/*------------------------------------------------------------------------- * drawElements Quality Program OpenGL ES 3.0 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 ASTC decompression tests * * \todo Parts of the block-generation code are same as in decompression * code in tcuCompressedTexture.cpp ; could put them to some shared * ASTC utility file. * * \todo Tests for void extents with nontrivial extent coordinates. * * \todo Better checking of the error color. Currently legitimate error * pixels are just ignored in image comparison; however, spec says * that error color is either magenta or all-NaNs. Can NaNs cause * troubles, or can we assume that NaNs are well-supported in shader * if the implementation chooses NaNs as error color? *//*--------------------------------------------------------------------*/ #include "es3fASTCDecompressionCases.hpp" #include "gluTexture.hpp" #include "gluPixelTransfer.hpp" #include "gluStrUtil.hpp" #include "gluTextureUtil.hpp" #include "glsTextureTestUtil.hpp" #include "tcuCompressedTexture.hpp" #include "tcuTestLog.hpp" #include "tcuTextureUtil.hpp" #include "tcuSurface.hpp" #include "tcuVectorUtil.hpp" #include "tcuImageCompare.hpp" #include "deStringUtil.hpp" #include "deRandom.hpp" #include "deFloat16.h" #include "deString.h" #include "deMemory.h" #include "glwFunctions.hpp" #include "glwEnums.hpp" #include #include #include using std::string; using std::vector; using tcu::CompressedTexFormat; using tcu::CompressedTexture; using tcu::IVec2; using tcu::IVec3; using tcu::IVec4; using tcu::Sampler; using tcu::Surface; using tcu::TestLog; using tcu::Vec2; using tcu::Vec4; using tcu::astc::BlockTestType; namespace deqp { using gls::TextureTestUtil::RandomViewport; using gls::TextureTestUtil::TextureRenderer; using namespace glu::TextureTestUtil; namespace gles3 { namespace Functional { namespace ASTCDecompressionCaseInternal { // Get a string describing the data of an ASTC block. Currently contains just hex and bin dumps of the block. static string astcBlockDataStr(const uint8_t *data) { string result; result += " Hexadecimal (big endian: upper left hex digit is block bits 127 to 124):"; { static const char *const hexDigits = "0123456789ABCDEF"; for (int i = tcu::astc::BLOCK_SIZE_BYTES - 1; i >= 0; i--) { if ((i + 1) % 2 == 0) result += "\n "; else result += " "; result += hexDigits[(data[i] & 0xf0) >> 4]; result += " "; result += hexDigits[(data[i] & 0x0f) >> 0]; } } result += "\n\n Binary (big endian: upper left bit is block bit 127):"; for (int i = tcu::astc::BLOCK_SIZE_BYTES - 1; i >= 0; i--) { if ((i + 1) % 2 == 0) result += "\n "; else result += " "; for (int j = 8 - 1; j >= 0; j--) { if (j == 3) result += " "; result += (data[i] >> j) & 1 ? "1" : "0"; } } result += "\n"; return result; } // Compare reference and result block images, reporting also the position of the first non-matching block. static bool compareBlockImages(const Surface &reference, const Surface &result, const tcu::RGBA &thresholdRGBA, const IVec2 &blockSize, int numUsedBlocks, IVec2 &firstFailedBlockCoordDst, Surface &errorMaskDst, IVec4 &maxDiffDst) { TCU_CHECK_INTERNAL(reference.getWidth() == result.getWidth() && reference.getHeight() == result.getHeight()); const int width = result.getWidth(); const int height = result.getHeight(); const IVec4 threshold = thresholdRGBA.toIVec(); const int numXBlocks = width / blockSize.x(); DE_ASSERT(width % blockSize.x() == 0 && height % blockSize.y() == 0); errorMaskDst.setSize(width, height); firstFailedBlockCoordDst = IVec2(-1, -1); maxDiffDst = IVec4(0); for (int y = 0; y < height; y++) for (int x = 0; x < width; x++) { const IVec2 blockCoord = IVec2(x, y) / blockSize; if (blockCoord.y() * numXBlocks + blockCoord.x() < numUsedBlocks) { const IVec4 refPix = reference.getPixel(x, y).toIVec(); if (refPix == IVec4(255, 0, 255, 255)) { // ASTC error color - allow anything in result. errorMaskDst.setPixel(x, y, tcu::RGBA(255, 0, 255, 255)); continue; } const IVec4 resPix = result.getPixel(x, y).toIVec(); const IVec4 diff = tcu::abs(refPix - resPix); const bool isOk = tcu::boolAll(tcu::lessThanEqual(diff, threshold)); maxDiffDst = tcu::max(maxDiffDst, diff); errorMaskDst.setPixel(x, y, isOk ? tcu::RGBA::green() : tcu::RGBA::red()); if (!isOk && firstFailedBlockCoordDst.x() == -1) firstFailedBlockCoordDst = blockCoord; } } return boolAll(lessThanEqual(maxDiffDst, threshold)); } enum ASTCSupportLevel { // \note Ordered from smallest subset to full, for convenient comparison. ASTCSUPPORTLEVEL_NONE = 0, ASTCSUPPORTLEVEL_LDR, ASTCSUPPORTLEVEL_HDR, ASTCSUPPORTLEVEL_FULL }; static inline ASTCSupportLevel getASTCSupportLevel(const glu::ContextInfo &contextInfo, const glu::RenderContext &renderCtx) { const bool isES32 = glu::contextSupports(renderCtx.getType(), glu::ApiType::es(3, 2)); const vector &extensions = contextInfo.getExtensions(); ASTCSupportLevel maxLevel = ASTCSUPPORTLEVEL_NONE; for (int extNdx = 0; extNdx < (int)extensions.size(); extNdx++) { const string &ext = extensions[extNdx]; if (isES32) { maxLevel = de::max(maxLevel, ext == "GL_KHR_texture_compression_astc_hdr" ? ASTCSUPPORTLEVEL_HDR : ext == "GL_OES_texture_compression_astc" ? ASTCSUPPORTLEVEL_FULL : ASTCSUPPORTLEVEL_LDR); } else { maxLevel = de::max(maxLevel, ext == "GL_KHR_texture_compression_astc_ldr" ? ASTCSUPPORTLEVEL_LDR : ext == "GL_KHR_texture_compression_astc_hdr" ? ASTCSUPPORTLEVEL_HDR : ext == "GL_OES_texture_compression_astc" ? ASTCSUPPORTLEVEL_FULL : ASTCSUPPORTLEVEL_NONE); } } return maxLevel; } // Class handling the common rendering stuff of ASTC cases. class ASTCRenderer2D { public: ASTCRenderer2D(Context &context, CompressedTexFormat format, uint32_t randomSeed); ~ASTCRenderer2D(void); void initialize(int minRenderWidth, int minRenderHeight, const Vec4 &colorScale, const Vec4 &colorBias); void clear(void); void render(Surface &referenceDst, Surface &resultDst, const glu::Texture2D &texture, const tcu::TextureFormat &uncompressedFormat); CompressedTexFormat getFormat(void) const { return m_format; } IVec2 getBlockSize(void) const { return m_blockSize; } ASTCSupportLevel getASTCSupport(void) const { DE_ASSERT(m_initialized); return m_astcSupport; } private: Context &m_context; TextureRenderer m_renderer; const CompressedTexFormat m_format; const IVec2 m_blockSize; ASTCSupportLevel m_astcSupport; Vec4 m_colorScale; Vec4 m_colorBias; de::Random m_rnd; bool m_initialized; }; } // namespace ASTCDecompressionCaseInternal using namespace ASTCDecompressionCaseInternal; ASTCRenderer2D::ASTCRenderer2D(Context &context, CompressedTexFormat format, uint32_t randomSeed) : m_context(context) , m_renderer(context.getRenderContext(), context.getTestContext().getLog(), glu::GLSL_VERSION_300_ES, glu::PRECISION_HIGHP) , m_format(format) , m_blockSize(tcu::getBlockPixelSize(format).xy()) , m_astcSupport(ASTCSUPPORTLEVEL_NONE) , m_colorScale(-1.0f) , m_colorBias(-1.0f) , m_rnd(randomSeed) , m_initialized(false) { DE_ASSERT(tcu::getBlockPixelSize(format).z() == 