kc3-lang/angle/src/tests/gl_tests/ProgramBinaryTest.cpp
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Hash : a6b16d29
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Date : 2021-03-02T19:04:57
Suppress UNINSTANTIATED_PARAMETERIZED_TEST failures on Ozone We only support ES2 on Ozone, so tests that depend on ES3 or ES31 support are not instantiated there. Bug: chromium:1183147 Change-Id: Id58bcd9b44a5b9a70b5ae8115e27c44f5dc81226 Reviewed-on: https://chromium-review.googlesource.com/c/angle/angle/+/2726550 Reviewed-by: Jonah Ryan-Davis <jonahr@google.com> Commit-Queue: Yuly Novikov <ynovikov@chromium.org>
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src/tests/gl_tests/ProgramBinaryTest.cpp
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// // Copyright 2015 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. // #include "test_utils/ANGLETest.h" #include <stdint.h> #include <memory> #include "common/string_utils.h" #include "test_utils/angle_test_configs.h" #include "test_utils/gl_raii.h" #include "util/EGLWindow.h" #include "util/OSWindow.h" using namespace angle; class ProgramBinaryTest : public ANGLETest { protected: ProgramBinaryTest() { setWindowWidth(128); setWindowHeight(128); setConfigRedBits(8); setConfigGreenBits(8); setConfigBlueBits(8); setConfigAlphaBits(8); // Test flakiness was noticed when reusing displays. forceNewDisplay(); } void testSetUp() override { mProgram = CompileProgram(essl1_shaders::vs::Simple(), essl1_shaders::fs::Red()); if (mProgram == 0) { FAIL() << "shader compilation failed."; } glGenBuffers(1, &mBuffer); glBindBuffer(GL_ARRAY_BUFFER, mBuffer); glBufferData(GL_ARRAY_BUFFER, 128, nullptr, GL_STATIC_DRAW); glBindBuffer(GL_ARRAY_BUFFER, 0); ASSERT_GL_NO_ERROR(); } void testTearDown() override { glDeleteProgram(mProgram); glDeleteBuffers(1, &mBuffer); } GLint getAvailableProgramBinaryFormatCount() const { GLint formatCount; glGetIntegerv(GL_NUM_PROGRAM_BINARY_FORMATS_OES, &formatCount); return formatCount; } bool supported() const { if (!IsGLExtensionEnabled("GL_OES_get_program_binary")) { std::cout << "Test skipped because GL_OES_get_program_binary is not available." << std::endl; return false; } if (getAvailableProgramBinaryFormatCount() == 0) { std::cout << "Test skipped because no program binary formats are available." << std::endl; return false; } return true; } void saveAndLoadProgram(GLuint programToSave, GLuint loadedProgram) { GLint programLength = 0; GLint writtenLength = 0; GLenum binaryFormat = 0; glGetProgramiv(programToSave, GL_PROGRAM_BINARY_LENGTH_OES, &programLength); EXPECT_GL_NO_ERROR(); std::vector<uint8_t> binary(programLength); glGetProgramBinaryOES(programToSave, programLength, &writtenLength, &binaryFormat, binary.data()); EXPECT_GL_NO_ERROR(); // The lengths reported by glGetProgramiv and glGetProgramBinaryOES should match EXPECT_EQ(programLength, writtenLength); if (writtenLength) { glProgramBinaryOES(loadedProgram, binaryFormat, binary.data(), writtenLength); EXPECT_GL_NO_ERROR(); GLint linkStatus; glGetProgramiv(loadedProgram, GL_LINK_STATUS, &linkStatus); if (linkStatus == 0) { GLint infoLogLength; glGetProgramiv(loadedProgram, GL_INFO_LOG_LENGTH, &infoLogLength); if (infoLogLength > 0) { std::vector<GLchar> infoLog(infoLogLength); glGetProgramInfoLog(loadedProgram, static_cast<GLsizei>(infoLog.size()), nullptr, &infoLog[0]); FAIL() << "program link failed: " << &infoLog[0]; } else { FAIL() << "program link failed."; } } else { glUseProgram(loadedProgram); glBindBuffer(GL_ARRAY_BUFFER, mBuffer); glVertexAttribPointer(0, 4, GL_FLOAT, GL_FALSE, 8, nullptr); glEnableVertexAttribArray(0); glDrawArrays(GL_POINTS, 0, 1); EXPECT_GL_NO_ERROR(); } } } GLuint mProgram; GLuint mBuffer; }; // This tests the assumption that float attribs of different size // should not internally cause a vertex shader recompile (for conversion). TEST_P(ProgramBinaryTest, FloatDynamicShaderSize) { if (!supported()) { return; } glUseProgram(mProgram); glBindBuffer(GL_ARRAY_BUFFER, mBuffer); glVertexAttribPointer(0, 4, GL_FLOAT, GL_FALSE, 8, nullptr); glEnableVertexAttribArray(0); glDrawArrays(GL_POINTS, 0, 1); GLint programLength; glGetProgramiv(mProgram, GL_PROGRAM_BINARY_LENGTH_OES, &programLength); EXPECT_GL_NO_ERROR(); for (GLsizei size = 1; size <= 3; size++) { glVertexAttribPointer(0, size, GL_FLOAT, GL_FALSE, 8, nullptr); glEnableVertexAttribArray(0); glDrawArrays(GL_POINTS, 0, 1); GLint newProgramLength; glGetProgramiv(mProgram, GL_PROGRAM_BINARY_LENGTH_OES, &newProgramLength); EXPECT_GL_NO_ERROR(); EXPECT_EQ(programLength, newProgramLength); } } // Tests that switching between signed and unsigned un-normalized data doesn't trigger a bug // in the D3D11 back-end. TEST_P(ProgramBinaryTest, DynamicShadersSignatureBug) { glUseProgram(mProgram); glBindBuffer(GL_ARRAY_BUFFER, mBuffer); GLint attribLocation = glGetAttribLocation(mProgram, essl1_shaders::PositionAttrib()); ASSERT_NE(-1, attribLocation); glEnableVertexAttribArray(attribLocation); glVertexAttribPointer(attribLocation, 