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kc3-lang/angle/src/tests/test_utils/angle_test_instantiate.h
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Author :
Gregg Tavares
Date : 2021-09-09 10:22:04
Hash : 085ab6e8
Message : Turn on Direct Metal tests Bug: angleproject:5505 Change-Id: I8de95f28698785e5467dd82d04cbc7636d6df042 Reviewed-on: https://chromium-review.googlesource.com/c/angle/angle/+/3152156 Commit-Queue: Gregg Tavares <gman@chromium.org> Reviewed-by: Kenneth Russell <kbr@chromium.org> Reviewed-by: Jamie Madill <jmadill@chromium.org>
- src/tests/test_utils/angle_test_instantiate.h
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// // Copyright 2014 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. // // angle_test_instantiate.h: Adds support for filtering parameterized // tests by platform, so we skip unsupported configs. #ifndef ANGLE_TEST_INSTANTIATE_H_ #define ANGLE_TEST_INSTANTIATE_H_ #include <gtest/gtest.h> #include "common/platform.h" namespace angle { struct SystemInfo; struct PlatformParameters; // Operating systems bool IsAndroid(); bool IsLinux(); bool IsOSX(); bool IsIOS(); bool IsOzone(); bool IsWindows(); bool IsWindows7(); bool IsFuchsia(); // CPU architectures bool IsARM64(); // Android devices bool IsNexus5X(); bool IsNexus9(); bool IsPixelXL(); bool IsPixel2(); bool IsPixel2XL(); bool IsPixel4(); bool IsNVIDIAShield(); // GPU vendors. bool IsIntel(); bool IsAMD(); bool IsARM(); bool IsNVIDIA(); bool IsQualcomm(); // GPU devices. bool IsSwiftshaderDevice(); bool IsIntelUHD630Mobile(); // Compiler configs. inline bool IsASan() { #if defined(ANGLE_WITH_ASAN) return true; #else return false; #endif // defined(ANGLE_WITH_ASAN) } inline bool IsTSan() { #if defined(THREAD_SANITIZER) return true; #else return false; #endif // defined(THREAD_SANITIZER) } bool IsPlatformAvailable(const PlatformParameters ¶m); // This functions is used to filter which tests should be registered, // T must be or inherit from angle::PlatformParameters. template <typename T> std::vector<T> FilterTestParams(const T *params, size_t numParams) { std::vector<T> filtered; for (size_t i = 0; i < numParams; i++) { if (IsPlatformAvailable(params[i])) { filtered.push_back(params[i]); } } return filtered; } template <typename T> std::vector<T> FilterTestParams(const std::vector<T> ¶ms) { return FilterTestParams(params.data(), params.size()); } // Used to generate valid test names out of testing::PrintToStringParamName used in combined tests. struct CombinedPrintToStringParamName { template <class ParamType> std::string operator()(const testing::TestParamInfo<ParamType> &info) const { std::string name = testing::PrintToStringParamName()(info); std::string sanitized; for (const char c : name) { if (c == ',') { sanitized += '_'; } else if (isalnum(c) || c == '_') { sanitized += c; } } return sanitized; } }; #define ANGLE_INSTANTIATE_TEST_PLATFORMS(testName, ...) \ testing::ValuesIn(::angle::FilterTestParams(testName##__VA_ARGS__##params, \ ArraySize(testName##__VA_ARGS__##params))) // Instantiate the test once for each extra argument. The types of all the // arguments must match, and getRenderer must be implemented for that type. #define ANGLE_INSTANTIATE_TEST(testName, first, ...) \ const