1); } ASTCRenderer2D::~ASTCRenderer2D(void) { clear(); } void ASTCRenderer2D::initialize(int minRenderWidth, int minRenderHeight, const Vec4 &colorScale, const Vec4 &colorBias) { DE_ASSERT(!m_initialized); const tcu::RenderTarget &renderTarget = m_context.getRenderTarget(); TestLog &log = m_context.getTestContext().getLog(); m_astcSupport = getASTCSupportLevel(m_context.getContextInfo(), m_context.getRenderContext()); m_colorScale = colorScale; m_colorBias = colorBias; switch (m_astcSupport) { case ASTCSUPPORTLEVEL_NONE: log << TestLog::Message << "No ASTC support detected" << TestLog::EndMessage; throw tcu::NotSupportedError("ASTC not supported"); case ASTCSUPPORTLEVEL_LDR: log << TestLog::Message << "LDR ASTC support detected" << TestLog::EndMessage; break; case ASTCSUPPORTLEVEL_HDR: log << TestLog::Message << "HDR ASTC support detected" << TestLog::EndMessage; break; case ASTCSUPPORTLEVEL_FULL: log << TestLog::Message << "Full ASTC support detected" << TestLog::EndMessage; break; default: DE_ASSERT(false); } if (renderTarget.getWidth() < minRenderWidth || renderTarget.getHeight() < minRenderHeight) throw tcu::NotSupportedError("Render target must be at least " + de::toString(minRenderWidth) + "x" + de::toString(minRenderHeight)); log << TestLog::Message << "Using color scale and bias: result = raw * " << colorScale << " + " << colorBias << TestLog::EndMessage; m_initialized = true; } void ASTCRenderer2D::clear(void) { m_renderer.clear(); } void ASTCRenderer2D::render(Surface &referenceDst, Surface &resultDst, const glu::Texture2D &texture, const tcu::TextureFormat &uncompressedFormat) { DE_ASSERT(m_initialized); const glw::Functions &gl = m_context.getRenderContext().getFunctions(); const glu::RenderContext &renderCtx = m_context.getRenderContext(); const int textureWidth = texture.getRefTexture().getWidth(); const int textureHeight = texture.getRefTexture().getHeight(); const RandomViewport viewport(renderCtx.getRenderTarget(), textureWidth, textureHeight, m_rnd.getUint32()); ReferenceParams renderParams(TEXTURETYPE_2D); vector texCoord; computeQuadTexCoord2D(texCoord, Vec2(0.0f, 0.0f), Vec2(1.0f, 1.0f)); renderParams.samplerType = getSamplerType(uncompressedFormat); renderParams.sampler = Sampler(Sampler::CLAMP_TO_EDGE, Sampler::CLAMP_TO_EDGE, Sampler::CLAMP_TO_EDGE, Sampler::NEAREST, Sampler::NEAREST); renderParams.colorScale = m_colorScale; renderParams.colorBias = m_colorBias; // Setup base viewport. gl.viewport(viewport.x, viewport.y, viewport.width, viewport.height); // Bind to unit 0. gl.activeTexture(GL_TEXTURE0); gl.bindTexture(GL_TEXTURE_2D, texture.getGLTexture()); // Setup nearest neighbor filtering and clamp-to-edge. gl.texParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_S, GL_CLAMP_TO_EDGE); gl.texParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_T, GL_CLAMP_TO_EDGE); gl.texParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_NEAREST); gl.texParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_NEAREST); GLU_EXPECT_NO_ERROR(gl.getError(), "Set texturing state"); // Issue GL draws. m_renderer.renderQuad(0, &texCoord[0], renderParams); gl.flush(); // Compute reference. sampleTexture(tcu::SurfaceAccess(referenceDst, renderCtx.getRenderTarget().getPixelFormat()), texture.getRefTexture(), &texCoord[0], renderParams); // Read GL-rendered image. glu::readPixels(renderCtx, viewport.x, viewport.y, resultDst.getAccess()); } ASTCBlockCase2D::ASTCBlockCase2D(Context &context, const char *name, const char *description, BlockTestType testType, CompressedTexFormat format) : TestCase(context, name, description) , m_testType(testType) , m_format(format) , m_numBlocksTested(0) , m_currentIteration(0) , m_renderer(new ASTCRenderer2D(context, format, deStringHash(getName()))) { DE_ASSERT(!