2, GL_BYTE, GL_FALSE, 0, nullptr); glDrawArrays(GL_POINTS, 0, 1); glVertexAttribPointer(attribLocation, 2, GL_UNSIGNED_BYTE, GL_FALSE, 0, nullptr); glDrawArrays(GL_POINTS, 0, 1); } // This tests the ability to successfully save and load a program binary. TEST_P(ProgramBinaryTest, SaveAndLoadBinary) { if (!supported()) { return; } GLuint programToLoad = glCreateProgram(); saveAndLoadProgram(mProgram, programToLoad); glDeleteProgram(programToLoad); EXPECT_GL_NO_ERROR(); } // This tests the ability to successfully save and load a program binary and then // save and load from the same program that was loaded. TEST_P(ProgramBinaryTest, SaveAndLoadBinaryTwice) { if (!supported()) { return; } GLuint programToLoad = glCreateProgram(); GLuint programToLoad2 = glCreateProgram(); saveAndLoadProgram(mProgram, programToLoad); saveAndLoadProgram(programToLoad, programToLoad2); glDeleteProgram(programToLoad); glDeleteProgram(programToLoad2); EXPECT_GL_NO_ERROR(); } // Ensures that we init the compiler before calling ProgramBinary. TEST_P(ProgramBinaryTest, CallProgramBinaryBeforeLink) { if (!supported()) { return; } // Initialize a simple program. glUseProgram(mProgram); GLsizei length = 0; glGetProgramiv(mProgram, GL_PROGRAM_BINARY_LENGTH, &length); ASSERT_GL_NO_ERROR(); ASSERT_GT(length, 0); GLsizei readLength = 0; GLenum binaryFormat = GL_NONE; std::vector<uint8_t> binaryBlob(length); glGetProgramBinaryOES(mProgram, length, &readLength, &binaryFormat, binaryBlob.data()); ASSERT_GL_NO_ERROR(); // Shutdown and restart GL entirely. recreateTestFixture(); ANGLE_GL_BINARY_OES_PROGRAM(binaryProgram, binaryBlob, binaryFormat); ASSERT_GL_NO_ERROR(); drawQuad(binaryProgram, essl1_shaders::PositionAttrib(), 0.5f); ASSERT_GL_NO_ERROR(); } // Test that unlinked programs have a binary size of 0 TEST_P(ProgramBinaryTest, ZeroSizedUnlinkedBinary) { ANGLE_SKIP_TEST_IF(!supported()); ANGLE_GL_EMPTY_PROGRAM(program); GLsizei length = 0; glGetProgramiv(program, GL_PROGRAM_BINARY_LENGTH, &length); ASSERT_EQ(0, length); } // Use this to select which configurations (e.g. which renderer, which GLES major version) these // tests should be run against. ANGLE_INSTANTIATE_TEST_ES2_AND_ES3(ProgramBinaryTest); class ProgramBinaryES3Test : public ANGLETest { protected: ProgramBinaryES3Test() { // Test flakiness was noticed when reusing displays. forceNewDisplay(); } void testBinaryAndUBOBlockIndexes(bool drawWithProgramFirst); }; void ProgramBinaryES3Test::testBinaryAndUBOBlockIndexes(bool drawWithProgramFirst) { // We can't run the test if no program binary formats are supported. GLint binaryFormatCount = 0; glGetIntegerv(GL_NUM_PROGRAM_BINARY_FORMATS, &binaryFormatCount); ANGLE_SKIP_TEST_IF(binaryFormatCount == 0); constexpr char kVS[] = "#version 300 es\n" "uniform block {\n" " float f;\n" "};\n" "in vec4 position;\n" "out vec4 color;\n" "void main() {\n" " gl_Position = position;\n" " color = vec4(f, f, f, 1);\n" "}"; constexpr char kFS[] = "#version 300 es\n" "precision mediump float;\n" "in vec4 color;\n" "out vec4 colorOut;\n" "void main() {\n" " colorOut = color;\n" "}"; // Init and draw with the program. ANGLE_GL_PROGRAM(program, kVS, kFS); float fData[4] = {1.0f, 1.0f, 1.0f, 1.0f}; GLuint bindIndex = 2; GLBuffer ubo; glBindBuffer(GL_UNIFORM_BUFFER, ubo.get()); glBufferData(GL_UNIFORM_BUFFER, sizeof(fData), &fData, GL_STATIC_DRAW); glBindBufferRange(GL_UNIFORM_BUFFER, bindIndex, ubo.get(), 0, sizeof(fData)); GLint blockIndex = glGetUniformBlockIndex(program.get(), "block"); ASSERT_NE(-1, blockIndex); glUniformBlockBinding(program.get(), blockIndex, bindIndex); glClearColor(1.0, 0.0, 0.0, 1.0); glClear(GL_COLOR_BUFFER_BIT); EXPECT_PIXEL_COLOR_EQ(0, 0, GLColor::red); if (drawWithProgramFirst) { drawQuad(program.get(), "position", 0.5f); ASSERT_GL_NO_ERROR(); EXPECT_PIXEL_COLOR_EQ(0, 0, GLColor::white); } // Read back the binary. GLint programLength = 0; glGetProgramiv(program.get(), GL_PROGRAM_BINARY_LENGTH_OES, &programLength); ASSERT_GL_NO_ERROR(); GLsizei readLength = 0; GLenum binaryFormat = GL_NONE; std::vector<uint8_t> binary(programLength); glGetProgramBinary(program.get(), programLength, &readLength, &binaryFormat, binary.data()); ASSERT_GL_NO_ERROR(); EXPECT_EQ(static_cast<GLsizei>(programLength), readLength); // Load a new program with the binary and draw. ANGLE_GL_BINARY_ES3_PROGRAM(binaryProgram, binary, binaryFormat); glClearColor(1.0, 0.0, 0.0, 1.0); glClear(GL_COLOR_BUFFER_BIT); EXPECT_PIXEL_COLOR_EQ(0, 0, GLColor::red); drawQuad(binaryProgram.get(), "position", 0.5f); ASSERT_GL_NO_ERROR(); EXPECT_PIXEL_COLOR_EQ(0, 0, GLColor::white); } // Tests that saving and loading a program perserves uniform block binding info. TEST_P(ProgramBinaryES3Test, UniformBlockBindingWithDraw) { testBinaryAndUBOBlockIndexes(true); } // Same as above, but does not do an initial draw with the program. Covers an ANGLE crash. // http://anglebug.com/1637 TEST_P(ProgramBinaryES3Test, UniformBlockBindingNoDraw) { testBinaryAndUBOBlockIndexes(false); } // Test the shaders with arrays-of-struct uniforms are properly saved and restored TEST_P(ProgramBinaryES3Test, TestArrayOfStructUniform) { // We can't run the test if no program binary formats are supported. GLint binaryFormatCount = 0; glGetIntegerv(GL_NUM_PROGRAM_BINARY_FORMATS, &binaryFormatCount); ANGLE_SKIP_TEST_IF(binaryFormatCount == 0); constexpr char kVS[] = "#version 300 es\n" "in highp vec4 position;\n" "out mediump float v_vtxOut;\n" "\n" "struct structType\n" "{\n" " mediump vec4 m0;\n" " mediump vec4 m1;\n" "};\n" "uniform structType u_var[3];\n" "\n" "mediump float compare_float(mediump float a, mediump float b)\n" "{\n" " return abs(a - b) < 0.05 ? 