// // Copyright 2019 The ANGLE Project Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // // OVR_multiview_test.cpp: // Test that shaders with gl_ViewID_OVR are validated correctly. // #include "GLSLANG/ShaderLang.h" #include "compiler/translator/tree_util/IntermTraverse.h" #include "tests/test_utils/ShaderCompileTreeTest.h" #include "tests/test_utils/compiler_test.h" using namespace sh; namespace { class SymbolOccurrenceCounter : public TIntermTraverser { public: SymbolOccurrenceCounter() : TIntermTraverser(true, false, false), mNumberOfOccurrences(0u) {} void visitSymbol(TIntermSymbol *node) override { if (shouldCountSymbol(node)) { ++mNumberOfOccurrences; } } virtual bool shouldCountSymbol(const TIntermSymbol *node) const = 0; unsigned getNumberOfOccurrences() const { return mNumberOfOccurrences; } private: unsigned mNumberOfOccurrences; }; class SymbolOccurrenceCounterByQualifier : public SymbolOccurrenceCounter { public: SymbolOccurrenceCounterByQualifier(TQualifier symbolQualifier) : mSymbolQualifier(symbolQualifier) {} bool shouldCountSymbol(const TIntermSymbol *node) const override { return node->getQualifier() == mSymbolQualifier; } private: TQualifier mSymbolQualifier; }; class SymbolOccurrenceCounterByName : public SymbolOccurrenceCounter { public: SymbolOccurrenceCounterByName(const ImmutableString &symbolName) : mSymbolName(symbolName) {} bool shouldCountSymbol(const TIntermSymbol *node) const override { return node->variable().symbolType() != SymbolType::Empty && node->getName() == mSymbolName; } private: ImmutableString mSymbolName; }; class SymbolOccurrenceCounterByNameAndQualifier : public SymbolOccurrenceCounter { public: SymbolOccurrenceCounterByNameAndQualifier(const ImmutableString &symbolName, TQualifier qualifier) : mSymbolName(symbolName), mSymbolQualifier(qualifier) {} bool shouldCountSymbol(const TIntermSymbol *node) const override { return node->variable().symbolType() != SymbolType::Empty && node->getName() == mSymbolName && node->getQualifier() == mSymbolQualifier; } private: ImmutableString mSymbolName; TQualifier mSymbolQualifier; }; class OVRMultiviewVertexShaderTest : public ShaderCompileTreeTest { public: OVRMultiviewVertexShaderTest() {} protected: ::GLenum getShaderType() const override { return GL_VERTEX_SHADER; } ShShaderSpec getShaderSpec() const override { return SH_GLES3_1_SPEC; } void initResources(ShBuiltInResources *resources) override { resources->OVR_multiview = 1; resources->MaxViewsOVR = 4; } }; class OVRMultiviewFragmentShaderTest : public ShaderCompileTreeTest { public: OVRMultiviewFragmentShaderTest() {} protected: ::GLenum getShaderType() const override { return GL_FRAGMENT_SHADER; } ShShaderSpec getShaderSpec() const override { return SH_GLES3_1_SPEC; } void initResources(ShBuiltInResources *resources) override { resources->OVR_multiview = 1; resources->MaxViewsOVR = 4; } }; class OVRMultiviewOutputCodeTest : public MatchOutputCodeTest { public: OVRMultiviewOutputCodeTest(sh::GLenum shaderType) : MatchOutputCodeTest(shaderType, SH_ESSL_OUTPUT), mMultiviewCompileOptions{} { addOutputType(SH_GLSL_COMPATIBILITY_OUTPUT); getResources()->OVR_multiview = 1; getResources()->MaxViewsOVR = 4; mMultiviewCompileOptions.initializeBuiltinsForInstancedMultiview = true; mMultiviewCompileOptions.selectViewInNvGLSLVertexShader = true; } void requestHLSLOutput() { #if defined(ANGLE_ENABLE_HLSL) addOutputType(SH_HLSL_4_1_OUTPUT); #endif } bool foundInAllGLSLCode(const char *str) { return foundInGLSLCode(str) && foundInESSLCode(str); } bool foundInHLSLCode(const char *stringToFind) const { #if defined(ANGLE_ENABLE_HLSL) return foundInCode(SH_HLSL_4_1_OUTPUT, stringToFind); #else return true; #endif } protected: ShCompileOptions mMultiviewCompileOptions; }; class OVRMultiviewVertexShaderOutputCodeTest : public OVRMultiviewOutputCodeTest { public: OVRMultiviewVertexShaderOutputCodeTest() : OVRMultiviewOutputCodeTest(GL_VERTEX_SHADER) {} }; class OVRMultiviewFragmentShaderOutputCodeTest : public OVRMultiviewOutputCodeTest { public: OVRMultiviewFragmentShaderOutputCodeTest() : OVRMultiviewOutputCodeTest(GL_FRAGMENT_SHADER) {} }; class OVRMultiviewComputeShaderOutputCodeTest : public OVRMultiviewOutputCodeTest { public: OVRMultiviewComputeShaderOutputCodeTest() : OVRMultiviewOutputCodeTest(GL_COMPUTE_SHADER) {} }; void VariableOccursNTimes(TIntermBlock *root, const ImmutableString &varName, const TQualifier varQualifier, unsigned n) { // Check that there are n occurrences of the variable with the given name and qualifier. SymbolOccurrenceCounterByNameAndQualifier viewIDByNameAndQualifier(varName, varQualifier); root->traverse(&viewIDByNameAndQualifier); EXPECT_EQ(n, viewIDByNameAndQualifier.getNumberOfOccurrences()); // Check that there are n occurrences of the variable with the given name. By this we guarantee // that there are no other occurrences of the variable with the same name but different // qualifier. SymbolOccurrenceCounterByName viewIDByName(varName); root->traverse(&viewIDByName); EXPECT_EQ(n, viewIDByName.getNumberOfOccurrences()); } // Unsupported GL_OVR_multiview extension directive (GL_OVR_multiview spec only exposes // GL_OVR_multiview). TEST_F(OVRMultiviewVertexShaderTest, InvalidMultiview) { const std::string &shaderString = "#version 300 es\n" "#extension GL_OVR_multiview2 : require\n" "layout(num_views = 2) in;\n" "void main()\n" "{\n" " gl_Position.x = (gl_ViewID_OVR == 0u) ? 1.0 : 0.0;\n" " gl_Position.yzw = vec3(0, 0, 1);\n" "}\n"; if (compile(shaderString)) { FAIL() << "Shader compilation succeeded, expecting failure:\n" << mInfoLog; } } // Invalid combination of non-matching num_views declarations. TEST_F(OVRMultiviewVertexShaderTest, InvalidNumViewsMismatch) { const std::string &shaderString = "#version 300 es\n" "#extension GL_OVR_multiview : require\n" "layout(num_views = 2) in;\n" "layout(num_views = 1) in;\n" "void main()\n" "{\n" " gl_Position.x = (gl_ViewID_OVR == 0u) ? 1.0 : 0.0;\n" " gl_Position.yzw = vec3(0, 0, 1);\n" "}\n"; if (compile(shaderString)) { FAIL() << "Shader compilation succeeded, expecting failure:\n" << mInfoLog; } } // Invalid value zero for num_views. TEST_F(OVRMultiviewVertexShaderTest, InvalidNumViewsZero) { const std::string &shaderString = "#version 300 es\n" "#extension GL_OVR_multiview : require\n" "layout(num_views = 0) in;\n" "void main()\n" "{\n" " gl_Position.x = (gl_ViewID_OVR == 0u) ? 