// Copyright (c) 2012 The Chromium 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 #include "gpu/command_buffer/service/shader_translator.h" #include "testing/gtest/include/gtest/gtest.h" namespace gpu { namespace gles2 { class ShaderTranslatorTest : public testing::Test { public: ShaderTranslatorTest() { } ~ShaderTranslatorTest() override {} protected: void SetUp() override { ShBuiltInResources resources; ShInitBuiltInResources(&resources); resources.MaxExpressionComplexity = 32; resources.MaxCallStackDepth = 32; vertex_translator_ = new ShaderTranslator(); fragment_translator_ = new ShaderTranslator(); ASSERT_TRUE(vertex_translator_->Init( GL_VERTEX_SHADER, SH_GLES2_SPEC, &resources, ShaderTranslatorInterface::kGlsl, SH_EMULATE_BUILT_IN_FUNCTIONS)); ASSERT_TRUE(fragment_translator_->Init( GL_FRAGMENT_SHADER, SH_GLES2_SPEC, &resources, ShaderTranslatorInterface::kGlsl, static_cast(0))); } void TearDown() override { vertex_translator_ = NULL; fragment_translator_ = NULL; } scoped_refptr vertex_translator_; scoped_refptr fragment_translator_; }; TEST_F(ShaderTranslatorTest, ValidVertexShader) { const char* shader = "void main() {\n" " gl_Position = vec4(1.0);\n" "}"; // A valid shader should be successfully translated. std::string info_log, translated_source; AttributeMap attrib_map; UniformMap uniform_map; VaryingMap varying_map; NameMap name_map; EXPECT_TRUE(vertex_translator_->Translate(shader, &info_log, &translated_source, &attrib_map, &uniform_map, &varying_map, &name_map)); // Info log must be NULL. EXPECT_TRUE(info_log.empty()); // Translated shader must be valid and non-empty. ASSERT_FALSE(translated_source.empty()); // There should be no attributes, uniforms, and only one built-in // varying: gl_Position. EXPECT_TRUE(attrib_map.empty()); EXPECT_TRUE(uniform_map.empty()); EXPECT_EQ(1u, varying_map.size()); // There should be no name mapping. EXPECT_TRUE(name_map.empty()); } TEST_F(ShaderTranslatorTest, InvalidVertexShader) { const char* bad_shader = "foo-bar"; const char* good_shader = "void main() {\n" " gl_Position = vec4(1.0);\n" "}"; // An invalid shader should fail. std::string info_log, translated_source; AttributeMap attrib_map; UniformMap uniform_map; VaryingMap varying_map; NameMap name_map; EXPECT_FALSE(vertex_translator_->Translate(bad_shader, &info_log, &translated_source, &attrib_map, &uniform_map, &varying_map, &name_map)); // Info log must be valid and non-empty. ASSERT_FALSE(info_log.empty()); // Translated shader must be NULL. EXPECT_TRUE(translated_source.empty()); // There should be no attributes, uniforms, varyings, or name mapping. EXPECT_TRUE(attrib_map.empty()); EXPECT_TRUE(uniform_map.empty()); EXPECT_TRUE(varying_map.empty()); EXPECT_TRUE(name_map.empty()); // Try a good shader after bad. info_log.clear(); EXPECT_TRUE(vertex_translator_->Translate(good_shader, &info_log, &translated_source, &attrib_map, &uniform_map, &varying_map, &name_map)); EXPECT_TRUE(info_log.empty()); EXPECT_FALSE(translated_source.empty()); } TEST_F(ShaderTranslatorTest, ValidFragmentShader) { const char* shader = "void main() {\n" " gl_FragColor = vec4(1.0);\n" "}"; // A valid shader should be successfully translated. std::string info_log, translated_source; AttributeMap attrib_map; UniformMap uniform_map; VaryingMap varying_map; NameMap name_map; EXPECT_TRUE(fragment_translator_->Translate(shader, &info_log, &translated_source, &attrib_map, &uniform_map, &varying_map, &name_map)); // Info log must be NULL. EXPECT_TRUE(info_log.empty()); // Translated shader must be valid and non-empty. ASSERT_FALSE(translated_source.empty()); // There should be no attributes, uniforms, varyings, or name mapping. EXPECT_TRUE(attrib_map.empty()); EXPECT_TRUE(uniform_map.empty()); EXPECT_TRUE(varying_map.empty()); EXPECT_TRUE(name_map.empty()); } TEST_F(ShaderTranslatorTest, InvalidFragmentShader) { const char* shader = "foo-bar"; std::string info_log, translated_source; AttributeMap attrib_map; UniformMap uniform_map; VaryingMap varying_map; NameMap name_map; // An invalid shader should fail. EXPECT_FALSE(fragment_translator_->Translate(shader, &info_log, &translated_source, &attrib_map, &uniform_map, &varying_map, &name_map)); // Info log must be valid and non-empty. EXPECT_FALSE(info_log.empty()); // Translated shader must be NULL. EXPECT_TRUE(translated_source.empty()); // There should be no attributes or uniforms. EXPECT_TRUE(attrib_map.empty()); EXPECT_TRUE(uniform_map.empty()); EXPECT_TRUE(varying_map.empty()); EXPECT_TRUE(name_map.empty()); } TEST_F(ShaderTranslatorTest, GetAttributes) { const char* shader = "attribute vec4 vPosition;\n" "void main() {\n" " gl_Position = vPosition;\n" "}"; std::string info_log, translated_source; AttributeMap