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/*
* Copyright 2012 Google Inc.
*
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
#include "GrDrawState.h"
#include "GrBlend.h"
#include "GrOptDrawState.h"
#include "GrPaint.h"
#include "GrProcOptInfo.h"
#include "GrXferProcessor.h"
#include "effects/GrPorterDuffXferProcessor.h"
bool GrDrawState::isEqual(const GrDrawState& that, bool explicitLocalCoords) const {
if (this->getRenderTarget() != that.getRenderTarget() ||
this->fColorStages.count() != that.fColorStages.count() ||
this->fCoverageStages.count() != that.fCoverageStages.count() ||
!this->fViewMatrix.cheapEqualTo(that.fViewMatrix) ||
this->fFlagBits != that.fFlagBits ||
this->fStencilSettings != that.fStencilSettings ||
this->fDrawFace != that.fDrawFace) {
return false;
}
if (!this->getXPFactory()->isEqual(*that.getXPFactory())) {
return false;
}
for (int i = 0; i < this->numColorStages(); i++) {
if (!GrFragmentStage::AreCompatible(this->getColorStage(i), that.getColorStage(i),
explicitLocalCoords)) {
return false;
}
}
for (int i = 0; i < this->numCoverageStages(); i++) {
if (!GrFragmentStage::AreCompatible(this->getCoverageStage(i), that.getCoverageStage(i),
explicitLocalCoords)) {
return false;
}
}
return true;
}
//////////////////////////////////////////////////////////////////////////////s
GrDrawState::GrDrawState(const GrDrawState& state, const SkMatrix& preConcatMatrix) {
SkDEBUGCODE(fBlockEffectRemovalCnt = 0;)
*this = state;
if (!preConcatMatrix.isIdentity()) {
for (int i = 0; i < this->numColorStages(); ++i) {
fColorStages[i].localCoordChange(preConcatMatrix);
}
for (int i = 0; i < this->numCoverageStages(); ++i) {
fCoverageStages[i].localCoordChange(preConcatMatrix);
}
}
}
GrDrawState& GrDrawState::operator=(const GrDrawState& that) {
fRenderTarget.reset(SkSafeRef(that.fRenderTarget.get()));
fViewMatrix = that.fViewMatrix;
fFlagBits = that.fFlagBits;
fStencilSettings = that.fStencilSettings;
fDrawFace = that.fDrawFace;
fXPFactory.reset(SkRef(that.getXPFactory()));
fColorStages = that.fColorStages;
fCoverageStages = that.fCoverageStages;
fColorProcInfoValid = that.fColorProcInfoValid;
fCoverageProcInfoValid = that.fCoverageProcInfoValid;
fColorCache = that.fColorCache;
fCoverageCache = that.fCoverageCache;
if (fColorProcInfoValid) {
fColorProcInfo = that.fColorProcInfo;
}
if (fCoverageProcInfoValid) {
fCoverageProcInfo = that.fCoverageProcInfo;
}
return *this;
}
void GrDrawState::onReset(const SkMatrix* initialViewMatrix) {
SkASSERT(0 == fBlockEffectRemovalCnt || 0 == this->numFragmentStages());
fRenderTarget.reset(NULL);
fXPFactory.reset(GrPorterDuffXPFactory::Create(SkXfermode::kSrc_Mode));
fColorStages.reset();
fCoverageStages.reset();
if (NULL == initialViewMatrix) {
fViewMatrix.reset();
} else {
fViewMatrix = *initialViewMatrix;
}
fFlagBits = 0x0;
fStencilSettings.setDisabled();
fDrawFace = kBoth_DrawFace;
fColorProcInfoValid = false;
fCoverageProcInfoValid = false;
fColorCache = GrColor_ILLEGAL;
fCoverageCache = GrColor_ILLEGAL;
fColorPrimProc = NULL;
fCoveragePrimProc = NULL;
}
bool GrDrawState::setIdentityViewMatrix() {
if (this->numFragmentStages()) {
SkMatrix invVM;
if (!fViewMatrix.invert(&invVM)) {
// sad trombone sound
return false;
}
for (int s = 0; s < this->numColorStages(); ++s) {
fColorStages[s].localCoordChange(invVM);
}
for (int s = 0; s < this->numCoverageStages(); ++s) {
fCoverageStages[s].localCoordChange(invVM);
}
}
fViewMatrix.reset();
return true;
}
void GrDrawState::setFromPaint(const GrPaint& paint, const SkMatrix& vm, GrRenderTarget* rt) {