1.0 : 0.0;\n" "}\n" "mediump float compare_vec4(mediump vec4 a, mediump vec4 b)\n" "{\n" " return compare_float(a.x, b.x)*compare_float(a.y, b.y)*\n" " compare_float(a.z, b.z)*compare_float(a.w, b.w);\n" "}\n" "\n" "void main (void)\n" "{\n" " gl_Position = position;\n" " v_vtxOut = 1.0;\n" " v_vtxOut *= compare_vec4(u_var[0].m0, vec4(0.15, 0.52, 0.26, 0.35));\n" " v_vtxOut *= compare_vec4(u_var[0].m1, vec4(0.88, 0.09, 0.30, 0.61));\n" " v_vtxOut *= compare_vec4(u_var[1].m0, vec4(0.85, 0.59, 0.33, 0.71));\n" " v_vtxOut *= compare_vec4(u_var[1].m1, vec4(0.62, 0.89, 0.09, 0.99));\n" " v_vtxOut *= compare_vec4(u_var[2].m0, vec4(0.53, 0.89, 0.01, 0.08));\n" " v_vtxOut *= compare_vec4(u_var[2].m1, vec4(0.26, 0.72, 0.60, 0.12));\n" "}"; constexpr char kFS[] = "#version 300 es\n" "in mediump float v_vtxOut;\n" "\n" "layout(location = 0) out mediump vec4 dEQP_FragColor;\n" "\n" "void main (void)\n" "{\n" " mediump float result = v_vtxOut;\n" " dEQP_FragColor = vec4(result, result, result, 1.0);\n" "}"; // Init and draw with the program. ANGLE_GL_PROGRAM(program, kVS, kFS); glUseProgram(program.get()); int location = glGetUniformLocation(program.get(), "u_var[0].m0"); ASSERT_NE(location, -1); glUniform4f(location, 0.15, 0.52, 0.26, 0.35); location = glGetUniformLocation(program.get(), "u_var[0].m1"); ASSERT_NE(location, -1); glUniform4f(location, 0.88, 0.09, 0.30, 0.61); location = glGetUniformLocation(program.get(), "u_var[1].m0"); ASSERT_NE(location, -1); glUniform4f(location, 0.85, 0.59, 0.33, 0.71); location = glGetUniformLocation(program.get(), "u_var[1].m1"); ASSERT_NE(location, -1); glUniform4f(location, 0.62, 0.89, 0.09, 0.99); location = glGetUniformLocation(program.get(), "u_var[2].m0"); ASSERT_NE(location, -1); glUniform4f(location, 0.53, 0.89, 0.01, 0.08); location = glGetUniformLocation(program.get(), "u_var[2].m1"); ASSERT_NE(location, -1); glUniform4f(location, 0.26, 0.72, 0.60, 0.12); ASSERT_GL_NO_ERROR(); // Clear and draw with the original program: glClearColor(1.0, 0.0, 0.0, 1.0); glClear(GL_COLOR_BUFFER_BIT); EXPECT_PIXEL_COLOR_EQ(0, 0, GLColor::red); drawQuad(program.get(), "position", 0.5f); ASSERT_GL_NO_ERROR(); EXPECT_PIXEL_COLOR_EQ(0, 0, GLColor::white); // Read back the binary. GLint programLength = 0; glGetProgramiv(program.get(), GL_PROGRAM_BINARY_LENGTH_OES, &programLength); ASSERT_GL_NO_ERROR(); GLsizei readLength = 0; GLenum binaryFormat = GL_NONE; std::vector<uint8_t> binary(programLength); glGetProgramBinary(program.get(), programLength, &readLength, &binaryFormat, binary.data()); ASSERT_GL_NO_ERROR(); EXPECT_EQ(static_cast<GLsizei>(programLength), readLength); // Load a new program with the binary and draw. ANGLE_GL_BINARY_ES3_PROGRAM(binaryProgram, binary, binaryFormat); glUseProgram(binaryProgram.get()); location = glGetUniformLocation(binaryProgram.get(), "u_var[0].m0"); ASSERT_NE(location, -1); glUniform4f(location, 0.15, 0.52, 0.26, 0.35); location = glGetUniformLocation(binaryProgram.get(), "u_var[0].m1"); ASSERT_NE(location, -1); glUniform4f(location, 0.88, 0.09, 0.30, 0.61); location = glGetUniformLocation(binaryProgram.get(), "u_var[1].m0"); ASSERT_NE(location, -1); glUniform4f(location, 0.85, 0.59, 0.33, 0.71); location = glGetUniformLocation(binaryProgram.get(), "u_var[1].m1"); ASSERT_NE(location, -1); glUniform4f(location, 0.62, 0.89, 0.09, 0.99); location = glGetUniformLocation(binaryProgram.get(), "u_var[2].m0"); ASSERT_NE(location, -1); glUniform4f(location, 0.53, 0.89, 0.01, 0.08); location = glGetUniformLocation(binaryProgram.get(), "u_var[2].m1"); ASSERT_NE(location, -1); glUniform4f(location, 0.26, 0.72, 0.60, 0.12); ASSERT_GL_NO_ERROR(); // Clear and draw with the restored program: glClearColor(1.0, 0.0, 0.0, 1.0); glClear(GL_COLOR_BUFFER_BIT); EXPECT_PIXEL_COLOR_EQ(0, 0, GLColor::red); drawQuad(binaryProgram.get(), "position", 0.5f); ASSERT_GL_NO_ERROR(); EXPECT_PIXEL_COLOR_EQ(0, 0, GLColor::white); } // Tests the difference between uniform static and active use TEST_P(ProgramBinaryES3Test, ActiveUniformShader) { // We can't run the test if no program binary formats are supported. GLint binaryFormatCount = 0; glGetIntegerv(GL_NUM_PROGRAM_BINARY_FORMATS, &binaryFormatCount); ANGLE_SKIP_TEST_IF(binaryFormatCount == 0); constexpr char