GrSafeUnref(fAAStrokeRectIndexBuffer);
fGpu->unref();
GrSafeUnref(fPathRendererChain);
+ fDrawState->unref();
}
void GrContext::contextLost() {
void GrContext::setClip(const GrClip& clip) {
fGpu->setClip(clip);
- fGpu->drawState()->enableState(GrDrawState::kClip_StateBit);
+ fDrawState->enableState(GrDrawState::kClip_StateBit);
}
void GrContext::setClip(const GrIRect& rect) {
GrMatrix inverse;
SkTLazy<GrPaint> tmpPaint;
const GrPaint* p = &paint;
- GrDrawState* drawState = fGpu->drawState();
GrAutoMatrix am;
// We attempt to map r by the inverse matrix and draw that. mapRect will
// map the four corners and bound them with a new rect. This will not
// produce a correct result for some perspective matrices.
if (!this->getMatrix().hasPerspective()) {
- if (!drawState->getViewInverse(&inverse)) {
+ if (!fDrawState->getViewInverse(&inverse)) {
GrPrintf("Could not invert matrix");
return;
}
inverse.mapRect(&r);
} else {
if (paint.getActiveMaskStageMask() || paint.getActiveStageMask()) {
- if (!drawState->getViewInverse(&inverse)) {
+ if (!fDrawState->getViewInverse(&inverse)) {
GrPrintf("Could not invert matrix");
return;
}
ASSERT_OWNED_RESOURCE(target);
if (NULL == target) {
- target = fGpu->drawState()->getRenderTarget();
+ target = fDrawState->getRenderTarget();
if (NULL == target) {
return false;
}
}
////////////////////////////////////////////////////////////////////////////////
-void GrContext::setPaint(const GrPaint& paint, GrDrawTarget* target) {
- GrDrawState* drawState = target->drawState();
+void GrContext::setPaint(const GrPaint& paint) {
for (int i = 0; i < GrPaint::kMaxTextures; ++i) {
int s = i + GrPaint::kFirstTextureStage;
- drawState->setTexture(s, paint.getTexture(i));
+ fDrawState->setTexture(s, paint.getTexture(i));
ASSERT_OWNED_RESOURCE(paint.getTexture(i));
if (paint.getTexture(i)) {
- *drawState->sampler(s) = paint.getTextureSampler(i);
+ *fDrawState->sampler(s) = paint.getTextureSampler(i);
}
}
- drawState->setFirstCoverageStage(GrPaint::kFirstMaskStage);
+ fDrawState->setFirstCoverageStage(GrPaint::kFirstMaskStage);
for (int i = 0; i < GrPaint::kMaxMasks; ++i) {
int s = i + GrPaint::kFirstMaskStage;
- drawState->setTexture(s, paint.getMask(i));
+ fDrawState->setTexture(s, paint.getMask(i));
ASSERT_OWNED_RESOURCE(paint.getMask(i));
if (paint.getMask(i)) {
- *drawState->sampler(s) = paint.getMaskSampler(i);
+ *fDrawState->sampler(s) = paint.getMaskSampler(i);
}
}
// disable all stages not accessible via the paint
for (int s = GrPaint::kTotalStages; s < GrDrawState::kNumStages; ++s) {
- drawState->setTexture(s, NULL);
+ fDrawState->setTexture(s, NULL);
}
- drawState->setColor(paint.fColor);
+ fDrawState->setColor(paint.fColor);
if (paint.fDither) {
- drawState->enableState(GrDrawState::kDither_StateBit);
+ fDrawState->enableState(GrDrawState::kDither_StateBit);
} else {
- drawState->disableState(GrDrawState::kDither_StateBit);
+ fDrawState->disableState(GrDrawState::kDither_StateBit);
}
if (paint.fAntiAlias) {
- drawState->enableState(GrDrawState::kHWAntialias_StateBit);
+ fDrawState->enableState(GrDrawState::kHWAntialias_StateBit);
} else {
- drawState->disableState(GrDrawState::kHWAntialias_StateBit);
+ fDrawState->disableState(GrDrawState::kHWAntialias_StateBit);
}
if (paint.fColorMatrixEnabled) {
- drawState->enableState(GrDrawState::kColorMatrix_StateBit);
- drawState->setColorMatrix(paint.fColorMatrix);