(tcu::isAstcSRGBFormat(m_format) && tcu::astc::isBlockTestTypeHDROnly( m_testType))); // \note There is no HDR sRGB mode, so these would be redundant. } ASTCBlockCase2D::~ASTCBlockCase2D(void) { ASTCBlockCase2D::deinit(); } void ASTCBlockCase2D::init(void) { m_renderer->initialize(64, 64, tcu::astc::getBlockTestTypeColorScale(m_testType), tcu::astc::getBlockTestTypeColorBias(m_testType)); generateBlockCaseTestData(m_blockData, m_format, m_testType); DE_ASSERT(!m_blockData.empty()); DE_ASSERT(m_blockData.size() % tcu::astc::BLOCK_SIZE_BYTES == 0); m_testCtx.getLog() << TestLog::Message << "Total " << m_blockData.size() / tcu::astc::BLOCK_SIZE_BYTES << " blocks to test" << TestLog::EndMessage << TestLog::Message << "Note: Legitimate ASTC error pixels will be ignored when comparing to reference" << TestLog::EndMessage; } void ASTCBlockCase2D::deinit(void) { m_renderer->clear(); m_blockData.clear(); } ASTCBlockCase2D::IterateResult ASTCBlockCase2D::iterate(void) { TestLog &log = m_testCtx.getLog(); if (m_renderer->getASTCSupport() == ASTCSUPPORTLEVEL_LDR && tcu::astc::isBlockTestTypeHDROnly(m_testType)) { log << TestLog::Message << "Passing the case immediately, since only LDR support was detected and test only contains HDR blocks" << TestLog::EndMessage; m_testCtx.setTestResult(QP_TEST_RESULT_PASS, "Pass"); return STOP; } const IVec2 blockSize = m_renderer->getBlockSize(); const int totalNumBlocks = (int)m_blockData.size() / tcu::astc::BLOCK_SIZE_BYTES; const int numXBlocksPerImage = de::min(m_context.getRenderTarget().getWidth(), 512) / blockSize.x(); const int numYBlocksPerImage = de::min(m_context.getRenderTarget().getHeight(), 512) / blockSize.y(); const int numBlocksPerImage = numXBlocksPerImage * numYBlocksPerImage; const int imageWidth = numXBlocksPerImage * blockSize.x(); const int imageHeight = numYBlocksPerImage * blockSize.y(); const int numBlocksRemaining = totalNumBlocks - m_numBlocksTested; const int curNumUsedBlocks = de::min(numBlocksPerImage, numBlocksRemaining); const int curNumUnusedBlocks = numBlocksPerImage - curNumUsedBlocks; const glu::RenderContext &renderCtx = m_context.getRenderContext(); const tcu::RGBA threshold = renderCtx.getRenderTarget().getPixelFormat().getColorThreshold() + (tcu::isAstcSRGBFormat(m_format) ? tcu::RGBA(2, 2, 2, 2) : tcu::RGBA(1, 1, 1, 1)); tcu::CompressedTexture compressed(m_format, imageWidth, imageHeight); if (m_currentIteration == 0) { log << TestLog::Message << "Using texture of size " << imageWidth << "x" << imageHeight << ", with " << numXBlocksPerImage << " block columns and " << numYBlocksPerImage << " block rows " << ", with block size " << blockSize.x() << "x" << blockSize.y() << TestLog::EndMessage; } DE_ASSERT(compressed.getDataSize() == numBlocksPerImage * tcu::astc::BLOCK_SIZE_BYTES); deMemcpy(compressed.getData(), &m_blockData[m_numBlocksTested * tcu::astc::BLOCK_SIZE_BYTES], curNumUsedBlocks * tcu::astc::BLOCK_SIZE_BYTES); if (curNumUsedBlocks > 1) tcu::astc::generateDefaultVoidExtentBlocks( (uint8_t *)compressed.getData() + curNumUsedBlocks * tcu::astc::BLOCK_SIZE_BYTES, curNumUnusedBlocks); // Create texture and render. const tcu::TexDecompressionParams::AstcMode decompressionMode = (m_renderer->getASTCSupport() == ASTCSUPPORTLEVEL_LDR || tcu::isAstcSRGBFormat(m_format)) ? tcu::TexDecompressionParams::ASTCMODE_LDR : tcu::TexDecompressionParams::ASTCMODE_HDR; glu::Texture2D texture(renderCtx, m_context.getContextInfo(), 1, &compressed, tcu::TexDecompressionParams(decompressionMode)); Surface renderedFrame(imageWidth, imageHeight); Surface referenceFrame(imageWidth, imageHeight); m_renderer->render(referenceFrame, renderedFrame, texture, getUncompressedFormat(compressed.getFormat())); // Compare and log. // \note Since a case can draw quite many images, only log the first iteration and failures. { Surface errorMask; IVec2 firstFailedBlockCoord; IVec4 maxDiff; const bool compareOk = compareBlockImages(referenceFrame, renderedFrame, threshold, blockSize, curNumUsedBlocks, firstFailedBlockCoord, errorMask, maxDiff); if (m_currentIteration == 0 || !compareOk) { const char *const imageSetName = "ComparisonResult"; const char *const imageSetDesc = "Comparison Result"; { tcu::ScopedLogSection section(log, "Iteration " + de::toString(m_currentIteration), "Blocks " + de::toString(m_numBlocksTested) + " to " + de::toString(m_numBlocksTested + curNumUsedBlocks - 1)); if (curNumUsedBlocks > 0) log << TestLog::Message << "Note: Only the first " << curNumUsedBlocks << " blocks in the image are relevant; rest " << curNumUnusedBlocks << " are dummies and not checked" << TestLog::EndMessage; if (!compareOk) { log << TestLog::Message << "Image comparison failed: max difference = " << maxDiff << ", threshold = " << threshold << TestLog::EndMessage << TestLog::ImageSet(imageSetName, imageSetDesc) << TestLog::Image("Result", "Result", renderedFrame) << TestLog::Image("Reference", "Reference", referenceFrame) << TestLog::Image("ErrorMask", "Error mask", errorMask) << TestLog::EndImageSet; const int blockNdx = m_numBlocksTested + firstFailedBlockCoord.y() * numXBlocksPerImage + firstFailedBlockCoord.x(); DE_ASSERT(blockNdx < totalNumBlocks); log << TestLog::Message << "First failed block at column " << firstFailedBlockCoord.x() << " and row " << firstFailedBlockCoord.y() << TestLog::EndMessage << TestLog::Message << "Data of first failed block:\n" << astcBlockDataStr(&m_blockData[blockNdx * tcu::astc::BLOCK_SIZE_BYTES]) << TestLog::EndMessage; m_testCtx.setTestResult(QP_TEST_RESULT_FAIL, "Image comparison failed"); return STOP; } else { log << TestLog::ImageSet(imageSetName, imageSetDesc) << TestLog::Image("Result", "Result", renderedFrame) << TestLog::EndImageSet; } } if (m_numBlocksTested + curNumUsedBlocks < totalNumBlocks) log << TestLog::Message << "Note: not logging further images unless reference comparison fails" << TestLog::EndMessage; } } m_currentIteration++; m_numBlocksTested += curNumUsedBlocks; if (m_numBlocksTested >= totalNumBlocks) { DE_ASSERT(m_numBlocksTested == totalNumBlocks); m_testCtx.setTestResult(QP_TEST_RESULT_PASS, "Pass"); return STOP; } return CONTINUE; } ASTCBlockSizeRemainderCase2D::ASTCBlockSizeRemainderCase2D(Context &context, const char *name, const char *description, CompressedTexFormat format) : TestCase(context, name, description) , m_format(format) , m_currentIteration(0) , m_renderer(new ASTCRenderer2D(context, format, deStringHash(getName()))) { } ASTCBlockSizeRemainderCase2D::~ASTCBlockSizeRemainderCase2D(void) { ASTCBlockSizeRemainderCase2D::deinit(); } void