src/third_party/angle/src/tests/perf_tests/glmark2Benchmark.cpp - cobalt - Git at Google

 //
 // 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.
 //
 // glmark2Benchmark:
 //   Runs the glmark2 benchmark.
 //

 #include <gtest/gtest.h>

 #include <stdio.h>
 #include <sstream>

 #include "../perf_tests/third_party/perf/perf_result_reporter.h"
 #include "ANGLEPerfTestArgs.h"
 #include "common/platform.h"
 #include "common/system_utils.h"
 #include "test_utils/angle_test_configs.h"
 #include "test_utils/angle_test_instantiate.h"
 #include "util/test_utils.h"

 using namespace angle;

 namespace
 {

 struct BenchmarkInfo
 {
     const char *glmark2Config;
     const char *name;
 };

 // Each glmark2 scene is individually benchmarked.  If glmark2 is run without a specific benchmark,
 // it can produce an aggregate score, which is not interesting at the moment.  Adding an empty
 // string ("") to this list will enable a test where glmark2 is run with the default scenes and the
 // score for each test as well as the overall score is output.
 constexpr BenchmarkInfo kBenchmarks[] = {
     {"build:use-vbo=false", "build"},
     {"build:use-vbo=true", "build_vbo"},
     {"texture:texture-filter=nearest", "texture_nearest"},
     {"texture:texture-filter=linear", "texture_linear"},
     {"texture:texture-filter=mipmap", "texture_mipmap"},
     {"shading:shading=gouraud", "shading_gouraud"},
     {"shading:shading=blinn-phong-inf", "shading_blinn_phong"},
     {"shading:shading=phong", "shading_phong"},
     {"shading:shading=cel", "shading_cel"},
     {"bump:bump-render=high-poly", "bump_high_poly"},
     {"bump:bump-render=normals", "bump_normals"},
     {"bump:bump-render=height", "bump_height"},
     {"effect2d:kernel=0,1,0;1,-4,1;0,1,0;", "effect2d_edge"},
     {"effect2d:kernel=1,1,1,1,1;1,1,1,1,1;1,1,1,1,1;", "effect2d_blur"},
     {"pulsar:light=false:quads=5:texture=false", "pulsar"},
     {"desktop:blur-radius=5:effect=blur:passes=1:separable=true:windows=4", "desktop_blur"},
     {"desktop:effect=shadow:windows=4", "desktop_shadow"},
     {"buffer:columns=200:interleave=false:update-dispersion=0.9:update-fraction=0.5:update-method="
      "map",
      "buffer_map"},
     {"buffer:columns=200:interleave=false:update-dispersion=0.9:update-fraction=0.5:update-method="
      "subdata",
      "buffer_subdata"},
     {"buffer:columns=200:interleave=true:update-dispersion=0.9:update-fraction=0.5:update-method="
      "map",
      "buffer_map_interleave"},
     {"ideas:speed=duration", "ideas"},
     {"jellyfish", "jellyfish"},
     {"terrain", "terrain"},
     {"shadow", "shadow"},
     {"refract", "refract"},
     {"conditionals:fragment-steps=0:vertex-steps=0", "conditionals"},
     {"conditionals:fragment-steps=5:vertex-steps=0", "conditionals_fragment"},
     {"conditionals:fragment-steps=0:vertex-steps=5", "conditionals_vertex"},
     {"function:fragment-complexity=low:fragment-steps=5", "function"},
     {"function:fragment-complexity=medium:fragment-steps=5", "function_complex"},
     {"loop:fragment-loop=false:fragment-steps=5:vertex-steps=5", "loop_no_fsloop"},
     {"loop:fragment-steps=5:fragment-uniform=false:vertex-steps=5", "loop_no_uniform"},
     {"loop:fragment-steps=5:fragment-uniform=true:vertex-steps=5", "loop"},
 };

 using GLMark2BenchmarkTestParams = std::tuple<PlatformParameters, size_t>;
 std::string GLMark2BenchmarkPrint(
     const ::testing::TestParamInfo<GLMark2BenchmarkTestParams> &paramsInfo)
 {
     const GLMark2BenchmarkTestParams &params = paramsInfo.param;
     std::ostringstream out;

