 0);
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}
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SECTION("Assignment")
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{
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sf::Texture movedTexture(sf::Vector2u(64, 64));
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sf::Texture texture(sf::Vector2u(128, 128));
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texture = std::move(movedTexture);
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CHECK(texture.getSize() == sf::Vector2u(64, 64));
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CHECK(!texture.isSmooth());
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CHECK(!texture.isSrgb());
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CHECK(!texture.isRepeated());
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CHECK(texture.getNativeHandle() != 0);
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}
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}
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SECTION("resize()")
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{
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sf::Texture texture;
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SECTION("At least one zero dimension")
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{
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CHECK(!texture.resize({}));
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CHECK(!texture.resize({0, 1}));
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CHECK(!texture.resize({1, 0}));
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}
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SECTION("Valid size")
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{
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CHECK(texture.resize({100, 100}));
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CHECK(texture.getSize() == sf::Vector2u(100, 100));
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CHECK(texture.getNativeHandle() != 0);
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}
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SECTION("Too large")
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{
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CHECK(!texture.resize({100'000, 100'000}));
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CHECK(!texture.resize({1'000'000, 1'000'000}));
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}
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}
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SECTION("loadFromFile()")
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{
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sf::Texture texture;
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REQUIRE(texture.loadFromFile("Graphics/sfml-logo-big.png"));
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CHECK(texture.getSize() == sf::Vector2u(1001, 304));
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CHECK(!texture.isSmooth());
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CHECK(!texture.isSrgb());
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CHECK(!texture.isRepeated());
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CHECK(texture.getNativeHandle() != 0);
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}
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SECTION("loadFromMemory()")
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{
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const auto memory = loadIntoMemory("Graphics/sfml-logo-big.png");
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sf::Texture texture;
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REQUIRE(texture.loadFromMemory(memory.data(), memory.size()));
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CHECK(texture.getSize() == sf::Vector2u(1001, 304));
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CHECK(!texture.isSmooth());
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CHECK(!texture.isSrgb());
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CHECK(!texture.isRepeated());
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CHECK(texture.getNativeHandle() != 0);
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}
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SECTION("loadFromStream()")
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{
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sf::Texture texture;
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sf::FileInputStream stream;
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REQUIRE(stream.open("Graphics/sfml-logo-big.png"));
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REQUIRE(texture.loadFromStream(stream));
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CHECK(texture.getSize() == sf::Vector2u(1001, 304));
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CHECK(!texture.isSmooth());
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CHECK(!texture.isSrgb());
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CHECK(!texture.isRepeated());
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CHECK(texture.getNativeHandle() != 0);
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}
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SECTION("loadFromImage()")
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{
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SECTION("Empty image")
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{
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const sf::Image image;
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sf::Texture texture;
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REQUIRE(!texture.loadFromImage(image));
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REQUIRE(!texture.loadFromImage(image, false, {{0, 0}, {1, 1}}));
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}
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SECTION("Subarea of image")
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{
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sf::Image image;
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image.resize(sf::Vector2u(10, 15));
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sf::Texture texture;
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SECTION("Non-truncated area")
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{
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REQUIRE(texture.loadFromImage(image, false, {{0, 0}, {5, 10}}));
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CHECK(texture.getSize() == sf::Vector2u(5, 10));
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}
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SECTION("Truncated area (negative position)")
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{
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REQUIRE(texture.loadFromImage(image, false, {{-5, -5}, {4, 8}}));
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CHECK(texture.getSize() == sf::Vector2u(4, 8));
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}
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SECTION("Truncated area (width/height too big)")
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{
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REQUIRE(texture.loadFromImage(image, false, {{5, 5}, {12, 18}}));
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CHECK(texture.getSize() == sf::Vector2u(5, 10));
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}
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CHECK(texture.getNativeHandle() != 0);
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}
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}
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SECTION("Copy semantics")
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{
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static constexpr std::array<std::uint8_t, 8> red = {0xFF, 0x00, 0x00, 0xFF, 0xFF, 0x00, 0x00, 0xFF};
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sf::Texture texture(sf::Vector2u(1, 2));
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texture.update(red.data());
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SECTION("Construction")
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{
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const sf::Texture textureCopy(texture); // NOLINT(performance-unnecessary-copy-initialization)
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REQUIRE(textureCopy.getSize() == sf::Vector2u(1, 2));
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CHECK(textureCopy.copyToImage().getPixel(sf::Vector2u(0, 1)) == sf::Color::Red);
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}
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SECTION("Assignment")
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{
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sf::Texture textureCopy(sf::Vector2u(64, 64));
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textureCopy = texture;
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REQUIRE(textureCopy.getSize() == sf::Vector2u(1, 2));
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CHECK(textureCopy.copyToImage().getPixel(sf::Vector2u(0, 1)) == sf::Color::Red);
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}
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}
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SECTION("update()")
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{