SkASSERT(0 == fBlockEffectRemovalCnt || 0 == this->numFragmentStages());
fColorStages.reset();
fCoverageStages.reset();
for (int i = 0; i < paint.numColorStages(); ++i) {
fColorStages.push_back(paint.getColorStage(i));
}
for (int i = 0; i < paint.numCoverageStages(); ++i) {
fCoverageStages.push_back(paint.getCoverageStage(i));
}
fXPFactory.reset(SkRef(paint.getXPFactory()));
this->setRenderTarget(rt);
fViewMatrix = vm;
// These have no equivalent in GrPaint, set them to defaults
fDrawFace = kBoth_DrawFace;
fStencilSettings.setDisabled();
fFlagBits = 0;
// Enable the clip bit
this->enableState(GrDrawState::kClip_StateBit);
this->setState(GrDrawState::kDither_StateBit, paint.isDither());
this->setState(GrDrawState::kHWAntialias_StateBit, paint.isAntiAlias());
fColorProcInfoValid = false;
fCoverageProcInfoValid = false;
fColorCache = GrColor_ILLEGAL;
fCoverageCache = GrColor_ILLEGAL;
}
////////////////////////////////////////////////////////////////////////////////
bool GrDrawState::canUseFracCoveragePrimProc(GrColor color, const GrDrawTargetCaps& caps) const {
if (caps.dualSourceBlendingSupport()) {
return true;
}
this->calcColorInvariantOutput(color);
// The coverage isn't actually white, its unknown, but this will produce the same effect
// TODO we want to cache the result of this call, but we can probably clean up the interface
// so we don't have to pass in a seemingly known coverage
this->calcCoverageInvariantOutput(GrColor_WHITE);
return fXPFactory->canApplyCoverage(fColorProcInfo, fCoverageProcInfo,
this->isCoverageDrawing(), this->isColorWriteDisabled());
}
bool GrDrawState::hasSolidCoverage(const GrPrimitiveProcessor* pp) const {
// If we're drawing coverage directly then coverage is effectively treated as color.
if (this->isCoverageDrawing()) {
return true;
}
if (this->numCoverageStages() > 0) {
return false;
}
this->calcCoverageInvariantOutput(pp);
return fCoverageProcInfo.isSolidWhite();
}
//////////////////////////////////////////////////////////////////////////////s
bool GrDrawState::willEffectReadDstColor(const GrPrimitiveProcessor* pp) const {
this->calcColorInvariantOutput(pp);
this->calcCoverageInvariantOutput(pp);
// TODO: Remove need to create the XP here.
// Also once all custom blends are turned into XPs we can remove the need
// to check other stages since only xp's will be able to read dst
SkAutoTUnref<GrXferProcessor> xferProcessor(fXPFactory->createXferProcessor(fColorProcInfo,
fCoverageProcInfo));
if (xferProcessor && xferProcessor->willReadDstColor()) {
return true;
}
if (!this->isColorWriteDisabled()) {
if (fColorProcInfo.readsDst()) {
return true;
}
}
return fCoverageProcInfo.readsDst();
}
void GrDrawState::AutoRestoreEffects::set(GrDrawState* ds) {
if (fDrawState) {
int m = fDrawState->numColorStages() - fColorEffectCnt;
SkASSERT(m >= 0);
fDrawState->fColorStages.pop_back_n(m);
int n = fDrawState->numCoverageStages() - fCoverageEffectCnt;
SkASSERT(n >= 0);
fDrawState->fCoverageStages.pop_back_n(n);
if (m + n > 0) {
fDrawState->fColorProcInfoValid = false;
fDrawState->fCoverageProcInfoValid = false;
}
SkDEBUGCODE(--fDrawState->fBlockEffectRemovalCnt;)
}
fDrawState = ds;
if (NULL != ds) {
fColorEffectCnt = ds->numColorStages();
fCoverageEffectCnt = ds->numCoverageStages();
SkDEBUGCODE(++ds->fBlockEffectRemovalCnt;)
}
}
////////////////////////////////////////////////////////////////////////////////
// Some blend modes allow folding a fractional coverage value into the color's alpha channel, while
// others will blend incorrectly.