     out << std::get<0>(params) << '_';
     out << kBenchmarks[std::get<1>(params)].name;

     return out.str();
 }

 class GLMark2Benchmark : public testing::TestWithParam<GLMark2BenchmarkTestParams>
 {
   public:
     GLMark2Benchmark()
     {
         switch (std::get<0>(GetParam()).getRenderer())
         {
             case EGL_PLATFORM_ANGLE_TYPE_D3D11_ANGLE:
                 mBackend = "d3d11";
                 break;
             case EGL_PLATFORM_ANGLE_TYPE_OPENGLES_ANGLE:
                 mBackend = "gl";
                 break;
             case EGL_PLATFORM_ANGLE_TYPE_VULKAN_ANGLE:
                 mBackend = "vulkan";
                 break;
             default:
                 break;
         }
         std::string story = kBenchmarks[std::get<1>(GetParam())].name;
         mReporter = std::make_unique<perf_test::PerfResultReporter>("glmark2_" + mBackend, story);
         mReporter->RegisterImportantMetric(".fps", "fps");
         mReporter->RegisterImportantMetric(".score", "score");
     }

     void run()
     {
         // Only supported on Linux and Windows at the moment.
         if (!IsLinux() && !IsWindows())
         {
             return;
         }

         const BenchmarkInfo benchmarkInfo = kBenchmarks[std::get<1>(GetParam())];
         const char *benchmark             = benchmarkInfo.glmark2Config;
         const char *benchmarkName         = benchmarkInfo.name;
         bool completeRun                  = benchmark == nullptr || benchmark[0] == '\0';

         Optional<std::string> cwd = GetCWD();

         // Set the current working directory to the executable's, as the data path of glmark2 is
         // set relative to that path.
         std::string executableDir = GetExecutableDirectory();
         SetCWD(executableDir.c_str());
         SetEnvironmentVar("ANGLE_DEFAULT_PLATFORM", mBackend.c_str());

         std::vector<const char *> args = {
             "glmark2_angle",
         };
         if (OneFrame())
         {
             args.push_back("--validate");
         }
         if (!completeRun)
         {
             args.push_back("--benchmark");
             args.push_back(benchmark);
             fprintf(stderr, "Running benchmark: %s\n", benchmark);
         }
         args.push_back(nullptr);

         ProcessHandle process(args, true, false);
         ASSERT_TRUE(process && process->started());
         ASSERT_TRUE(process->finish());

         // Restore the current working directory for the next tests.
         if (cwd.valid())
         {
             SetCWD(cwd.value().c_str());
         }

         ASSERT_EQ(EXIT_SUCCESS, process->getExitCode());

         if (!OneFrame())
         {
             std::string output = process->getStdout();
             parseOutput(output, benchmarkName, completeRun);
         }
     }

   private:
     void parseOutput(const std::string &output, const char *benchmarkName, bool completeRun)
     {
         // Output is in the following format:
         //
         // =======================================================
         //     glmark2 2017.07
         // =======================================================
         //     OpenGL Information
         //     GL_VENDOR:     ...
         //     GL_RENDERER:   ...
         //     GL_VERSION:    ...
         // =======================================================
         // [test] config: FPS: uint FrameTime: float ms
         // [test] config: Not Supported
         // ...
         // =======================================================
         //                                   glmark2 Score: uint
         // =======================================================
         //
         // This function skips the header, prints one line for each test/config line where there's
         // an FPS value, and finally prints the overall score.
         std::istringstream glmark2Output(output);
         std::string line;

         // Expect ==== at the top of the header
         std::getline(glmark2Output, line);
         ASSERT_EQ('=', line[0]);

         // Skip one line
         std::getline(glmark2Output, line);

         // Expect ==== in the middle of the header
         std::getline(glmark2Output, line);
         ASSERT_EQ('=', line[0]);

         // Skip four lines
         std::getline(glmark2Output, line);
         std::getline(glmark2Output, line);
         std::getline(glmark2Output, line);
         std::getline(glmark2Output, line);