1.0 : 0.0;\n" " gl_Position.yzw = vec3(0, 0, 1);\n" "}\n"; if (compile(shaderString)) { FAIL() << "Shader compilation succeeded, expecting failure:\n" << mInfoLog; } } // Too large value for num_views. TEST_F(OVRMultiviewVertexShaderTest, InvalidNumViewsGreaterThanMax) { const std::string &shaderString = "#version 300 es\n" "#extension GL_OVR_multiview : require\n" "layout(num_views = 5) in;\n" "void main()\n" "{\n" " gl_Position.x = (gl_ViewID_OVR == 0u) ? 1.0 : 0.0;\n" " gl_Position.yzw = vec3(0, 0, 1);\n" "}\n"; if (compile(shaderString)) { FAIL() << "Shader compilation succeeded, expecting failure:\n" << mInfoLog; } } // Test that GL_OVR_multiview cannot be used in an ESSL 1.00 vertex shader. TEST_F(OVRMultiviewVertexShaderTest, InvalidShaderVersion) { const std::string &shaderString = "#extension GL_OVR_multiview : require\n" "void main()\n" "{\n" "}\n"; if (compile(shaderString)) { FAIL() << "Shader compilation succeeded, expecting failure:\n" << mInfoLog; } } // Valid use of gl_ViewID_OVR. TEST_F(OVRMultiviewVertexShaderTest, ViewIDUsed) { const std::string &shaderString = "#version 300 es\n" "#extension GL_OVR_multiview : require\n" "layout(num_views = 2) in;\n" "layout(num_views = 2) in; // Duplicated on purpose\n" "in vec4 pos;\n" "out float myOutput;\n" "void main()\n" "{\n" " if (gl_ViewID_OVR == 0u)\n" " {\n" " gl_Position = pos;\n" " myOutput = 1.0;\n" " }\n" " else\n" " {\n" " gl_Position = pos + vec4(1.0, 0.0, 0.0, 0.0);\n" " myOutput = 2.0;\n" " }\n" " gl_Position += (gl_ViewID_OVR == 0u) ? 1.0 : 0.0;\n" "}\n"; if (!compile(shaderString)) { FAIL() << "Shader compilation failed, expecting success:\n" << mInfoLog; } } // Read gl_FragCoord in a OVR_multiview2 fragment shader. TEST_F(OVRMultiviewFragmentShaderTest, ReadOfFragCoord) { const std::string &shaderString = "#version 300 es\n" "#extension GL_OVR_multiview : require\n" "precision highp float;\n" "out vec4 outColor;\n" "void main()\n" "{\n" " outColor = vec4(gl_FragCoord.xy, 0, 1);\n" "}\n"; if (!compile(shaderString)) { FAIL() << "Shader compilation failed, expecting success:\n" << mInfoLog; } } // Read gl_ViewID_OVR in an OVR_multiview2 fragment shader. TEST_F(OVRMultiviewFragmentShaderTest, ReadOfViewID) { const std::string &shaderString = "#version 300 es\n" "#extension GL_OVR_multiview : require\n" "precision highp float;\n" "out vec4 outColor;\n" "void main()\n" "{\n" " outColor = vec4(gl_ViewID_OVR, 0, 0, 1);\n" "}\n"; if (!compile(shaderString)) { FAIL() << "Shader compilation failed, expecting success:\n" << mInfoLog; } } // Correct use of GL_OVR_multiview macro. TEST_F(OVRMultiviewVertexShaderTest, UseOfExtensionMacro) { const std::string &shaderString = "#version 300 es\n" "#ifdef GL_OVR_multiview\n" "#if (GL_OVR_multiview == 1)\n" "void main()\n" "{\n" " gl_Position = vec4(0.0, 0.0, 0.0, 1.0);\n" "}\n" "#endif\n" "#endif\n"; if (!compile(shaderString)) { FAIL() << "Shader compilation failed, expecting success:\n" << mInfoLog; } } // Test that gl_ViewID_OVR can't be used as an l-value. TEST_F(OVRMultiviewVertexShaderTest, ViewIdAsLValue) { const std::string &shaderString = "#version 300 es\n" "#extension GL_OVR_multiview : require\n" "layout(num_views = 2) in;\n" "void foo(out uint u)\n" "{\n" " u = 3u;\n" "}\n" "void main()\n" "{\n" " foo(gl_ViewID_OVR);\n" " gl_Position = vec4(0.0, 0.0, 0.0, 1.0);\n" "}\n"; if (compile(shaderString)) { FAIL() << "Shader compilation succeeded, expecting failure:\n" << mInfoLog; } } // Test that compiling an ESSL 1.00 shader with multiview support fails. TEST_F(OVRMultiviewVertexShaderTest, ESSL1Shader) { const std::string &shaderString = "#extension GL_OVR_multiview : require\n" "layout(num_views = 2) in;\n" "void main()\n" "{\n" " if (gl_ViewID_OVR == 0)\n" " {\n" " gl_Position = vec4(-1.0, 0.0, 0.0, 1.0);\n" " }\n" " else\n" " {\n" " gl_Position = vec4(1.0, 0.0, 0.0, 1.0);\n" " }\n" "}\n"; if (compile(shaderString)) { FAIL() << "Shader compilation succeeded, expecting failure:\n" << mInfoLog; } } // Test that compiling an ESSL 1.00 shader with an unsupported global layout qualifier fails. TEST_F(OVRMultiviewVertexShaderTest, ESSL1ShaderUnsupportedGlobalLayoutQualifier) { const std::string &shaderString = "#extension GL_OVR_multiview : require\n" "layout(num_views = 2) in;\n" "layout(std140) uniform;\n" "void main()\n" "{\n" " if (gl_ViewID_OVR == 0)\n" " {\n" " gl_Position = vec4(-1.0, 0.0, 0.0, 1.0);\n" " }\n" " else\n" " {\n" " gl_Position = vec4(1.0, 0.0, 0.0, 1.0);\n" " }\n" "}\n"; if (compile(shaderString)) { FAIL() << "Shader compilation succeeded, expecting failure:\n" << mInfoLog; } } // Test that compiling an ESSL 1.00 vertex shader with an unsupported input storage qualifier fails. TEST_F(OVRMultiviewVertexShaderTest, ESSL1ShaderUnsupportedInputStorageQualifier) { const std::string &shaderString = "#extension GL_OVR_multiview : require\n" "layout(num_views = 2) in;\n" "in vec4 pos;\n" "void main()\n" "{\n" " if (gl_ViewID_OVR == 0)\n" " {\n" " gl_Position = vec4(-1.0, 0.0, 0.0, 1.0);\n" " }\n" " else\n" " {\n" " gl_Position = vec4(1.0, 0.0, 0.0, 1.0);\n" " }\n" "}\n"; if (compile(shaderString)) { FAIL() << "Shader compilation succeeded, expecting failure:\n" << mInfoLog; } } // Test that compiling an ESSL 1.00 fragment shader with an unsupported input storage qualifier // fails. TEST_F(OVRMultiviewFragmentShaderTest, ESSL1ShaderUnsupportedInStorageQualifier) { const std::string &shaderString = "#extension GL_OVR_multiview : require\n" "precision highp float;\n" "in vec4 color;\n" "void main()\n" "{\n" " if (gl_ViewID_OVR == 0)\n" " {\n" " gl_FragColor = color;\n" " }\n" " else\n" " {\n" " gl_FragColor = color + vec4(1.0, 0.0, 0.0, 1.0);\n" " }\n" "}\n"; if (compile(shaderString)) { FAIL() << "Shader compilation succeeded, expecting failure:\n" << mInfoLog; } } // Test that gl_InstanceID gets correctly replaced by InstanceID. gl_InstanceID should only be used // twice: once to initialize ViewID_OVR and once for InstanceID. The number of occurrences of // InstanceID in the AST should be the sum of two and the number of occurrences of gl_InstanceID // before any renaming. TEST_F(OVRMultiviewVertexShaderTest, GLInstanceIDIsRenamed) { const std::string &shaderString = "#version 300 es\n" "#extension GL_OVR_multiview : require\n" "layout(num_views = 2) in;\n" "flat out int myInstance;\n" "out float myInstanceF;\n" "out float myInstanceF2;\n" "void main()\n" "{\n" " gl_Position.x = gl_ViewID_OVR == 0u ? 