/*-------------------------------------------------------------------------
* drawElements Quality Program EGL Module
* ---------------------------------------
*
* Copyright 2014 The Android Open Source Project
*
* 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.
*
*//*!
* \file
* \brief Tests for mapping client coordinates to native surface coordinates
*//*--------------------------------------------------------------------*/
#include "teglNativeCoordMappingTests.hpp"
#include "teglSimpleConfigCase.hpp"
#include "tcuSurface.hpp"
#include "tcuTexture.hpp"
#include "egluNativeDisplay.hpp"
#include "egluNativeWindow.hpp"
#include "egluNativePixmap.hpp"
#include "egluUnique.hpp"
#include "egluUtil.hpp"
#include "gluDefs.hpp"
#include "glwFunctions.hpp"
#include "glwEnums.hpp"
#include "tcuImageCompare.hpp"
#include "tcuTestLog.hpp"
#include "tcuTexture.hpp"
#include "tcuTextureUtil.hpp"
#include "deUniquePtr.hpp"
#include "deStringUtil.hpp"
#include "deThread.hpp"
#include "deMath.h"
#include <vector>
#include <string>
using tcu::TestLog;
using std::vector;
using std::string;
namespace deqp
{
namespace egl
{
namespace
{
EGLContext createGLES2Context (EGLDisplay display, EGLConfig config)
{
EGLContext context = EGL_NO_CONTEXT;
const EGLint attribList[] =
{
EGL_CONTEXT_CLIENT_VERSION, 2,
EGL_NONE
};
TCU_CHECK_EGL_CALL(eglBindAPI(EGL_OPENGL_ES_API));
context = eglCreateContext(display, config, EGL_NO_CONTEXT, attribList);
TCU_CHECK_EGL_MSG("eglCreateContext() failed");
TCU_CHECK(context);
return context;
}
deUint32 createGLES2Program (const glw::Functions& gl, TestLog& log)
{
const char* const vertexShaderSource =
"attribute highp vec2 a_pos;\n"
"void main (void)\n"
"{\n"
"\tgl_Position = vec4(a_pos, 0.0, 1.0);\n"
"}";
const char* const fragmentShaderSource =
"void main (void)\n"
"{\n"
"\tgl_FragColor = vec4(1.0);\n"
"}";
deUint32 program = 0;
deUint32 vertexShader = 0;
deUint32 fragmentShader = 0;
deInt32 vertexCompileStatus;
string vertexInfoLog;
deInt32 fragmentCompileStatus;
string fragmentInfoLog;
deInt32 linkStatus;
string programInfoLog;
try
{
program = gl.createProgram();
vertexShader = gl.createShader(GL_VERTEX_SHADER);
fragmentShader = gl.createShader(GL_FRAGMENT_SHADER);
GLU_EXPECT_NO_ERROR(gl.getError(), "Failed to create shaders and program");
gl.shaderSource(vertexShader, 1, &vertexShaderSource, DE_NULL);
gl.compileShader(vertexShader);
GLU_EXPECT_NO_ERROR(gl.getError(), "Failed to setup vertex shader");
gl.shaderSource(fragmentShader, 1, &fragmentShaderSource, DE_NULL);
gl.compileShader(fragmentShader);
GLU_EXPECT_NO_ERROR(gl.getError(), "Failed to setup fragment shader");
{
deInt32 infoLogLength = 0;
gl.getShaderiv(vertexShader, GL_COMPILE_STATUS, &vertexCompileStatus);
gl.getShaderiv(vertexShader, GL_INFO_LOG_LENGTH, &infoLogLength);
vertexInfoLog.resize(infoLogLength, '\0');
gl.getShaderInfoLog(vertexShader, (glw::GLsizei)vertexInfoLog.length(), &infoLogLength, &(vertexInfoLog[0]));
GLU_EXPECT_NO_ERROR(gl.getError(), "Failed to get vertex shader compile info");
vertexInfoLog.resize(infoLogLength);
}
{
deInt32 infoLogLength = 0;
gl.getShaderiv(fragmentShader, GL_COMPILE_STATUS, &fragmentCompileStatus);
