src/gpu/gl/builders/GrGLProgramBuilder.cpp - skia - Git at Google

 /*
  * Copyright 2014 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #include "GrGLProgramBuilder.h"

 #include "GrAutoLocaleSetter.h"
 #include "GrContext.h"
 #include "GrContextPriv.h"
 #include "GrCoordTransform.h"
 #include "GrGLProgramBuilder.h"
 #include "GrProgramDesc.h"
 #include "GrShaderCaps.h"
 #include "GrSwizzle.h"
 #include "SkAutoMalloc.h"
 #include "SkATrace.h"
 #include "SkTraceEvent.h"
 #include "gl/GrGLGpu.h"
 #include "gl/GrGLProgram.h"
 #include "gl/builders/GrGLShaderStringBuilder.h"
 #include "glsl/GrGLSLFragmentProcessor.h"
 #include "glsl/GrGLSLGeometryProcessor.h"
 #include "glsl/GrGLSLProgramDataManager.h"
 #include "glsl/GrGLSLXferProcessor.h"

 #define GL_CALL(X) GR_GL_CALL(this->gpu()->glInterface(), X)
 #define GL_CALL_RET(R, X) GR_GL_CALL_RET(this->gpu()->glInterface(), R, X)

 GrGLProgram* GrGLProgramBuilder::CreateProgram(const GrPipeline& pipeline,
                                                const GrPrimitiveProcessor& primProc,
                                                GrProgramDesc* desc,
                                                GrGLGpu* gpu) {
 #ifdef SK_DEBUG
     GrResourceProvider* resourceProvider = gpu->getContext()->contextPriv().resourceProvider();

     SkASSERT(!pipeline.isBad() && primProc.instantiate(resourceProvider));
 #endif

     ATRACE_ANDROID_FRAMEWORK("Shader Compile");
     GrAutoLocaleSetter als("C");

     // create a builder.  This will be handed off to effects so they can use it to add
     // uniforms, varyings, textures, etc
     GrGLProgramBuilder builder(gpu, pipeline, primProc, desc);

     auto persistentCache = gpu->getContext()->contextPriv().getPersistentCache();
     if (persistentCache && gpu->glCaps().programBinarySupport()) {
         sk_sp<SkData> key = SkData::MakeWithoutCopy(desc->asKey(), desc->keyLength());
         builder.fCached = persistentCache->load(*key);
         // the eventual end goal is to completely skip emitAndInstallProcs on a cache hit, but it's
         // doing necessary setup in addition to generating the SkSL code. Currently we are only able
         // to skip the SkSL->GLSL step on a cache hit.
     }
     if (!builder.emitAndInstallProcs()) {
         return nullptr;
     }
     return builder.finalize();
 }

 /////////////////////////////////////////////////////////////////////////////

 GrGLProgramBuilder::GrGLProgramBuilder(GrGLGpu* gpu,
                                        const GrPipeline& pipeline,
                                        const GrPrimitiveProcessor& primProc,
                                        GrProgramDesc* desc)
         : INHERITED(pipeline, primProc, desc)
         , fGpu(gpu)
         , fVaryingHandler(this)
         , fUniformHandler(this)
         , fVertexAttributeCnt(0)
         , fInstanceAttributeCnt(0)
         , fVertexStride(0)
         , fInstanceStride(0) {}

 const GrCaps* GrGLProgramBuilder::caps() const {
     return fGpu->caps();
 }

 bool GrGLProgramBuilder::compileAndAttachShaders(const char* glsl,
                                                  int length,
                                                  GrGLuint programId,
                                                  GrGLenum type,
                                                  SkTDArray<GrGLuint>* shaderIds,
                                                  const SkSL::Program::Settings& settings,
                                                  const SkSL::Program::Inputs& inputs) {
     GrGLGpu* gpu = this->gpu();
     GrGLuint shaderId = GrGLCompileAndAttachShader(gpu->glContext(),
                                                    programId,
                                                    type,
                                                    glsl,
                                                    length,
                                                    gpu->stats(),
                                                    settings);
     if (!shaderId) {
         return false;
     }

     *shaderIds->append() = shaderId;
     if (inputs.fFlipY) {
         GrProgramDesc* d = this->desc();
         d->setSurfaceOriginKey(GrGLSLFragmentShaderBuilder::KeyForSurfaceOrigin(
                                                      this->pipeline().proxy()->origin()));
         d->finalize();
     }

     return true;
 }

 bool GrGLProgramBuilder::compileAndAttachShaders(GrGLSLShaderBuilder& shader,
                                                  GrGLuint programId,
                                                  GrGLenum type,
                                                  SkTDArray<GrGLuint>* shaderIds,
                                                  const SkSL::Program::Settings& settings,
                                                  SkSL::Program::Inputs* outInputs) {
     SkSL::String glsl;
     std::unique_ptr<SkSL::Program> program = GrSkSLtoGLSL(gpu()->glContext(), type,
                                                  shader.fCompilerStrings.begin(),
                                                  shader.fCompilerStringLengths.begin(),
                                                  shader.fCompilerStrings.count(),
                                                  settings,
                                                  &glsl);
     *outInputs = program->fInputs;
     return this->compileAndAttachShaders(glsl.c_str(),
                                          glsl.size(),
                                          programId,
                                          type,
                                          shaderIds,
                                          settings,
                                          *outInputs);
 }

