// Copyright (c) 2023 Nintendo // // 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. #include #include #include "gtest/gtest.h" #include "spirv-tools/libspirv.h" namespace spvtools { namespace { TEST(OptimizerCInterface, DefaultConsumerWithValidationNoPassesForInvalidInput) { const uint32_t spirv[] = { 0xDEADFEED, // Invalid Magic 0x00010100, // Version 1.1 0x00000000, // No Generator 0x01000000, // Bound 0x00000000, // Schema 0x00020011, // OpCapability 0x00000001, // Shader 0x00020011, // OpCapability 0x00000005, // Linkage 0x0003000E, // OpMemoryModel 0x00000000, // Logical 0x00000001 // GLSL450 }; auto optimizer = spvOptimizerCreate(SPV_ENV_UNIVERSAL_1_1); ASSERT_NE(optimizer, nullptr); // Do not register any passes auto options = spvOptimizerOptionsCreate(); ASSERT_NE(options, nullptr); spvOptimizerOptionsSetRunValidator(options, true); spv_binary binary = nullptr; EXPECT_NE(SPV_SUCCESS, spvOptimizerRun(optimizer, spirv, sizeof(spirv) / sizeof(uint32_t), &binary, options)); ASSERT_EQ(binary, nullptr); spvOptimizerOptionsDestroy(options); spvOptimizerDestroy(optimizer); } TEST(OptimizerCInterface, SpecifyConsumerWithValidationNoPassesForInvalidInput) { const uint32_t spirv[] = { 0xDEADFEED, // Invalid Magic 0x00010100, // Version 1.1 0x00000000, // No Generator 0x01000000, // Bound 0x00000000, // Schema 0x00020011, // OpCapability 0x00000001, // Shader 0x00020011, // OpCapability 0x00000005, // Linkage 0x0003000E, // OpMemoryModel 0x00000000, // Logical 0x00000001 // GLSL450 }; auto optimizer = spvOptimizerCreate(SPV_ENV_UNIVERSAL_1_1); ASSERT_NE(optimizer, nullptr); spvOptimizerSetMessageConsumer( optimizer, [](spv_message_level_t, const char*, const spv_position_t*, const char* message) { std::cout << message << std::endl; }); // Do not register any passes auto options = spvOptimizerOptionsCreate(); ASSERT_NE(options, nullptr); spvOptimizerOptionsSetRunValidator(options, true); testing::internal::CaptureStdout(); spv_binary binary = nullptr; EXPECT_NE(SPV_SUCCESS, spvOptimizerRun(optimizer, spirv, sizeof(spirv) / sizeof(uint32_t), &binary, options)); ASSERT_EQ(binary, nullptr); auto output = testing::internal::GetCapturedStdout(); EXPECT_STRNE(output.c_str(), ""); spvOptimizerOptionsDestroy(options); spvOptimizerDestroy(optimizer); } TEST(OptimizerCInterface, DefaultConsumerWithValidationNoPassesForValidInput) { const uint32_t spirv[] = { 0x07230203, // Magic 0x00010100, // Version 1.1 0x00000000, // No Generator 0x00000001, // Bound 0x00000000, // Schema 0x00020011, // OpCapability 0x00000001, // Shader 0x00020011, // OpCapability 0x00000005, // Linkage 0x0003000E, // OpMemoryModel 0x00000000, // Logical 0x00000001 // GLSL450 }; auto optimizer = spvOptimizerCreate(SPV_ENV_UNIVERSAL_1_1); ASSERT_NE(optimizer, nullptr); // Do not register any passes auto options = spvOptimizerOptionsCreate(); ASSERT_NE(options, nullptr); spvOptimizerOptionsSetRunValidator(options, true); spv_binary binary = nullptr; EXPECT_EQ(SPV_SUCCESS, spvOptimizerRun(optimizer, spirv, sizeof(spirv) / sizeof(uint32_t), &binary, options)); ASSERT_NE(binary, nullptr); spvOptimizerOptionsDestroy(options); // Should remain unchanged EXPECT_EQ(binary->wordCount, sizeof(spirv) / sizeof(uint32_t)); EXPECT_EQ(memcmp(binary->code, spirv, sizeof(spirv) / sizeof(uint32_t)), 