src/gpu/GrPipeline.cpp - skia - Git at Google

 /*
  * Copyright 2015 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #include "src/gpu/GrPipeline.h"

 #include "src/gpu/GrAppliedClip.h"
 #include "src/gpu/GrCaps.h"
 #include "src/gpu/GrGpu.h"
 #include "src/gpu/GrSurfaceDrawContext.h"
 #include "src/gpu/GrXferProcessor.h"

 #include "src/gpu/ops/GrOp.h"

 GrPipeline::GrPipeline(const InitArgs& args,
                        sk_sp<const GrXferProcessor> xferProcessor,
                        const GrAppliedHardClip& hardClip)
         : fWriteSwizzle(args.fWriteSwizzle) {
     fFlags = (Flags)args.fInputFlags;
     if (hardClip.hasStencilClip()) {
         fFlags |= Flags::kHasStencilClip;
     }
     if (hardClip.scissorState().enabled()) {
         fFlags |= Flags::kScissorTestEnabled;
     }

     fWindowRectsState = hardClip.windowRectsState();

     fXferProcessor = std::move(xferProcessor);

     SkASSERT((args.fDstProxyView.dstSampleType() != GrDstSampleType::kNone) ==
              SkToBool(args.fDstProxyView.proxy()));
     if (args.fDstProxyView.proxy()) {
         fDstProxyView = args.fDstProxyView.proxyView();
         fDstTextureOffset = args.fDstProxyView.offset();
     }
     fDstSampleType = args.fDstProxyView.dstSampleType();
 }

 GrPipeline::GrPipeline(const InitArgs& args, GrProcessorSet&& processors,
                        GrAppliedClip&& appliedClip)
         : GrPipeline(args, processors.refXferProcessor(), appliedClip.hardClip()) {
     SkASSERT(processors.isFinalized());
     // Copy GrFragmentProcessors from GrProcessorSet to Pipeline
     fNumColorProcessors = processors.hasColorFragmentProcessor() ? 1 : 0;
     int numTotalProcessors = fNumColorProcessors +
                              (processors.hasCoverageFragmentProcessor() ? 1 : 0) +
                              (appliedClip.hasCoverageFragmentProcessor() ? 1 : 0);
     fFragmentProcessors.reset(numTotalProcessors);

     int currFPIdx = 0;
     if (processors.hasColorFragmentProcessor()) {
         fFragmentProcessors[currFPIdx++] = processors.detachColorFragmentProcessor();
     }
     if (processors.hasCoverageFragmentProcessor()) {
         fFragmentProcessors[currFPIdx++] = processors.detachCoverageFragmentProcessor();
     }
     if (appliedClip.hasCoverageFragmentProcessor()) {
         fFragmentProcessors[currFPIdx++] = appliedClip.detachCoverageFragmentProcessor();
     }
 }

 GrXferBarrierType GrPipeline::xferBarrierType(const GrCaps& caps) const {
     if (fDstProxyView.proxy() && GrDstSampleTypeDirectlySamplesDst(fDstSampleType)) {
         return kTexture_GrXferBarrierType;
     }
     return this->getXferProcessor().xferBarrierType(caps);
 }

 GrPipeline::GrPipeline(GrScissorTest scissorTest,
                        sk_sp<const GrXferProcessor> xp,
                        const GrSwizzle& writeSwizzle,
                        InputFlags inputFlags)
         : fWindowRectsState()
         , fFlags((Flags)inputFlags)
         , fXferProcessor(std::move(xp))
         , fWriteSwizzle(writeSwizzle) {
     if (GrScissorTest::kEnabled == scissorTest) {
         fFlags |= Flags::kScissorTestEnabled;
     }
 }

 void GrPipeline::genKey(GrProcessorKeyBuilder* b, const GrCaps& caps) const {
     // kSnapVerticesToPixelCenters is implemented in a shader.
     InputFlags ignoredFlags = InputFlags::kSnapVerticesToPixelCenters;
     if (!caps.multisampleDisableSupport()) {
         // Ganesh will omit kHWAntialias regardless of multisampleDisableSupport.
         ignoredFlags |= InputFlags::kHWAntialias;
     }
     b->add32((uint32_t)fFlags & ~(uint32_t)ignoredFlags);