0. : 1.;\n" " gl_Position.yzw = vec3(0., 0., 1.);\n" " myInstance = gl_InstanceID;\n" " myInstanceF = float(gl_InstanceID) + .5;\n" " myInstanceF2 = float(gl_InstanceID) + .1;\n" "}\n"; mCompileOptions.initializeBuiltinsForInstancedMultiview = true; compileAssumeSuccess(shaderString); SymbolOccurrenceCounterByName glInstanceIDByName(ImmutableString("gl_InstanceID")); mASTRoot->traverse(&glInstanceIDByName); EXPECT_EQ(2u, glInstanceIDByName.getNumberOfOccurrences()); SymbolOccurrenceCounterByQualifier glInstanceIDByQualifier(EvqInstanceID); mASTRoot->traverse(&glInstanceIDByQualifier); EXPECT_EQ(2u, glInstanceIDByQualifier.getNumberOfOccurrences()); SymbolOccurrenceCounterByName instanceIDByName(ImmutableString("InstanceID")); mASTRoot->traverse(&instanceIDByName); EXPECT_EQ(5u, instanceIDByName.getNumberOfOccurrences()); } // Test that gl_ViewID_OVR gets correctly replaced by ViewID_OVR. gl_ViewID_OVR should not be found // by the name. The number of occurrences of ViewID_OVR in the AST should be the sum // of two and the number of occurrences of gl_ViewID_OVR before any renaming. TEST_F(OVRMultiviewVertexShaderTest, GLViewIDIsRenamed) { const std::string &shaderString = "#version 300 es\n" "#extension GL_OVR_multiview : require\n" "layout(num_views = 2) in;\n" "flat out uint a;\n" "void main()\n" "{\n" " gl_Position.x = gl_ViewID_OVR == 0u ? 0. : 1.;\n" " gl_Position.yzw = vec3(0., 0., 1.);\n" " a = gl_ViewID_OVR == 0u ? (gl_ViewID_OVR+2u) : gl_ViewID_OVR;\n" "}\n"; mCompileOptions.initializeBuiltinsForInstancedMultiview = true; compileAssumeSuccess(shaderString); SymbolOccurrenceCounterByName glViewIDOVRByName(ImmutableString("gl_ViewID_OVR")); mASTRoot->traverse(&glViewIDOVRByName); EXPECT_EQ(0u, glViewIDOVRByName.getNumberOfOccurrences()); SymbolOccurrenceCounterByNameAndQualifier viewIDByNameAndQualifier( ImmutableString("ViewID_OVR"), EvqViewIDOVR); mASTRoot->traverse(&viewIDByNameAndQualifier); EXPECT_EQ(6u, viewIDByNameAndQualifier.getNumberOfOccurrences()); } // The test checks that ViewID_OVR and InstanceID have the correct initializers based on the // number of views. TEST_F(OVRMultiviewVertexShaderOutputCodeTest, ViewIDAndInstanceIDHaveCorrectValues) { const std::string &shaderString = "#version 300 es\n" "#extension GL_OVR_multiview : require\n" "layout(num_views = 3) in;\n" "flat out int myInstance;\n" "void main()\n" "{\n" " gl_Position.x = gl_ViewID_OVR == 0u ? 0. : 1.;\n" " gl_Position.yzw = vec3(0., 0., 1.);\n" " myInstance = gl_InstanceID;\n" "}\n"; requestHLSLOutput(); ShCompileOptions compileOptions = {}; compileOptions.initializeBuiltinsForInstancedMultiview = true; compile(shaderString, compileOptions); EXPECT_TRUE(foundInAllGLSLCode("ViewID_OVR = (uint(gl_InstanceID) % 3u)")); EXPECT_TRUE(foundInAllGLSLCode("InstanceID = int((uint(gl_InstanceID) / 3u))")); EXPECT_TRUE(foundInHLSLCode("ViewID_OVR = (uint_ctor_int(gl_InstanceID) % 3)")); #if defined(ANGLE_ENABLE_HLSL) EXPECT_FALSE(foundInHLSLCode("_ViewID_OVR = (uint_ctor_int(gl_InstanceID) % 3)")); #endif EXPECT_TRUE(foundInHLSLCode("InstanceID = int_ctor_uint((uint_ctor_int(gl_InstanceID) / 3))")); } // The test checks that the directive enabling GL_OVR_multiview is not outputted if the extension // is emulated. TEST_F(OVRMultiviewVertexShaderOutputCodeTest, StrippedOVRMultiviewDirective) { const std::string &shaderString = "#version 300 es\n" "#extension GL_OVR_multiview : require\n" "layout(num_views = 3) in;\n" "void main()\n" "{\n" "}\n"; // The directive must not be present if any of the multiview emulation options are set. ShCompileOptions compileOptions = {}; compileOptions.initializeBuiltinsForInstancedMultiview = true; compile(shaderString, compileOptions); EXPECT_FALSE(foundInESSLCode("GL_OVR_multiview")); EXPECT_FALSE(foundInGLSLCode("GL_OVR_multiview")); // The directive should be outputted from the ESSL translator with none of the options being // set. compile(shaderString); EXPECT_TRUE(foundInESSLCode("GL_OVR_multiview")); } // Test that ViewID_OVR has a proper qualifier in an ESSL 3.00 fragment shader. TEST_F(OVRMultiviewFragmentShaderTest, ViewIDDeclaredAsViewID) { const std::string &shaderString = "#version 300 es\n" "#extension GL_OVR_multiview : require\n" "void main()\n" "{\n" "}\n"; mCompileOptions.initializeBuiltinsForInstancedMultiview = true; compileAssumeSuccess(shaderString); VariableOccursNTimes(mASTRoot, ImmutableString("ViewID_OVR"), EvqViewIDOVR, 1u); } // The test checks that the GL_NV_viewport_array2 extension is emitted in a vertex shader if the // selectViewInNvGLSLVertexShader option is set. TEST_F(OVRMultiviewVertexShaderOutputCodeTest, ViewportArray2IsEmitted) { const std::string &shaderString = "#version 300 es\n" "#extension GL_OVR_multiview : require\n" "layout(num_views = 3) in;\n" "void main()\n" "{\n" "}\n"; compile(shaderString, mMultiviewCompileOptions); EXPECT_TRUE(foundInAllGLSLCode("#extension GL_NV_viewport_array2 : require")); } // The test checks that the GL_NV_viewport_array2 extension is not emitted in a vertex shader if the // OVR_multiview2 extension is not requested in the shader source even if the // selectViewInNvGLSLVertexShader option is set. TEST_F(OVRMultiviewVertexShaderOutputCodeTest, ViewportArray2IsNotEmitted) { const std::string &shaderString = "#version 300 es\n" "void main()\n" "{\n" "}\n"; compile(shaderString, mMultiviewCompileOptions); EXPECT_FALSE(foundInGLSLCode("#extension GL_NV_viewport_array2")); EXPECT_FALSE(foundInESSLCode("#extension GL_NV_viewport_array2")); } // The test checks that the GL_NV_viewport_array2 extension is not emitted in a fragment shader if // the selectViewInNvGLSLVertexShader option is set. TEST_F(OVRMultiviewFragmentShaderOutputCodeTest, ViewportArray2IsNotEmitted) { const std::string &shaderString = "#version 300 es\n" "#extension GL_OVR_multiview : require\n" "void main()\n" "{\n" "}\n"; compile(shaderString, mMultiviewCompileOptions); EXPECT_FALSE(foundInGLSLCode("#extension GL_NV_viewport_array2")); EXPECT_FALSE(foundInESSLCode("#extension GL_NV_viewport_array2")); } // The test checks if OVR_multiview is emitted only once and no other // multiview extensions are emitted. TEST_F(OVRMultiviewFragmentShaderOutputCodeTest, NativeOvrMultiviewOutput) { const std::string &shaderString = "#version 300 es\n" "#extension GL_OVR_multiview : require\n" "void main()\n" "{\n" "}\n"; compile(shaderString); EXPECT_FALSE(foundInGLSLCode("#extension GL_NV_viewport_array2")); EXPECT_FALSE(foundInESSLCode("#extension GL_NV_viewport_array2")); EXPECT_TRUE(foundInESSLCode("#extension