src/gpu/GrProcessorSet.cpp - platform/external/skqp - Gitiles

 /*
  * Copyright 2017 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #include "GrProcessorSet.h"
 #include "GrAppliedClip.h"
 #include "GrCaps.h"
 #include "GrProcOptInfo.h"

 GrProcessorSet::GrProcessorSet(GrPaint&& paint) {
     fXPFactory = paint.fXPFactory;
     fColorFragmentProcessorCnt = paint.numColorFragmentProcessors();
     fFragmentProcessors.reset(paint.numTotalFragmentProcessors());
     int i = 0;
     for (auto& fp : paint.fColorFragmentProcessors) {
         fFragmentProcessors[i++] = fp.release();
     }
     for (auto& fp : paint.fCoverageFragmentProcessors) {
         fFragmentProcessors[i++] = fp.release();
     }
     fFlags = 0;
     if (paint.usesDistanceVectorField()) {
         fFlags |= kUseDistanceVectorField_Flag;
     }
     if (paint.getDisableOutputConversionToSRGB()) {
         fFlags |= kDisableOutputConversionToSRGB_Flag;
     }
     if (paint.getAllowSRGBInputs()) {
         fFlags |= kAllowSRGBInputs_Flag;
     }
 }

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

 void GrProcessorSet::FragmentProcessorAnalysis::internalReset(const GrPipelineInput& colorInput,
                                                               const GrPipelineInput coverageInput,
                                                               const GrProcessorSet& processors,
                                                               const GrFragmentProcessor* clipFP,
                                                               const GrCaps& caps) {
     GrProcOptInfo colorInfo(colorInput);
     fCompatibleWithCoverageAsAlpha = !coverageInput.isLCDCoverage();

     const GrFragmentProcessor* const* fps = processors.fFragmentProcessors.get();
     colorInfo.analyzeProcessors(fps, processors.fColorFragmentProcessorCnt);
     fCompatibleWithCoverageAsAlpha &= colorInfo.allProcessorsCompatibleWithCoverageAsAlpha();
     fps += processors.fColorFragmentProcessorCnt;
     int n = processors.numCoverageFragmentProcessors();
     bool hasCoverageFP = n > 0;
     fUsesLocalCoords = colorInfo.usesLocalCoords();
     for (int i = 0; i < n; ++i) {
         if (!fps[i]->compatibleWithCoverageAsAlpha()) {
             fCompatibleWithCoverageAsAlpha = false;
             // Other than tests that exercise atypical behavior we expect all coverage FPs to be
             // compatible with the coverage-as-alpha optimization.
             GrCapsDebugf(&caps, "Coverage FP is not compatible with coverage as alpha.\n");
         }
         fUsesLocalCoords |= fps[i]->usesLocalCoords();
     }

     if (clipFP) {
         fCompatibleWithCoverageAsAlpha &= clipFP->compatibleWithCoverageAsAlpha();
         fUsesLocalCoords |= clipFP->usesLocalCoords();
         hasCoverageFP = true;
     }
     fInitialColorProcessorsToEliminate =
             colorInfo.initialProcessorsToEliminate(&fOverrideInputColor);

     bool opaque = colorInfo.isOpaque();
     if (colorInfo.hasKnownOutputColor(&fKnownOutputColor)) {
         fColorType = opaque ? ColorType::kOpaqueConstant : ColorType::kConstant;
     } else if (opaque) {
         fColorType = ColorType::kOpaque;
     } else {
         fColorType = ColorType::kUnknown;
     }

     if (coverageInput.isLCDCoverage()) {
         fCoverageType = CoverageType::kLCD;
     } else {
         fCoverageType = hasCoverageFP || !coverageInput.isSolidWhite()
                                 ? CoverageType::kSingleChannel
                                 : CoverageType::kNone;
     }
 }

 void GrProcessorSet::FragmentProcessorAnalysis::reset(const GrPipelineInput& colorInput,
                                                       const GrPipelineInput coverageInput,
                                                       const GrProcessorSet& processors,
                                                       const GrAppliedClip& appliedClip,
                                                       const GrCaps& caps) {
     this->internalReset(colorInput, coverageInput, processors,
                         appliedClip.clipCoverageFragmentProcessor(), caps);
 }

 GrProcessorSet::FragmentProcessorAnalysis::FragmentProcessorAnalysis(
         const GrPipelineInput& colorInput, const GrPipelineInput coverageInput, const GrCaps& caps)
         : FragmentProcessorAnalysis() {
     this->internalReset(colorInput, coverageInput, GrProcessorSet(GrPaint()), nullptr, caps);
 }
	/*
	* Copyright 2017 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#include "GrProcessorSet.h"
	#include "GrAppliedClip.h"
	#include "GrCaps.h"
	#include "GrProcOptInfo.h"