bool GrDrawState::canTweakAlphaForCoverage() const {
return fXPFactory->canTweakAlphaForCoverage(this->isCoverageDrawing());
}
////////////////////////////////////////////////////////////////////////////////
void GrDrawState::AutoViewMatrixRestore::restore() {
if (fDrawState) {
SkDEBUGCODE(--fDrawState->fBlockEffectRemovalCnt;)
fDrawState->fViewMatrix = fViewMatrix;
SkASSERT(fDrawState->numColorStages() >= fNumColorStages);
int numCoverageStages = fSavedCoordChanges.count() - fNumColorStages;
SkASSERT(fDrawState->numCoverageStages() >= numCoverageStages);
int i = 0;
for (int s = 0; s < fNumColorStages; ++s, ++i) {
fDrawState->fColorStages[s].restoreCoordChange(fSavedCoordChanges[i]);
}
for (int s = 0; s < numCoverageStages; ++s, ++i) {
fDrawState->fCoverageStages[s].restoreCoordChange(fSavedCoordChanges[i]);
}
fDrawState = NULL;
}
}
void GrDrawState::AutoViewMatrixRestore::set(GrDrawState* drawState,
const SkMatrix& preconcatMatrix) {
this->restore();
SkASSERT(NULL == fDrawState);
if (NULL == drawState || preconcatMatrix.isIdentity()) {
return;
}
fDrawState = drawState;
fViewMatrix = drawState->getViewMatrix();
drawState->fViewMatrix.preConcat(preconcatMatrix);
this->doEffectCoordChanges(preconcatMatrix);
SkDEBUGCODE(++fDrawState->fBlockEffectRemovalCnt;)
}
bool GrDrawState::AutoViewMatrixRestore::setIdentity(GrDrawState* drawState) {
this->restore();
if (NULL == drawState) {
return false;
}
if (drawState->getViewMatrix().isIdentity()) {
return true;
}
fViewMatrix = drawState->getViewMatrix();
if (0 == drawState->numFragmentStages()) {
drawState->fViewMatrix.reset();
fDrawState = drawState;
fNumColorStages = 0;
fSavedCoordChanges.reset(0);
SkDEBUGCODE(++fDrawState->fBlockEffectRemovalCnt;)
return true;
} else {
SkMatrix inv;
if (!fViewMatrix.invert(&inv)) {
return false;
}
drawState->fViewMatrix.reset();
fDrawState = drawState;
this->doEffectCoordChanges(inv);
SkDEBUGCODE(++fDrawState->fBlockEffectRemovalCnt;)
return true;
}
}
void GrDrawState::AutoViewMatrixRestore::doEffectCoordChanges(const SkMatrix& coordChangeMatrix) {
fSavedCoordChanges.reset(fDrawState->numFragmentStages());
int i = 0;
fNumColorStages = fDrawState->numColorStages();
for (int s = 0; s < fNumColorStages; ++s, ++i) {
fDrawState->getColorStage(s).saveCoordChange(&fSavedCoordChanges[i]);
fDrawState->fColorStages[s].localCoordChange(coordChangeMatrix);
}
int numCoverageStages = fDrawState->numCoverageStages();
for (int s = 0; s < numCoverageStages; ++s, ++i) {
fDrawState->getCoverageStage(s).saveCoordChange(&fSavedCoordChanges[i]);
fDrawState->fCoverageStages[s].localCoordChange(coordChangeMatrix);
}
}
////////////////////////////////////////////////////////////////////////////////
GrDrawState::~GrDrawState() {
SkASSERT(0 == fBlockEffectRemovalCnt);
}
////////////////////////////////////////////////////////////////////////////////
bool GrDrawState::willBlendWithDst(const GrPrimitiveProcessor* pp) const {
this->calcColorInvariantOutput(pp);
this->calcCoverageInvariantOutput(pp);
return fXPFactory->willBlendWithDst(fColorProcInfo, fCoverageProcInfo,
this->isCoverageDrawing(), this->isColorWriteDisabled());
}
void GrDrawState::calcColorInvariantOutput(const GrPrimitiveProcessor* pp) const {
if (!fColorProcInfoValid || fColorPrimProc != pp) {
fColorProcInfo.calcColorWithPrimProc(pp, fColorStages.begin(), this->numColorStages());
fColorProcInfoValid = true;
fColorPrimProc = pp;
}
}
void GrDrawState::calcCoverageInvariantOutput(const GrPrimitiveProcessor* pp) const {
if (!fCoverageProcInfoValid || fCoveragePrimProc != pp) {
fCoverageProcInfo.calcCoverageWithPrimProc(pp, fCoverageStages.begin(),
this->numCoverageStages());
fCoverageProcInfoValid = true;
fCoveragePrimProc = pp;
}
}
void GrDrawState::calcColorInvariantOutput(GrColor color) const {
if (!fColorProcInfoValid || color != fColorCache) {
GrColorComponentFlags flags = kRGBA_GrColorComponentFlags;
fColorProcInfo.calcWithInitialValues(fColorStages.begin(), this->numColorStages(), color,
flags, false);
fColorProcInfoValid = true;
fColorCache = color;
}
}
void GrDrawState::calcCoverageInvariantOutput(GrColor coverage) const {
if (!fCoverageProcInfoValid || coverage != fCoverageCache) {
GrColorComponentFlags flags = kRGBA_GrColorComponentFlags;
fCoverageProcInfo.calcWithInitialValues(fCoverageStages.begin(),
this->numCoverageStages(), coverage, flags,
true);
fCoverageProcInfoValid = true;
fCoverageCache = coverage;
}
}
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