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Revert "Delete GPU alpha clip masks"

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This reverts commit a466228a61.

Reason for revert: Turned up a vulkan driver bug

Original change's description:
> Delete GPU alpha clip masks
> 
> The cost of switching render targets on each draw to make a custom
> clip is enormous. There are virtually no circumstances where this will
> outperform our cached, multi-threaded software mask generator. The
> tried-and-true approach to clipping on-GPU is with analytic FPs. And
> now that we support CCPR clip FPs, there ulitmately should be very few
> clip stacks that even require a mask as long as they don't use
> deprecated SkClipOps.
> 
> Bug: skia:
> Change-Id: I79c5558c93c1b99179f1e933d029f69b14ad1ce3
> Reviewed-on: https://skia-review.googlesource.com/116724
> Reviewed-by: Brian Osman <brianosman@google.com>
> Commit-Queue: Chris Dalton <csmartdalton@google.com>

TBR=robertphillips@google.com,brianosman@google.com,csmartdalton@google.com

# Not skipping CQ checks because original CL landed > 1 day ago.

Bug: skia:
Change-Id: Iba289e00ba2eca7084dc8517491cfb5f6ab6266f
Reviewed-on: https://skia-review.googlesource.com/117420
Reviewed-by: Chris Dalton <csmartdalton@google.com>
Commit-Queue: Chris Dalton <csmartdalton@google.com>
This commit is contained in:
Chris Dalton 2018-03-30 15:59:38 +00:00 committed by Skia Commit-Bot
parent 7a002c36ce
commit c534808ba2
5 changed files with 347 additions and 16 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

45
gm/windowrectangles.cpp
View File

@ -107,8 +107,8 @@ DEF_GM( return new WindowRectanglesGM(); )
constexpr static int kNumWindows = 8;
/**
* Visualizes the stencil mask for a clip with several window rectangles. The purpose of this test
* is to verify that window rectangles are being used during clip mask generation, and to
* Visualizes the mask (alpha or stencil) for a clip with several window rectangles. The purpose of
* this test is to verify that window rectangles are being used during clip mask generation, and to
* visualize where the window rectangles are placed.
*
* We use window rectangles when generating the clip mask because there is no need to invest time
@ -123,6 +123,7 @@ private:
constexpr static int kMaskCheckerSize = 5;
SkString onShortName() final { return SkString("windowrectangles_mask"); }
void onCoverClipStack(const SkClipStack&, SkCanvas*) final;
void visualizeAlphaMask(GrContext*, GrRenderTargetContext*, const GrReducedClip&, GrPaint&&);
void visualizeStencilMask(GrContext*, GrRenderTargetContext*, const GrReducedClip&, GrPaint&&);
void stencilCheckerboard(GrRenderTargetContext*, bool flip);
void fail(SkCanvas*);
@ -183,14 +184,48 @@ void WindowRectanglesMaskGM::onCoverClipStack(const SkClipStack& stack, SkCanvas
const GrReducedClip reducedClip(stack, SkRect::Make(kCoverRect), rtc->caps()->shaderCaps(),
kNumWindows);
GrPaint paint;
GrPaint paint;
if (GrFSAAType::kNone == rtc->fsaaType()) {
// Use different colors so we don't confuse masks that don't have AA with ones that should.
paint.setColor4f(GrColor4f(0, 0.25f, 1, 1));
this->visualizeAlphaMask(ctx, rtc, reducedClip, std::move(paint));
} else {
paint.setColor4f(GrColor4f(1, 0.25f, 0.25f, 1));
this->visualizeStencilMask(ctx, rtc, reducedClip, std::move(paint));
}
this->visualizeStencilMask(ctx, rtc, reducedClip, std::move(paint));
}
void WindowRectanglesMaskGM::visualizeAlphaMask(GrContext* ctx, GrRenderTargetContext* rtc,
const GrReducedClip& reducedClip, GrPaint&& paint) {
const int padRight = (kDeviceRect.right() - kCoverRect.right()) / 2;
const int padBottom = (kDeviceRect.bottom() - kCoverRect.bottom()) / 2;
sk_sp<GrRenderTargetContext> maskRTC(
ctx->contextPriv().makeDeferredRenderTargetContextWithFallback(
SkBackingFit::kExact,
kCoverRect.width() + padRight,
kCoverRect.height() + padBottom,
kAlpha_8_GrPixelConfig, nullptr));
if (!maskRTC) {
return;
}
// Draw a checker pattern into the alpha mask so we can visualize the regions left untouched by
// the clip mask generation.
this->stencilCheckerboard(maskRTC.get(), true);
maskRTC->clear(nullptr, GrColorPackA4(0xff), GrRenderTargetContext::CanClearFullscreen::kYes);
maskRTC->priv().drawAndStencilRect(make_stencil_only_clip(), &GrUserStencilSettings::kUnused,
SkRegion::kDifference_Op, false, GrAA::kNo, SkMatrix::I(),
SkRect::MakeIWH(maskRTC->width(), maskRTC->height()));
reducedClip.drawAlphaClipMask(maskRTC.get());
int x = kCoverRect.x() - kDeviceRect.x(),
y = kCoverRect.y() - kDeviceRect.y();
// Now visualize the alpha mask by drawing a rect over the area where it is defined. The regions
// inside window rectangles or outside the scissor should still have the initial checkerboard
// intact. (This verifies we didn't spend any time modifying those pixels in the mask.)
AlphaOnlyClip clip(maskRTC->asTextureProxyRef(), x, y);
rtc->drawRect(clip, std::move(paint), GrAA::kYes, SkMatrix::I(),
SkRect::Make(SkIRect::MakeXYWH(x, y, maskRTC->width(), maskRTC->height())));
}
void WindowRectanglesMaskGM::visualizeStencilMask(GrContext* ctx, GrRenderTargetContext* rtc,