	GrProcessorSet::GrProcessorSet(GrPaint&& paint) {
	fXPFactory = paint.fXPFactory;
	fColorFragmentProcessorCnt = paint.numColorFragmentProcessors();
	fFragmentProcessors.reset(paint.numTotalFragmentProcessors());
	int i = 0;
	for (auto& fp : paint.fColorFragmentProcessors) {
	fFragmentProcessors[i++] = fp.release();
	}
	for (auto& fp : paint.fCoverageFragmentProcessors) {
	fFragmentProcessors[i++] = fp.release();
	}
	fFlags = 0;
	if (paint.usesDistanceVectorField()) {
	fFlags \|= kUseDistanceVectorField_Flag;
	}
	if (paint.getDisableOutputConversionToSRGB()) {
	fFlags \|= kDisableOutputConversionToSRGB_Flag;
	}
	if (paint.getAllowSRGBInputs()) {
	fFlags \|= kAllowSRGBInputs_Flag;
	}
	}

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

	void GrProcessorSet::FragmentProcessorAnalysis::internalReset(const GrPipelineInput& colorInput,
	const GrPipelineInput coverageInput,
	const GrProcessorSet& processors,
	const GrFragmentProcessor* clipFP,
	const GrCaps& caps) {
	GrProcOptInfo colorInfo(colorInput);
	fCompatibleWithCoverageAsAlpha = !coverageInput.isLCDCoverage();

	const GrFragmentProcessor* const* fps = processors.fFragmentProcessors.get();
	colorInfo.analyzeProcessors(fps, processors.fColorFragmentProcessorCnt);
	fCompatibleWithCoverageAsAlpha &= colorInfo.allProcessorsCompatibleWithCoverageAsAlpha();
	fps += processors.fColorFragmentProcessorCnt;
	int n = processors.numCoverageFragmentProcessors();
	bool hasCoverageFP = n > 0;
	fUsesLocalCoords = colorInfo.usesLocalCoords();
	for (int i = 0; i < n; ++i) {
	if (!fps[i]->compatibleWithCoverageAsAlpha()) {
	fCompatibleWithCoverageAsAlpha = false;
	// Other than tests that exercise atypical behavior we expect all coverage FPs to be
	// compatible with the coverage-as-alpha optimization.
	GrCapsDebugf(&caps, "Coverage FP is not compatible with coverage as alpha.\n");
	}
	fUsesLocalCoords \|= fps[i]->usesLocalCoords();
	}

	if (clipFP) {
	fCompatibleWithCoverageAsAlpha &= clipFP->compatibleWithCoverageAsAlpha();
	fUsesLocalCoords \|= clipFP->usesLocalCoords();
	hasCoverageFP = true;
	}
	fInitialColorProcessorsToEliminate =
	colorInfo.initialProcessorsToEliminate(&fOverrideInputColor);

	bool opaque = colorInfo.isOpaque();
	if (colorInfo.hasKnownOutputColor(&fKnownOutputColor)) {
	fColorType = opaque ? ColorType::kOpaqueConstant : ColorType::kConstant;
	} else if (opaque) {
	fColorType = ColorType::kOpaque;
	} else {
	fColorType = ColorType::kUnknown;
	}

	if (coverageInput.isLCDCoverage()) {
	fCoverageType = CoverageType::kLCD;
	} else {
	fCoverageType = hasCoverageFP \|\| !coverageInput.isSolidWhite()
	? CoverageType::kSingleChannel
	: CoverageType::kNone;
	}
	}

	void GrProcessorSet::FragmentProcessorAnalysis::reset(const GrPipelineInput& colorInput,
	const GrPipelineInput coverageInput,
	const GrProcessorSet& processors,
	const GrAppliedClip& appliedClip,
	const GrCaps& caps) {
	this->internalReset(colorInput, coverageInput, processors,
	appliedClip.clipCoverageFragmentProcessor(), caps);
	}

	GrProcessorSet::FragmentProcessorAnalysis::FragmentProcessorAnalysis(
	const GrPipelineInput& colorInput, const GrPipelineInput coverageInput, const GrCaps& caps)
	: FragmentProcessorAnalysis() {
	this->internalReset(colorInput, coverageInput, GrProcessorSet(GrPaint()), nullptr, caps);
	}