kVS[] = "#version 300 es\n" "in vec4 position;\n" "void main() {\n" " gl_Position = position;\n" "}"; constexpr char kFS[] = "#version 300 es\n" "precision mediump float;\n" "uniform float values[2];\n" "out vec4 color;\n" "bool isZero(float value) {\n" " return value == 0.0f;\n" "}\n" "void main() {\n" " color = isZero(values[1]) ? vec4(1.0f,0.0f,0.0f,1.0f) : vec4(0.0f,1.0f,0.0f,1.0f);\n" "}"; // Init and draw with the program. ANGLE_GL_PROGRAM(program, kVS, kFS); GLint valuesLoc = glGetUniformLocation(program.get(), "values"); ASSERT_NE(-1, valuesLoc); glUseProgram(program.get()); GLfloat values[2] = {0.5f, 1.0f}; glUniform1fv(valuesLoc, 2, values); ASSERT_GL_NO_ERROR(); glClearColor(1.0, 0.0, 0.0, 1.0); glClear(GL_COLOR_BUFFER_BIT); EXPECT_PIXEL_COLOR_EQ(0, 0, GLColor::red); drawQuad(program.get(), "position", 0.5f); ASSERT_GL_NO_ERROR(); EXPECT_PIXEL_COLOR_EQ(0, 0, GLColor::green); // Read back the binary. GLint programLength = 0; glGetProgramiv(program.get(), GL_PROGRAM_BINARY_LENGTH_OES, &programLength); ASSERT_GL_NO_ERROR(); GLsizei readLength = 0; GLenum binaryFormat = GL_NONE; std::vector<uint8_t> binary(programLength); glGetProgramBinary(program.get(), programLength, &readLength, &binaryFormat, binary.data()); ASSERT_GL_NO_ERROR(); EXPECT_EQ(static_cast<GLsizei>(programLength), readLength); // Load a new program with the binary and draw. ANGLE_GL_BINARY_ES3_PROGRAM(binaryProgram, binary, binaryFormat); valuesLoc = glGetUniformLocation(program.get(), "values"); ASSERT_NE(-1, valuesLoc); glUseProgram(binaryProgram.get()); GLfloat values2[2] = {0.1f, 1.0f}; glUniform1fv(valuesLoc, 2, values2); ASSERT_GL_NO_ERROR(); glClearColor(1.0, 0.0, 0.0, 1.0); glClear(GL_COLOR_BUFFER_BIT); EXPECT_PIXEL_COLOR_EQ(0, 0, GLColor::red); drawQuad(binaryProgram.get(), "position", 0.5f); ASSERT_GL_NO_ERROR(); EXPECT_PIXEL_COLOR_EQ(0, 0, GLColor::green); } // Test that uses many uniforms in the shaders TEST_P(ProgramBinaryES3Test, BinaryWithLargeUniformCount) { // Suspecting AMD driver bug - failure seen on bots running on ATI GPU on Windows. // http://anglebug.com/3721 ANGLE_SKIP_TEST_IF(IsAMD() && IsOpenGL() && IsWindows()); // We can't run the test if no program binary formats are supported. GLint binaryFormatCount = 0; glGetIntegerv(GL_NUM_PROGRAM_BINARY_FORMATS, &binaryFormatCount); ANGLE_SKIP_TEST_IF(binaryFormatCount == 0); constexpr char kVS[] = "#version 300 es\n" "uniform float redVS; \n" "uniform block0 {\n" " float val0;\n" "};\n" "uniform float greenVS; \n" "uniform float blueVS; \n" "in vec4 position;\n" "out vec4 color;\n" "void main() {\n" " gl_Position = position;\n" " color = vec4(redVS + val0, greenVS, blueVS, 1.0f);\n" "}"; constexpr char kFS[] = "#version 300 es\n" "precision mediump float;\n" "uniform float redFS; \n" "uniform float greenFS; \n" "uniform block1 {\n" " float val1;\n" " float val2;\n" "};\n" "uniform float blueFS; \n" "in vec4 color;\n" "out vec4 colorOut;\n" "void main() {\n" " colorOut = vec4(color.r + redFS,\n" " color.g + greenFS + val1,\n" " color.b + blueFS + val2, \n" " color.a);\n" "}"; // Init and draw with the program. ANGLE_GL_PROGRAM(program, kVS, kFS); float block0Data[4] = {-0.7f, 1.0f, 1.0f, 1.0f}; float block1Data[4] = {0.4f, -0.8f, 1.0f, 1.0f}; GLuint bindIndex0 = 5; GLuint bindIndex1 = 2; GLBuffer ubo0; glBindBuffer(GL_UNIFORM_BUFFER, ubo0.get()); glBufferData(GL_UNIFORM_BUFFER, sizeof(block0Data), &block0Data, GL_STATIC_DRAW); glBindBufferRange(GL_UNIFORM_BUFFER, bindIndex0, ubo0.get(), 0, sizeof(block0Data)); ASSERT_GL_NO_ERROR(); GLBuffer ubo1; glBindBuffer(GL_UNIFORM_BUFFER, ubo1.get()); glBufferData(GL_UNIFORM_BUFFER, sizeof(block1Data), &block1Data, GL_STATIC_DRAW); glBindBufferRange(GL_UNIFORM_BUFFER, bindIndex1, ubo1.get(), 0, sizeof(block1Data)); ASSERT_GL_NO_ERROR(); GLint block0Index = glGetUniformBlockIndex(program.get(), "block0"); ASSERT_NE(-1, block0Index); GLint block1Index = glGetUniformBlockIndex(program.get(), "block1"); ASSERT_NE(-1, block1Index); glUniformBlockBinding(program.get(), block0Index, bindIndex0); glUniformBlockBinding(program.get(), block1Index, bindIndex1); ASSERT_GL_NO_ERROR(); GLint redVSLoc = glGetUniformLocation(program.get(), "redVS"); ASSERT_NE(-1, redVSLoc); GLint greenVSLoc = glGetUniformLocation(program.get(), "greenVS"); ASSERT_NE(-1, greenVSLoc); GLint blueVSLoc = glGetUniformLocation(program.get(), "blueVS"); ASSERT_NE(-1, blueVSLoc); GLint redFSLoc = glGetUniformLocation(program.get(), "redFS"); ASSERT_NE(-1, redFSLoc); GLint greenFSLoc = glGetUniformLocation(program.get(), "greenFS"); ASSERT_NE(-1, greenFSLoc); GLint blueFSLoc = glGetUniformLocation(program.get(), "blueFS"); ASSERT_NE(-1, blueFSLoc); glUseProgram(program.get()); glUniform1f(redVSLoc, 0.6f); glUniform1f(greenVSLoc, 0.2f); glUniform1f(blueVSLoc, 1.1f); glUniform1f(redFSLoc, 0.1f); glUniform1f(greenFSLoc, 0.4f); glUniform1f(blueFSLoc, 0.7f); ASSERT_GL_NO_ERROR(); glClearColor(1.0, 0.0, 0.0, 1.0); glClear(GL_COLOR_BUFFER_BIT); EXPECT_PIXEL_COLOR_EQ(0, 