attrib_map; UniformMap uniform_map; VaryingMap varying_map; NameMap name_map; EXPECT_TRUE(vertex_translator_->Translate(shader, &info_log, &translated_source, &attrib_map, &uniform_map, &varying_map, &name_map)); // Info log must be NULL. EXPECT_TRUE(info_log.empty()); // Translated shader must be valid and non-empty. EXPECT_FALSE(translated_source.empty()); // There should be no uniforms. EXPECT_TRUE(uniform_map.empty()); // There should be one attribute with following characteristics: // name:vPosition type:GL_FLOAT_VEC4 size:0. EXPECT_EQ(1u, attrib_map.size()); AttributeMap::const_iterator iter = attrib_map.find("vPosition"); EXPECT_TRUE(iter != attrib_map.end()); EXPECT_EQ(static_cast(GL_FLOAT_VEC4), iter->second.type); EXPECT_EQ(0u, iter->second.arraySize); EXPECT_EQ("vPosition", iter->second.name); } TEST_F(ShaderTranslatorTest, GetUniforms) { const char* shader = "precision mediump float;\n" "struct Foo {\n" " vec4 color[1];\n" "};\n" "struct Bar {\n" " Foo foo;\n" "};\n" "uniform Bar bar[2];\n" "void main() {\n" " gl_FragColor = bar[0].foo.color[0] + bar[1].foo.color[0];\n" "}"; std::string info_log, translated_source; AttributeMap attrib_map; UniformMap uniform_map; VaryingMap varying_map; NameMap name_map; EXPECT_TRUE(fragment_translator_->Translate(shader, &info_log, &translated_source, &attrib_map, &uniform_map, &varying_map, &name_map)); // Info log must be NULL. EXPECT_TRUE(info_log.empty()); // Translated shader must be valid and non-empty. EXPECT_FALSE(translated_source.empty()); // There should be no attributes. EXPECT_TRUE(attrib_map.empty()); // There should be two uniforms with following characteristics: // 1. name:bar[0].foo.color[0] type:GL_FLOAT_VEC4 size:1 // 2. name:bar[1].foo.color[0] type:GL_FLOAT_VEC4 size:1 // However, there will be only one entry "bar" in the map. EXPECT_EQ(1u, uniform_map.size()); UniformMap::const_iterator iter = uniform_map.find("bar"); EXPECT_TRUE(iter != uniform_map.end()); // First uniform. const sh::ShaderVariable* info; std::string original_name; EXPECT_TRUE(iter->second.findInfoByMappedName( "bar[0].foo.color[0]", &info, &original_name)); EXPECT_EQ(static_cast(GL_FLOAT_VEC4), info->type); EXPECT_EQ(1u, info->arraySize); EXPECT_STREQ("color", info->name.c_str()); EXPECT_STREQ("bar[0].foo.color[0]", original_name.c_str()); // Second uniform. EXPECT_TRUE(iter->second.findInfoByMappedName( "bar[1].foo.color[0]", &info, &original_name)); EXPECT_EQ(static_cast(GL_FLOAT_VEC4), info->type); EXPECT_EQ(1u, info->arraySize); EXPECT_STREQ("color", info->name.c_str()); EXPECT_STREQ("bar[1].foo.color[0]", original_name.c_str()); } #if defined(OS_MACOSX) TEST_F(ShaderTranslatorTest, BuiltInFunctionEmulation) { // This test might become invalid in the future when ANGLE Translator is no // longer emulate dot(float, float) in Mac, or the emulated function name is // no longer webgl_dot_emu. const char* shader = "void main() {\n" " gl_Position = vec4(dot(1.0, 1.0), 1.0, 1.0, 1.0);\n" "}"; std::string info_log, translated_source; AttributeMap attrib_map; UniformMap uniform_map; VaryingMap varying_map; NameMap name_map; EXPECT_TRUE(vertex_translator_->Translate(shader, &info_log, &translated_source, &attrib_map, &uniform_map, &varying_map, &name_map)); // Info log must be NULL. EXPECT_TRUE(info_log.empty()); // Translated shader must be valid and non-empty. ASSERT_FALSE(translated_source.empty()); EXPECT_TRUE(strstr(translated_source.c_str(), "webgl_dot_emu") != NULL); } #endif TEST_F(ShaderTranslatorTest, OptionsString) { scoped_refptr translator_1 = new ShaderTranslator(); scoped_refptr translator_2 = new ShaderTranslator(); scoped_refptr translator_3 = new ShaderTranslator(); ShBuiltInResources resources; ShInitBuiltInResources(&resources); ASSERT_TRUE(translator_1->Init( GL_VERTEX_SHADER, SH_GLES2_SPEC, &resources, ShaderTranslatorInterface::kGlsl, SH_EMULATE_BUILT_IN_FUNCTIONS)); ASSERT_TRUE(translator_2->Init( GL_FRAGMENT_SHADER, SH_GLES2_SPEC, &resources, ShaderTranslatorInterface::kGlsl, static_cast(0))); resources.EXT_draw_buffers = 1; ASSERT_TRUE(translator_3->Init( GL_VERTEX_SHADER, SH_GLES2_SPEC, &resources, ShaderTranslatorInterface::kGlsl, SH_EMULATE_BUILT_IN_FUNCTIONS)); std::string options_1( translator_1->GetStringForOptionsThatWouldAffectCompilation()); std::string options_2( translator_1->GetStringForOptionsThatWouldAffectCompilation()); std::string options_3( translator_2->GetStringForOptionsThatWouldAffectCompilation()); std::string options_4( translator_3->GetStringForOptionsThatWouldAffectCompilation()); EXPECT_EQ(options_1, options_2); EXPECT_NE(options_1, options_3); EXPECT_NE(options_1, options_4); EXPECT_NE(options_3, options_4); } } // namespace gles2 } // namespace gpu