         // The fourth line is the GL_VERSION.  Expect it to include ANGLE, otherwise we are not
         // running against ANGLE.
         ASSERT_NE(line.find("ANGLE"), std::string::npos);

         // Expect ==== at the bottom of the header
         std::getline(glmark2Output, line);
         ASSERT_EQ('=', line[0]);

         // Read configs until the top of the footer is reached
         while (std::getline(glmark2Output, line) && line[0] != '=')
         {
             // Parse the line
             std::istringstream lin(line);

             std::string testName, testConfig;
             lin >> testName >> testConfig;
             EXPECT_TRUE(lin);

             std::string fpsTag, frametimeTag;
             size_t fps;
             float frametime;

             lin >> fpsTag >> fps >> frametimeTag >> frametime;

             // If the line is not in `FPS: uint FrameTime: Float ms` format, the test is not
             // supported.  It will be skipped.
             if (!lin)
             {
                 continue;
             }

             EXPECT_EQ("FPS:", fpsTag);
             EXPECT_EQ("FrameTime:", frametimeTag);

             if (!completeRun)
             {
                 mReporter->AddResult(".fps", fps);
             }
         }

         // Get the score line: `glmark2 Score: uint`
         std::string glmark2Tag, scoreTag;
         size_t score;
         glmark2Output >> glmark2Tag >> scoreTag >> score;
         EXPECT_TRUE(glmark2Output);
         EXPECT_EQ("glmark2", glmark2Tag);
         EXPECT_EQ("Score:", scoreTag);

         if (completeRun)
         {
             mReporter->AddResult(".score", score);
         }
     }

     std::string mBackend = "invalid";
     std::unique_ptr<perf_test::PerfResultReporter> mReporter;
 };

 TEST_P(GLMark2Benchmark, Run)
 {
     run();
 }

 ANGLE_INSTANTIATE_TEST_COMBINE_1(GLMark2Benchmark,
                                  GLMark2BenchmarkPrint,
                                  testing::Range(static_cast<size_t>(0), ArraySize(kBenchmarks)),
                                  ES2_D3D11(),
                                  ES2_OPENGLES(),
                                  ES2_VULKAN());

 }  // namespace
	//
	// 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.
	//
	// glmark2Benchmark:
	// Runs the glmark2 benchmark.
	//

	#include <gtest/gtest.h>

	#include <stdio.h>
	#include <sstream>

	#include "../perf_tests/third_party/perf/perf_result_reporter.h"
	#include "ANGLEPerfTestArgs.h"
	#include "common/platform.h"
	#include "common/system_utils.h"
	#include "test_utils/angle_test_configs.h"
	#include "test_utils/angle_test_instantiate.h"
	#include "util/test_utils.h"

	using namespace angle;

	namespace
	{

	struct BenchmarkInfo
	{
	const char *glmark2Config;
	const char *name;
	};