0, GLColor::red); drawQuad(program.get(), "position", 0.5f); ASSERT_GL_NO_ERROR(); EXPECT_PIXEL_COLOR_EQ(0, 0, GLColor::cyan); // Read back the binary. GLint programLength = 0; glGetProgramiv(program.get(), GL_PROGRAM_BINARY_LENGTH_OES, &programLength); ASSERT_GL_NO_ERROR(); GLsizei readLength = 0; GLenum binaryFormat = GL_NONE; std::vector<uint8_t> binary(programLength); glGetProgramBinary(program.get(), programLength, &readLength, &binaryFormat, binary.data()); ASSERT_GL_NO_ERROR(); EXPECT_EQ(static_cast<GLsizei>(programLength), readLength); // Load a new program with the binary and draw. ANGLE_GL_BINARY_ES3_PROGRAM(binaryProgram, binary, binaryFormat); redVSLoc = glGetUniformLocation(program.get(), "redVS"); ASSERT_NE(-1, redVSLoc); greenVSLoc = glGetUniformLocation(program.get(), "greenVS"); ASSERT_NE(-1, greenVSLoc); blueVSLoc = glGetUniformLocation(program.get(), "blueVS"); ASSERT_NE(-1, blueVSLoc); redFSLoc = glGetUniformLocation(program.get(), "redFS"); ASSERT_NE(-1, redFSLoc); greenFSLoc = glGetUniformLocation(program.get(), "greenFS"); ASSERT_NE(-1, greenFSLoc); blueFSLoc = glGetUniformLocation(program.get(), "blueFS"); ASSERT_NE(-1, blueFSLoc); glUseProgram(binaryProgram.get()); glUniform1f(redVSLoc, 0.2f); glUniform1f(greenVSLoc, -0.6f); glUniform1f(blueVSLoc, 1.0f); glUniform1f(redFSLoc, 1.5f); glUniform1f(greenFSLoc, 0.2f); glUniform1f(blueFSLoc, 0.8f); ASSERT_GL_NO_ERROR(); glClearColor(1.0, 0.0, 0.0, 1.0); glClear(GL_COLOR_BUFFER_BIT); EXPECT_PIXEL_COLOR_EQ(0, 0, GLColor::red); drawQuad(binaryProgram.get(), "position", 0.5f); ASSERT_GL_NO_ERROR(); EXPECT_PIXEL_COLOR_EQ(0, 0, GLColor::magenta); } // Test that sampler texelFetch references are saved and loaded correctly TEST_P(ProgramBinaryTest, SRGBDecodeWithSamplerAndTexelFetchTest) { ANGLE_SKIP_TEST_IF(!IsGLExtensionEnabled("GL_EXT_texture_sRGB_decode") || getClientMajorVersion() < 3); // These OpenGL drivers appear not to respect the texelFetch exception // http://anglebug.com/4991 ANGLE_SKIP_TEST_IF(IsOpenGL() && IsIntel() && IsWindows()); ANGLE_SKIP_TEST_IF(IsOpenGL() && IsAMD() && IsWindows()); ANGLE_SKIP_TEST_IF(IsOpenGL() && (IsNVIDIA() || IsARM64()) && IsOSX()); ANGLE_SKIP_TEST_IF(IsOpenGLES() && IsNexus5X()); constexpr char kVS[] = "#version 300 es\n" "precision highp float;\n" "in vec4 position;\n" "\n" "void main()\n" "{\n" " gl_Position = vec4(position.xy, 0.0, 1.0);\n" "}\n"; constexpr char kFS[] = "#version 300 es\n" "precision highp float;\n" "uniform sampler2D tex;\n" "in vec2 texcoord;\n" "out vec4 out_color;\n" "\n" "void main()\n" "{\n" " out_color = texelFetch(tex, ivec2(0, 0), 0);\n" "}\n"; GLProgram program; program.makeRaster(kVS, kFS); ASSERT_NE(0u, program.get()); GLuint reloadedProgram = glCreateProgram(); saveAndLoadProgram(program.get(), reloadedProgram); GLint textureLocation = glGetUniformLocation(reloadedProgram, "tex"); ASSERT_NE(-1, textureLocation); GLColor linearColor(64, 127, 191, 255); GLColor srgbColor(13, 54, 133, 255); GLTexture tex; glBindTexture(GL_TEXTURE_2D, tex.get()); glTexImage2D(GL_TEXTURE_2D, 0, GL_SRGB8_ALPHA8, 1, 1, 0, GL_RGBA, GL_UNSIGNED_BYTE, &linearColor); ASSERT_GL_NO_ERROR(); GLSampler sampler; glBindSampler(0, sampler.get()); glSamplerParameteri(sampler.get(), GL_TEXTURE_SRGB_DECODE_EXT, GL_DECODE_EXT); glUseProgram(reloadedProgram); glUniform1i(textureLocation, 0); glDisable(GL_DEPTH_TEST); drawQuad(reloadedProgram, "position", 0.5f); EXPECT_PIXEL_COLOR_NEAR(0, 0, srgbColor, 1.0); glSamplerParameteri(sampler.get(), GL_TEXTURE_SRGB_DECODE_EXT, GL_SKIP_DECODE_EXT); drawQuad(reloadedProgram, "position", 0.5f); EXPECT_PIXEL_COLOR_NEAR(0, 0, srgbColor, 1.0); glDeleteProgram(reloadedProgram); } GTEST_ALLOW_UNINSTANTIATED_PARAMETERIZED_TEST(ProgramBinaryES3Test); ANGLE_INSTANTIATE_TEST_ES3(ProgramBinaryES3Test); class ProgramBinaryES31Test : public ANGLETest { protected: ProgramBinaryES31Test() { setWindowWidth(128); setWindowHeight(128); setConfigRedBits(8); setConfigGreenBits(8); setConfigBlueBits(8); setConfigAlphaBits(8); // Test flakiness was noticed when reusing displays. forceNewDisplay(); } }; // Tests that saving and loading a program attached with computer shader. TEST_P(ProgramBinaryES31Test, ProgramBinaryWithComputeShader) { // We can't run the test if no program binary formats are supported. GLint binaryFormatCount = 0; glGetIntegerv(GL_NUM_PROGRAM_BINARY_FORMATS, &binaryFormatCount); ANGLE_SKIP_TEST_IF(binaryFormatCount == 0); // http://anglebug.com/4092 ANGLE_SKIP_TEST_IF(IsVulkan()); constexpr char kCS[] = "#version 310 es\n" "layout(local_size_x=4, local_size_y=3, local_size_z=1) in;\n" "uniform block {\n" " vec2 f;\n" "};\n" "uniform vec2 g;\n" "uniform highp sampler2D tex;\n" "void main() {\n" " vec4 color = texture(tex, f + g);\n" "}"; ANGLE_GL_COMPUTE_PROGRAM(program, kCS); // Read back the binary. GLint programLength = 0; glGetProgramiv(program.get(), GL_PROGRAM_BINARY_LENGTH, &programLength); ASSERT_GL_NO_ERROR(); GLsizei readLength = 0; GLenum binaryFormat = GL_NONE; std::vector<uint8_t> binary(programLength); glGetProgramBinary(program.get(), programLength, &readLength, &binaryFormat, binary.data()); ASSERT_GL_NO_ERROR(); EXPECT_EQ(static_cast<GLsizei>(programLength), readLength); // Load a new program with the binary. ANGLE_GL_BINARY_ES3_PROGRAM(binaryProgram, binary, binaryFormat); ASSERT_GL_NO_ERROR(); // Dispatch compute with the loaded binary program glUseProgram(binaryProgram.get()); glDispatchCompute(8, 4, 2); ASSERT_GL_NO_ERROR(); } // Tests that saving and loading a program attached with computer shader. TEST_P(ProgramBinaryES31Test, ProgramBinaryWithAtomicCounterComputeShader) { // We can't run the test if no program binary formats are supported. GLint binaryFormatCount = 0; glGetIntegerv(GL_NUM_PROGRAM_BINARY_FORMATS, &binaryFormatCount); ANGLE_SKIP_TEST_IF(binaryFormatCount == 0); constexpr char kComputeShader[] = R"(#version 310 es layout(local_size_x=1, local_size_y=1, local_size_z=1) in; layout(binding = 0, offset = 4) uniform atomic_uint ac[2]; void main() { atomicCounterIncrement(ac[0]); atomicCounterDecrement(ac[1]); })"; ANGLE_GL_COMPUTE_PROGRAM(program, kComputeShader); // Read back the binary. GLint programLength = 0; glGetProgramiv(program, GL_PROGRAM_BINARY_LENGTH, &programLength); ASSERT_GL_NO_ERROR(); GLsizei readLength = 0; GLenum binaryFormat = GL_NONE; std::vector<uint8_t> binary(programLength); glGetProgramBinary(program, programLength, &readLength, &binaryFormat, binary.data()); ASSERT_GL_NO_ERROR(); EXPECT_EQ(static_cast<GLsizei>(programLength), readLength); // Load a new program with the binary. ANGLE_GL_BINARY_ES3_PROGRAM(binaryProgram, binary, binaryFormat); ASSERT_GL_NO_ERROR(); // Dispatch compute with the loaded binary program glUseProgram(binaryProgram); // The initial value of 'ac[0]' is 3u, 'ac[1]' is 1u. unsigned int bufferData[3] = {11u, 3u, 1u}; GLBuffer atomicCounterBuffer; glBindBuffer(GL_ATOMIC_COUNTER_BUFFER, atomicCounterBuffer); glBufferData(GL_ATOMIC_COUNTER_BUFFER, sizeof(bufferData), bufferData, GL_STATIC_DRAW); glBindBufferBase(GL_ATOMIC_COUNTER_BUFFER, 0, atomicCounterBuffer); glDispatchCompute(1, 1, 1); EXPECT_GL_NO_ERROR(); glMemoryBarrier(GL_BUFFER_UPDATE_BARRIER_BIT); glBindBuffer(GL_ATOMIC_COUNTER_BUFFER, atomicCounterBuffer); void *mappedBuffer = glMapBufferRange(GL_ATOMIC_COUNTER_BUFFER, 0, sizeof(GLuint) * 3, GL_MAP_READ_BIT); memcpy(bufferData, mappedBuffer, sizeof(bufferData)); glUnmapBuffer(GL_ATOMIC_COUNTER_BUFFER); EXPECT_EQ(11u, bufferData[0]); EXPECT_EQ(4u, bufferData[1]); EXPECT_EQ(0u, bufferData[2]); ASSERT_GL_NO_ERROR(); } // Tests that image texture works correctly when loading a program from binary. TEST_P(ProgramBinaryES31Test, ImageTextureBinding) { // We can't run the test if no program binary formats are supported. GLint binaryFormatCount = 0; glGetIntegerv(GL_NUM_PROGRAM_BINARY_FORMATS, &binaryFormatCount); ANGLE_SKIP_TEST_IF(binaryFormatCount == 0); const char kComputeShader[] = R"(#version 310 es layout(local_size_x=1, local_size_y=1, local_size_z=1) in; layout(r32ui, binding = 1) writeonly uniform highp uimage2D writeImage; void main() { imageStore(writeImage, ivec2(gl_LocalInvocationID.xy), uvec4(200u)); })"; ANGLE_GL_COMPUTE_PROGRAM(program, kComputeShader); // Read back the binary. GLint programLength = 0; glGetProgramiv(program.get(), GL_PROGRAM_BINARY_LENGTH, &programLength); ASSERT_GL_NO_ERROR(); GLsizei readLength = 0; GLenum binaryFormat = GL_NONE; std::vector<uint8_t> binary(programLength); glGetProgramBinary(program.get(), programLength, &readLength, &binaryFormat, binary.data()); ASSERT_GL_NO_ERROR(); EXPECT_EQ(static_cast<GLsizei>(programLength), readLength); // Load a new program with the binary. ANGLE_GL_BINARY_ES3_PROGRAM(binaryProgram, binary, binaryFormat); ASSERT_GL_NO_ERROR(); // Dispatch compute with the loaded binary program glUseProgram(binaryProgram.get()); GLTexture texture; glBindTexture(GL_TEXTURE_2D, texture); glTexStorage2D(GL_TEXTURE_2D, 1, GL_R32UI, 1, 1); constexpr GLuint kInputValue = 100u; glTexSubImage2D(GL_TEXTURE_2D, 0, 0, 0, 1, 1, GL_RED_INTEGER, GL_UNSIGNED_INT, &kInputValue); EXPECT_GL_NO_ERROR(); glBindImageTexture(1, texture, 0, GL_FALSE, 0, GL_WRITE_ONLY, GL_R32UI); glDispatchCompute(1, 1, 1); EXPECT_GL_NO_ERROR(); GLFramebuffer framebuffer; glBindFramebuffer(GL_READ_FRAMEBUFFER, framebuffer); glFramebufferTexture2D(GL_READ_FRAMEBUFFER, GL_COLOR_ATTACHMENT0, GL_TEXTURE_2D, texture, 0); GLuint outputValue; glReadPixels(0, 0, 1, 1, GL_RED_INTEGER, GL_UNSIGNED_INT, &outputValue); EXPECT_EQ(200u, outputValue); ASSERT_GL_NO_ERROR(); } GTEST_ALLOW_UNINSTANTIATED_PARAMETERIZED_TEST(ProgramBinaryES31Test); ANGLE_INSTANTIATE_TEST_ES31(ProgramBinaryES31Test); class ProgramBinaryTransformFeedbackTest : public ANGLETest { protected: ProgramBinaryTransformFeedbackTest() { setWindowWidth(128); setWindowHeight(128); setConfigRedBits(8); setConfigGreenBits(8); setConfigBlueBits(8); setConfigAlphaBits(8); } void testSetUp() override { constexpr char kVS[] = R"(#version 300 es in vec4 inputAttribute; out vec4 outputVarying; void main() { outputVarying = inputAttribute; })"; constexpr char kFS[] = R"(#version 300 es precision highp float; out vec4 outputColor; void main() { outputColor = vec4(1,0,0,1); })"; std::vector<std::string> transformFeedbackVaryings; transformFeedbackVaryings.push_back("outputVarying"); mProgram = CompileProgramWithTransformFeedback(kVS, kFS, transformFeedbackVaryings, GL_SEPARATE_ATTRIBS); if (mProgram == 0) { FAIL() << "shader compilation failed."; } ASSERT_GL_NO_ERROR(); } void testTearDown() override { glDeleteProgram(mProgram); } GLint getAvailableProgramBinaryFormatCount() const { GLint formatCount; glGetIntegerv(GL_NUM_PROGRAM_BINARY_FORMATS_OES, &formatCount); return formatCount; } GLuint mProgram; }; // This tests the assumption that float attribs of different size // should not internally cause a vertex shader recompile (for conversion). TEST_P(ProgramBinaryTransformFeedbackTest, GetTransformFeedbackVarying) { ANGLE_SKIP_TEST_IF(!IsGLExtensionEnabled("GL_OES_get_program_binary")); ANGLE_SKIP_TEST_IF(!getAvailableProgramBinaryFormatCount()); // http://anglebug.com/3690 ANGLE_SKIP_TEST_IF(IsAndroid() && (IsPixel2() || IsPixel2XL()) && IsVulkan()); // http://anglebug.com/4092 ANGLE_SKIP_TEST_IF(IsAndroid() && IsOpenGLES()); std::vector<uint8_t> binary(0); GLint programLength = 0; GLint writtenLength = 0; GLenum binaryFormat = 0; // Save the program binary out glGetProgramiv(mProgram, GL_PROGRAM_BINARY_LENGTH_OES, &programLength); ASSERT_GL_NO_ERROR(); binary.resize(programLength); glGetProgramBinaryOES(mProgram, programLength, &writtenLength, &binaryFormat, binary.data()); ASSERT_GL_NO_ERROR(); glDeleteProgram(mProgram); // Load program binary mProgram = glCreateProgram(); glProgramBinaryOES(mProgram, binaryFormat, binary.data(), writtenLength); // Ensure the loaded binary is linked GLint linkStatus; glGetProgramiv(mProgram, GL_LINK_STATUS, &linkStatus); EXPECT_TRUE(linkStatus != 0); // Query information about the transform feedback varying char varyingName[64]; GLsizei varyingSize = 0; GLenum varyingType = GL_NONE; glGetTransformFeedbackVarying(mProgram, 0, 64, &writtenLength, &varyingSize, &varyingType, varyingName); EXPECT_GL_NO_ERROR(); EXPECT_EQ(13, writtenLength); EXPECT_STREQ("outputVarying", varyingName); EXPECT_EQ(1, varyingSize); EXPECT_GLENUM_EQ(GL_FLOAT_VEC4, varyingType); EXPECT_GL_NO_ERROR(); } GTEST_ALLOW_UNINSTANTIATED_PARAMETERIZED_TEST(ProgramBinaryTransformFeedbackTest); ANGLE_INSTANTIATE_TEST_ES3(ProgramBinaryTransformFeedbackTest); // For the ProgramBinariesAcrossPlatforms tests, we need two sets of params: // - a set to save the program binary // - a set to load the program binary // We combine these into one struct extending PlatformParameters so we can reuse existing ANGLE test // macros struct PlatformsWithLinkResult : PlatformParameters { PlatformsWithLinkResult(PlatformParameters saveParams, PlatformParameters loadParamsIn, bool expectedLinkResultIn) { majorVersion = saveParams.majorVersion; minorVersion = saveParams.minorVersion; eglParameters = saveParams.eglParameters; loadParams = loadParamsIn; expectedLinkResult = expectedLinkResultIn; } PlatformParameters loadParams; bool expectedLinkResult; }; // Provide a custom gtest parameter name function for PlatformsWithLinkResult // to avoid returning the same parameter name twice. Such a conflict would happen // between ES2_D3D11_to_ES2D3D11 and ES2_D3D11_to_ES3D3D11 as they were both // named ES2_D3D11 std::ostream &operator<<(std::ostream &stream, const PlatformsWithLinkResult &platform) { const PlatformParameters &platform1 = platform; const PlatformParameters &platform2 = platform.loadParams; stream << platform1 << "_to_" << platform2; return stream; } class ProgramBinariesAcrossPlatforms : public testing::TestWithParam<PlatformsWithLinkResult> { public: void SetUp() override { mOSWindow = OSWindow::New(); bool result = mOSWindow->initialize("ProgramBinariesAcrossRenderersTests", 100, 100); if (result == false) { FAIL() << "Failed to create OS window"; } mEntryPointsLib.reset( angle::OpenSharedLibrary(ANGLE_EGL_LIBRARY_NAME, angle::SearchType::ApplicationDir)); } EGLWindow *createAndInitEGLWindow(angle::PlatformParameters ¶m) { EGLWindow *eglWindow = EGLWindow::New(param.majorVersion, param.minorVersion); ConfigParameters configParams; bool result = eglWindow->initializeGL(mOSWindow, mEntryPointsLib.get(), param.driver, param.eglParameters, configParams); if (!result) { EGLWindow::Delete(&eglWindow); } angle::LoadGLES(eglGetProcAddress); return eglWindow; } void destroyEGLWindow(EGLWindow **eglWindow) { ASSERT_NE(nullptr, *eglWindow); (*eglWindow)->destroyGL(); EGLWindow::Delete(eglWindow); } GLuint createES2ProgramFromSource() { return CompileProgram(essl1_shaders::vs::Simple(), essl1_shaders::fs::Red()); } GLuint createES3ProgramFromSource() { return CompileProgram(essl3_shaders::vs::Simple(), essl3_shaders::fs::Red()); } void