 GrGLProgram* GrGLProgramBuilder::finalize() {
     TRACE_EVENT0("skia", TRACE_FUNC);

     // verify we can get a program id
     GrGLuint programID;
     GL_CALL_RET(programID, CreateProgram());
     if (0 == programID) {
         return nullptr;
     }

     if (this->gpu()->glCaps().programBinarySupport() &&
         this->gpu()->getContext()->contextPriv().getPersistentCache()) {
         GL_CALL(ProgramParameteri(programID, GR_GL_PROGRAM_BINARY_RETRIEVABLE_HINT, GR_GL_TRUE));
     }

     this->finalizeShaders();

     // compile shaders and bind attributes / uniforms
     const GrPrimitiveProcessor& primProc = this->primitiveProcessor();
     SkSL::Program::Settings settings;
     settings.fCaps = this->gpu()->glCaps().shaderCaps();
     settings.fFlipY = this->pipeline().proxy()->origin() != kTopLeft_GrSurfaceOrigin;
     settings.fSharpenTextures = this->gpu()->getContext()->contextPriv().sharpenMipmappedTextures();
     settings.fFragColorIsInOut = this->fragColorIsInOut();

     SkSL::Program::Inputs inputs;
     SkTDArray<GrGLuint> shadersToDelete;
     bool cached = fGpu->glCaps().programBinarySupport() && nullptr != fCached.get();
     if (cached) {
         this->bindProgramResourceLocations(programID);
         // cache hit, just hand the binary to GL
         const uint8_t* bytes = fCached->bytes();
         size_t offset = 0;
         memcpy(&inputs, bytes + offset, sizeof(inputs));
         offset += sizeof(inputs);
         int binaryFormat;
         memcpy(&binaryFormat, bytes + offset, sizeof(binaryFormat));
         offset += sizeof(binaryFormat);
         GrGLClearErr(this->gpu()->glInterface());
         GR_GL_CALL_NOERRCHECK(this->gpu()->glInterface(),
                               ProgramBinary(programID, binaryFormat, (void*) (bytes + offset),
                                             fCached->size() - offset));
         if (GR_GL_GET_ERROR(this->gpu()->glInterface()) == GR_GL_NO_ERROR) {
             if (inputs.fRTHeight) {
                 this->addRTHeightUniform(SKSL_RTHEIGHT_NAME);
             }
             cached = this->checkLinkStatus(programID);
         } else {
             cached = false;
         }
     }
     if (!cached) {
         // cache miss, compile shaders
         if (fFS.fForceHighPrecision) {
             settings.fForceHighPrecision = true;
         }
         SkSL::String glsl;
         std::unique_ptr<SkSL::Program> fs = GrSkSLtoGLSL(gpu()->glContext(),
                                                          GR_GL_FRAGMENT_SHADER,
                                                          fFS.fCompilerStrings.begin(),
                                                          fFS.fCompilerStringLengths.begin(),
                                                          fFS.fCompilerStrings.count(),
                                                          settings,
                                                          &glsl);
         if (!fs) {
             this->cleanupProgram(programID, shadersToDelete);
             return nullptr;
         }
         inputs = fs->fInputs;
         if (inputs.fRTHeight) {
             this->addRTHeightUniform(SKSL_RTHEIGHT_NAME);
         }
         if (!this->compileAndAttachShaders(glsl.c_str(), glsl.size(), programID,
                                            GR_GL_FRAGMENT_SHADER, &shadersToDelete, settings,
                                            inputs)) {
             this->cleanupProgram(programID, shadersToDelete);
             return nullptr;
         }

         std::unique_ptr<SkSL::Program> vs = GrSkSLtoGLSL(gpu()->glContext(),
                                                          GR_GL_VERTEX_SHADER,
                                                          fVS.fCompilerStrings.begin(),
                                                          fVS.fCompilerStringLengths.begin(),
                                                          fVS.fCompilerStrings.count(),
                                                          settings,
                                                          &glsl);
         if (!vs || !this->compileAndAttachShaders(glsl.c_str(), glsl.size(), programID,
                                                   GR_GL_VERTEX_SHADER, &shadersToDelete, settings,
                                                   inputs)) {
             this->cleanupProgram(programID, shadersToDelete);
             return nullptr;
         }