     const GrXferProcessor::BlendInfo& blendInfo = this->getXferProcessor().getBlendInfo();

     static constexpr uint32_t kBlendWriteShift = 1;
     static constexpr uint32_t kBlendCoeffShift = 5;
     static constexpr uint32_t kBlendEquationShift = 5;
     static constexpr uint32_t kDstSampleTypeInputShift = 1;
     static_assert(kLast_GrBlendCoeff < (1 << kBlendCoeffShift));
     static_assert(kLast_GrBlendEquation < (1 << kBlendEquationShift));
     static_assert(kBlendWriteShift +
                   2 * kBlendCoeffShift +
                   kBlendEquationShift +
                   kDstSampleTypeInputShift <= 32);

     uint32_t blendKey = blendInfo.fWriteColor;
     blendKey |= (blendInfo.fSrcBlend << kBlendWriteShift);
     blendKey |= (blendInfo.fDstBlend << (kBlendWriteShift + kBlendCoeffShift));
     blendKey |= (blendInfo.fEquation << (kBlendWriteShift + 2 * kBlendCoeffShift));
     // Note that we use the general fDstSampleType here and not localDstSampleType()
     blendKey |= ((fDstSampleType == GrDstSampleType::kAsInputAttachment)
                  << (kBlendWriteShift + 2 * kBlendCoeffShift + kBlendEquationShift));

     b->add32(blendKey);
 }

 void GrPipeline::visitTextureEffects(
         const std::function<void(const GrTextureEffect&)>& func) const {
     for (auto& fp : fFragmentProcessors) {
         fp->visitTextureEffects(func);
     }
 }

 void GrPipeline::visitProxies(const GrOp::VisitProxyFunc& func) const {
     // This iteration includes any clip coverage FPs
     for (auto& fp : fFragmentProcessors) {
         fp->visitProxies(func);
     }
     if (this->usesDstTexture()) {
         func(fDstProxyView.proxy(), GrMipmapped::kNo);
     }
 }
	/*
	* Copyright 2015 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#include "src/gpu/GrPipeline.h"

	#include "src/gpu/GrAppliedClip.h"
	#include "src/gpu/GrCaps.h"
	#include "src/gpu/GrGpu.h"
	#include "src/gpu/GrSurfaceDrawContext.h"
	#include "src/gpu/GrXferProcessor.h"

	#include "src/gpu/ops/GrOp.h"

	GrPipeline::GrPipeline(const InitArgs& args,
	sk_sp<const GrXferProcessor> xferProcessor,
	const GrAppliedHardClip& hardClip)
	: fWriteSwizzle(args.fWriteSwizzle) {
	fFlags = (Flags)args.fInputFlags;
	if (hardClip.hasStencilClip()) {
	fFlags \|= Flags::kHasStencilClip;
	}
	if (hardClip.scissorState().enabled()) {
	fFlags \|= Flags::kScissorTestEnabled;
	}

	fWindowRectsState = hardClip.windowRectsState();

	fXferProcessor = std::move(xferProcessor);

	SkASSERT((args.fDstProxyView.dstSampleType() != GrDstSampleType::kNone) ==
	SkToBool(args.fDstProxyView.proxy()));
	if (args.fDstProxyView.proxy()) {
	fDstProxyView = args.fDstProxyView.proxyView();
	fDstTextureOffset = args.fDstProxyView.offset();
	}
	fDstSampleType = args.fDstProxyView.dstSampleType();
	}

