src/third_party/angle/src/tests/gl_tests/RendererTest.cpp - cobalt - Git at Google

 //
 // 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.
 //
 // RendererTest:
 //   These tests are designed to ensure that the various configurations of the test fixtures work as expected.
 //   If one of these tests fails, then it is likely that some of the other tests are being configured incorrectly.
 //   For example, they might be using the D3D11 renderer when the test is meant to be using the D3D9 renderer.

 #include "test_utils/ANGLETest.h"

 using namespace angle;

 namespace
 {

 class RendererTest : public ANGLETest
 {
   protected:
     RendererTest()
     {
         setWindowWidth(128);
         setWindowHeight(128);
     }
 };

 TEST_P(RendererTest, RequestedRendererCreated)
 {
     std::string rendererString = std::string(reinterpret_cast<const char*>(glGetString(GL_RENDERER)));
     std::transform(rendererString.begin(), rendererString.end(), rendererString.begin(), ::tolower);

     std::string versionString = std::string(reinterpret_cast<const char*>(glGetString(GL_VERSION)));
     std::transform(versionString.begin(), versionString.end(), versionString.begin(), ::tolower);

     const EGLPlatformParameters &platform = GetParam().eglParameters;

     // Ensure that the renderer string contains D3D11, if we requested a D3D11 renderer.
     if (platform.renderer == EGL_PLATFORM_ANGLE_TYPE_D3D11_ANGLE)
     {
         ASSERT_NE(rendererString.find(std::string("direct3d11")), std::string::npos);
     }

     // Ensure that the renderer string contains D3D9, if we requested a D3D9 renderer.
     if (platform.renderer == EGL_PLATFORM_ANGLE_TYPE_D3D9_ANGLE)
     {
         ASSERT_NE(rendererString.find(std::string("direct3d9")), std::string::npos);
     }

     // Ensure that the major and minor versions trigger expected behavior in D3D11
     if (platform.renderer == EGL_PLATFORM_ANGLE_TYPE_D3D11_ANGLE)
     {
         // Ensure that the renderer uses WARP, if we requested it.
         if (platform.deviceType == EGL_PLATFORM_ANGLE_DEVICE_TYPE_WARP_ANGLE)
         {
             auto basicRenderPos = rendererString.find(std::string("microsoft basic render"));
             auto softwareAdapterPos = rendererString.find(std::string("software adapter"));
             ASSERT_TRUE(basicRenderPos != std::string::npos || softwareAdapterPos != std::string::npos);
         }

         std::vector<std::string> acceptableShaderModels;

         // When no specific major/minor version is requested, then ANGLE should return the highest possible feature level by default.
         // The current hardware driver might not support Feature Level 11_0, but WARP always does.
         // Therefore if WARP is specified but no major/minor version is specified, then we test to check that ANGLE returns FL11_0.
         if (platform.majorVersion >= 11 || platform.majorVersion == EGL_DONT_CARE)
         {
             // Feature Level 10_0 corresponds to shader model 5_0
             acceptableShaderModels.push_back("ps_5_0");
         }

         if (platform.majorVersion >= 10 || platform.majorVersion == EGL_DONT_CARE)
         {
             if (platform.minorVersion >= 1 || platform.minorVersion == EGL_DONT_CARE)
             {
                 // Feature Level 10_1 corresponds to shader model 4_1
                 acceptableShaderModels.push_back("ps_4_1");
             }

             if (platform.minorVersion >= 0 || platform.minorVersion == EGL_DONT_CARE)
             {
                 // Feature Level 10_0 corresponds to shader model 4_0
                 acceptableShaderModels.push_back("ps_4_0");
             }
         }

         if (platform.majorVersion == 9 && platform.minorVersion == 3)
         {
             acceptableShaderModels.push_back("ps_4_0_level_9_3");
         }

         bool found = false;
         for (size_t i = 0; i < acceptableShaderModels.size(); i++)
         {
             if (rendererString.find(acceptableShaderModels[i]) != std::string::npos)
             {
                 found = true;
             }
         }

         ASSERT_TRUE(found);
     }

     if (platform.renderer == EGL_PLATFORM_ANGLE_TYPE_NULL_ANGLE)
     {
         ASSERT_TRUE(IsNULL());
     }

     if (platform.renderer == EGL_PLATFORM_ANGLE_TYPE_VULKAN_ANGLE)
     {
         ASSERT_TRUE(IsVulkan());
     }

     EGLint glesMajorVersion = GetParam().majorVersion;
     EGLint glesMinorVersion = GetParam().minorVersion;