         // NVPR actually requires a vertex shader to compile
         bool useNvpr = primProc.isPathRendering();
         if (!useNvpr) {
             fVertexAttributeCnt = primProc.numVertexAttributes();
             fInstanceAttributeCnt = primProc.numInstanceAttributes();
             fAttributes.reset(
                     new GrGLProgram::Attribute[fVertexAttributeCnt + fInstanceAttributeCnt]);
             auto addAttr = [&](int i, const auto& a, size_t* stride) {
                 fAttributes[i].fType = a.type();
                 fAttributes[i].fOffset = *stride;
                 *stride += a.sizeAlign4();
                 fAttributes[i].fLocation = i;
                 GL_CALL(BindAttribLocation(programID, i, a.name()));
             };
             fVertexStride = 0;
             int i = 0;
             for (; i < fVertexAttributeCnt; i++) {
                 addAttr(i, primProc.vertexAttribute(i), &fVertexStride);
                 SkASSERT(fAttributes[i].fOffset == primProc.debugOnly_vertexAttributeOffset(i));
             }
             SkASSERT(fVertexStride == primProc.debugOnly_vertexStride());
             fInstanceStride = 0;
             for (int j = 0; j < fInstanceAttributeCnt; j++, ++i) {
                 addAttr(i, primProc.instanceAttribute(j), &fInstanceStride);
                 SkASSERT(fAttributes[i].fOffset == primProc.debugOnly_instanceAttributeOffset(j));
             }
             SkASSERT(fInstanceStride == primProc.debugOnly_instanceStride());
         }

         if (primProc.willUseGeoShader()) {
             std::unique_ptr<SkSL::Program> gs;
             gs = GrSkSLtoGLSL(gpu()->glContext(),
                               GR_GL_GEOMETRY_SHADER,
                               fGS.fCompilerStrings.begin(),
                               fGS.fCompilerStringLengths.begin(),
                               fGS.fCompilerStrings.count(),
                               settings,
                               &glsl);
             if (!gs || !this->compileAndAttachShaders(glsl.c_str(), glsl.size(), programID,
                                                       GR_GL_GEOMETRY_SHADER, &shadersToDelete,
                                                       settings, inputs)) {
                 this->cleanupProgram(programID, shadersToDelete);
                 return nullptr;
             }
         }
         this->bindProgramResourceLocations(programID);

         GL_CALL(LinkProgram(programID));
     }
     // Calling GetProgramiv is expensive in Chromium. Assume success in release builds.
     bool checkLinked = kChromium_GrGLDriver != fGpu->ctxInfo().driver();
 #ifdef SK_DEBUG
     checkLinked = true;
 #endif
     if (checkLinked) {
         if (!this->checkLinkStatus(programID)) {
             SkDebugf("VS:\n");
             GrGLPrintShader(fGpu->glContext(), GR_GL_VERTEX_SHADER, fVS.fCompilerStrings.begin(),
                             fVS.fCompilerStringLengths.begin(), fVS.fCompilerStrings.count(),
                             settings);
             if (primProc.willUseGeoShader()) {
                 SkDebugf("\nGS:\n");
                 GrGLPrintShader(fGpu->glContext(), GR_GL_GEOMETRY_SHADER,
                                 fGS.fCompilerStrings.begin(), fGS.fCompilerStringLengths.begin(),
                                 fGS.fCompilerStrings.count(), settings);
             }
             SkDebugf("\nFS:\n");
             GrGLPrintShader(fGpu->glContext(), GR_GL_FRAGMENT_SHADER, fFS.fCompilerStrings.begin(),
                             fFS.fCompilerStringLengths.begin(), fFS.fCompilerStrings.count(),
                             settings);
             SkDEBUGFAIL("");
             return nullptr;
         }
     }
     this->resolveProgramResourceLocations(programID);

     this->cleanupShaders(shadersToDelete);
     if (!cached && this->gpu()->getContext()->contextPriv().getPersistentCache() &&
         fGpu->glCaps().programBinarySupport()) {
         GrGLsizei length = 0;
         GL_CALL(GetProgramiv(programID, GL_PROGRAM_BINARY_LENGTH, &length));
         if (length > 0) {
             // store shader in cache
             sk_sp<SkData> key = SkData::MakeWithoutCopy(desc()->asKey(), desc()->keyLength());
             GrGLenum binaryFormat;
             std::unique_ptr<char[]> binary(new char[length]);
             GL_CALL(GetProgramBinary(programID, length, &length, &binaryFormat, binary.get()));
             size_t dataLength = sizeof(inputs) + sizeof(binaryFormat) + length;
             std::unique_ptr<uint8_t[]> data(new uint8_t[dataLength]);
             size_t offset = 0;
             memcpy(data.get() + offset, &inputs, sizeof(inputs));
             offset += sizeof(inputs);
             memcpy(data.get() + offset, &binaryFormat, sizeof(binaryFormat));
             offset += sizeof(binaryFormat);
             memcpy(data.get() + offset, binary.get(), length);
             this->gpu()->getContext()->contextPriv().getPersistentCache()->store(
                                             *key, *SkData::MakeWithoutCopy(data.get(), dataLength));
         }
     }
     return this->createProgram(programID);
 }