gl.getShaderiv(fragmentShader, GL_INFO_LOG_LENGTH, &infoLogLength);
fragmentInfoLog.resize(infoLogLength, '\0');
gl.getShaderInfoLog(fragmentShader, (glw::GLsizei)fragmentInfoLog.length(), &infoLogLength, &(fragmentInfoLog[0]));
GLU_EXPECT_NO_ERROR(gl.getError(), "Failed to get fragment shader compile info");
fragmentInfoLog.resize(infoLogLength);
}
gl.attachShader(program, vertexShader);
gl.attachShader(program, fragmentShader);
gl.linkProgram(program);
GLU_EXPECT_NO_ERROR(gl.getError(), "Failed to setup program");
{
deInt32 infoLogLength = 0;
gl.getProgramiv(program, GL_LINK_STATUS, &linkStatus);
gl.getProgramiv(program, GL_INFO_LOG_LENGTH, &infoLogLength);
programInfoLog.resize(infoLogLength, '\0');
gl.getProgramInfoLog(program, (glw::GLsizei)programInfoLog.length(), &infoLogLength, &(programInfoLog[0]));
GLU_EXPECT_NO_ERROR(gl.getError(), "Failed to get program link info");
programInfoLog.resize(infoLogLength);
}
if (linkStatus == 0 || vertexCompileStatus == 0 || fragmentCompileStatus == 0)
{
log.startShaderProgram(linkStatus != 0, programInfoLog.c_str());
log << TestLog::Shader(QP_SHADER_TYPE_VERTEX, vertexShaderSource, vertexCompileStatus != 0, vertexInfoLog);
log << TestLog::Shader(QP_SHADER_TYPE_FRAGMENT, fragmentShaderSource, fragmentCompileStatus != 0, fragmentInfoLog);
log.endShaderProgram();
}
gl.deleteShader(vertexShader);
gl.deleteShader(fragmentShader);
GLU_EXPECT_NO_ERROR(gl.getError(), "Failed to delete shaders");
TCU_CHECK(linkStatus != 0 && vertexCompileStatus != 0 && fragmentCompileStatus != 0);
}
catch (...)
{
if (program)
gl.deleteProgram(program);
if (vertexShader)
gl.deleteShader(vertexShader);
if (fragmentShader)
gl.deleteShader(fragmentShader);
throw;
}
return program;
}
void clear (const glw::Functions& gl, const tcu::Vec4& color, int x, int y, int width, int height)
{
gl.enable(GL_SCISSOR_TEST);
gl.scissor(x, y, width, height);
gl.clearColor(color.x(), color.y(), color.z(), color.w());
gl.clear(GL_COLOR_BUFFER_BIT);
GLU_EXPECT_NO_ERROR(gl.getError(), "Color clear failed");
}
tcu::Vec2 toGLCoord (int width, int height, int x, int y)
{
const float xf = (float(2.0f * x) / width) - 1.0f;
const float yf = (float(2.0f * y) / height) - 1.0f;
return tcu::Vec2(xf, yf);
}
void render (const glw::Functions& gl, deUint32 program, int targetWidth, int targetHeight, int x, int y, int width, int height)
{
const tcu::Vec2 positions[] =
{
toGLCoord(targetWidth, targetHeight, x, y),
toGLCoord(targetWidth, targetHeight, x+width, y),
toGLCoord(targetWidth, targetHeight, x+width, y+height),
toGLCoord(targetWidth, targetHeight, x+width, y+height),
toGLCoord(targetWidth, targetHeight, x, y+height),
toGLCoord(targetWidth, targetHeight, x, y)
};
deUint32 posLocation;
gl.useProgram(program);
posLocation = gl.getAttribLocation(program, "a_pos");
gl.enableVertexAttribArray(posLocation);
gl.vertexAttribPointer(posLocation, 2, GL_FLOAT, GL_FALSE, 0, positions);
GLU_EXPECT_NO_ERROR(gl.getError(), "Failed to setup shader program for rendering");
gl.viewport(0, 0, targetWidth, targetHeight);
gl.drawArrays(GL_TRIANGLES, 0, 6);
GLU_EXPECT_NO_ERROR(gl.getError(), "Failed to render");
}