     // Ensure that the renderer string contains the requested version number
     if (glesMajorVersion == 3 && glesMinorVersion == 1)
     {
         ASSERT_NE(versionString.find(std::string("es 3.1")), std::string::npos);
     }
     else if (glesMajorVersion == 3 && glesMinorVersion == 0)
     {
         ASSERT_NE(versionString.find(std::string("es 3.0")), std::string::npos);
     }
     else if (glesMajorVersion == 2 && glesMinorVersion == 0)
     {
         ASSERT_NE(versionString.find(std::string("es 2.0")), std::string::npos);
     }
     else
     {
         FAIL() << "Unhandled GL ES client version.";
     }

     ASSERT_GL_NO_ERROR();
     ASSERT_EGL_SUCCESS();
 }

 // Perform a simple operation (clear and read pixels) to verify the device is working
 TEST_P(RendererTest, SimpleOperation)
 {
     if (IsNULL())
     {
         std::cout << "ANGLE NULL backend clears are not functional" << std::endl;
         return;
     }

     glClearColor(0.0f, 1.0f, 0.0f, 1.0f);
     glClear(GL_COLOR_BUFFER_BIT);
     EXPECT_PIXEL_EQ(0, 0, 0, 255, 0, 255);

     ASSERT_GL_NO_ERROR();
 }

 // Select configurations (e.g. which renderer, which GLES major version) these tests should be run against.

 ANGLE_INSTANTIATE_TEST(RendererTest,
                        // ES2 on top of D3D9
                        ES2_D3D9(),
                        ES2_D3D9_REFERENCE(),

                        // ES2 on top of D3D11 feature level 9.3 to 11.0
                        ES2_D3D11(),
                        ES2_D3D11_FL11_0(),
                        ES2_D3D11_FL10_1(),
                        ES2_D3D11_FL10_0(),
                        ES2_D3D11_FL9_3(),

                        // ES2 on top of D3D11 WARP feature level 9.3 to 11.0
                        ES2_D3D11_WARP(),
                        ES2_D3D11_FL11_0_WARP(),
                        ES2_D3D11_FL10_1_WARP(),
                        ES2_D3D11_FL10_0_WARP(),
                        ES2_D3D11_FL9_3_WARP(),

                        // ES2 on top of D3D11 reference feature level 9.3 to 11.0
                        ES2_D3D11_REFERENCE(),
                        ES2_D3D11_FL11_0_REFERENCE(),
                        ES2_D3D11_FL10_1_REFERENCE(),
                        ES2_D3D11_FL10_0_REFERENCE(),
                        ES2_D3D11_FL9_3_REFERENCE(),

                        // ES3 on top of D3D11.
                        ES3_D3D11(),
                        ES3_D3D11_FL11_0(),
                        ES3_D3D11_FL10_1(),

                        // ES3 on top of D3D11 WARP.
                        ES3_D3D11_WARP(),
                        ES3_D3D11_FL11_0_WARP(),
                        ES3_D3D11_FL10_1_WARP(),

                        // ES3 on top of the D3D11 reference rasterizer.
                        ES3_D3D11_REFERENCE(),
                        ES3_D3D11_FL11_0_REFERENCE(),
                        ES3_D3D11_FL10_1_REFERENCE(),

                        // ES2 on top of desktop OpenGL versions 2.1 to 4.5
                        ES2_OPENGL(),
                        ES2_OPENGL(2, 1),
                        ES2_OPENGL(3, 0),
                        ES2_OPENGL(3, 1),
                        ES2_OPENGL(3, 2),
                        ES2_OPENGL(3, 3),
                        ES2_OPENGL(4, 0),
                        ES2_OPENGL(4, 1),
                        ES2_OPENGL(4, 2),
                        ES2_OPENGL(4, 3),
                        ES2_OPENGL(4, 4),
                        ES2_OPENGL(4, 5),

                        // ES2 on top of desktop OpenGL versions 3.2 to 4.5
                        ES3_OPENGL(),
                        ES3_OPENGL(3, 2),
                        ES3_OPENGL(3, 3),
                        ES3_OPENGL(4, 0),
                        ES3_OPENGL(4, 1),
                        ES3_OPENGL(4, 2),
                        ES3_OPENGL(4, 3),
                        ES3_OPENGL(4, 4),
                        ES3_OPENGL(4, 5),

                        // ES2 on top of OpenGL ES 2.0 to 3.2
                        ES2_OPENGLES(),
                        ES2_OPENGLES(2, 0),
                        ES2_OPENGLES(3, 0),
                        ES2_OPENGLES(3, 1),
                        ES2_OPENGLES(3, 2),

                        // ES2 on top of OpenGL ES 3.0 to 3.2
                        ES3_OPENGLES(),
                        ES3_OPENGLES(3, 0),
                        ES3_OPENGLES(3, 1),
                        ES3_OPENGLES(3, 2),

                        // All ES version on top of the NULL backend
                        ES2_NULL(),
                        ES3_NULL(),
                        ES31_NULL(),

                        // ES on top of Vulkan
                        ES2_VULKAN());
 }  // anonymous namespace
	//
	// 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.
	//
	// RendererTest:
	// These tests are designed to ensure that the various configurations of the test fixtures work as expected.
	// If one of these tests fails, then it is likely that some of the other tests are being configured incorrectly.
	// For example, they might be using the D3D11 renderer when the test is meant to be using the D3D9 renderer.