 void GrGLProgramBuilder::bindProgramResourceLocations(GrGLuint programID) {
     fUniformHandler.bindUniformLocations(programID, fGpu->glCaps());

     const GrGLCaps& caps = this->gpu()->glCaps();
     if (fFS.hasCustomColorOutput() && caps.bindFragDataLocationSupport()) {
         GL_CALL(BindFragDataLocation(programID, 0,
                                      GrGLSLFragmentShaderBuilder::DeclaredColorOutputName()));
     }
     if (fFS.hasSecondaryOutput() && caps.shaderCaps()->mustDeclareFragmentShaderOutput()) {
         GL_CALL(BindFragDataLocationIndexed(programID, 0, 1,
                                   GrGLSLFragmentShaderBuilder::DeclaredSecondaryColorOutputName()));
     }

     // handle NVPR separable varyings
     if (!fGpu->glCaps().shaderCaps()->pathRenderingSupport() ||
         !fGpu->glPathRendering()->shouldBindFragmentInputs()) {
         return;
     }
     int count = fVaryingHandler.fPathProcVaryingInfos.count();
     for (int i = 0; i < count; ++i) {
         GL_CALL(BindFragmentInputLocation(programID, i,
                                        fVaryingHandler.fPathProcVaryingInfos[i].fVariable.c_str()));
         fVaryingHandler.fPathProcVaryingInfos[i].fLocation = i;
     }
 }

 bool GrGLProgramBuilder::checkLinkStatus(GrGLuint programID) {
     GrGLint linked = GR_GL_INIT_ZERO;
     GL_CALL(GetProgramiv(programID, GR_GL_LINK_STATUS, &linked));
     if (!linked) {
         SkDebugf("Program linking failed.\n");
         GrGLint infoLen = GR_GL_INIT_ZERO;
         GL_CALL(GetProgramiv(programID, GR_GL_INFO_LOG_LENGTH, &infoLen));
         SkAutoMalloc log(sizeof(char)*(infoLen+1));  // outside if for debugger
         if (infoLen > 0) {
             // retrieve length even though we don't need it to workaround
             // bug in chrome cmd buffer param validation.
             GrGLsizei length = GR_GL_INIT_ZERO;
             GL_CALL(GetProgramInfoLog(programID,
                                       infoLen+1,
                                       &length,
                                       (char*)log.get()));
             SkDebugf("%s", (char*)log.get());
         }
         GL_CALL(DeleteProgram(programID));
         programID = 0;
     }
     return SkToBool(linked);
 }

 void GrGLProgramBuilder::resolveProgramResourceLocations(GrGLuint programID) {
     fUniformHandler.getUniformLocations(programID, fGpu->glCaps());

     // handle NVPR separable varyings
     if (!fGpu->glCaps().shaderCaps()->pathRenderingSupport() ||
         fGpu->glPathRendering()->shouldBindFragmentInputs()) {
         return;
     }
     int count = fVaryingHandler.fPathProcVaryingInfos.count();
     for (int i = 0; i < count; ++i) {
         GrGLint location;
         GL_CALL_RET(location, GetProgramResourceLocation(
                                        programID,
                                        GR_GL_FRAGMENT_INPUT,
                                        fVaryingHandler.fPathProcVaryingInfos[i].fVariable.c_str()));
         fVaryingHandler.fPathProcVaryingInfos[i].fLocation = location;
     }
 }

 void GrGLProgramBuilder::cleanupProgram(GrGLuint programID, const SkTDArray<GrGLuint>& shaderIDs) {
     GL_CALL(DeleteProgram(programID));
     this->cleanupShaders(shaderIDs);
 }
 void GrGLProgramBuilder::cleanupShaders(const SkTDArray<GrGLuint>& shaderIDs) {
     for (int i = 0; i < shaderIDs.count(); ++i) {
         GL_CALL(DeleteShader(shaderIDs[i]));
     }
 }

 GrGLProgram* GrGLProgramBuilder::createProgram(GrGLuint programID) {
     return new GrGLProgram(fGpu,
                            fUniformHandles,
                            programID,
                            fUniformHandler.fUniforms,
                            fUniformHandler.fSamplers,
                            fUniformHandler.fTexelBuffers,
                            fVaryingHandler.fPathProcVaryingInfos,
                            std::move(fGeometryProcessor),
                            std::move(fXferProcessor),
                            std::move(fFragmentProcessors),
                            fFragmentProcessorCnt,
                            std::move(fAttributes),
                            fVertexAttributeCnt,
                            fInstanceAttributeCnt,
                            fVertexStride,
                            fInstanceStride);
 }
	/*
	* Copyright 2014 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#include "GrGLProgramBuilder.h"

