/* * Copyright 2013 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #define LOG_TAG "ColorSpaceTest" #include #include #include #include namespace android { class ColorSpaceTest : public testing::Test { protected: }; TEST_F(ColorSpaceTest, XYZ) { mat3 sRGBToXYZ(transpose(mat3{ 0.412391f, 0.357584f, 0.180481f, 0.212639f, 0.715169f, 0.072192f, 0.019331f, 0.119195f, 0.950532f })); mat3 XYZtoSRGB(inverse(sRGBToXYZ)); ColorSpace sRGB("sRGB", sRGBToXYZ); EXPECT_EQ(sRGBToXYZ, sRGB.getRGBtoXYZ()); EXPECT_EQ(XYZtoSRGB, sRGB.getXYZtoRGB()); } TEST_F(ColorSpaceTest, XYZPrimaries) { mat3 sRGBToXYZ(transpose(mat3{ 0.412391f, 0.357584f, 0.180481f, 0.212639f, 0.715169f, 0.072192f, 0.019331f, 0.119195f, 0.950532f })); ColorSpace sRGB("sRGB", sRGBToXYZ); EXPECT_NEAR(0.640f, sRGB.getPrimaries()[0].x, 1e-5f); EXPECT_NEAR(0.330f, sRGB.getPrimaries()[0].y, 1e-5f); EXPECT_NEAR(0.300f, sRGB.getPrimaries()[1].x, 1e-5f); EXPECT_NEAR(0.600f, sRGB.getPrimaries()[1].y, 1e-5f); EXPECT_NEAR(0.150f, sRGB.getPrimaries()[2].x, 1e-5f); EXPECT_NEAR(0.060f, sRGB.getPrimaries()[2].y, 1e-5f); } TEST_F(ColorSpaceTest, XYZWhitePoint) { mat3 sRGBToXYZ(transpose(mat3{ 0.412391f, 0.357584f, 0.180481f, 0.212639f, 0.715169f, 0.072192f, 0.019331f, 0.119195f, 0.950532f })); ColorSpace sRGB("sRGB", sRGBToXYZ); EXPECT_NEAR(0.3127f, sRGB.getWhitePoint().x, 1e-5f); EXPECT_NEAR(0.3290f, sRGB.getWhitePoint().y, 1e-5f); } TEST_F(ColorSpaceTest, XYZFromPrimaries) { mat3 sRGBToXYZ(transpose(mat3{ 0.412391f, 0.357584f, 0.180481f, 0.212639f, 0.715169f, 0.072192f, 0.019331f, 0.119195f, 0.950532f })); ColorSpace sRGB1("sRGB", sRGBToXYZ); ColorSpace sRGB2( "sRGB", {{float2{0.640f, 0.330f}, {0.300f, 0.600f}, {0.150f, 0.060f}}}, {0.3127f, 0.3290f} ); for (size_t i = 0; i < 3; i++) { for (size_t j= 0; j < 3; j++) { ASSERT_NEAR(sRGB1.getRGBtoXYZ()[i][j], sRGB2.getRGBtoXYZ()[i][j], 1e-5f); } } for (size_t i = 0; i < 3; i++) { for (size_t j= 0; j < 3; j++) { ASSERT_NEAR(sRGB2.getXYZtoRGB()[i][j], sRGB2.getXYZtoRGB()[i][j], 1e-5f); } } } TEST_F(ColorSpaceTest, TransferFunctions) { ColorSpace sRGB = ColorSpace::sRGB(); EXPECT_NEAR(0.0f, sRGB.getEOTF()(0.0f), 1e-6f); EXPECT_NEAR(0.0f, sRGB.getOETF()(0.0f), 1e-6f); EXPECT_NEAR(1.0f, sRGB.getEOTF()(1.0f), 1e-6f); EXPECT_NEAR(1.0f, sRGB.getOETF()(1.0f), 1e-6f); // NOLINTNEXTLINE(clang-analyzer-security.FloatLoopCounter,cert-flp30-c) for (float v = 0.0f; v <= 0.5f; v += 1e-3f) { ASSERT_TRUE(v >= sRGB.getEOTF()(v)); ASSERT_TRUE(v <= sRGB.getOETF()(v)); } float previousEOTF = std::numeric_limits::lowest(); float previousOETF = std::numeric_limits::lowest(); // NOLINTNEXTLINE(clang-analyzer-security.FloatLoopCounter,cert-flp30-c) for (float v = 0.0f; v <= 1.0f; v += 1e-3f) { ASSERT_TRUE(previousEOTF < sRGB.getEOTF()(v)); previousEOTF = sRGB.getEOTF()(v); ASSERT_TRUE(previousOETF < sRGB.getOETF()(v)); previousOETF = sRGB.getOETF()(v); } ColorSpace sRGB2( "sRGB", {{float2{0.640f, 0.330f}, {0.300f, 0.600f}, {0.150f, 0.060f}}}, {0.3127f, 0.3290f} // linear transfer functions ); // NOLINTNEXTLINE(clang-analyzer-security.FloatLoopCounter,cert-flp30-c) for (float v = 0.0f; v <= 1.0f; v += 1e-3f) { ASSERT_EQ(v, sRGB2.getEOTF()(v)); ASSERT_EQ(v, sRGB2.getOETF()(v)); } } TEST_F(ColorSpaceTest, Clamping) { // Pick a color outside of sRGB float3 c(ColorSpace::BT2020().rgbToXYZ(float3{0, 1, 0})); // The color will be clamped float3 sRGB(ColorSpace::sRGB().xyzToRGB(c)); EXPECT_TRUE(sRGB > float3{0.0} && sRGB < float3{1.0}); // The color will not be clamped float3 extendedSRGB(ColorSpace::linearExtendedSRGB().xyzToRGB(c)); EXPECT_TRUE(extendedSRGB.g > 1.0f); } TEST_F(ColorSpaceTest, Connect) { // No chromatic adaptation auto r = ColorSpaceConnector(ColorSpace::sRGB(), ColorSpace::AdobeRGB()) .transform({1.0f, 0.5f, 0.0f}); EXPECT_TRUE(all(lessThan(abs(r - float3{0.8912f, 0.4962f, 0.1164f}), float3{1e-4f}))); // Test with chromatic adaptation r = ColorSpaceConnector(ColorSpace::sRGB(), ColorSpace::ProPhotoRGB()) .transform({1.0f, 0.0f, 0.0f}); EXPECT_TRUE(all(lessThan(abs(r - float3{0.70226f, 0.2757f, 0.1036f}), float3{1e-4f}))); } TEST_F(ColorSpaceTest, LUT) { auto lut = ColorSpace::createLUT(17, ColorSpace::sRGB(), ColorSpace::AdobeRGB()); EXPECT_TRUE(lut != nullptr); // {1.0f, 0.5f, 0.0f} auto r = lut.get()[0 * 17 * 17 + 8 * 17 + 16]; EXPECT_TRUE(all(lessThan(abs(r - float3{0.8912f, 0.4962f, 0.1164f}), float3{1e-4f}))); // {1.0f, 1.0f, 0.5f} r = lut.get()[8 * 17 * 17 + 0 * 17 + 16]; // y (G) is flipped EXPECT_TRUE(all(lessThan(abs(r - float3{1.0f, 1.0f, 0.5290f}), float3{1e-4f}))); // {1.0f, 1.0f, 1.0f} r = lut.get()[16 * 17 * 17 + 0 * 17 + 16]; // y (G) is flipped EXPECT_TRUE(all(lessThan(abs(r - float3{1.0f, 1.0f, 1.0f}), float3{1e-4f}))); } }; // namespace android