	#include "test_utils/ANGLETest.h"

	using namespace angle;

	namespace
	{

	class RendererTest : public ANGLETest
	{
	protected:
	RendererTest()
	{
	setWindowWidth(128);
	setWindowHeight(128);
	}
	};

	TEST_P(RendererTest, RequestedRendererCreated)
	{
	std::string rendererString = std::string(reinterpret_cast<const char*>(glGetString(GL_RENDERER)));
	std::transform(rendererString.begin(), rendererString.end(), rendererString.begin(), ::tolower);

	std::string versionString = std::string(reinterpret_cast<const char*>(glGetString(GL_VERSION)));
	std::transform(versionString.begin(), versionString.end(), versionString.begin(), ::tolower);

	const EGLPlatformParameters &platform = GetParam().eglParameters;

	// Ensure that the renderer string contains D3D11, if we requested a D3D11 renderer.
	if (platform.renderer == EGL_PLATFORM_ANGLE_TYPE_D3D11_ANGLE)
	{
	ASSERT_NE(rendererString.find(std::string("direct3d11")), std::string::npos);
	}

	// Ensure that the renderer string contains D3D9, if we requested a D3D9 renderer.
	if (platform.renderer == EGL_PLATFORM_ANGLE_TYPE_D3D9_ANGLE)
	{
	ASSERT_NE(rendererString.find(std::string("direct3d9")), std::string::npos);
	}

	// Ensure that the major and minor versions trigger expected behavior in D3D11
	if (platform.renderer == EGL_PLATFORM_ANGLE_TYPE_D3D11_ANGLE)
	{
	// Ensure that the renderer uses WARP, if we requested it.
	if (platform.deviceType == EGL_PLATFORM_ANGLE_DEVICE_TYPE_WARP_ANGLE)
	{
	auto basicRenderPos = rendererString.find(std::string("microsoft basic render"));
	auto softwareAdapterPos = rendererString.find(std::string("software adapter"));
	ASSERT_TRUE(basicRenderPos != std::string::npos \|\| softwareAdapterPos != std::string::npos);
	}

	std::vector<std::string> acceptableShaderModels;

	// When no specific major/minor version is requested, then ANGLE should return the highest possible feature level by default.
	// The current hardware driver might not support Feature Level 11_0, but WARP always does.
	// Therefore if WARP is specified but no major/minor version is specified, then we test to check that ANGLE returns FL11_0.
	if (platform.majorVersion >= 11 \|\| platform.majorVersion == EGL_DONT_CARE)
	{
	// Feature Level 10_0 corresponds to shader model 5_0
	acceptableShaderModels.push_back("ps_5_0");
	}

	if (platform.majorVersion >= 10 \|\| platform.majorVersion == EGL_DONT_CARE)
	{
	if (platform.minorVersion >= 1 \|\| platform.minorVersion == EGL_DONT_CARE)
	{
	// Feature Level 10_1 corresponds to shader model 4_1
	acceptableShaderModels.push_back("ps_4_1");
	}

	if (platform.minorVersion >= 0 \|\| platform.minorVersion == EGL_DONT_CARE)
	{
	// Feature Level 10_0 corresponds to shader model 4_0
	acceptableShaderModels.push_back("ps_4_0");
	}
	}

	if (platform.majorVersion == 9 && platform.minorVersion == 3)
	{
	acceptableShaderModels.push_back("ps_4_0_level_9_3");
	}

	bool found = false;
	for (size_t i = 0; i < acceptableShaderModels.size(); i++)
	{
	if (rendererString.find(acceptableShaderModels[i]) != std::string::npos)
	{
	found = true;
	}
	}

	ASSERT_TRUE(found);
	}

	if (platform.renderer == EGL_PLATFORM_ANGLE_TYPE_NULL_ANGLE)
	{
	ASSERT_TRUE(IsNULL());
	}

	if (platform.renderer == EGL_PLATFORM_ANGLE_TYPE_VULKAN_ANGLE)
	{
	ASSERT_TRUE(IsVulkan());
	}

	EGLint glesMajorVersion = GetParam().majorVersion;
	EGLint glesMinorVersion = GetParam().minorVersion;