	#include "GrAutoLocaleSetter.h"
	#include "GrContext.h"
	#include "GrContextPriv.h"
	#include "GrCoordTransform.h"
	#include "GrGLProgramBuilder.h"
	#include "GrProgramDesc.h"
	#include "GrShaderCaps.h"
	#include "GrSwizzle.h"
	#include "SkAutoMalloc.h"
	#include "SkATrace.h"
	#include "SkTraceEvent.h"
	#include "gl/GrGLGpu.h"
	#include "gl/GrGLProgram.h"
	#include "gl/builders/GrGLShaderStringBuilder.h"
	#include "glsl/GrGLSLFragmentProcessor.h"
	#include "glsl/GrGLSLGeometryProcessor.h"
	#include "glsl/GrGLSLProgramDataManager.h"
	#include "glsl/GrGLSLXferProcessor.h"

	#define GL_CALL(X) GR_GL_CALL(this->gpu()->glInterface(), X)
	#define GL_CALL_RET(R, X) GR_GL_CALL_RET(this->gpu()->glInterface(), R, X)

	GrGLProgram* GrGLProgramBuilder::CreateProgram(const GrPipeline& pipeline,
	const GrPrimitiveProcessor& primProc,
	GrProgramDesc* desc,
	GrGLGpu* gpu) {
	#ifdef SK_DEBUG
	GrResourceProvider* resourceProvider = gpu->getContext()->contextPriv().resourceProvider();

	SkASSERT(!pipeline.isBad() && primProc.instantiate(resourceProvider));
	#endif

	ATRACE_ANDROID_FRAMEWORK("Shader Compile");
	GrAutoLocaleSetter als("C");

	// create a builder. This will be handed off to effects so they can use it to add
	// uniforms, varyings, textures, etc
	GrGLProgramBuilder builder(gpu, pipeline, primProc, desc);

	auto persistentCache = gpu->getContext()->contextPriv().getPersistentCache();
	if (persistentCache && gpu->glCaps().programBinarySupport()) {
	sk_sp<SkData> key = SkData::MakeWithoutCopy(desc->asKey(), desc->keyLength());
	builder.fCached = persistentCache->load(*key);
	// the eventual end goal is to completely skip emitAndInstallProcs on a cache hit, but it's
	// doing necessary setup in addition to generating the SkSL code. Currently we are only able
	// to skip the SkSL->GLSL step on a cache hit.
	}
	if (!builder.emitAndInstallProcs()) {
	return nullptr;
	}
	return builder.finalize();
	}

	/////////////////////////////////////////////////////////////////////////////

	GrGLProgramBuilder::GrGLProgramBuilder(GrGLGpu* gpu,
	const GrPipeline& pipeline,
	const GrPrimitiveProcessor& primProc,
	GrProgramDesc* desc)
	: INHERITED(pipeline, primProc, desc)
	, fGpu(gpu)
	, fVaryingHandler(this)
	, fUniformHandler(this)
	, fVertexAttributeCnt(0)
	, fInstanceAttributeCnt(0)
	, fVertexStride(0)
	, fInstanceStride(0) {}

	const GrCaps* GrGLProgramBuilder::caps() const {
	return fGpu->caps();
	}

	bool GrGLProgramBuilder::compileAndAttachShaders(const char* glsl,
	int length,
	GrGLuint programId,
	GrGLenum type,
	SkTDArray<GrGLuint>* shaderIds,
	const SkSL::Program::Settings& settings,
	const SkSL::Program::Inputs& inputs) {
	GrGLGpu* gpu = this->gpu();
	GrGLuint shaderId = GrGLCompileAndAttachShader(gpu->glContext(),
	programId,
	type,
	glsl,
	length,
	gpu->stats(),
	settings);
	if (!shaderId) {
	return false;
	}

	*shaderIds->append() = shaderId;
	if (inputs.fFlipY) {
	GrProgramDesc* d = this->desc();
	d->setSurfaceOriginKey(GrGLSLFragmentShaderBuilder::KeyForSurfaceOrigin(
	this->pipeline().proxy()->origin()));
	d->finalize();
	}

	return true;
	}

	bool GrGLProgramBuilder::compileAndAttachShaders(GrGLSLShaderBuilder& shader,
	GrGLuint programId,
	GrGLenum type,
	SkTDArray<GrGLuint>* shaderIds,
	const SkSL::Program::Settings& settings,
	SkSL::Program::Inputs* outInputs) {
	SkSL::String glsl;
	std::unique_ptr<SkSL::Program> program = GrSkSLtoGLSL(gpu()->glContext(), type,
	shader.fCompilerStrings.begin(),
	shader.fCompilerStringLengths.begin(),
	shader.fCompilerStrings.count(),
	settings,
	&glsl);
	*outInputs = program->fInputs;
	return this->compileAndAttachShaders(glsl.c_str(),
	glsl.size(),
	programId,
	type,
	shaderIds,
	settings,
	*outInputs);
	}

