src/gpu/GrOptDrawState.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 "GrOptDrawState.h"

 #include "GrDrawState.h"
 #include "GrDrawTargetCaps.h"
 #include "GrGpu.h"
 #include "GrProcOptInfo.h"
 #include "GrXferProcessor.h"

 GrOptDrawState::GrOptDrawState(const GrDrawState& drawState,
                                const GrGeometryProcessor* gp,
                                const GrPathProcessor* pathProc,
                                const GrDrawTargetCaps& caps,
                                const GrScissorState& scissorState,
                                const GrDeviceCoordTexture* dstCopy,
                                GrGpu::DrawType drawType)
     : fFinalized(false) {
     fDrawType = drawType;

     // Copy GeometryProcesssor from DS or ODS
     if (gp) {
         SkASSERT(!pathProc);
         SkASSERT(!GrGpu::IsPathRenderingDrawType(drawType));
         fGeometryProcessor.reset(gp);
         fPrimitiveProcessor.reset(gp);
     } else {
         SkASSERT(!gp && pathProc && GrGpu::IsPathRenderingDrawType(drawType));
         fPrimitiveProcessor.reset(pathProc);
     }


     const GrProcOptInfo& colorPOI = drawState.colorProcInfo(fPrimitiveProcessor);
     const GrProcOptInfo& coveragePOI = drawState.coverageProcInfo(fPrimitiveProcessor);

     // Create XferProcessor from DS's XPFactory
     SkAutoTUnref<GrXferProcessor> xferProcessor(
         drawState.getXPFactory()->createXferProcessor(colorPOI, coveragePOI));

     GrColor overrideColor = GrColor_ILLEGAL;
     if (colorPOI.firstEffectiveStageIndex() != 0) {
         overrideColor = colorPOI.inputColorToEffectiveStage();
     }

     GrXferProcessor::OptFlags optFlags;
     if (xferProcessor) {
         fXferProcessor.reset(xferProcessor.get());

         optFlags = xferProcessor->getOptimizations(colorPOI,
                                                    coveragePOI,
                                                    drawState.isColorWriteDisabled(),
                                                    drawState.getStencil().doesWrite(),
                                                    &overrideColor,
                                                    caps);
     }

     // When path rendering the stencil settings are not always set on the draw state
     // so we must check the draw type. In cases where we will skip drawing we simply return a
     // null GrOptDrawState.
     if (!xferProcessor || (GrXferProcessor::kSkipDraw_OptFlag & optFlags)) {
         // Set the fields that don't default init and return. The lack of a render target will
         // indicate that this can be skipped.
         fFlags = 0;
         fDrawFace = GrDrawState::kInvalid_DrawFace;
         fViewMatrix.reset();
         return;
     }

     fRenderTarget.reset(drawState.fRenderTarget.get());
     SkASSERT(fRenderTarget);
     fScissorState = scissorState;
     fViewMatrix = drawState.getViewMatrix();
     fStencilSettings = drawState.getStencil();
     fDrawFace = drawState.getDrawFace();
     // TODO move this out of optDrawState
     if (dstCopy) {
         fDstCopy = *dstCopy;
     }

     fFlags = 0;
     if (drawState.isHWAntialias()) {
         fFlags |= kHWAA_Flag;
     }
     if (drawState.isColorWriteDisabled()) {
         fFlags |= kDisableColorWrite_Flag;
     }
     if (drawState.isDither()) {
         fFlags |= kDither_Flag;
     }

     // TODO move local coords completely into GP
     bool hasLocalCoords = gp && gp->hasLocalCoords();

     int firstColorStageIdx = colorPOI.firstEffectiveStageIndex();

     // TODO: Once we can handle single or four channel input into coverage stages then we can use
     // drawState's coverageProcInfo (like color above) to set this initial information.
     int firstCoverageStageIdx = 0;

     GrXferProcessor::BlendInfo blendInfo;
     fXferProcessor->getBlendInfo(&blendInfo);

     this->adjustProgramFromOptimizations(drawState, optFlags, colorPOI, coveragePOI,
                                          &firstColorStageIdx, &firstCoverageStageIdx);

     fDescInfo.fRequiresLocalCoordAttrib = hasLocalCoords;

     bool usesLocalCoords = false;