	// Ensure that the renderer string contains the requested version number
	if (glesMajorVersion == 3 && glesMinorVersion == 1)
	{
	ASSERT_NE(versionString.find(std::string("es 3.1")), std::string::npos);
	}
	else if (glesMajorVersion == 3 && glesMinorVersion == 0)
	{
	ASSERT_NE(versionString.find(std::string("es 3.0")), std::string::npos);
	}
	else if (glesMajorVersion == 2 && glesMinorVersion == 0)
	{
	ASSERT_NE(versionString.find(std::string("es 2.0")), std::string::npos);
	}
	else
	{
	FAIL() << "Unhandled GL ES client version.";
	}

	ASSERT_GL_NO_ERROR();
	ASSERT_EGL_SUCCESS();
	}

	// Perform a simple operation (clear and read pixels) to verify the device is working
	TEST_P(RendererTest, SimpleOperation)
	{
	if (IsNULL())
	{
	std::cout << "ANGLE NULL backend clears are not functional" << std::endl;
	return;
	}

	glClearColor(0.0f, 1.0f, 0.0f, 1.0f);
	glClear(GL_COLOR_BUFFER_BIT);
	EXPECT_PIXEL_EQ(0, 0, 0, 255, 0, 255);

	ASSERT_GL_NO_ERROR();
	}

	// Select configurations (e.g. which renderer, which GLES major version) these tests should be run against.

	ANGLE_INSTANTIATE_TEST(RendererTest,
	// ES2 on top of D3D9
	ES2_D3D9(),
	ES2_D3D9_REFERENCE(),

	// ES2 on top of D3D11 feature level 9.3 to 11.0
	ES2_D3D11(),
	ES2_D3D11_FL11_0(),
	ES2_D3D11_FL10_1(),
	ES2_D3D11_FL10_0(),
	ES2_D3D11_FL9_3(),

	// ES2 on top of D3D11 WARP feature level 9.3 to 11.0
	ES2_D3D11_WARP(),
	ES2_D3D11_FL11_0_WARP(),
	ES2_D3D11_FL10_1_WARP(),
	ES2_D3D11_FL10_0_WARP(),
	ES2_D3D11_FL9_3_WARP(),

	// ES2 on top of D3D11 reference feature level 9.3 to 11.0
	ES2_D3D11_REFERENCE(),
	ES2_D3D11_FL11_0_REFERENCE(),
	ES2_D3D11_FL10_1_REFERENCE(),
	ES2_D3D11_FL10_0_REFERENCE(),
	ES2_D3D11_FL9_3_REFERENCE(),

	// ES3 on top of D3D11.
	ES3_D3D11(),
	ES3_D3D11_FL11_0(),
	ES3_D3D11_FL10_1(),

	// ES3 on top of D3D11 WARP.
	ES3_D3D11_WARP(),
	ES3_D3D11_FL11_0_WARP(),
	ES3_D3D11_FL10_1_WARP(),

	// ES3 on top of the D3D11 reference rasterizer.
	ES3_D3D11_REFERENCE(),
	ES3_D3D11_FL11_0_REFERENCE(),
	ES3_D3D11_FL10_1_REFERENCE(),

	// ES2 on top of desktop OpenGL versions 2.1 to 4.5
	ES2_OPENGL(),
	ES2_OPENGL(2, 1),
	ES2_OPENGL(3, 0),
	ES2_OPENGL(3, 1),
	ES2_OPENGL(3, 2),
	ES2_OPENGL(3, 3),
	ES2_OPENGL(4, 0),
	ES2_OPENGL(4, 1),
	ES2_OPENGL(4, 2),
	ES2_OPENGL(4, 3),
	ES2_OPENGL(4, 4),
	ES2_OPENGL(4, 5),

	// ES2 on top of desktop OpenGL versions 3.2 to 4.5
	ES3_OPENGL(),
	ES3_OPENGL(3, 2),
	ES3_OPENGL(3, 3),
	ES3_OPENGL(4, 0),
	ES3_OPENGL(4, 1),
	ES3_OPENGL(4, 2),
	ES3_OPENGL(4, 3),
	ES3_OPENGL(4, 4),
	ES3_OPENGL(4, 5),

	// ES2 on top of OpenGL ES 2.0 to 3.2
	ES2_OPENGLES(),
	ES2_OPENGLES(2, 0),
	ES2_OPENGLES(3, 0),
	ES2_OPENGLES(3, 1),
	ES2_OPENGLES(3, 2),

	// ES2 on top of OpenGL ES 3.0 to 3.2
	ES3_OPENGLES(),
	ES3_OPENGLES(3, 0),
	ES3_OPENGLES(3, 1),
	ES3_OPENGLES(3, 2),

	// All ES version on top of the NULL backend
	ES2_NULL(),
	ES3_NULL(),
	ES31_NULL(),

	// ES on top of Vulkan
	ES2_VULKAN());
	} // anonymous namespace