	GrGLProgram* GrGLProgramBuilder::finalize() {
	TRACE_EVENT0("skia", TRACE_FUNC);

	// verify we can get a program id
	GrGLuint programID;
	GL_CALL_RET(programID, CreateProgram());
	if (0 == programID) {
	return nullptr;
	}

	if (this->gpu()->glCaps().programBinarySupport() &&
	this->gpu()->getContext()->contextPriv().getPersistentCache()) {
	GL_CALL(ProgramParameteri(programID, GR_GL_PROGRAM_BINARY_RETRIEVABLE_HINT, GR_GL_TRUE));
	}

	this->finalizeShaders();

	// compile shaders and bind attributes / uniforms
	const GrPrimitiveProcessor& primProc = this->primitiveProcessor();
	SkSL::Program::Settings settings;
	settings.fCaps = this->gpu()->glCaps().shaderCaps();
	settings.fFlipY = this->pipeline().proxy()->origin() != kTopLeft_GrSurfaceOrigin;
	settings.fSharpenTextures = this->gpu()->getContext()->contextPriv().sharpenMipmappedTextures();
	settings.fFragColorIsInOut = this->fragColorIsInOut();

	SkSL::Program::Inputs inputs;
	SkTDArray<GrGLuint> shadersToDelete;
	bool cached = fGpu->glCaps().programBinarySupport() && nullptr != fCached.get();
	if (cached) {
	this->bindProgramResourceLocations(programID);
	// cache hit, just hand the binary to GL
	const uint8_t* bytes = fCached->bytes();
	size_t offset = 0;
	memcpy(&inputs, bytes + offset, sizeof(inputs));
	offset += sizeof(inputs);
	int binaryFormat;
	memcpy(&binaryFormat, bytes + offset, sizeof(binaryFormat));
	offset += sizeof(binaryFormat);
	GrGLClearErr(this->gpu()->glInterface());
	GR_GL_CALL_NOERRCHECK(this->gpu()->glInterface(),
	ProgramBinary(programID, binaryFormat, (void*) (bytes + offset),
	fCached->size() - offset));
	if (GR_GL_GET_ERROR(this->gpu()->glInterface()) == GR_GL_NO_ERROR) {
	if (inputs.fRTHeight) {
	this->addRTHeightUniform(SKSL_RTHEIGHT_NAME);
	}
	cached = this->checkLinkStatus(programID);
	} else {
	cached = false;
	}
	}
	if (!cached) {
	// cache miss, compile shaders
	if (fFS.fForceHighPrecision) {
	settings.fForceHighPrecision = true;
	}
	SkSL::String glsl;
	std::unique_ptr<SkSL::Program> fs = GrSkSLtoGLSL(gpu()->glContext(),
	GR_GL_FRAGMENT_SHADER,
	fFS.fCompilerStrings.begin(),
	fFS.fCompilerStringLengths.begin(),
	fFS.fCompilerStrings.count(),
	settings,
	&glsl);
	if (!fs) {
	this->cleanupProgram(programID, shadersToDelete);
	return nullptr;
	}
	inputs = fs->fInputs;
	if (inputs.fRTHeight) {
	this->addRTHeightUniform(SKSL_RTHEIGHT_NAME);
	}
	if (!this->compileAndAttachShaders(glsl.c_str(), glsl.size(), programID,
	GR_GL_FRAGMENT_SHADER, &shadersToDelete, settings,
	inputs)) {
	this->cleanupProgram(programID, shadersToDelete);
	return nullptr;
	}

	std::unique_ptr<SkSL::Program> vs = GrSkSLtoGLSL(gpu()->glContext(),
	GR_GL_VERTEX_SHADER,
	fVS.fCompilerStrings.begin(),
	fVS.fCompilerStringLengths.begin(),
	fVS.fCompilerStrings.count(),
	settings,
	&glsl);
	if (!vs \|\| !this->compileAndAttachShaders(glsl.c_str(), glsl.size(), programID,
	GR_GL_VERTEX_SHADER, &shadersToDelete, settings,
	inputs)) {
	this->cleanupProgram(programID, shadersToDelete);
	return nullptr;
	}