bool compareColor (const tcu::Vec4& a, const tcu::Vec4& b)
{
const float threshold = 0.005f;
return deFloatAbs(a.x() - b.x()) < threshold && deFloatAbs(a.y() - b.y()) < threshold && deFloatAbs(a.z() - b.z()) < threshold && deFloatAbs(a.w() - b.w()) < threshold;
}
bool validate (TestLog& log, const tcu::TextureLevel& result, int rectX, int rectY, int rectW, int rectH)
{
const tcu::Vec4 black (0.0f, 0.0f, 0.0f, 1.0f);
const tcu::Vec4 white (1.0f, 1.0f, 1.0f, 1.0f);
tcu::Surface errorMask (result.getWidth(), result.getHeight());
bool isOk = true;
for (int y = 0; y < result.getHeight(); y++)
{
for (int x = 0; x < result.getWidth(); x++)
{
const tcu::Vec4 resultColor = result.getAccess().getPixel(x, y);
if (x > rectX && x < rectX + rectW - 1 && y > rectY && y < rectY + rectH - 1)
{
if (!compareColor(resultColor, white))
{
errorMask.setPixel(x, y, tcu::RGBA(255, 0, 0, 255));
isOk = false;
}
else
errorMask.setPixel(x, y, tcu::RGBA(0, 255, 0, 255));
}
else if (x < rectX-1 || x > rectX + rectW || y < rectY-1 || y > rectY + rectH)
{
if (!compareColor(resultColor, black))
{
errorMask.setPixel(x, y, tcu::RGBA(255, 0, 0, 255));
isOk = false;
}
else
errorMask.setPixel(x, y, tcu::RGBA(0, 255, 0, 255));
}
else
{
// Pixel is close to edge of reference rectangle
if (!compareColor(resultColor, black) && !compareColor(resultColor, white))
{
errorMask.setPixel(x, y, tcu::RGBA(255, 0, 0, 255));
isOk = false;
}
else
errorMask.setPixel(x, y, tcu::RGBA(0, 255, 0, 255));
}
}
}
log << TestLog::Image("Result", "Result of rendering", result.getAccess());
if (!isOk)
log << TestLog::Image("Error Mask", "Error Mask", errorMask.getAccess());
return isOk;
}
class NativeCoordMappingCase : public SimpleConfigCase
{
public:
enum NativeType
{
NATIVETYPE_WINDOW = 0,
NATIVETYPE_PIXMAP,
NATIVETYPE_PBUFFER_COPY_TO_PIXMAP
};
NativeCoordMappingCase (EglTestContext& eglTestCtx, const char* name, const char* description, bool render, NativeType nativeType, const vector<EGLint>& configIds);
~NativeCoordMappingCase (void);
private:
void executeForConfig (tcu::egl::Display& display, EGLConfig config);
NativeType m_nativeType;
bool m_render;
};
NativeCoordMappingCase::NativeCoordMappingCase (EglTestContext& eglTestCtx, const char* name, const char* description, bool render, NativeType nativeType, const vector<EGLint>& configIds)
: SimpleConfigCase (eglTestCtx, name, description, configIds)
, m_nativeType (nativeType)
, m_render (render)
{
}
NativeCoordMappingCase::~NativeCoordMappingCase (void)
{
deinit();
}
void logConfigInfo (TestLog& log, EGLDisplay display, EGLConfig config, NativeCoordMappingCase::NativeType nativeType, int waitFrames)
{
log << TestLog::Message << "EGL_RED_SIZE: " << eglu::getConfigAttribInt(display, config, EGL_RED_SIZE) << TestLog::EndMessage;
log << TestLog::Message << "EGL_GREEN_SIZE: " << eglu::getConfigAttribInt(display, config, EGL_GREEN_SIZE) << TestLog::EndMessage;
log << TestLog::Message << "EGL_BLUE_SIZE: " << eglu::getConfigAttribInt(display, config, EGL_BLUE_SIZE) << TestLog::EndMessage;
log << TestLog::Message << "EGL_ALPHA_SIZE: " << eglu::getConfigAttribInt(display, config, EGL_ALPHA_SIZE) << TestLog::EndMessage;