     // Copy Stages from DS to ODS
     for (int i = firstColorStageIdx; i < drawState.numColorStages(); ++i) {
         SkNEW_APPEND_TO_TARRAY(&fFragmentStages,
                                GrPendingFragmentStage,
                                (drawState.fColorStages[i], hasLocalCoords));
         usesLocalCoords = usesLocalCoords ||
                           drawState.fColorStages[i].getProcessor()->usesLocalCoords();
     }

     fNumColorStages = fFragmentStages.count();
     for (int i = firstCoverageStageIdx; i < drawState.numCoverageStages(); ++i) {
         SkNEW_APPEND_TO_TARRAY(&fFragmentStages,
                                GrPendingFragmentStage,
                                (drawState.fCoverageStages[i], hasLocalCoords));
         usesLocalCoords = usesLocalCoords ||
                           drawState.fCoverageStages[i].getProcessor()->usesLocalCoords();
     }

     // let the GP init the batch tracker
     GrGeometryProcessor::InitBT init;
     init.fColorIgnored = SkToBool(optFlags & GrXferProcessor::kIgnoreColor_OptFlag);
     init.fOverrideColor = init.fColorIgnored ? GrColor_ILLEGAL : overrideColor;
     init.fCoverageIgnored = SkToBool(optFlags & GrXferProcessor::kIgnoreCoverage_OptFlag);
     init.fUsesLocalCoords = usesLocalCoords;
     fPrimitiveProcessor->initBatchTracker(&fBatchTracker, init);
 }

 void GrOptDrawState::adjustProgramFromOptimizations(const GrDrawState& ds,
                                                     GrXferProcessor::OptFlags flags,
                                                     const GrProcOptInfo& colorPOI,
                                                     const GrProcOptInfo& coveragePOI,
                                                     int* firstColorStageIdx,
                                                     int* firstCoverageStageIdx) {
     fDescInfo.fReadsDst = false;
     fDescInfo.fReadsFragPosition = false;

     if ((flags & GrXferProcessor::kIgnoreColor_OptFlag) ||
         (flags & GrXferProcessor::kOverrideColor_OptFlag)) {
         *firstColorStageIdx = ds.numColorStages();
     } else {
         fDescInfo.fReadsDst = colorPOI.readsDst();
         fDescInfo.fReadsFragPosition = colorPOI.readsFragPosition();
     }

     if (flags & GrXferProcessor::kIgnoreCoverage_OptFlag) {
         *firstCoverageStageIdx = ds.numCoverageStages();
     } else {
         if (coveragePOI.readsDst()) {
             fDescInfo.fReadsDst = true;
         }
         if (coveragePOI.readsFragPosition()) {
             fDescInfo.fReadsFragPosition = true;
         }
     }
 }

 void GrOptDrawState::finalize(GrGpu* gpu) {
     gpu->buildProgramDesc(*this, fDescInfo, fDrawType, &fDesc);
     fFinalized = true;
 }

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

 bool GrOptDrawState::combineIfPossible(const GrOptDrawState& that) {
     if (fDescInfo != that.fDescInfo) {
         return false;
     }

     if (this->getRenderTarget() != that.getRenderTarget() ||
         this->fFragmentStages.count() != that.fFragmentStages.count() ||
         this->fNumColorStages != that.fNumColorStages ||
         this->fScissorState != that.fScissorState ||
         !this->fViewMatrix.cheapEqualTo(that.fViewMatrix) ||
         this->fDrawType != that.fDrawType ||
         this->fFlags != that.fFlags ||
         this->fStencilSettings != that.fStencilSettings ||
         this->fDrawFace != that.fDrawFace ||
         this->fDstCopy.texture() != that.fDstCopy.texture()) {
         return false;
     }

     if (!this->getPrimitiveProcessor()->canMakeEqual(fBatchTracker,
                                                      *that.getPrimitiveProcessor(),
                                                      that.getBatchTracker())) {
         return false;
     }

     if (!this->getXferProcessor()->isEqual(*that.getXferProcessor())) {
         return false;
     }

     // The program desc comparison should have already assured that the stage counts match.
     SkASSERT(this->numFragmentStages() == that.numFragmentStages());
     for (int i = 0; i < this->numFragmentStages(); i++) {

         if (this->getFragmentStage(i) != that.getFragmentStage(i)) {
             return false;
         }
     }

     // Now update the GrPrimitiveProcessor's batch tracker
     fPrimitiveProcessor->makeEqual(&fBatchTracker, that.getBatchTracker());
     return true;
 }
	/*
	* 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 "GrOptDrawState.h"