168
src/gpu/GrClipStackClip.cpp
View File

@ -73,6 +73,111 @@ void GrClipStackClip::getConservativeBounds(int width, int height, SkIRect* devR
devBounds.roundOut(devResult);
}
////////////////////////////////////////////////////////////////////////////////
// set up the draw state to enable the aa clipping mask.
static std::unique_ptr<GrFragmentProcessor> create_fp_for_mask(sk_sp<GrTextureProxy> mask,
const SkIRect& devBound) {
SkIRect domainTexels = SkIRect::MakeWH(devBound.width(), devBound.height());
return GrDeviceSpaceTextureDecalFragmentProcessor::Make(std::move(mask), domainTexels,
{devBound.fLeft, devBound.fTop});
}
// Does the path in 'element' require SW rendering? If so, return true (and,
// optionally, set 'prOut' to NULL. If not, return false (and, optionally, set
// 'prOut' to the non-SW path renderer that will do the job).
bool GrClipStackClip::PathNeedsSWRenderer(GrContext* context,
const SkIRect& scissorRect,
bool hasUserStencilSettings,
const GrRenderTargetContext* renderTargetContext,
const SkMatrix& viewMatrix,
const Element* element,
GrPathRenderer** prOut,
bool needsStencil) {
if (Element::DeviceSpaceType::kRect == element->getDeviceSpaceType()) {
// rects can always be drawn directly w/o using the software path
// TODO: skip rrects once we're drawing them directly.
if (prOut) {
*prOut = nullptr;
}
return false;
} else {
// We shouldn't get here with an empty clip element.
SkASSERT(Element::DeviceSpaceType::kEmpty != element->getDeviceSpaceType());
// the gpu alpha mask will draw the inverse paths as non-inverse to a temp buffer
SkPath path;
element->asDeviceSpacePath(&path);
if (path.isInverseFillType()) {
path.toggleInverseFillType();
}
GrPathRendererChain::DrawType type =
needsStencil ? GrPathRendererChain::DrawType::kStencilAndColor
: GrPathRendererChain::DrawType::kColor;
GrShape shape(path, GrStyle::SimpleFill());
GrPathRenderer::CanDrawPathArgs canDrawArgs;
canDrawArgs.fCaps = context->caps();
canDrawArgs.fClipConservativeBounds = &scissorRect;
canDrawArgs.fViewMatrix = &viewMatrix;
canDrawArgs.fShape = &shape;
canDrawArgs.fAAType = GrChooseAAType(GrAA(element->isAA()),
renderTargetContext->fsaaType(),
GrAllowMixedSamples::kYes,
*context->caps());
canDrawArgs.fHasUserStencilSettings = hasUserStencilSettings;
// the 'false' parameter disallows use of the SW path renderer
GrPathRenderer* pr =
context->contextPriv().drawingManager()->getPathRenderer(canDrawArgs, false, type);
if (prOut) {
*prOut = pr;
}
return SkToBool(!pr);
}
}
/*
* This method traverses the clip stack to see if the GrSoftwarePathRenderer
* will be used on any element. If so, it returns true to indicate that the
* entire clip should be rendered in SW and then uploaded en masse to the gpu.
*/
bool GrClipStackClip::UseSWOnlyPath(GrContext* context,
bool hasUserStencilSettings,
const GrRenderTargetContext* renderTargetContext,
const GrReducedClip& reducedClip) {
// TODO: generalize this function so that when
// a clip gets complex enough it can just be done in SW regardless
// of whether it would invoke the GrSoftwarePathRenderer.
// If we're avoiding stencils, always use SW:
if (context->caps()->avoidStencilBuffers())
return true;
// Set the matrix so that rendered clip elements are transformed to mask space from clip
// space.
SkMatrix translate;
translate.setTranslate(SkIntToScalar(-reducedClip.left()), SkIntToScalar(-reducedClip.top()));
for (ElementList::Iter iter(reducedClip.maskElements()); iter.get(); iter.next()) {
const Element* element = iter.get();
SkClipOp op = element->getOp();
bool invert = element->isInverseFilled();