drawWithProgram(GLuint program) { glClearColor(0, 0, 0, 1); glClear(GL_COLOR_BUFFER_BIT); GLint positionLocation = glGetAttribLocation(program, essl1_shaders::PositionAttrib()); glUseProgram(program); const GLfloat vertices[] = { -1.0f, 1.0f, 0.5f, -1.0f, -1.0f, 0.5f, 1.0f, -1.0f, 0.5f, -1.0f, 1.0f, 0.5f, 1.0f, -1.0f, 0.5f, 1.0f, 1.0f, 0.5f, }; glVertexAttribPointer(positionLocation, 3, GL_FLOAT, GL_FALSE, 0, vertices); glEnableVertexAttribArray(positionLocation); glDrawArrays(GL_TRIANGLES, 0, 6); glDisableVertexAttribArray(positionLocation); glVertexAttribPointer(positionLocation, 4, GL_FLOAT, GL_FALSE, 0, nullptr); EXPECT_PIXEL_EQ(mOSWindow->getWidth() / 2, mOSWindow->getHeight() / 2, 255, 0, 0, 255); } void TearDown() override { mOSWindow->destroy(); OSWindow::Delete(&mOSWindow); } OSWindow *mOSWindow = nullptr; std::unique_ptr<angle::Library> mEntryPointsLib; }; // Tries to create a program binary using one set of platform params, then load it using a different // sent of params TEST_P(ProgramBinariesAcrossPlatforms, CreateAndReloadBinary) { angle::PlatformParameters firstRenderer = GetParam(); angle::PlatformParameters secondRenderer = GetParam().loadParams; bool expectedLinkResult = GetParam().expectedLinkResult; // First renderer not supported, skipping test. ANGLE_SKIP_TEST_IF(!(IsPlatformAvailable(firstRenderer))); // Second renderer not supported, skipping test. ANGLE_SKIP_TEST_IF(!(IsPlatformAvailable(secondRenderer))); EGLWindow *eglWindow = nullptr; std::vector<uint8_t> binary(0); GLuint program = 0; GLint programLength = 0; GLint writtenLength = 0; GLenum binaryFormat = 0; // Create a EGL window with the first renderer eglWindow = createAndInitEGLWindow(firstRenderer); if (eglWindow == nullptr) { FAIL() << "Failed to create EGL window"; return; } // If the test is trying to use both the default GPU and WARP, but the default GPU *IS* WARP, // then our expectations for the test results will be invalid. if (firstRenderer.eglParameters.deviceType != EGL_PLATFORM_ANGLE_DEVICE_TYPE_D3D_WARP_ANGLE && secondRenderer.eglParameters.deviceType == EGL_PLATFORM_ANGLE_DEVICE_TYPE_D3D_WARP_ANGLE) { std::string rendererString = std::string(reinterpret_cast<const char *>(glGetString(GL_RENDERER))); angle::ToLower(&rendererString); auto basicRenderPos = rendererString.find(std::string("microsoft basic render")); auto softwareAdapterPos = rendererString.find(std::string("software adapter")); // The first renderer is using WARP, even though we didn't explictly request it // We should skip this test ANGLE_SKIP_TEST_IF(basicRenderPos != std::string::npos || softwareAdapterPos != std::string::npos); } // Create a program if (firstRenderer.majorVersion == 3) { program = createES3ProgramFromSource(); } else { program = createES2ProgramFromSource(); } if (program == 0) { destroyEGLWindow(&eglWindow); FAIL() << "Failed to create program from source"; } // Draw using the program to ensure it works as expected drawWithProgram(program); EXPECT_GL_NO_ERROR(); // Save the program binary out from this renderer glGetProgramiv(program, GL_PROGRAM_BINARY_LENGTH_OES, &programLength); EXPECT_GL_NO_ERROR(); binary.resize(programLength); glGetProgramBinaryOES(program, programLength, &writtenLength, &binaryFormat, binary.data()); EXPECT_GL_NO_ERROR(); // Destroy the first renderer glDeleteProgram(program); destroyEGLWindow(&eglWindow); // Create an EGL window with the second renderer eglWindow = createAndInitEGLWindow(secondRenderer); if (eglWindow == nullptr) { FAIL() << "Failed to create EGL window"; return; } program = glCreateProgram(); glProgramBinaryOES(program, binaryFormat, binary.data(), writtenLength); GLint linkStatus; glGetProgramiv(program, GL_LINK_STATUS, &linkStatus); EXPECT_EQ(expectedLinkResult, (linkStatus != 0)); if (linkStatus != 0) { // If the link was successful, then we should try to draw using the program to ensure it // works as expected drawWithProgram(program); EXPECT_GL_NO_ERROR(); } // Destroy the second renderer glDeleteProgram(program); destroyEGLWindow(&eglWindow); } // clang-format off GTEST_ALLOW_UNINSTANTIATED_PARAMETERIZED_TEST(ProgramBinariesAcrossPlatforms); ANGLE_INSTANTIATE_TEST(ProgramBinariesAcrossPlatforms, // | Save the program | Load the program | Expected // | using these params | using these params | link result PlatformsWithLinkResult(ES2_D3D11(), ES2_D3D11(), true ), // Loading + reloading binary should work PlatformsWithLinkResult(ES3_D3D11(), ES3_D3D11(), true ), // Loading + reloading binary should work PlatformsWithLinkResult(ES2_D3D11(), ES2_D3D9(), false ), // Switching from D3D11 to D3D9 shouldn't work PlatformsWithLinkResult(ES2_D3D9(), ES2_D3D11(), false ), // Switching from D3D9 to D3D11 shouldn't work PlatformsWithLinkResult(ES2_D3D11(), ES3_D3D11(), false ), // Switching to newer client version shouldn't work PlatformsWithLinkResult(ES3_VULKAN(), ES31_VULKAN(), false ), // Switching to newer client version shouldn't work with Vulkan ); // clang-format on