ASTCBlockSizeRemainderCase2D::init(void) { const IVec2 blockSize = m_renderer->getBlockSize(); m_renderer->initialize(MAX_NUM_BLOCKS_X * blockSize.x(), MAX_NUM_BLOCKS_Y * blockSize.y(), Vec4(1.0f), Vec4(0.0f)); } void ASTCBlockSizeRemainderCase2D::deinit(void) { m_renderer->clear(); } ASTCBlockSizeRemainderCase2D::IterateResult ASTCBlockSizeRemainderCase2D::iterate(void) { TestLog &log = m_testCtx.getLog(); const IVec2 blockSize = m_renderer->getBlockSize(); const int curRemainderX = m_currentIteration % blockSize.x(); const int curRemainderY = m_currentIteration / blockSize.x(); const int imageWidth = (MAX_NUM_BLOCKS_X - 1) * blockSize.x() + curRemainderX; const int imageHeight = (MAX_NUM_BLOCKS_Y - 1) * blockSize.y() + curRemainderY; const int numBlocksX = deDivRoundUp32(imageWidth, blockSize.x()); const int numBlocksY = deDivRoundUp32(imageHeight, blockSize.y()); const int totalNumBlocks = numBlocksX * numBlocksY; const glu::RenderContext &renderCtx = m_context.getRenderContext(); const tcu::RGBA threshold = renderCtx.getRenderTarget().getPixelFormat().getColorThreshold() + (tcu::isAstcSRGBFormat(m_format) ? tcu::RGBA(2, 2, 2, 2) : tcu::RGBA(1, 1, 1, 1)); tcu::CompressedTexture compressed(m_format, imageWidth, imageHeight); DE_ASSERT(compressed.getDataSize() == totalNumBlocks * tcu::astc::BLOCK_SIZE_BYTES); tcu::astc::generateDefaultNormalBlocks((uint8_t *)compressed.getData(), totalNumBlocks, blockSize.x(), blockSize.y()); // Create texture and render. const tcu::TexDecompressionParams::AstcMode decompressionMode = (m_renderer->getASTCSupport() == ASTCSUPPORTLEVEL_LDR || tcu::isAstcSRGBFormat(m_format)) ? tcu::TexDecompressionParams::ASTCMODE_LDR : tcu::TexDecompressionParams::ASTCMODE_HDR; Surface renderedFrame(imageWidth, imageHeight); Surface referenceFrame(imageWidth, imageHeight); glu::Texture2D texture(renderCtx, m_context.getContextInfo(), 1, &compressed, tcu::TexDecompressionParams(decompressionMode)); m_renderer->render(referenceFrame, renderedFrame, texture, getUncompressedFormat(compressed.getFormat())); { // Compare and log. tcu::ScopedLogSection section(log, "Iteration " + de::toString(m_currentIteration), "Remainder " + de::toString(curRemainderX) + "x" + de::toString(curRemainderY)); log << TestLog::Message << "Using texture of size " << imageWidth << "x" << imageHeight << " and block size " << blockSize.x() << "x" << blockSize.y() << "; the x and y remainders are " << curRemainderX << " and " << curRemainderY << " respectively" << TestLog::EndMessage; const bool compareOk = tcu::pixelThresholdCompare( m_testCtx.getLog(), "ComparisonResult", "Comparison Result", referenceFrame, renderedFrame, threshold, m_currentIteration == 0 ? tcu::COMPARE_LOG_RESULT : tcu::COMPARE_LOG_ON_ERROR); if (!compareOk) { m_testCtx.setTestResult(QP_TEST_RESULT_FAIL, "Image comparison failed"); return STOP; } } if (m_currentIteration == 0 && m_currentIteration + 1 < blockSize.x() * blockSize.y()) log << TestLog::Message << "Note: not logging further images unless reference comparison fails" << TestLog::EndMessage; m_currentIteration++; if (m_currentIteration >= blockSize.x() * blockSize.y()) { DE_ASSERT(m_currentIteration == blockSize.x() * blockSize.y()); m_testCtx.setTestResult(QP_TEST_RESULT_PASS, "Pass"); return STOP; } return CONTINUE; } } // namespace Functional } // namespace gles3 } // namespace deqp