bool needsStencil = invert ||
kIntersect_SkClipOp == op || kReverseDifference_SkClipOp == op;
if (PathNeedsSWRenderer(context, reducedClip.scissor(), hasUserStencilSettings,
renderTargetContext, translate, element, nullptr, needsStencil)) {
return true;
}
}
return false;
}
////////////////////////////////////////////////////////////////////////////////
// sort out what kind of clip mask needs to be created: alpha, stencil,
// scissor, or entirely software
bool GrClipStackClip::apply(GrContext* context, GrRenderTargetContext* renderTargetContext,
bool useHWAA, bool hasUserStencilSettings, GrAppliedClip* out,
SkRect* bounds) const {
@ -148,18 +253,24 @@ bool GrClipStackClip::applyClipMask(GrContext* context, GrRenderTargetContext* r
// If the stencil buffer is multisampled we can use it to do everything.
if ((GrFSAAType::kNone == renderTargetContext->fsaaType() && reducedClip.maskRequiresAA()) ||
context->caps()->avoidStencilBuffers()) {
if (auto mask = this->createSoftwareClipMask(context, reducedClip, renderTargetContext)) {
// The mask should fill the clip's scissor.
SkIRect domainTexels = SkIRect::MakeWH(reducedClip.width(), reducedClip.height());
SkIPoint maskOffset = SkIPoint::Make(reducedClip.left(), reducedClip.top());
out->addCoverageFP(GrDeviceSpaceTextureDecalFragmentProcessor::Make(std::move(mask),
domainTexels,
maskOffset));
sk_sp<GrTextureProxy> result;
if (UseSWOnlyPath(context, hasUserStencilSettings, renderTargetContext, reducedClip)) {
// The clip geometry is complex enough that it will be more efficient to create it
// entirely in software
result = this->createSoftwareClipMask(context, reducedClip, renderTargetContext);
} else {
result = this->createAlphaClipMask(context, reducedClip);
}
if (result) {
// The mask's top left coord should be pinned to the rounded-out top left corner of
// the clip's device space bounds.
out->addCoverageFP(create_fp_for_mask(std::move(result), reducedClip.scissor()));
return true;
}
// If software clip mask creation fails, fall through to the stencil code paths, unless
// stencils are disallowed.
// If alpha or software clip mask creation fails, fall through to the stencil code paths,
// unless stencils are disallowed.
if (context->caps()->avoidStencilBuffers()) {
SkDebugf("WARNING: Clip mask requires stencil, but stencil unavailable. "
"Clip will be ignored.\n");
@ -213,6 +324,45 @@ static void add_invalidate_on_pop_message(const SkClipStack& stack, uint32_t cli
SkDEBUGFAIL("Gen ID was not found in stack.");
}
sk_sp<GrTextureProxy> GrClipStackClip::createAlphaClipMask(GrContext* context,
const GrReducedClip& reducedClip) const {
GrProxyProvider* proxyProvider = context->contextPriv().proxyProvider();
GrUniqueKey key;
create_clip_mask_key(reducedClip.maskGenID(), reducedClip.scissor(),
reducedClip.numAnalyticFPs(), &key);
sk_sp<GrTextureProxy> proxy(proxyProvider->findOrCreateProxyByUniqueKey(
key, kBottomLeft_GrSurfaceOrigin));
if (proxy) {
return proxy;
}
sk_sp<GrRenderTargetContext> rtc(
context->contextPriv().makeDeferredRenderTargetContextWithFallback(SkBackingFit::kApprox,
reducedClip.width(),
reducedClip.height(),
kAlpha_8_GrPixelConfig,
nullptr));
if (!rtc) {
return nullptr;
}
if (!reducedClip.drawAlphaClipMask(rtc.get())) {
return nullptr;
}
sk_sp<GrTextureProxy> result(rtc->asTextureProxyRef());
if (!result) {
return nullptr;
}
SkASSERT(result->origin() == kBottomLeft_GrSurfaceOrigin);
proxyProvider->assignUniqueKeyToProxy(key, result.get());
add_invalidate_on_pop_message(*fStack, reducedClip.maskGenID(), key);
return result;
}
namespace {
/**