log << TestLog::Message << "EGL_DEPTH_SIZE: " << eglu::getConfigAttribInt(display, config, EGL_DEPTH_SIZE) << TestLog::EndMessage;
log << TestLog::Message << "EGL_STENCIL_SIZE: " << eglu::getConfigAttribInt(display, config, EGL_STENCIL_SIZE) << TestLog::EndMessage;
log << TestLog::Message << "EGL_SAMPLES: " << eglu::getConfigAttribInt(display, config, EGL_SAMPLES) << TestLog::EndMessage;
if (nativeType == NativeCoordMappingCase::NATIVETYPE_WINDOW)
log << TestLog::Message << "Waiting " << waitFrames * 16 << "ms after eglSwapBuffers() and glFinish() for frame to become visible" << TestLog::EndMessage;
}
bool testNativeWindow (TestLog& log, eglu::NativeDisplay& nativeDisplay, eglu::NativeWindow& nativeWindow, EGLDisplay display, EGLContext context, EGLConfig config, const glw::Functions& gl, bool renderColor, int waitFrames)
{
const int rectX = 8;
const int rectY = 16;
const int rectW = 64;
const int rectH = 72;
const tcu::IVec2 screenSize = nativeWindow.getScreenSize();
eglu::UniqueSurface surface (display, eglu::createWindowSurface(nativeDisplay, nativeWindow, display, config, DE_NULL));
const tcu::IVec2 surfaceSize = eglu::getSurfaceSize(display, *surface);
deUint32 program = 0;
bool isOk = true;
tcu::TextureLevel result;
try
{
TCU_CHECK_EGL_CALL(eglMakeCurrent(display, *surface, *surface, context));
if (renderColor)
program = createGLES2Program(gl, log);
clear(gl, tcu::Vec4(0.0f, 0.0f, 0.0f, 1.0f), 0, 0, surfaceSize.x(), surfaceSize.y());
if (renderColor)
render(gl, program, surfaceSize.x(), surfaceSize.y(), rectX, rectY, rectW, rectH);
else
clear(gl, tcu::Vec4(1.0f, 1.0f, 1.0f, 1.0f), rectX, rectY, rectW, rectH);
TCU_CHECK_EGL_CALL(eglSwapBuffers(display, *surface));
TCU_CHECK_EGL_CALL(eglWaitClient());
deSleep(waitFrames*16);
nativeWindow.readScreenPixels(&result);
if (!validate(log, result, rectX, screenSize.y() - rectY - rectH, rectW, rectH))
isOk = false;
TCU_CHECK_EGL_CALL(eglMakeCurrent(display, EGL_NO_SURFACE, EGL_NO_SURFACE, EGL_NO_CONTEXT));
}
catch (...)
{
if (program)
gl.deleteProgram(program);
throw;
}
return isOk;
}
bool testNativePixmap (TestLog& log, eglu::NativeDisplay& nativeDisplay, eglu::NativePixmap& nativePixmap, int width, int height, EGLDisplay display, EGLContext context, EGLConfig config, const glw::Functions& gl, bool renderColor)
{
const int rectX = 8;
const int rectY = 16;
const int rectW = 64;
const int rectH = 72;
eglu::UniqueSurface surface(display, eglu::createPixmapSurface(nativeDisplay, nativePixmap, display, config, DE_NULL));
deUint32 program = 0;
bool isOk = true;
tcu::TextureLevel result;
try
{
TCU_CHECK_EGL_CALL(eglMakeCurrent(display, *surface, *surface, context));
if (renderColor)
program = createGLES2Program(gl, log);
clear(gl, tcu::Vec4(0.0f, 0.0f, 0.0f, 1.0f), 0, 0, width, height);
if (renderColor)
render(gl, program, width, height, rectX, rectY, rectW, rectH);
else
clear(gl, tcu::Vec4(1.0f, 1.0f, 1.0f, 1.0f), rectX, rectY, rectW, rectH);
TCU_CHECK_EGL_CALL(eglWaitClient());
nativePixmap.readPixels(&result);
if (!validate(log, result, rectX, height - 1 - rectY - rectH, rectW, rectH))
isOk = false;
TCU_CHECK_EGL_CALL(eglMakeCurrent(display, EGL_NO_SURFACE, EGL_NO_SURFACE, EGL_NO_CONTEXT));
}
catch (...)