GL_OVR_multiview")); EXPECT_TRUE(foundInGLSLCode("#extension GL_OVR_multiview")); EXPECT_FALSE(foundInESSLCode("#extension GL_OVR_multiview2")); EXPECT_FALSE(foundInGLSLCode("#extension GL_OVR_multiview2")); // no double extension std::vector notExpectedStrings1 = {"#extension GL_OVR_multiview", "#extension GL_OVR_multiview"}; EXPECT_FALSE(foundInCodeInOrder(SH_ESSL_OUTPUT, notExpectedStrings1)); EXPECT_FALSE(foundInCodeInOrder(SH_GLSL_COMPATIBILITY_OUTPUT, notExpectedStrings1)); } // The test checks that the GL_NV_viewport_array2 extension is not emitted in a compute shader if // the selectViewInNvGLSLVertexShader option is set. TEST_F(OVRMultiviewComputeShaderOutputCodeTest, ViewportArray2IsNotEmitted) { const std::string &shaderString = R"(#version 310 es #extension GL_OVR_multiview : require void main() { })"; compile(shaderString, mMultiviewCompileOptions); EXPECT_FALSE(foundInGLSLCode("#extension GL_NV_viewport_array2")); EXPECT_FALSE(foundInESSLCode("#extension GL_NV_viewport_array2")); } // The test checks that the layer is selected after the initialization of ViewID_OVR for // GLSL and ESSL ouputs. TEST_F(OVRMultiviewVertexShaderOutputCodeTest, GlLayerIsSet) { const std::string &shaderString = "#version 300 es\n" "#extension GL_OVR_multiview : require\n" "layout(num_views = 3) in;\n" "void main()\n" "{\n" "}\n"; compile(shaderString, mMultiviewCompileOptions); std::vector expectedStrings = { "ViewID_OVR = (uint(gl_InstanceID) % 3u)", "gl_Layer = (int(ViewID_OVR) + multiviewBaseViewLayerIndex)"}; EXPECT_TRUE(foundInCodeInOrder(SH_ESSL_OUTPUT, expectedStrings)); EXPECT_TRUE(foundInCodeInOrder(SH_GLSL_COMPATIBILITY_OUTPUT, expectedStrings)); } // Test that the OVR_multiview without emulation emits OVR_multiview output. // It also tests that the GL_OVR_multiview is emitted only once and no other // multiview extensions are emitted. TEST_F(OVRMultiviewVertexShaderOutputCodeTest, NativeOvrMultiviewOutput) { const std::string &shaderString = "#version 300 es\n" "#extension GL_OVR_multiview : require\n" "layout(num_views = 3) in;\n" "void main()\n" "{\n" "}\n"; compile(shaderString); std::vector expectedStrings = {"#extension GL_OVR_multiview", "layout(num_views"}; EXPECT_TRUE(foundInCodeInOrder(SH_ESSL_OUTPUT, expectedStrings)); EXPECT_TRUE(foundInCodeInOrder(SH_GLSL_COMPATIBILITY_OUTPUT, expectedStrings)); EXPECT_FALSE(foundInGLSLCode("#extension GL_NV_viewport_array2")); EXPECT_FALSE(foundInESSLCode("#extension GL_NV_viewport_array2")); EXPECT_FALSE(foundInGLSLCode("#extension GL_OVR_multiview2")); EXPECT_FALSE(foundInESSLCode("#extension GL_OVR_multiview2")); EXPECT_FALSE(foundInGLSLCode("gl_ViewportIndex")); EXPECT_FALSE(foundInESSLCode("gl_ViewportIndex")); // no double extension std::vector notExpectedStrings1 = {"#extension GL_OVR_multiview", "#extension GL_OVR_multiview"}; EXPECT_FALSE(foundInCodeInOrder(SH_ESSL_OUTPUT, notExpectedStrings1)); EXPECT_FALSE(foundInCodeInOrder(SH_GLSL_COMPATIBILITY_OUTPUT, notExpectedStrings1)); // no double num_views std::vector notExpectedStrings2 = {"layout(num_views", "layout(num_views"}; EXPECT_FALSE(foundInCodeInOrder(SH_ESSL_OUTPUT, notExpectedStrings2)); EXPECT_FALSE(foundInCodeInOrder(SH_GLSL_COMPATIBILITY_OUTPUT, notExpectedStrings2)); } } // namespace