21
src/gpu/GrClipStackClip.h
View File

@ -37,14 +37,31 @@ public:
static const char kMaskTestTag[];
private:
static bool PathNeedsSWRenderer(GrContext* context,
const SkIRect& scissorRect,
bool hasUserStencilSettings,
const GrRenderTargetContext*,
const SkMatrix& viewMatrix,
const SkClipStack::Element* element,
GrPathRenderer** prOut,
bool needsStencil);
bool applyClipMask(GrContext*, GrRenderTargetContext*, const GrReducedClip&,
bool hasUserStencilSettings, GrAppliedClip*) const;
// Creates an alpha mask of the remaining reduced clip elements that could not be handled
// analytically on the GPU. The mask fills the reduced clip's scissor rect.
// Creates an alpha mask of the clip. The mask is a rasterization of elements through the
// rect specified by clipSpaceIBounds.
sk_sp<GrTextureProxy> createAlphaClipMask(GrContext*, const GrReducedClip&) const;
// Similar to createAlphaClipMask but it rasterizes in SW and uploads to the result texture.
sk_sp<GrTextureProxy> createSoftwareClipMask(GrContext*, const GrReducedClip&,
GrRenderTargetContext*) const;
static bool UseSWOnlyPath(GrContext*,
bool hasUserStencilSettings,
const GrRenderTargetContext*,
const GrReducedClip&);
const SkClipStack* fStack;
};