	// NVPR actually requires a vertex shader to compile
	bool useNvpr = primProc.isPathRendering();
	if (!useNvpr) {
	fVertexAttributeCnt = primProc.numVertexAttributes();
	fInstanceAttributeCnt = primProc.numInstanceAttributes();
	fAttributes.reset(
	new GrGLProgram::Attribute[fVertexAttributeCnt + fInstanceAttributeCnt]);
	auto addAttr = [&](int i, const auto& a, size_t* stride) {
	fAttributes[i].fType = a.type();
	fAttributes[i].fOffset = *stride;
	*stride += a.sizeAlign4();
	fAttributes[i].fLocation = i;
	GL_CALL(BindAttribLocation(programID, i, a.name()));
	};
	fVertexStride = 0;
	int i = 0;
	for (; i < fVertexAttributeCnt; i++) {
	addAttr(i, primProc.vertexAttribute(i), &fVertexStride);
	SkASSERT(fAttributes[i].fOffset == primProc.debugOnly_vertexAttributeOffset(i));
	}
	SkASSERT(fVertexStride == primProc.debugOnly_vertexStride());
	fInstanceStride = 0;
	for (int j = 0; j < fInstanceAttributeCnt; j++, ++i) {
	addAttr(i, primProc.instanceAttribute(j), &fInstanceStride);
	SkASSERT(fAttributes[i].fOffset == primProc.debugOnly_instanceAttributeOffset(j));
	}
	SkASSERT(fInstanceStride == primProc.debugOnly_instanceStride());
	}

	if (primProc.willUseGeoShader()) {
	std::unique_ptr<SkSL::Program> gs;
	gs = GrSkSLtoGLSL(gpu()->glContext(),
	GR_GL_GEOMETRY_SHADER,
	fGS.fCompilerStrings.begin(),
	fGS.fCompilerStringLengths.begin(),
	fGS.fCompilerStrings.count(),
	settings,
	&glsl);
	if (!gs \|\| !this->compileAndAttachShaders(glsl.c_str(), glsl.size(), programID,
	GR_GL_GEOMETRY_SHADER, &shadersToDelete,
	settings, inputs)) {
	this->cleanupProgram(programID, shadersToDelete);
	return nullptr;
	}
	}
	this->bindProgramResourceLocations(programID);

	GL_CALL(LinkProgram(programID));
	}
	// Calling GetProgramiv is expensive in Chromium. Assume success in release builds.
	bool checkLinked = kChromium_GrGLDriver != fGpu->ctxInfo().driver();
	#ifdef SK_DEBUG
	checkLinked = true;
	#endif
	if (checkLinked) {
	if (!this->checkLinkStatus(programID)) {
	SkDebugf("VS:\n");
	GrGLPrintShader(fGpu->glContext(), GR_GL_VERTEX_SHADER, fVS.fCompilerStrings.begin(),
	fVS.fCompilerStringLengths.begin(), fVS.fCompilerStrings.count(),
	settings);
	if (primProc.willUseGeoShader()) {
	SkDebugf("\nGS:\n");
	GrGLPrintShader(fGpu->glContext(), GR_GL_GEOMETRY_SHADER,
	fGS.fCompilerStrings.begin(), fGS.fCompilerStringLengths.begin(),
	fGS.fCompilerStrings.count(), settings);
	}
	SkDebugf("\nFS:\n");
	GrGLPrintShader(fGpu->glContext(), GR_GL_FRAGMENT_SHADER, fFS.fCompilerStrings.begin(),
	fFS.fCompilerStringLengths.begin(), fFS.fCompilerStrings.count(),
	settings);
	SkDEBUGFAIL("");
	return nullptr;
	}
	}
	this->resolveProgramResourceLocations(programID);

	this->cleanupShaders(shadersToDelete);
	if (!cached && this->gpu()->getContext()->contextPriv().getPersistentCache() &&
	fGpu->glCaps().programBinarySupport()) {
	GrGLsizei length = 0;
	GL_CALL(GetProgramiv(programID, GL_PROGRAM_BINARY_LENGTH, &length));
	if (length > 0) {
	// store shader in cache
	sk_sp<SkData> key = SkData::MakeWithoutCopy(desc()->asKey(), desc()->keyLength());
	GrGLenum binaryFormat;
	std::unique_ptr<char[]> binary(new char[length]);
	GL_CALL(GetProgramBinary(programID, length, &length, &binaryFormat, binary.get()));
	size_t dataLength = sizeof(inputs) + sizeof(binaryFormat) + length;
	std::unique_ptr<uint8_t[]> data(new uint8_t[dataLength]);
	size_t offset = 0;
	memcpy(data.get() + offset, &inputs, sizeof(inputs));
	offset += sizeof(inputs);
	memcpy(data.get() + offset, &binaryFormat, sizeof(binaryFormat));
	offset += sizeof(binaryFormat);
	memcpy(data.get() + offset, binary.get(), length);
	this->gpu()->getContext()->contextPriv().getPersistentCache()->store(
	key, SkData::MakeWithoutCopy(data.get(), dataLength));
	}
	}
	return this->createProgram(programID);
	}