+ fDrawState->enableState(GrDrawState::kColorMatrix_StateBit);
+ fDrawState->setColorMatrix(paint.fColorMatrix);
} else {
- drawState->disableState(GrDrawState::kColorMatrix_StateBit);
+ fDrawState->disableState(GrDrawState::kColorMatrix_StateBit);
}
- drawState->setBlendFunc(paint.fSrcBlendCoeff, paint.fDstBlendCoeff);
- drawState->setColorFilter(paint.fColorFilterColor, paint.fColorFilterXfermode);
- drawState->setCoverage(paint.fCoverage);
+ fDrawState->setBlendFunc(paint.fSrcBlendCoeff, paint.fDstBlendCoeff);
+ fDrawState->setColorFilter(paint.fColorFilterColor, paint.fColorFilterXfermode);
+ fDrawState->setCoverage(paint.fCoverage);
#if GR_DEBUG
if ((paint.getActiveMaskStageMask() || 0xff != paint.fCoverage) &&
- !target->canApplyCoverage()) {
+ !fGpu->canApplyCoverage()) {
GrPrintf("Partial pixel coverage will be incorrectly blended.\n");
}
#endif
this->flushDrawBuffer();
fLastDrawCategory = category;
}
- this->setPaint(paint, fGpu);
+ this->setPaint(paint);
GrDrawTarget* target = fGpu;
switch (category) {
case kText_DrawCategory:
#if DEFER_TEXT_RENDERING
target = fDrawBuffer;
- fDrawBuffer->initializeDrawStateAndClip(*fGpu);
+ fDrawBuffer->setClip(fGpu->getClip());
#else
target = fGpu;
#endif
break;
case kBuffered_DrawCategory:
target = fDrawBuffer;
- fDrawBuffer->initializeDrawStateAndClip(*fGpu);
+ fDrawBuffer->setClip(fGpu->getClip());
break;
}
return target;
void GrContext::setRenderTarget(GrRenderTarget* target) {
ASSERT_OWNED_RESOURCE(target);
- if (fGpu->drawState()->getRenderTarget() != target) {
+ if (fDrawState->getRenderTarget() != target) {
this->flush(false);
- fGpu->drawState()->setRenderTarget(target);
+ fDrawState->setRenderTarget(target);
}
}
GrRenderTarget* GrContext::getRenderTarget() {
- return fGpu->drawState()->getRenderTarget();
+ return fDrawState->getRenderTarget();
}
const GrRenderTarget* GrContext::getRenderTarget() const {
- return fGpu->getDrawState().getRenderTarget();
+ return fDrawState->getRenderTarget();
}
const GrMatrix& GrContext::getMatrix() const {
- return fGpu->getDrawState().getViewMatrix();
+ return fDrawState->getViewMatrix();
}
void GrContext::setMatrix(const GrMatrix& m) {
- fGpu->drawState()->setViewMatrix(m);
+ fDrawState->setViewMatrix(m);
}
void GrContext::concatMatrix(const GrMatrix& m) const {
- fGpu->drawState()->preConcatViewMatrix(m);
+ fDrawState->preConcatViewMatrix(m);
}
static inline intptr_t setOrClear(intptr_t bits, int shift, intptr_t pred) {
fGpu->ref();
fGpu->setContext(this);
+ fDrawState = new GrDrawState();
+ fGpu->setDrawState(fDrawState);
+
fPathRendererChain = NULL;
fTextureCache = new GrResourceCache(MAX_TEXTURE_CACHE_COUNT,
fAAFillRectIndexBuffer = NULL;
fAAStrokeRectIndexBuffer = NULL;
-
+
this->setupDrawBuffer();
}
fDrawBuffer->setQuadIndexBuffer(this->getQuadIndexBuffer());
#endif
fDrawBuffer->setAutoFlushTarget(fGpu);
+ fDrawBuffer->setDrawState(fDrawState);
}
GrDrawTarget* GrContext::getTextTarget(const GrPaint& paint) {
- GrDrawTarget* target;
#if DEFER_TEXT_RENDERING
- target = prepareToDraw(paint, kText_DrawCategory);
+ return prepareToDraw(paint, kText_DrawCategory);
#else
- target = prepareToDraw(paint, kUnbuffered_DrawCategory);
+ return prepareToDraw(paint, kUnbuffered_DrawCategory);
#endif
- this->setPaint(paint, target);
- return target;
}
const GrIndexBuffer* GrContext::getQuadIndexBuffer() const {