0); spvBinaryDestroy(binary); spvOptimizerDestroy(optimizer); } TEST(OptimizerCInterface, DefaultConsumerNoPassesForValidInput) { const uint32_t spirv[] = { 0x07230203, // Magic 0x00010100, // Version 1.1 0x00000000, // No Generator 0x00000003, // Bound 0x00000000, // Schema 0x00020011, // OpCapability 0x00000001, // Shader 0x00020011, // OpCapability 0x00000005, // Linkage 0x0003000E, // OpMemoryModel 0x00000000, // Logical 0x00000001, // GLSL450 0x00040015, // OpTypeInt 0x00000001, // %1 0x00000020, // 32 Bits 0x00000000, // Unsigned 0x0004002B, // OpConstant 0x00000001, // %1 0x00000002, // %2 0x00000001 // 1 }; auto optimizer = spvOptimizerCreate(SPV_ENV_UNIVERSAL_1_1); ASSERT_NE(optimizer, nullptr); // Do not register any passes auto options = spvOptimizerOptionsCreate(); ASSERT_NE(options, nullptr); spvOptimizerOptionsSetRunValidator(options, true); spv_binary binary = nullptr; EXPECT_EQ(SPV_SUCCESS, spvOptimizerRun(optimizer, spirv, sizeof(spirv) / sizeof(uint32_t), &binary, options)); ASSERT_NE(binary, nullptr); spvOptimizerOptionsDestroy(options); // Should remain unchanged EXPECT_EQ(binary->wordCount, sizeof(spirv) / sizeof(uint32_t)); EXPECT_EQ(memcmp(binary->code, spirv, sizeof(spirv) / sizeof(uint32_t)), 0); spvBinaryDestroy(binary); spvOptimizerDestroy(optimizer); } TEST(OptimizerCInterface, DefaultConsumerLegalizationPassesForValidInput) { const uint32_t spirv[] = { 0x07230203, // Magic 0x00010100, // Version 1.1 0x00000000, // No Generator 0x00000003, // Bound 0x00000000, // Schema 0x00020011, // OpCapability 0x00000001, // Shader 0x00020011, // OpCapability 0x00000005, // Linkage 0x0003000E, // OpMemoryModel 0x00000000, // Logical 0x00000001, // GLSL450 0x00040015, // OpTypeInt 0x00000001, // %1 0x00000020, // 32 Bits 0x00000000, // Unsigned 0x0004002B, // OpConstant 0x00000001, // %1 0x00000002, // %2 0x00000001 // 1 }; auto optimizer = spvOptimizerCreate(SPV_ENV_UNIVERSAL_1_1); ASSERT_NE(optimizer, nullptr); spvOptimizerRegisterLegalizationPasses(optimizer); auto options = spvOptimizerOptionsCreate(); ASSERT_NE(options, nullptr); spvOptimizerOptionsSetRunValidator(options, false); spv_binary binary = nullptr; EXPECT_EQ(SPV_SUCCESS, spvOptimizerRun(optimizer, spirv, sizeof(spirv) / sizeof(uint32_t), &binary, options)); ASSERT_NE(binary, nullptr); spvOptimizerOptionsDestroy(options); // Only check that SPV_SUCCESS is returned, do not verify output spvBinaryDestroy(binary); spvOptimizerDestroy(optimizer); } TEST(OptimizerCInterface, DefaultConsumerPerformancePassesForValidInput) { const uint32_t spirv[] = { 0x07230203, // Magic 0x00010100, // Version 1.1 0x00000000, // No Generator 0x00000003, // Bound 0x00000000, // Schema 0x00020011, // OpCapability 0x00000001, // Shader 0x00020011, // OpCapability 0x00000005, // Linkage 0x0003000E, // OpMemoryModel 0x00000000, // Logical 0x00000001, // GLSL450 0x00040015, // OpTypeInt 0x00000001, // %1 0x00000020, // 32 Bits 0x00000000, // Unsigned 0x0004002B, // OpConstant 0x00000001, // %1 0x00000002, // %2 0x00000001 // 1 }; const uint32_t expected_spirv[] = { 0x07230203, // Magic 0x00010100, // Version 1.1 0x00000000, // No Generator 0x00000001, // Bound 0x00000000, // Schema 0x00020011, // OpCapability 0x00000001, // Shader 0x00020011, // OpCapability 0x00000005, // Linkage 0x0003000E, // OpMemoryModel 0x00000000, // Logical 