{
if (program)
gl.deleteProgram(program);
throw;
}
return isOk;
}
bool testNativePixmapCopy (TestLog& log, eglu::NativePixmap& nativePixmap, int width, int height, EGLDisplay display, EGLContext context, EGLConfig config, const glw::Functions& gl, bool renderColor)
{
const int rectX = 8;
const int rectY = 16;
const int rectW = 64;
const int rectH = 72;
eglu::UniqueSurface surface(display, eglCreatePbufferSurface(display, config, DE_NULL));
deUint32 program = 0;
bool isOk = true;
tcu::TextureLevel result;
try
{
TCU_CHECK_EGL_CALL(eglMakeCurrent(display, *surface, *surface, context));
if (renderColor)
program = createGLES2Program(gl, log);
clear(gl, tcu::Vec4(0.0f, 0.0f, 0.0f, 1.0f), 0, 0, width, height);
if (renderColor)
render(gl, program, width, height, rectX, rectY, rectW, rectH);
else
clear(gl, tcu::Vec4(1.0f, 1.0f, 1.0f, 1.0f), rectX, rectY, rectW, rectH);
TCU_CHECK_EGL_CALL(eglCopyBuffers(display, *surface, nativePixmap.getLegacyNative()));
TCU_CHECK_EGL_CALL(eglWaitClient());
nativePixmap.readPixels(&result);
if (!validate(log, result, rectX, height - 1 - rectY, rectW, rectH))
isOk = false;
TCU_CHECK_EGL_CALL(eglMakeCurrent(display, EGL_NO_SURFACE, EGL_NO_SURFACE, EGL_NO_CONTEXT));
}
catch (...)
{
if (program)
gl.deleteProgram(program);
throw;
}
return isOk;
}
void checkSupport (EglTestContext& eglTestCtx, NativeCoordMappingCase::NativeType nativeType)
{
switch (nativeType)
{
case NativeCoordMappingCase::NATIVETYPE_WINDOW:
if ((eglTestCtx.getNativeWindowFactory().getCapabilities() & eglu::NativeWindow::CAPABILITY_READ_SCREEN_PIXELS) == 0)
throw tcu::NotSupportedError("Native window doesn't support readPixels()", "", __FILE__, __LINE__);
break;
case NativeCoordMappingCase::NATIVETYPE_PIXMAP:
if ((eglTestCtx.getNativePixmapFactory().getCapabilities() & eglu::NativePixmap::CAPABILITY_READ_PIXELS) == 0)
throw tcu::NotSupportedError("Native pixmap doesn't support readPixels()", "", __FILE__, __LINE__);
break;
case NativeCoordMappingCase::NATIVETYPE_PBUFFER_COPY_TO_PIXMAP:
if ((eglTestCtx.getNativePixmapFactory().getCapabilities() & eglu::NativePixmap::CAPABILITY_READ_PIXELS) == 0 ||
(eglTestCtx.getNativePixmapFactory().getCapabilities() & eglu::NativePixmap::CAPABILITY_CREATE_SURFACE_LEGACY) == 0)
throw tcu::NotSupportedError("Native pixmap doesn't support readPixels() or legacy create surface", "", __FILE__, __LINE__);
break;
default:
DE_ASSERT(DE_FALSE);
}
}
void NativeCoordMappingCase::executeForConfig (tcu::egl::Display& display, EGLConfig config)
{
const int width = 128;
const int height = 128;
const string configIdStr (de::toString(eglu::getConfigAttribInt(display.getEGLDisplay(), config, EGL_CONFIG_ID)));
tcu::ScopedLogSection logSection (m_testCtx.getLog(), ("Config ID " + configIdStr).c_str(), ("Config ID " + configIdStr).c_str());
const int waitFrames = 5;
logConfigInfo(m_testCtx.getLog(), display.getEGLDisplay(), config, m_nativeType, waitFrames);
checkSupport(m_eglTestCtx, m_nativeType);
eglu::UniqueContext context(display.getEGLDisplay(), createGLES2Context(display.getEGLDisplay(), config));
glw::Functions gl;
m_eglTestCtx.getGLFunctions(gl, glu::ApiType::es(2,0));
switch (m_nativeType)
{
case NATIVETYPE_WINDOW:
{
de::UniquePtr<eglu::NativeWindow> nativeWindow(m_eglTestCtx.createNativeWindow(display.getEGLDisplay(), config, DE_NULL, width, height, eglu::WindowParams::VISIBILITY_VISIBLE));