	// Each glmark2 scene is individually benchmarked. If glmark2 is run without a specific benchmark,
	// it can produce an aggregate score, which is not interesting at the moment. Adding an empty
	// string ("") to this list will enable a test where glmark2 is run with the default scenes and the
	// score for each test as well as the overall score is output.
	constexpr BenchmarkInfo kBenchmarks[] = {
	{"build:use-vbo=false", "build"},
	{"build:use-vbo=true", "build_vbo"},
	{"texture:texture-filter=nearest", "texture_nearest"},
	{"texture:texture-filter=linear", "texture_linear"},
	{"texture:texture-filter=mipmap", "texture_mipmap"},
	{"shading:shading=gouraud", "shading_gouraud"},
	{"shading:shading=blinn-phong-inf", "shading_blinn_phong"},
	{"shading:shading=phong", "shading_phong"},
	{"shading:shading=cel", "shading_cel"},
	{"bump:bump-render=high-poly", "bump_high_poly"},
	{"bump:bump-render=normals", "bump_normals"},
	{"bump:bump-render=height", "bump_height"},
	{"effect2d:kernel=0,1,0;1,-4,1;0,1,0;", "effect2d_edge"},
	{"effect2d:kernel=1,1,1,1,1;1,1,1,1,1;1,1,1,1,1;", "effect2d_blur"},
	{"pulsar:light=false:quads=5:texture=false", "pulsar"},
	{"desktop:blur-radius=5:effect=blur:passes=1:separable=true:windows=4", "desktop_blur"},
	{"desktop:effect=shadow:windows=4", "desktop_shadow"},
	{"buffer:columns=200:interleave=false:update-dispersion=0.9:update-fraction=0.5:update-method="
	"map",
	"buffer_map"},
	{"buffer:columns=200:interleave=false:update-dispersion=0.9:update-fraction=0.5:update-method="
	"subdata",
	"buffer_subdata"},
	{"buffer:columns=200:interleave=true:update-dispersion=0.9:update-fraction=0.5:update-method="
	"map",
	"buffer_map_interleave"},
	{"ideas:speed=duration", "ideas"},
	{"jellyfish", "jellyfish"},
	{"terrain", "terrain"},
	{"shadow", "shadow"},
	{"refract", "refract"},
	{"conditionals:fragment-steps=0:vertex-steps=0", "conditionals"},
	{"conditionals:fragment-steps=5:vertex-steps=0", "conditionals_fragment"},
	{"conditionals:fragment-steps=0:vertex-steps=5", "conditionals_vertex"},
	{"function:fragment-complexity=low:fragment-steps=5", "function"},
	{"function:fragment-complexity=medium:fragment-steps=5", "function_complex"},
	{"loop:fragment-loop=false:fragment-steps=5:vertex-steps=5", "loop_no_fsloop"},
	{"loop:fragment-steps=5:fragment-uniform=false:vertex-steps=5", "loop_no_uniform"},
	{"loop:fragment-steps=5:fragment-uniform=true:vertex-steps=5", "loop"},
	};

	using GLMark2BenchmarkTestParams = std::tuple<PlatformParameters, size_t>;
	std::string GLMark2BenchmarkPrint(
	const ::testing::TestParamInfo<GLMark2BenchmarkTestParams> &paramsInfo)
	{
	const GLMark2BenchmarkTestParams &params = paramsInfo.param;
	std::ostringstream out;

	out << std::get<0>(params) << '_';
	out << kBenchmarks[std::get<1>(params)].name;

	return out.str();
	}

	class GLMark2Benchmark : public testing::TestWithParam<GLMark2BenchmarkTestParams>
	{
	public:
	GLMark2Benchmark()
	{
	switch (std::get<0>(GetParam()).getRenderer())
	{
	case EGL_PLATFORM_ANGLE_TYPE_D3D11_ANGLE:
	mBackend = "d3d11";
	break;
	case EGL_PLATFORM_ANGLE_TYPE_OPENGLES_ANGLE:
	mBackend = "gl";
	break;
	case EGL_PLATFORM_ANGLE_TYPE_VULKAN_ANGLE:
	mBackend = "vulkan";
	break;
	default:
	break;
	}
	std::string story = kBenchmarks[std::get<1>(GetParam())].name;
	mReporter = std::make_unique<perf_test::PerfResultReporter>("glmark2_" + mBackend, story);
	mReporter->RegisterImportantMetric(".fps", "fps");
	mReporter->RegisterImportantMetric(".score", "score");
	}

	void run()
	{
	// Only supported on Linux and Windows at the moment.
	if (!IsLinux() && !IsWindows())
	{
	return;
	}

	const BenchmarkInfo benchmarkInfo = kBenchmarks[std::get<1>(GetParam())];
	const char *benchmark = benchmarkInfo.glmark2Config;
	const char *benchmarkName = benchmarkInfo.name;
	bool completeRun = benchmark == nullptr \|\| benchmark[0] == '\0';

	Optional<std::string> cwd = GetCWD();

	// Set the current working directory to the executable's, as the data path of glmark2 is
	// set relative to that path.
	std::string executableDir = GetExecutableDirectory();
	SetCWD(executableDir.c_str());
	SetEnvironmentVar("ANGLE_DEFAULT_PLATFORM", mBackend.c_str());

	std::vector<const char *> args = {
	"glmark2_angle",
	};
	if (OneFrame())
	{
	args.push_back("--validate");
	}
	if (!completeRun)
	{
	args.push_back("--benchmark");
	args.push_back(benchmark);
	fprintf(stderr, "Running benchmark: %s\n", benchmark);
	}
	args.push_back(nullptr);