128
src/gpu/GrReducedClip.cpp
View File

@ -672,6 +672,134 @@ void GrReducedClip::makeEmpty() {
fInitialState = InitialState::kAllOut;
}
////////////////////////////////////////////////////////////////////////////////
// Create a 8-bit clip mask in alpha
static bool stencil_element(GrRenderTargetContext* rtc,
const GrFixedClip& clip,
const GrUserStencilSettings* ss,
const SkMatrix& viewMatrix,
const SkClipStack::Element* element) {
GrAA aa = GrAA(element->isAA());
switch (element->getDeviceSpaceType()) {
case SkClipStack::Element::DeviceSpaceType::kEmpty:
SkDEBUGFAIL("Should never get here with an empty element.");
break;
case SkClipStack::Element::DeviceSpaceType::kRect:
return rtc->priv().drawAndStencilRect(clip, ss, (SkRegion::Op)element->getOp(),
element->isInverseFilled(), aa, viewMatrix,
element->getDeviceSpaceRect());
break;
default: {
SkPath path;
element->asDeviceSpacePath(&path);
if (path.isInverseFillType()) {
path.toggleInverseFillType();
}
return rtc->priv().drawAndStencilPath(clip, ss, (SkRegion::Op)element->getOp(),
element->isInverseFilled(), aa, viewMatrix, path);
break;
}
}
return false;
}
static void draw_element(GrRenderTargetContext* rtc,
const GrClip& clip, // TODO: can this just always be WideOpen?
GrPaint&& paint,
GrAA aa,
const SkMatrix& viewMatrix,
const SkClipStack::Element* element) {
// TODO: Draw rrects directly here.
switch (element->getDeviceSpaceType()) {
case SkClipStack::Element::DeviceSpaceType::kEmpty:
SkDEBUGFAIL("Should never get here with an empty element.");
break;
case SkClipStack::Element::DeviceSpaceType::kRect:
rtc->drawRect(clip, std::move(paint), aa, viewMatrix, element->getDeviceSpaceRect());
break;
default: {
SkPath path;
element->asDeviceSpacePath(&path);
if (path.isInverseFillType()) {
path.toggleInverseFillType();
}
rtc->drawPath(clip, std::move(paint), aa, viewMatrix, path, GrStyle::SimpleFill());
break;
}
}
}
bool GrReducedClip::drawAlphaClipMask(GrRenderTargetContext* rtc) const {
// The texture may be larger than necessary, this rect represents the part of the texture
// we populate with a rasterization of the clip.
GrFixedClip clip(SkIRect::MakeWH(fScissor.width(), fScissor.height()));
if (!fWindowRects.empty()) {
clip.setWindowRectangles(fWindowRects.makeOffset(-fScissor.left(), -fScissor.top()),
GrWindowRectsState::Mode::kExclusive);
}
// The scratch texture that we are drawing into can be substantially larger than the mask. Only
// clear the part that we care about.
GrColor initialCoverage = InitialState::kAllIn == this->initialState() ? -1 : 0;
rtc->priv().clear(clip, initialCoverage, GrRenderTargetContext::CanClearFullscreen::kYes);
// Set the matrix so that rendered clip elements are transformed to mask space from clip space.
SkMatrix translate;
translate.setTranslate(SkIntToScalar(-fScissor.left()), SkIntToScalar(-fScissor.top()));
// walk through each clip element and perform its set op
for (ElementList::Iter iter(fMaskElements); iter.get(); iter.next()) {
const Element* element = iter.get();
SkRegion::Op op = (SkRegion::Op)element->getOp();
GrAA aa = GrAA(element->isAA());
bool invert = element->isInverseFilled();
if (invert || SkRegion::kIntersect_Op == op || SkRegion::kReverseDifference_Op == op) {
// draw directly into the result with the stencil set to make the pixels affected
// by the clip shape be non-zero.
static constexpr GrUserStencilSettings kStencilInElement(
GrUserStencilSettings::StaticInit<
0xffff,
GrUserStencilTest::kAlways,
0xffff,
GrUserStencilOp::kReplace,
GrUserStencilOp::kReplace,
0xffff>()
);
if (!stencil_element(rtc, clip, &kStencilInElement, translate, element)) {
return false;
}
// Draw to the exterior pixels (those with a zero stencil value).
static constexpr GrUserStencilSettings kDrawOutsideElement(
GrUserStencilSettings::StaticInit<
0x0000,
GrUserStencilTest::kEqual,
0xffff,
GrUserStencilOp::kZero,
GrUserStencilOp::kZero,
0xffff>()
);
if (!rtc->priv().drawAndStencilRect(clip, &kDrawOutsideElement, op, !invert, GrAA::kNo,
translate, SkRect::Make(fScissor))) {
return false;
}
} else {
// all the remaining ops can just be directly draw into the accumulation buffer
GrPaint paint;
paint.setCoverageSetOpXPFactory(op, false);
draw_element(rtc, clip, std::move(paint), aa, translate, element);
}
}
return true;
}
////////////////////////////////////////////////////////////////////////////////
// Create a 1-bit clip mask in the stencil buffer.

1
src/gpu/GrReducedClip.h
View File

@ -83,6 +83,7 @@ public:
*/
bool maskRequiresAA() const { SkASSERT(!fMaskElements.isEmpty()); return fMaskRequiresAA; }
bool drawAlphaClipMask(GrRenderTargetContext*) const;
bool drawStencilClipMask(GrContext*, GrRenderTargetContext*) const;
int numAnalyticFPs() const { return fAnalyticFPs.count() + fCCPRClipPaths.count(); }