	void GrGLProgramBuilder::bindProgramResourceLocations(GrGLuint programID) {
	fUniformHandler.bindUniformLocations(programID, fGpu->glCaps());

	const GrGLCaps& caps = this->gpu()->glCaps();
	if (fFS.hasCustomColorOutput() && caps.bindFragDataLocationSupport()) {
	GL_CALL(BindFragDataLocation(programID, 0,
	GrGLSLFragmentShaderBuilder::DeclaredColorOutputName()));
	}
	if (fFS.hasSecondaryOutput() && caps.shaderCaps()->mustDeclareFragmentShaderOutput()) {
	GL_CALL(BindFragDataLocationIndexed(programID, 0, 1,
	GrGLSLFragmentShaderBuilder::DeclaredSecondaryColorOutputName()));
	}

	// handle NVPR separable varyings
	if (!fGpu->glCaps().shaderCaps()->pathRenderingSupport() \|\|
	!fGpu->glPathRendering()->shouldBindFragmentInputs()) {
	return;
	}
	int count = fVaryingHandler.fPathProcVaryingInfos.count();
	for (int i = 0; i < count; ++i) {
	GL_CALL(BindFragmentInputLocation(programID, i,
	fVaryingHandler.fPathProcVaryingInfos[i].fVariable.c_str()));
	fVaryingHandler.fPathProcVaryingInfos[i].fLocation = i;
	}
	}

	bool GrGLProgramBuilder::checkLinkStatus(GrGLuint programID) {
	GrGLint linked = GR_GL_INIT_ZERO;
	GL_CALL(GetProgramiv(programID, GR_GL_LINK_STATUS, &linked));
	if (!linked) {
	SkDebugf("Program linking failed.\n");
	GrGLint infoLen = GR_GL_INIT_ZERO;
	GL_CALL(GetProgramiv(programID, GR_GL_INFO_LOG_LENGTH, &infoLen));
	SkAutoMalloc log(sizeof(char)*(infoLen+1)); // outside if for debugger
	if (infoLen > 0) {
	// retrieve length even though we don't need it to workaround
	// bug in chrome cmd buffer param validation.
	GrGLsizei length = GR_GL_INIT_ZERO;
	GL_CALL(GetProgramInfoLog(programID,
	infoLen+1,
	&length,
	(char*)log.get()));
	SkDebugf("%s", (char*)log.get());
	}
	GL_CALL(DeleteProgram(programID));
	programID = 0;
	}
	return SkToBool(linked);
	}

	void GrGLProgramBuilder::resolveProgramResourceLocations(GrGLuint programID) {
	fUniformHandler.getUniformLocations(programID, fGpu->glCaps());

	// handle NVPR separable varyings
	if (!fGpu->glCaps().shaderCaps()->pathRenderingSupport() \|\|
	fGpu->glPathRendering()->shouldBindFragmentInputs()) {
	return;
	}
	int count = fVaryingHandler.fPathProcVaryingInfos.count();
	for (int i = 0; i < count; ++i) {
	GrGLint location;
	GL_CALL_RET(location, GetProgramResourceLocation(
	programID,
	GR_GL_FRAGMENT_INPUT,
	fVaryingHandler.fPathProcVaryingInfos[i].fVariable.c_str()));
	fVaryingHandler.fPathProcVaryingInfos[i].fLocation = location;
	}
	}

	void GrGLProgramBuilder::cleanupProgram(GrGLuint programID, const SkTDArray<GrGLuint>& shaderIDs) {
	GL_CALL(DeleteProgram(programID));
	this->cleanupShaders(shaderIDs);
	}
	void GrGLProgramBuilder::cleanupShaders(const SkTDArray<GrGLuint>& shaderIDs) {
	for (int i = 0; i < shaderIDs.count(); ++i) {
	GL_CALL(DeleteShader(shaderIDs[i]));
	}
	}

	GrGLProgram* GrGLProgramBuilder::createProgram(GrGLuint programID) {
	return new GrGLProgram(fGpu,
	fUniformHandles,
	programID,
	fUniformHandler.fUniforms,
	fUniformHandler.fSamplers,
	fUniformHandler.fTexelBuffers,
	fVaryingHandler.fPathProcVaryingInfos,
	std::move(fGeometryProcessor),
	std::move(fXferProcessor),
	std::move(fFragmentProcessors),
	fFragmentProcessorCnt,
	std::move(fAttributes),
	fVertexAttributeCnt,
	fInstanceAttributeCnt,
	fVertexStride,
	fInstanceStride);
	}