	ProcessHandle process(args, true, false);
	ASSERT_TRUE(process && process->started());
	ASSERT_TRUE(process->finish());

	// Restore the current working directory for the next tests.
	if (cwd.valid())
	{
	SetCWD(cwd.value().c_str());
	}

	ASSERT_EQ(EXIT_SUCCESS, process->getExitCode());

	if (!OneFrame())
	{
	std::string output = process->getStdout();
	parseOutput(output, benchmarkName, completeRun);
	}
	}

	private:
	void parseOutput(const std::string &output, const char *benchmarkName, bool completeRun)
	{
	// Output is in the following format:
	//
	// =======================================================
	// glmark2 2017.07
	// =======================================================
	// OpenGL Information
	// GL_VENDOR: ...
	// GL_RENDERER: ...
	// GL_VERSION: ...
	// =======================================================
	// [test] config: FPS: uint FrameTime: float ms
	// [test] config: Not Supported
	// ...
	// =======================================================
	// glmark2 Score: uint
	// =======================================================
	//
	// This function skips the header, prints one line for each test/config line where there's
	// an FPS value, and finally prints the overall score.
	std::istringstream glmark2Output(output);
	std::string line;

	// Expect ==== at the top of the header
	std::getline(glmark2Output, line);
	ASSERT_EQ('=', line[0]);

	// Skip one line
	std::getline(glmark2Output, line);

	// Expect ==== in the middle of the header
	std::getline(glmark2Output, line);
	ASSERT_EQ('=', line[0]);

	// Skip four lines
	std::getline(glmark2Output, line);
	std::getline(glmark2Output, line);
	std::getline(glmark2Output, line);
	std::getline(glmark2Output, line);

	// The fourth line is the GL_VERSION. Expect it to include ANGLE, otherwise we are not
	// running against ANGLE.
	ASSERT_NE(line.find("ANGLE"), std::string::npos);

	// Expect ==== at the bottom of the header
	std::getline(glmark2Output, line);
	ASSERT_EQ('=', line[0]);

	// Read configs until the top of the footer is reached
	while (std::getline(glmark2Output, line) && line[0] != '=')
	{
	// Parse the line
	std::istringstream lin(line);

	std::string testName, testConfig;
	lin >> testName >> testConfig;
	EXPECT_TRUE(lin);

	std::string fpsTag, frametimeTag;
	size_t fps;
	float frametime;

	lin >> fpsTag >> fps >> frametimeTag >> frametime;

	// If the line is not in `FPS: uint FrameTime: Float ms` format, the test is not
	// supported. It will be skipped.
	if (!lin)
	{
	continue;
	}

	EXPECT_EQ("FPS:", fpsTag);
	EXPECT_EQ("FrameTime:", frametimeTag);

	if (!completeRun)
	{
	mReporter->AddResult(".fps", fps);
	}
	}

	// Get the score line: `glmark2 Score: uint`
	std::string glmark2Tag, scoreTag;
	size_t score;
	glmark2Output >> glmark2Tag >> scoreTag >> score;
	EXPECT_TRUE(glmark2Output);
	EXPECT_EQ("glmark2", glmark2Tag);
	EXPECT_EQ("Score:", scoreTag);

	if (completeRun)
	{
	mReporter->AddResult(".score", score);
	}
	}

	std::string mBackend = "invalid";
	std::unique_ptr<perf_test::PerfResultReporter> mReporter;
	};

	TEST_P(GLMark2Benchmark, Run)
	{
	run();
	}

	ANGLE_INSTANTIATE_TEST_COMBINE_1(GLMark2Benchmark,
	GLMark2BenchmarkPrint,
	testing::Range(static_cast<size_t>(0), ArraySize(kBenchmarks)),
	ES2_D3D11(),
	ES2_OPENGLES(),
	ES2_VULKAN());

	} // namespace