if (!testNativeWindow(m_testCtx.getLog(), m_eglTestCtx.getNativeDisplay(), *nativeWindow, display.getEGLDisplay(), *context, config, gl, m_render, waitFrames))
m_testCtx.setTestResult(QP_TEST_RESULT_FAIL, "Invalid color rendered");
break;
}
case NATIVETYPE_PIXMAP:
{
de::UniquePtr<eglu::NativePixmap> nativePixmap(m_eglTestCtx.createNativePixmap(display.getEGLDisplay(), config, DE_NULL, width, height));
if (!testNativePixmap(m_testCtx.getLog(), m_eglTestCtx.getNativeDisplay(), *nativePixmap, width, height, display.getEGLDisplay(), *context, config, gl, m_render))
m_testCtx.setTestResult(QP_TEST_RESULT_FAIL, "Invalid color rendered");
break;
}
case NATIVETYPE_PBUFFER_COPY_TO_PIXMAP:
{
de::UniquePtr<eglu::NativePixmap> nativePixmap(m_eglTestCtx.createNativePixmap(display.getEGLDisplay(), config, DE_NULL, width, height));
if (!testNativePixmapCopy(m_testCtx.getLog(), *nativePixmap, width, height, display.getEGLDisplay(), *context, config, gl, m_render))
m_testCtx.setTestResult(QP_TEST_RESULT_FAIL, "Invalid color rendered");
break;
}
default:
DE_ASSERT(DE_FALSE);
}
}
void addTestGroups (EglTestContext& eglTestCtx, TestCaseGroup* group, NativeCoordMappingCase::NativeType type)
{
eglu::FilterList filters;
switch (type)
{
case NativeCoordMappingCase::NATIVETYPE_WINDOW:
filters << (eglu::ConfigSurfaceType() & EGL_WINDOW_BIT);
break;
case NativeCoordMappingCase::NATIVETYPE_PIXMAP:
filters << (eglu::ConfigSurfaceType() & EGL_PIXMAP_BIT);
break;
case NativeCoordMappingCase::NATIVETYPE_PBUFFER_COPY_TO_PIXMAP:
filters << (eglu::ConfigSurfaceType() & EGL_PBUFFER_BIT);
break;
default:
DE_ASSERT(DE_FALSE);
}
vector<NamedConfigIdSet> configIdSets;
NamedConfigIdSet::getDefaultSets(configIdSets, eglTestCtx.getConfigs(), filters);
for (vector<NamedConfigIdSet>::iterator i = configIdSets.begin(); i != configIdSets.end(); i++)
{
group->addChild(new NativeCoordMappingCase(eglTestCtx, (string(i->getName()) + "_clear").c_str(), i->getDescription(), false, type, i->getConfigIds()));
group->addChild(new NativeCoordMappingCase(eglTestCtx, (string(i->getName()) + "_render").c_str(), i->getDescription(), true, type, i->getConfigIds()));
}
}
} // anonymous
NativeCoordMappingTests::NativeCoordMappingTests (EglTestContext& eglTestCtx)
: TestCaseGroup(eglTestCtx, "native_coord_mapping", "Tests for mapping client coordinates to native surface")
{
}
void NativeCoordMappingTests::init (void)
{
{
TestCaseGroup* windowGroup = new TestCaseGroup(m_eglTestCtx, "native_window", "Tests for mapping client color to native window");
addTestGroups(m_eglTestCtx, windowGroup, NativeCoordMappingCase::NATIVETYPE_WINDOW);
addChild(windowGroup);
}
{
TestCaseGroup* pixmapGroup = new TestCaseGroup(m_eglTestCtx, "native_pixmap", "Tests for mapping client color to native pixmap");
addTestGroups(m_eglTestCtx, pixmapGroup, NativeCoordMappingCase::NATIVETYPE_PIXMAP);
addChild(pixmapGroup);
}
{
TestCaseGroup* pbufferGroup = new TestCaseGroup(m_eglTestCtx, "pbuffer_to_native_pixmap", "Tests for mapping client color to native pixmap with eglCopyBuffers()");
addTestGroups(m_eglTestCtx, pbufferGroup, NativeCoordMappingCase::NATIVETYPE_PBUFFER_COPY_TO_PIXMAP);
addChild(pbufferGroup);
}
}
} // egl
} // deqp