/* SPDX-FileCopyrightText: 2023 Xaver Hugl SPDX-License-Identifier: LGPL-2.0-or-later */ #include #include "core/colorpipeline.h" #include "core/colorspace.h" using namespace KWin; class TestColorspaces : public QObject { Q_OBJECT public: TestColorspaces() = default; private Q_SLOTS: void roundtripConversion_data(); void roundtripConversion(); void nonNormalizedPrimaries(); void testIdentityTransformation_data(); void testIdentityTransformation(); void testColorPipeline_data(); void testColorPipeline(); }; static bool compareVectors(const QVector3D &one, const QVector3D &two, float maxDifference) { const bool ret = std::abs(one.x() - two.x()) <= maxDifference && std::abs(one.y() - two.y()) <= maxDifference && std::abs(one.z() - two.z()) <= maxDifference; if (!ret) { qWarning() << one << "!=" << two << "within" << maxDifference; } return ret; } static const double s_resolution10bit = std::pow(1.0 / 2.0, 10); void TestColorspaces::roundtripConversion_data() { QTest::addColumn("srcColorimetry"); QTest::addColumn("srcTransferFunction"); QTest::addColumn("dstColorimetry"); QTest::addColumn("dstTransferFunction"); QTest::addColumn("requiredAccuracy"); QTest::addRow("BT709 (sRGB) <-> BT2020 (linear)") << NamedColorimetry::BT709 << TransferFunction::sRGB << NamedColorimetry::BT2020 << TransferFunction::linear << s_resolution10bit; QTest::addRow("BT709 (gamma 2.2) <-> BT2020 (linear)") << NamedColorimetry::BT709 << TransferFunction::gamma22 << NamedColorimetry::BT2020 << TransferFunction::linear << s_resolution10bit; QTest::addRow("BT709 (linear) <-> BT2020 (linear)") << NamedColorimetry::BT709 << TransferFunction::linear << NamedColorimetry::BT2020 << TransferFunction::linear << s_resolution10bit; QTest::addRow("BT709 (PQ) <-> BT2020 (linear)") << NamedColorimetry::BT709 << TransferFunction::PerceptualQuantizer << NamedColorimetry::BT2020 << TransferFunction::linear << 3 * s_resolution10bit; } void TestColorspaces::roundtripConversion() { QFETCH(NamedColorimetry, srcColorimetry); QFETCH(TransferFunction::Type, srcTransferFunction); QFETCH(NamedColorimetry, dstColorimetry); QFETCH(TransferFunction::Type, dstTransferFunction); QFETCH(double, requiredAccuracy); const auto src = ColorDescription(srcColorimetry, TransferFunction(srcTransferFunction), 100, 0, 100, 100); const auto dst = ColorDescription(dstColorimetry, TransferFunction(dstTransferFunction), 100, 0, 100, 100); const QVector3D red(1, 0, 0); const QVector3D green(0, 1, 0); const QVector3D blue(0, 0, 1); const QVector3D white(1, 1, 1); constexpr std::array renderingIntents = { RenderingIntent::RelativeColorimetric, RenderingIntent::AbsoluteColorimetric, }; for (const RenderingIntent intent : renderingIntents) { QVERIFY(compareVectors(dst.mapTo(src.mapTo(red, dst, intent), src, intent), red, requiredAccuracy)); QVERIFY(compareVectors(dst.mapTo(src.mapTo(green, dst, intent), src, intent), green, requiredAccuracy)); QVERIFY(compareVectors(dst.mapTo(src.mapTo(blue, dst, intent), src, intent), blue, requiredAccuracy)); QVERIFY(compareVectors(dst.mapTo(src.mapTo(white, dst, intent), src, intent), white, requiredAccuracy)); } } void TestColorspaces::nonNormalizedPrimaries() { // this test ensures that non-normalized primaries don't mess up the transformations between color spaces const auto &from = ColorDescription::sRGB; const ColorDescription to(Colorimetry(Colorimetry::xyToXYZ(from.containerColorimetry().red()) * 2, Colorimetry::xyToXYZ(from.containerColorimetry().green()) * 2, Colorimetry::xyToXYZ(from.containerColorimetry().blue()) * 2, Colorimetry::xyToXYZ(from.containerColorimetry().white()) * 2), from.transferFunction(), from.referenceLuminance(), from.minLuminance(), from.maxAverageLuminance(), from.maxHdrLuminance()); const auto convertedWhite = from.toOther(to, RenderingIntent::RelativeColorimetric) * QVector3D(1, 1, 1); QCOMPARE_LE(std::abs(1 - convertedWhite.x()), s_resolution10bit); QCOMPARE_LE(std::abs(1 - convertedWhite.y()), s_resolution10bit); QCOMPARE_LE(std::abs(1 - convertedWhite.z()), s_resolution10bit); } void TestColorspaces::testIdentityTransformation_data() { QTest::addColumn("colorimetry"); QTest::addColumn("transferFunction"); QTest::addRow("BT709 (sRGB)") << NamedColorimetry::BT709 << TransferFunction::sRGB; QTest::addRow("BT709 (gamma22)") << NamedColorimetry::BT709 << TransferFunction::gamma22; QTest::addRow("BT709 (PQ)") << NamedColorimetry::BT709 << TransferFunction::PerceptualQuantizer; QTest::addRow("BT709 (linear)") << NamedColorimetry::BT709 << TransferFunction::linear; QTest::addRow("BT2020 (sRGB)") << NamedColorimetry::BT2020 << TransferFunction::sRGB; QTest::addRow("BT2020 (gamma22)") << NamedColorimetry::BT2020 << TransferFunction::gamma22; QTest::addRow("BT2020 (PQ)") << NamedColorimetry::BT2020 << TransferFunction::PerceptualQuantizer; QTest::addRow("BT2020 (linear)") << NamedColorimetry::BT2020 << TransferFunction::linear; } void TestColorspaces::testIdentityTransformation() { QFETCH(NamedColorimetry, colorimetry); QFETCH(TransferFunction::Type, transferFunction); const ColorDescription color(colorimetry, TransferFunction(transferFunction), 100, 0, 100, 100); constexpr std::array renderingIntents = { RenderingIntent::Perceptual, RenderingIntent::RelativeColorimetric, RenderingIntent::AbsoluteColorimetric, }; for (const RenderingIntent intent : renderingIntents) { const auto pipeline = ColorPipeline::create(color, color, intent); if (!pipeline.isIdentity()) { qWarning() << pipeline; } QVERIFY(pipeline.isIdentity()); } } void TestColorspaces::testColorPipeline_data() { QTest::addColumn("srcColor"); QTest::addColumn("dstColor"); QTest::addColumn("dstBlack"); QTest::addColumn("dstGray"); QTest::addColumn("dstWhite"); QTest::addColumn("intent"); QTest::addRow("sRGB -> rec.2020 relative colorimetric") << ColorDescription(NamedColorimetry::BT709, TransferFunction(TransferFunction::gamma22), TransferFunction::defaultReferenceLuminanceFor(TransferFunction::gamma22), 0, std::nullopt, std::nullopt) << ColorDescription(NamedColorimetry::BT2020, TransferFunction(TransferFunction::PerceptualQuantizer), 500, 0, std::nullopt, std::nullopt) << QVector3D(0.044, 0.044, 0.044) << QVector3D(0.517, 0.517, 0.517) << QVector3D(0.677, 0.677, 0.677) << RenderingIntent::RelativeColorimetric; QTest::addRow("sRGB -> scRGB relative colorimetric") << ColorDescription(NamedColorimetry::BT709, TransferFunction(TransferFunction::gamma22), TransferFunction::defaultReferenceLuminanceFor(TransferFunction::gamma22), 0, std::nullopt, std::nullopt) << ColorDescription(NamedColorimetry::BT709, TransferFunction(TransferFunction::linear, 0, 80), 80, 0, std::nullopt, std::nullopt) << QVector3D(0.0001, 0.0001, 0.0001) << QVector3D(0.2177376408240310, 0.2177376408240310, 0.2177376408240310) << QVector3D(1, 1, 1) << RenderingIntent::RelativeColorimetric; } void TestColorspaces::testColorPipeline() { QFETCH(ColorDescription, srcColor); QFETCH(ColorDescription, dstColor); QFETCH(QVector3D, dstBlack); QFETCH(QVector3D, dstGray); QFETCH(QVector3D, dstWhite); QFETCH(RenderingIntent, intent); const auto pipeline = ColorPipeline::create(srcColor, dstColor, intent); QVERIFY(compareVectors(pipeline.evaluate(QVector3D(0, 0, 0)), dstBlack, s_resolution10bit)); QVERIFY(compareVectors(pipeline.evaluate(QVector3D(0.5, 0.5, 0.5)), dstGray, s_resolution10bit)); QVERIFY(compareVectors(pipeline.evaluate(QVector3D(1, 1, 1)), dstWhite, s_resolution10bit)); const auto inversePipeline = ColorPipeline::create(dstColor, srcColor, intent); QVERIFY(compareVectors(inversePipeline.evaluate(dstBlack), QVector3D(0, 0, 0), s_resolution10bit)); QVERIFY(compareVectors(inversePipeline.evaluate(dstGray), QVector3D(0.5, 0.5, 0.5), s_resolution10bit)); QVERIFY(compareVectors(inversePipeline.evaluate(dstWhite), QVector3D(1, 1, 1), s_resolution10bit)); } QTEST_MAIN(TestColorspaces) #include "test_colorspaces.moc"