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static constexpr std::array<std::uint8_t, 4> yellow = {0xFF, 0xFF, 0x00, 0xFF};
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static constexpr std::array<std::uint8_t, 4> cyan = {0x00, 0xFF, 0xFF, 0xFF};
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SECTION("Pixels")
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{
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sf::Texture texture(sf::Vector2u(1, 1));
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texture.update(yellow.data());
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CHECK(texture.copyToImage().getPixel(sf::Vector2u(0, 0)) == sf::Color::Yellow);
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}
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SECTION("Pixels, size and destination")
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{
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sf::Texture texture(sf::Vector2u(2, 1));
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texture.update(yellow.data(), sf::Vector2u(1, 1), sf::Vector2u(0, 0));
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texture.update(cyan.data(), sf::Vector2u(1, 1), sf::Vector2u(1, 0));
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CHECK(texture.copyToImage().getPixel(sf::Vector2u(0, 0)) == sf::Color::Yellow);
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CHECK(texture.copyToImage().getPixel(sf::Vector2u(1, 0)) == sf::Color::Cyan);
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}
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SECTION("Another texture")
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{
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sf::Texture otherTexture(sf::Vector2u(1, 1));
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otherTexture.update(cyan.data());
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sf::Texture texture(sf::Vector2u(1, 1));
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texture.update(otherTexture);
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CHECK(texture.copyToImage().getPixel(sf::Vector2u(0, 0)) == sf::Color::Cyan);
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}
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SECTION("Another texture and destination")
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{
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sf::Texture texture(sf::Vector2u(2, 1));
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sf::Texture otherTexture1(sf::Vector2u(1, 1));
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otherTexture1.update(cyan.data());
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sf::Texture otherTexture2(sf::Vector2u(1, 1));
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otherTexture2.update(yellow.data());
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texture.update(otherTexture1, sf::Vector2u(0, 0));
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texture.update(otherTexture2, sf::Vector2u(1, 0));
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CHECK(texture.copyToImage().getPixel(sf::Vector2u(0, 0)) == sf::Color::Cyan);
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CHECK(texture.copyToImage().getPixel(sf::Vector2u(1, 0)) == sf::Color::Yellow);
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}
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SECTION("Image")
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{
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sf::Texture texture(sf::Vector2u(16, 32));
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const sf::Image image(sf::Vector2u(16, 32), sf::Color::Red);
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texture.update(image);
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CHECK(texture.copyToImage().getPixel(sf::Vector2u(7, 15)) == sf::Color::Red);
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}
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SECTION("Image and destination")
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{
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sf::Texture texture(sf::Vector2u(16, 32));
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const sf::Image image1(sf::Vector2u(16, 16), sf::Color::Red);
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texture.update(image1);
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const sf::Image image2(sf::Vector2u(16, 16), sf::Color::Green);
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texture.update(image1, sf::Vector2u(0, 0));
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texture.update(image2, sf::Vector2u(0, 16));
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CHECK(texture.copyToImage().getPixel(sf::Vector2u(7, 7)) == sf::Color::Red);
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CHECK(texture.copyToImage().getPixel(sf::Vector2u(7, 22)) == sf::Color::Green);
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}
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}
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SECTION("Set/get smooth")
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{
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sf::Texture texture(sf::Vector2u(64, 64));
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CHECK(!texture.isSmooth());
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texture.setSmooth(true);
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CHECK(texture.isSmooth());
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texture.setSmooth(false);
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CHECK(!texture.isSmooth());
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}
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SECTION("Set/get repeated")
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{
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sf::Texture texture(sf::Vector2u(64, 64));
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CHECK(!texture.isRepeated());
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texture.setRepeated(true);
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CHECK(texture.isRepeated());
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texture.setRepeated(false);
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CHECK(!texture.isRepeated());
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}
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SECTION("generateMipmap()")
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{
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sf::Texture texture(sf::Vector2u(100, 100));
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CHECK(texture.generateMipmap());
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}
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SECTION("swap()")
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{
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static constexpr std::array<std::uint8_t, 4> blue = {0x00, 0x00, 0xFF, 0xFF};
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static constexpr std::array<std::uint8_t, 8> green = {0x00, 0xFF, 0x00, 0xFF, 0x00, 0xFF, 0x00, 0xFF};
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sf::Texture texture1(sf::Vector2u(1, 1), true);
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texture1.update(blue.data());
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texture1.setSmooth(false);
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texture1.setRepeated(true);
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sf::Texture texture2(sf::Vector2u(2, 1), false);
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texture2.update(green.data());
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texture2.setSmooth(true);
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texture2.setRepeated(false);
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sf::swap(texture1, texture2);
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CHECK_FALSE(texture1.isSrgb());
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CHECK(texture1.isSmooth());
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CHECK_FALSE(texture1.isRepeated());
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// Cannot check texture2.isSrgb() because Srgb is sometimes disabled when using OpenGL ES
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CHECK_FALSE(texture2.isSmooth());
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CHECK(texture2.isRepeated());
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const sf::Image image1 = texture1.copyToImage();
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const sf::Image image2 = texture2.copyToImage();
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REQUIRE(image1.getSize() == sf::Vector2u(2, 1));
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REQUIRE(image2.getSize() == sf::Vector2u(1, 1));
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CHECK(image1.getPixel(sf::Vector2u(1, 0)) == sf::Color::Green);
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CHECK(image2.getPixel(sf::Vector2u(0, 0)) == sf::Color::Blue);
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}
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SECTION("Get Maximum Size")
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{
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CHECK(sf::Texture::getMaximumSize() > 0);
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}
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}
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