	#include "GrDrawState.h"
	#include "GrDrawTargetCaps.h"
	#include "GrGpu.h"
	#include "GrProcOptInfo.h"
	#include "GrXferProcessor.h"

	GrOptDrawState::GrOptDrawState(const GrDrawState& drawState,
	const GrGeometryProcessor* gp,
	const GrPathProcessor* pathProc,
	const GrDrawTargetCaps& caps,
	const GrScissorState& scissorState,
	const GrDeviceCoordTexture* dstCopy,
	GrGpu::DrawType drawType)
	: fFinalized(false) {
	fDrawType = drawType;

	// Copy GeometryProcesssor from DS or ODS
	if (gp) {
	SkASSERT(!pathProc);
	SkASSERT(!GrGpu::IsPathRenderingDrawType(drawType));
	fGeometryProcessor.reset(gp);
	fPrimitiveProcessor.reset(gp);
	} else {
	SkASSERT(!gp && pathProc && GrGpu::IsPathRenderingDrawType(drawType));
	fPrimitiveProcessor.reset(pathProc);
	}


	const GrProcOptInfo& colorPOI = drawState.colorProcInfo(fPrimitiveProcessor);
	const GrProcOptInfo& coveragePOI = drawState.coverageProcInfo(fPrimitiveProcessor);

	// Create XferProcessor from DS's XPFactory
	SkAutoTUnref<GrXferProcessor> xferProcessor(
	drawState.getXPFactory()->createXferProcessor(colorPOI, coveragePOI));

	GrColor overrideColor = GrColor_ILLEGAL;
	if (colorPOI.firstEffectiveStageIndex() != 0) {
	overrideColor = colorPOI.inputColorToEffectiveStage();
	}

	GrXferProcessor::OptFlags optFlags;
	if (xferProcessor) {
	fXferProcessor.reset(xferProcessor.get());

	optFlags = xferProcessor->getOptimizations(colorPOI,
	coveragePOI,
	drawState.isColorWriteDisabled(),
	drawState.getStencil().doesWrite(),
	&overrideColor,
	caps);
	}

	// When path rendering the stencil settings are not always set on the draw state
	// so we must check the draw type. In cases where we will skip drawing we simply return a
	// null GrOptDrawState.
	if (!xferProcessor \|\| (GrXferProcessor::kSkipDraw_OptFlag & optFlags)) {
	// Set the fields that don't default init and return. The lack of a render target will
	// indicate that this can be skipped.
	fFlags = 0;
	fDrawFace = GrDrawState::kInvalid_DrawFace;
	fViewMatrix.reset();
	return;
	}

	fRenderTarget.reset(drawState.fRenderTarget.get());
	SkASSERT(fRenderTarget);
	fScissorState = scissorState;
	fViewMatrix = drawState.getViewMatrix();
	fStencilSettings = drawState.getStencil();
	fDrawFace = drawState.getDrawFace();
	// TODO move this out of optDrawState
	if (dstCopy) {
	fDstCopy = *dstCopy;
	}

	fFlags = 0;
	if (drawState.isHWAntialias()) {
	fFlags \|= kHWAA_Flag;
	}
	if (drawState.isColorWriteDisabled()) {
	fFlags \|= kDisableColorWrite_Flag;
	}
	if (drawState.isDither()) {
	fFlags \|= kDither_Flag;
	}

	// TODO move local coords completely into GP
	bool hasLocalCoords = gp && gp->hasLocalCoords();

	int firstColorStageIdx = colorPOI.firstEffectiveStageIndex();

	// TODO: Once we can handle single or four channel input into coverage stages then we can use
	// drawState's coverageProcInfo (like color above) to set this initial information.
	int firstCoverageStageIdx = 0;

	GrXferProcessor::BlendInfo blendInfo;
	fXferProcessor->getBlendInfo(&blendInfo);

	this->adjustProgramFromOptimizations(drawState, optFlags, colorPOI, coveragePOI,
	&firstColorStageIdx, &firstCoverageStageIdx);

	fDescInfo.fRequiresLocalCoordAttrib = hasLocalCoords;

	bool usesLocalCoords = false;