	GrPipeline::GrPipeline(const InitArgs& args, GrProcessorSet&& processors,
	GrAppliedClip&& appliedClip)
	: GrPipeline(args, processors.refXferProcessor(), appliedClip.hardClip()) {
	SkASSERT(processors.isFinalized());
	// Copy GrFragmentProcessors from GrProcessorSet to Pipeline
	fNumColorProcessors = processors.hasColorFragmentProcessor() ? 1 : 0;
	int numTotalProcessors = fNumColorProcessors +
	(processors.hasCoverageFragmentProcessor() ? 1 : 0) +
	(appliedClip.hasCoverageFragmentProcessor() ? 1 : 0);
	fFragmentProcessors.reset(numTotalProcessors);

	int currFPIdx = 0;
	if (processors.hasColorFragmentProcessor()) {
	fFragmentProcessors[currFPIdx++] = processors.detachColorFragmentProcessor();
	}
	if (processors.hasCoverageFragmentProcessor()) {
	fFragmentProcessors[currFPIdx++] = processors.detachCoverageFragmentProcessor();
	}
	if (appliedClip.hasCoverageFragmentProcessor()) {
	fFragmentProcessors[currFPIdx++] = appliedClip.detachCoverageFragmentProcessor();
	}
	}

	GrXferBarrierType GrPipeline::xferBarrierType(const GrCaps& caps) const {
	if (fDstProxyView.proxy() && GrDstSampleTypeDirectlySamplesDst(fDstSampleType)) {
	return kTexture_GrXferBarrierType;
	}
	return this->getXferProcessor().xferBarrierType(caps);
	}

	GrPipeline::GrPipeline(GrScissorTest scissorTest,
	sk_sp<const GrXferProcessor> xp,
	const GrSwizzle& writeSwizzle,
	InputFlags inputFlags)
	: fWindowRectsState()
	, fFlags((Flags)inputFlags)
	, fXferProcessor(std::move(xp))
	, fWriteSwizzle(writeSwizzle) {
	if (GrScissorTest::kEnabled == scissorTest) {
	fFlags \|= Flags::kScissorTestEnabled;
	}
	}

	void GrPipeline::genKey(GrProcessorKeyBuilder* b, const GrCaps& caps) const {
	// kSnapVerticesToPixelCenters is implemented in a shader.
	InputFlags ignoredFlags = InputFlags::kSnapVerticesToPixelCenters;
	if (!caps.multisampleDisableSupport()) {
	// Ganesh will omit kHWAntialias regardless of multisampleDisableSupport.
	ignoredFlags \|= InputFlags::kHWAntialias;
	}
	b->add32((uint32_t)fFlags & ~(uint32_t)ignoredFlags);

	const GrXferProcessor::BlendInfo& blendInfo = this->getXferProcessor().getBlendInfo();

	static constexpr uint32_t kBlendWriteShift = 1;
	static constexpr uint32_t kBlendCoeffShift = 5;
	static constexpr uint32_t kBlendEquationShift = 5;
	static constexpr uint32_t kDstSampleTypeInputShift = 1;
	static_assert(kLast_GrBlendCoeff < (1 << kBlendCoeffShift));
	static_assert(kLast_GrBlendEquation < (1 << kBlendEquationShift));
	static_assert(kBlendWriteShift +
	2 * kBlendCoeffShift +
	kBlendEquationShift +
	kDstSampleTypeInputShift <= 32);

	uint32_t blendKey = blendInfo.fWriteColor;
	blendKey \|= (blendInfo.fSrcBlend << kBlendWriteShift);
	blendKey \|= (blendInfo.fDstBlend << (kBlendWriteShift + kBlendCoeffShift));
	blendKey \|= (blendInfo.fEquation << (kBlendWriteShift + 2 * kBlendCoeffShift));
	// Note that we use the general fDstSampleType here and not localDstSampleType()
	blendKey \|= ((fDstSampleType == GrDstSampleType::kAsInputAttachment)
	<< (kBlendWriteShift + 2 * kBlendCoeffShift + kBlendEquationShift));

	b->add32(blendKey);
	}

	void GrPipeline::visitTextureEffects(
	const std::function<void(const GrTextureEffect&)>& func) const {
	for (auto& fp : fFragmentProcessors) {
	fp->visitTextureEffects(func);
	}
	}

	void GrPipeline::visitProxies(const GrOp::VisitProxyFunc& func) const {
	// This iteration includes any clip coverage FPs
	for (auto& fp : fFragmentProcessors) {
	fp->visitProxies(func);
	}
	if (this->usesDstTexture()) {
	func(fDstProxyView.proxy(), GrMipmapped::kNo);
	}
	}