0x00000001 // GLSL450 }; auto optimizer = spvOptimizerCreate(SPV_ENV_UNIVERSAL_1_1); ASSERT_NE(optimizer, nullptr); spvOptimizerRegisterPerformancePasses(optimizer); auto options = spvOptimizerOptionsCreate(); ASSERT_NE(options, nullptr); spvOptimizerOptionsSetRunValidator(options, false); spv_binary binary = nullptr; EXPECT_EQ(SPV_SUCCESS, spvOptimizerRun(optimizer, spirv, sizeof(spirv) / sizeof(uint32_t), &binary, options)); ASSERT_NE(binary, nullptr); spvOptimizerOptionsDestroy(options); // Unreferenced OpTypeInt and OpConstant should be removed EXPECT_EQ(binary->wordCount, sizeof(expected_spirv) / sizeof(uint32_t)); EXPECT_EQ(memcmp(binary->code, expected_spirv, sizeof(expected_spirv) / sizeof(uint32_t)), 0); spvBinaryDestroy(binary); spvOptimizerDestroy(optimizer); } TEST(OptimizerCInterface, DefaultConsumerSizePassesForValidInput) { const uint32_t spirv[] = { 0x07230203, // Magic 0x00010100, // Version 1.1 0x00000000, // No Generator 0x00000003, // Bound 0x00000000, // Schema 0x00020011, // OpCapability 0x00000001, // Shader 0x00020011, // OpCapability 0x00000005, // Linkage 0x0003000E, // OpMemoryModel 0x00000000, // Logical 0x00000001, // GLSL450 0x00040015, // OpTypeInt 0x00000001, // %1 0x00000020, // 32 Bits 0x00000000, // Unsigned 0x0004002B, // OpConstant 0x00000001, // %1 0x00000002, // %2 0x00000001 // 1 }; const uint32_t expected_spirv[] = { 0x07230203, // Magic 0x00010100, // Version 1.1 0x00000000, // No Generator 0x00000001, // Bound 0x00000000, // Schema 0x00020011, // OpCapability 0x00000001, // Shader 0x00020011, // OpCapability 0x00000005, // Linkage 0x0003000E, // OpMemoryModel 0x00000000, // Logical 0x00000001 // GLSL450 }; auto optimizer = spvOptimizerCreate(SPV_ENV_UNIVERSAL_1_1); ASSERT_NE(optimizer, nullptr); spvOptimizerRegisterSizePasses(optimizer); auto options = spvOptimizerOptionsCreate(); ASSERT_NE(options, nullptr); spvOptimizerOptionsSetRunValidator(options, false); spv_binary binary = nullptr; EXPECT_EQ(SPV_SUCCESS, spvOptimizerRun(optimizer, spirv, sizeof(spirv) / sizeof(uint32_t), &binary, options)); ASSERT_NE(binary, nullptr); spvOptimizerOptionsDestroy(options); // Unreferenced OpTypeInt and OpConstant should be removed EXPECT_EQ(binary->wordCount, sizeof(expected_spirv) / sizeof(uint32_t)); EXPECT_EQ(memcmp(binary->code, expected_spirv, sizeof(expected_spirv) / sizeof(uint32_t)), 0); spvBinaryDestroy(binary); spvOptimizerDestroy(optimizer); } TEST(OptimizerCInterface, DefaultConsumerPassFromFlagForValidInput) { const uint32_t spirv[] = { 0x07230203, // Magic 0x00010100, // Version 1.1 0x00000000, // No Generator 0x00000003, // Bound 0x00000000, // Schema 0x00020011, // OpCapability 0x00000001, // Shader 0x00020011, // OpCapability 0x00000005, // Linkage 0x0003000E, // OpMemoryModel 0x00000000, // Logical 0x00000001, // GLSL450 0x00040015, // OpTypeInt 0x00000001, // %1 0x00000020, // 32 Bits 0x00000000, // Unsigned 0x0004002B, // OpConstant 0x00000001, // %1 0x00000002, // %2 0x00000001 // 1 }; const uint32_t expected_spirv[] = { 0x07230203, // Magic 0x00010100, // Version 1.1 0x00000000, // No Generator 0x00000001, // Bound 0x00000000, // Schema 0x00020011, // OpCapability 0x00000001, // Shader 0x00020011, // OpCapability 0x00000005, // Linkage 0x0003000E, // OpMemoryModel 0x00000000, // Logical 0x00000001 // GLSL450 }; auto optimizer = spvOptimizerCreate(SPV_ENV_UNIVERSAL_1_1); ASSERT_NE(optimizer, nullptr); EXPECT_TRUE(spvOptimizerRegisterPassFromFlag( optimizer, "--eliminate-dead-code-aggressive")); auto options = spvOptimizerOptionsCreate(); ASSERT_NE(options, nullptr); spvOptimizerOptionsSetRunValidator(options, false); spv_binary binary = nullptr; EXPECT_EQ(SPV_SUCCESS, spvOptimizerRun(optimizer, spirv, sizeof(spirv) / sizeof(uint32_t), &binary, options)); ASSERT_NE(binary, nullptr); spvOptimizerOptionsDestroy(options); // Unreferenced OpTypeInt and OpConstant should be removed EXPECT_EQ(binary->wordCount, sizeof(expected_spirv) / sizeof(uint32_t)); EXPECT_EQ(memcmp(binary->code, expected_spirv, sizeof(expected_spirv) / sizeof(uint32_t)), 0); spvBinaryDestroy(binary); spvOptimizerDestroy(optimizer); } TEST(OptimizerCInterface, DefaultConsumerPassesFromFlagsForValidInput) { const uint32_t spirv[] = { 0x07230203, // Magic 0x00010100, // Version 1.1 0x00000000, // No Generator 0x00000003, // Bound 0x00000000, // Schema 0x00020011, // OpCapability 0x00000001, // Shader 0x00020011, // OpCapability 0x00000005, // Linkage 0x0003000E, // OpMemoryModel 0x00000000, // Logical 0x00000001, // GLSL450 0x00040015, // OpTypeInt 0x00000001, // %1 0x00000020, // 32 Bits 0x00000000, // Unsigned 0x0004002B, // OpConstant 0x00000001, // %1 0x00000002, // %2 0x00000001 // 1 }; const uint32_t expected_spirv[] = { 0x07230203, // Magic 0x00010100, // Version 1.1 0x00000000, // No Generator 0x00000001, // Bound 0x00000000, // Schema 0x00020011, // OpCapability 0x00000001, // Shader 0x00020011, // OpCapability 0x00000005, // Linkage 0x0003000E, // OpMemoryModel 0x00000000, // Logical 0x00000001 // GLSL450 }; auto optimizer = spvOptimizerCreate(SPV_ENV_UNIVERSAL_1_1); ASSERT_NE(optimizer, nullptr); const char* flags[2] = { "--eliminate-dead-const", "--eliminate-dead-code-aggressive" }; EXPECT_TRUE(spvOptimizerRegisterPassesFromFlags( optimizer, flags, sizeof(flags) / sizeof(const char*))); auto options = spvOptimizerOptionsCreate(); ASSERT_NE(options, nullptr); spvOptimizerOptionsSetRunValidator(options, false); spv_binary binary = nullptr; EXPECT_EQ(SPV_SUCCESS, spvOptimizerRun(optimizer, spirv, sizeof(spirv) / sizeof(uint32_t), &binary, options)); ASSERT_NE(binary, nullptr); spvOptimizerOptionsDestroy(options); // Unreferenced OpTypeInt and OpConstant should be removed EXPECT_EQ(binary->wordCount, sizeof(expected_spirv) / sizeof(uint32_t)); EXPECT_EQ(memcmp(binary->code, expected_spirv, sizeof(expected_spirv) / sizeof(uint32_t)), 0); spvBinaryDestroy(binary); spvOptimizerDestroy(optimizer); } TEST(OptimizerCInterface, DefaultConsumerInvalidPassFromFlag) { auto optimizer = spvOptimizerCreate(SPV_ENV_UNIVERSAL_1_1); ASSERT_NE(optimizer, nullptr); EXPECT_FALSE(spvOptimizerRegisterPassFromFlag( optimizer, "--this-is-not-a-valid-pass")); spvOptimizerDestroy(optimizer); } TEST(OptimizerCInterface, DefaultConsumerInvalidPassesFromFlags) { auto optimizer = spvOptimizerCreate(SPV_ENV_UNIVERSAL_1_1); ASSERT_NE(optimizer, nullptr); const char* flags[2] = { "--eliminate-dead-const", "--this-is-not-a-valid-pass" }; EXPECT_FALSE(spvOptimizerRegisterPassesFromFlags( optimizer, flags, sizeof(flags) / sizeof(const char*))); spvOptimizerDestroy(optimizer); } } // namespace } // namespace spvtools