decltype(first) testName##params[] = {first, ##__VA_ARGS__}; \ INSTANTIATE_TEST_SUITE_P(, testName, ANGLE_INSTANTIATE_TEST_PLATFORMS(testName), \ testing::PrintToStringParamName()) #define ANGLE_INSTANTIATE_TEST_ARRAY(testName, valuesin) \ INSTANTIATE_TEST_SUITE_P(, testName, testing::ValuesIn(::angle::FilterTestParams(valuesin)), \ testing::PrintToStringParamName()) #define ANGLE_ALL_TEST_PLATFORMS_ES1 \ ES1_D3D11(), ES1_OPENGL(), ES1_OPENGLES(), ES1_VULKAN(), ES1_VULKAN_SWIFTSHADER(), \ WithAsyncCommandQueueFeatureVulkan(ES1_VULKAN()) #define ANGLE_ALL_TEST_PLATFORMS_ES2 \ ES2_D3D9(), ES2_D3D11(), ES2_OPENGL(), ES2_OPENGLES(), ES2_VULKAN(), ES2_VULKAN_SWIFTSHADER(), \ ES2_METAL(), WithAsyncCommandQueueFeatureVulkan(ES2_VULKAN()), \ WithDirectMetalGeneration(ES2_METAL()) #define ANGLE_ALL_TEST_PLATFORMS_ES3 \ ES3_D3D11(), ES3_OPENGL(), ES3_OPENGLES(), ES3_VULKAN(), ES3_VULKAN_SWIFTSHADER(), \ ES3_METAL(), WithAsyncCommandQueueFeatureVulkan(ES3_VULKAN()), \ WithDirectMetalGeneration(ES3_METAL()) #define ANGLE_ALL_TEST_PLATFORMS_ES31 \ ES31_D3D11(), ES31_OPENGL(), ES31_OPENGLES(), ES31_VULKAN(), ES31_VULKAN_SWIFTSHADER(), \ WithAsyncCommandQueueFeatureVulkan(ES31_VULKAN()) #define ANGLE_ALL_TEST_PLATFORMS_ES32 \ ES32_VULKAN(), WithAsyncCommandQueueFeatureVulkan(ES32_VULKAN()) #define ANGLE_ALL_TEST_PLATFORMS_NULL ES2_NULL(), ES3_NULL(), ES31_NULL() // Instantiate the test once for each GLES1 platform #define ANGLE_INSTANTIATE_TEST_ES1(testName) \ const PlatformParameters testName##params[] = {ANGLE_ALL_TEST_PLATFORMS_ES1}; \ INSTANTIATE_TEST_SUITE_P(, testName, ANGLE_INSTANTIATE_TEST_PLATFORMS(testName), \ testing::PrintToStringParamName()) // Instantiate the test once for each GLES2 platform #define ANGLE_INSTANTIATE_TEST_ES2(testName) \ const PlatformParameters testName##params[] = {ANGLE_ALL_TEST_PLATFORMS_ES2}; \ INSTANTIATE_TEST_SUITE_P(, testName, ANGLE_INSTANTIATE_TEST_PLATFORMS(testName), \ testing::PrintToStringParamName()) #define ANGLE_INSTANTIATE_TEST_ES2_AND(testName, ...) \ const PlatformParameters testName##params[] = {ANGLE_ALL_TEST_PLATFORMS_ES2, __VA_ARGS__}; \ INSTANTIATE_TEST_SUITE_P(, testName, ANGLE_INSTANTIATE_TEST_PLATFORMS(testName), \ testing::PrintToStringParamName()) // Instantiate the test once for each GLES3 platform #define ANGLE_INSTANTIATE_TEST_ES3(testName) \ const PlatformParameters testName##params[] = {ANGLE_ALL_TEST_PLATFORMS_ES3}; \ INSTANTIATE_TEST_SUITE_P(, testName, ANGLE_INSTANTIATE_TEST_PLATFORMS(testName), \ testing::PrintToStringParamName()) #define ANGLE_INSTANTIATE_TEST_ES3_AND(testName, ...) \ const PlatformParameters testName##params[] = {ANGLE_ALL_TEST_PLATFORMS_ES3, __VA_ARGS__}; \ INSTANTIATE_TEST_SUITE_P(, testName, ANGLE_INSTANTIATE_TEST_PLATFORMS(testName), \ testing::PrintToStringParamName()) // Instantiate the test once for each GLES31 platform #define ANGLE_INSTANTIATE_TEST_ES31(testName) \ const PlatformParameters testName##params[] = {ANGLE_ALL_TEST_PLATFORMS_ES31}; \ INSTANTIATE_TEST_SUITE_P(, testName, ANGLE_INSTANTIATE_TEST_PLATFORMS(testName), \ testing::PrintToStringParamName()) #define ANGLE_INSTANTIATE_TEST_ES31_AND(testName, ...) \ const PlatformParameters testName##params[] = {ANGLE_ALL_TEST_PLATFORMS_ES31, __VA_ARGS__}; \ INSTANTIATE_TEST_SUITE_P(, testName, ANGLE_INSTANTIATE_TEST_PLATFORMS(testName), \ testing::PrintToStringParamName()) // Instantiate the test once for each GLES32 platform #define ANGLE_INSTANTIATE_TEST_ES32(testName) \ const PlatformParameters testName##params[] = {ANGLE_ALL_TEST_PLATFORMS_ES32}; \ INSTANTIATE_TEST_SUITE_P(, testName, ANGLE_INSTANTIATE_TEST_PLATFORMS(testName), \ testing::PrintToStringParamName()) #define ANGLE_INSTANTIATE_TEST_ES32_AND(testName, ...) \ const PlatformParameters testName##params[] = {ANGLE_ALL_TEST_PLATFORMS_ES32, __VA_ARGS__}; \ INSTANTIATE_TEST_SUITE_P(, testName, ANGLE_INSTANTIATE_TEST_PLATFORMS(testName), \ testing::PrintToStringParamName()) // Multiple ES Version macros #define ANGLE_INSTANTIATE_TEST_ES2_AND_ES3(testName) \ const PlatformParameters testName##params[] = {ANGLE_ALL_TEST_PLATFORMS_ES2, \ ANGLE_ALL_TEST_PLATFORMS_ES3}; \ INSTANTIATE_TEST_SUITE_P(, testName, ANGLE_INSTANTIATE_TEST_PLATFORMS(testName), \ testing::PrintToStringParamName()) #define ANGLE_INSTANTIATE_TEST_ES2_AND_ES3_AND(testName, ...) \ const PlatformParameters testName##params[] = {ANGLE_ALL_TEST_PLATFORMS_ES2, \ ANGLE_ALL_TEST_PLATFORMS_ES3, __VA_ARGS__}; \ INSTANTIATE_TEST_SUITE_P(, testName, ANGLE_INSTANTIATE_TEST_PLATFORMS(testName), \ testing::PrintToStringParamName()) #define ANGLE_INSTANTIATE_TEST_ES2_AND_ES3_AND_ES31(testName) \ const PlatformParameters testName##params[] = {ANGLE_ALL_TEST_PLATFORMS_ES2, \ ANGLE_ALL_TEST_PLATFORMS_ES3, \ ANGLE_ALL_TEST_PLATFORMS_ES31}; \ INSTANTIATE_TEST_SUITE_P(, testName, ANGLE_INSTANTIATE_TEST_PLATFORMS(testName), \ testing::PrintToStringParamName()) #define ANGLE_INSTANTIATE_TEST_ES2_AND_ES3_AND_ES31_AND_NULL(testName) \ const PlatformParameters testName##params[] = { \ ANGLE_ALL_TEST_PLATFORMS_ES2, ANGLE_ALL_TEST_PLATFORMS_ES3, ANGLE_ALL_TEST_PLATFORMS_ES31, \ ANGLE_ALL_TEST_PLATFORMS_NULL}; \ INSTANTIATE_TEST_SUITE_P(, testName, ANGLE_INSTANTIATE_TEST_PLATFORMS(testName), \ testing::PrintToStringParamName()) #define ANGLE_INSTANTIATE_TEST_ES3_AND_ES31(testName) \ const PlatformParameters testName##params[] = {ANGLE_ALL_TEST_PLATFORMS_ES3, \ ANGLE_ALL_TEST_PLATFORMS_ES31}; \ INSTANTIATE_TEST_SUITE_P(, testName, ANGLE_INSTANTIATE_TEST_PLATFORMS(testName), \ testing::PrintToStringParamName()) #define ANGLE_INSTANTIATE_TEST_ES3_AND_ES31_AND(testName, ...) \ const PlatformParameters testName##params[] = {ANGLE_ALL_TEST_PLATFORMS_ES3, \ ANGLE_ALL_TEST_PLATFORMS_ES31, __VA_ARGS__}; \ INSTANTIATE_TEST_SUITE_P(, testName, ANGLE_INSTANTIATE_TEST_PLATFORMS(testName), \ testing::PrintToStringParamName()) // Instantiate the test for a combination of N parameters and the // enumeration of platforms in the extra args, similar to // ANGLE_INSTANTIATE_TEST. The macros are defined only for the Ns // currently in use, and can be expanded as necessary. #define ANGLE_INSTANTIATE_TEST_COMBINE_1(testName, print, combine1, first, ...) \ const decltype(first) testName##params[] = {first, ##__VA_ARGS__}; \ INSTANTIATE_TEST_SUITE_P( \ , testName, testing::Combine(ANGLE_INSTANTIATE_TEST_PLATFORMS(testName), combine1), print) #define ANGLE_INSTANTIATE_TEST_COMBINE_4(testName, print, combine1, combine2, combine3, combine4, \ first, ...) \ const decltype(first) testName##params[] = {first, ##__VA_ARGS__}; \ INSTANTIATE_TEST_SUITE_P(, testName, \ testing::Combine(ANGLE_INSTANTIATE_TEST_PLATFORMS(testName), \ combine1, combine2, combine3, combine4), \ print) #define ANGLE_INSTANTIATE_TEST_COMBINE_5(testName, print, combine1, combine2, combine3, combine4, \ combine5, first, ...) \ const decltype(first) testName##params[] = {first, ##__VA_ARGS__}; \ INSTANTIATE_TEST_SUITE_P(, testName, \ testing::Combine(ANGLE_INSTANTIATE_TEST_PLATFORMS(testName), \ combine1, combine2, combine3, combine4, combine5), \ print) // Checks if a config is expected to be supported by checking a system-based allow list. bool IsConfigAllowlisted(const SystemInfo &systemInfo, const PlatformParameters ¶m); // Determines if a config is supported by trying to initialize it. Does // not require SystemInfo. bool IsConfigSupported(const PlatformParameters ¶m); // Returns shared test system information. Can be used globally in the // tests. SystemInfo *GetTestSystemInfo(); // Returns a list of all enabled test platform names. For use in // configuration enumeration. std::vector<std::string> GetAvailableTestPlatformNames(); // Active config (e.g. ES2_Vulkan). void SetSelectedConfig(const char *selectedConfig); bool IsConfigSelected(); // Check whether texture swizzle is natively supported on Metal device. bool IsMetalTextureSwizzleAvailable(); // Check whether TEXTURE_3D target is supported for compressed formats on Metal device. bool IsMetalCompressedTexture3DAvailable(); extern bool gEnableANGLEPerTestCaptureLabel; // For use with ANGLE_INSTANTIATE_TEST_ARRAY template <typename ParamsT> using ModifierFunc = std::function<ParamsT(const ParamsT &)>; template <typename ParamsT> std::vector<ParamsT> CombineWithFuncs(const std::vector<ParamsT> &in, const std::vector<ModifierFunc<ParamsT>> &modifiers) { std::vector<ParamsT> out; for (const ParamsT ¶msIn : in) { for (ModifierFunc<ParamsT> modifier : modifiers) { out.push_back(modifier(paramsIn)); } } return out; } template <typename ParamT, typename RangeT, typename ModifierT> std::vector<ParamT> CombineWithValues(const std::vector<ParamT> &in, RangeT begin, RangeT end, ParamT combine(const ParamT &, ModifierT)) { std::vector<ParamT> out; for (const ParamT ¶msIn : in) { for (auto iter = begin; iter != end; ++iter) { out.push_back(combine(paramsIn, *iter)); } } return out; } template <typename ParamT, typename ModifierT> std::vector<ParamT> CombineWithValues(const std::vector<ParamT> &in, const std::initializer_list<ModifierT> &modifiers, ParamT combine(const ParamT &, ModifierT)) { return CombineWithValues(in, modifiers.begin(), modifiers.end(), combine); } template <typename ParamT, typename ModifiersT, typename ModifierT> std::vector<ParamT> CombineWithValues(const std::vector<ParamT> &in, const ModifiersT &modifiers, ParamT combine(const ParamT &, ModifierT)) { return CombineWithValues(in, std::begin(modifiers), std::end(modifiers), combine); } template <typename ParamT, typename FilterFunc> std::vector<ParamT> FilterWithFunc(const std::vector<ParamT> &in, FilterFunc filter) { std::vector<ParamT> out; for (const ParamT ¶m : in) { if (filter(param)) { out.push_back(param); } } return out; } } // namespace angle #define ANGLE_SKIP_TEST_IF(COND) \ do \ { \ if (COND) \ { \ std::cout << "Test skipped: " #COND "." << std::endl; \ return; \ } \ } while (0) #endif // ANGLE_TEST_INSTANTIATE_H_