	// Copy Stages from DS to ODS
	for (int i = firstColorStageIdx; i < drawState.numColorStages(); ++i) {
	SkNEW_APPEND_TO_TARRAY(&fFragmentStages,
	GrPendingFragmentStage,
	(drawState.fColorStages[i], hasLocalCoords));
	usesLocalCoords = usesLocalCoords \|\|
	drawState.fColorStages[i].getProcessor()->usesLocalCoords();
	}

	fNumColorStages = fFragmentStages.count();
	for (int i = firstCoverageStageIdx; i < drawState.numCoverageStages(); ++i) {
	SkNEW_APPEND_TO_TARRAY(&fFragmentStages,
	GrPendingFragmentStage,
	(drawState.fCoverageStages[i], hasLocalCoords));
	usesLocalCoords = usesLocalCoords \|\|
	drawState.fCoverageStages[i].getProcessor()->usesLocalCoords();
	}

	// let the GP init the batch tracker
	GrGeometryProcessor::InitBT init;
	init.fColorIgnored = SkToBool(optFlags & GrXferProcessor::kIgnoreColor_OptFlag);
	init.fOverrideColor = init.fColorIgnored ? GrColor_ILLEGAL : overrideColor;
	init.fCoverageIgnored = SkToBool(optFlags & GrXferProcessor::kIgnoreCoverage_OptFlag);
	init.fUsesLocalCoords = usesLocalCoords;
	fPrimitiveProcessor->initBatchTracker(&fBatchTracker, init);
	}

	void GrOptDrawState::adjustProgramFromOptimizations(const GrDrawState& ds,
	GrXferProcessor::OptFlags flags,
	const GrProcOptInfo& colorPOI,
	const GrProcOptInfo& coveragePOI,
	int* firstColorStageIdx,
	int* firstCoverageStageIdx) {
	fDescInfo.fReadsDst = false;
	fDescInfo.fReadsFragPosition = false;

	if ((flags & GrXferProcessor::kIgnoreColor_OptFlag) \|\|
	(flags & GrXferProcessor::kOverrideColor_OptFlag)) {
	*firstColorStageIdx = ds.numColorStages();
	} else {
	fDescInfo.fReadsDst = colorPOI.readsDst();
	fDescInfo.fReadsFragPosition = colorPOI.readsFragPosition();
	}

	if (flags & GrXferProcessor::kIgnoreCoverage_OptFlag) {
	*firstCoverageStageIdx = ds.numCoverageStages();
	} else {
	if (coveragePOI.readsDst()) {
	fDescInfo.fReadsDst = true;
	}
	if (coveragePOI.readsFragPosition()) {
	fDescInfo.fReadsFragPosition = true;
	}
	}
	}

	void GrOptDrawState::finalize(GrGpu* gpu) {
	gpu->buildProgramDesc(*this, fDescInfo, fDrawType, &fDesc);
	fFinalized = true;
	}

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

	bool GrOptDrawState::combineIfPossible(const GrOptDrawState& that) {
	if (fDescInfo != that.fDescInfo) {
	return false;
	}

	if (this->getRenderTarget() != that.getRenderTarget() \|\|
	this->fFragmentStages.count() != that.fFragmentStages.count() \|\|
	this->fNumColorStages != that.fNumColorStages \|\|
	this->fScissorState != that.fScissorState \|\|
	!this->fViewMatrix.cheapEqualTo(that.fViewMatrix) \|\|
	this->fDrawType != that.fDrawType \|\|
	this->fFlags != that.fFlags \|\|
	this->fStencilSettings != that.fStencilSettings \|\|
	this->fDrawFace != that.fDrawFace \|\|
	this->fDstCopy.texture() != that.fDstCopy.texture()) {
	return false;
	}

	if (!this->getPrimitiveProcessor()->canMakeEqual(fBatchTracker,
	*that.getPrimitiveProcessor(),
	that.getBatchTracker())) {
	return false;
	}

	if (!this->getXferProcessor()->isEqual(*that.getXferProcessor())) {
	return false;
	}

	// The program desc comparison should have already assured that the stage counts match.
	SkASSERT(this->numFragmentStages() == that.numFragmentStages());
	for (int i = 0; i < this->numFragmentStages(); i++) {

	if (this->getFragmentStage(i) != that.getFragmentStage(i)) {
	return false;
	}
	}

	// Now update the GrPrimitiveProcessor's batch tracker
	fPrimitiveProcessor->makeEqual(&fBatchTracker, that.getBatchTracker());
	return true;
	}