/* * 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 "GrCCAtlas.h" #include "GrCaps.h" #include "GrOnFlushResourceProvider.h" #include "GrProxyProvider.h" #include "GrRectanizer_skyline.h" #include "GrRenderTargetContext.h" #include "GrTexture.h" #include "GrTextureProxy.h" #include "SkMakeUnique.h" #include "SkMathPriv.h" #include "ccpr/GrCCPathCache.h" #include class GrCCAtlas::Node { public: Node(std::unique_ptr previous, int l, int t, int r, int b) : fPrevious(std::move(previous)), fX(l), fY(t), fRectanizer(r - l, b - t) {} Node* previous() const { return fPrevious.get(); } bool addRect(int w, int h, SkIPoint16* loc, int maxAtlasSize) { // Pad all paths except those that are expected to take up an entire physical texture. if (w < maxAtlasSize) { w = SkTMin(w + kPadding, maxAtlasSize); } if (h < maxAtlasSize) { h = SkTMin(h + kPadding, maxAtlasSize); } if (!fRectanizer.addRect(w, h, loc)) { return false; } loc->fX += fX; loc->fY += fY; return true; } private: const std::unique_ptr fPrevious; const int fX, fY; GrRectanizerSkyline fRectanizer; }; GrCCAtlas::GrCCAtlas(CoverageType coverageType, const Specs& specs, const GrCaps& caps) : fCoverageType(coverageType) , fMaxTextureSize(SkTMax(SkTMax(specs.fMinHeight, specs.fMinWidth), specs.fMaxPreferredTextureSize)) { // Caller should have cropped any paths to the destination render target instead of asking for // an atlas larger than maxRenderTargetSize. SkASSERT(fMaxTextureSize <= caps.maxTextureSize()); SkASSERT(specs.fMaxPreferredTextureSize > 0); // Begin with the first pow2 dimensions whose area is theoretically large enough to contain the // pending paths, favoring height over width if necessary. int log2area = SkNextLog2(SkTMax(specs.fApproxNumPixels, 1)); fHeight = 1 << ((log2area + 1) / 2); fWidth = 1 << (log2area / 2); fWidth = SkTClamp(fWidth, specs.fMinTextureSize, specs.fMaxPreferredTextureSize); fHeight = SkTClamp(fHeight, specs.fMinTextureSize, specs.fMaxPreferredTextureSize); if (fWidth < specs.fMinWidth || fHeight < specs.fMinHeight) { // They want to stuff a particularly large path into the atlas. Just punt and go with their // min width and height. The atlas will grow as needed. fWidth = SkTMin(specs.fMinWidth + kPadding, fMaxTextureSize); fHeight = SkTMin(specs.fMinHeight + kPadding, fMaxTextureSize); } fTopNode = skstd::make_unique(nullptr, 0, 0, fWidth, fHeight); GrColorType colorType = (CoverageType::kFP16_CoverageCount == fCoverageType) ? GrColorType::kAlpha_F16 : GrColorType::kAlpha_8; const GrBackendFormat format = caps.getBackendFormatFromGrColorType(colorType, GrSRGBEncoded::kNo); GrPixelConfig pixelConfig = (CoverageType::kFP16_CoverageCount == fCoverageType) ? kAlpha_half_GrPixelConfig : kAlpha_8_GrPixelConfig; fTextureProxy = GrProxyProvider::MakeFullyLazyProxy( [this, pixelConfig](GrResourceProvider* resourceProvider) { if (!resourceProvider) { return sk_sp(); } if (!fBackingTexture) { GrSurfaceDesc desc; desc.fFlags = kRenderTarget_GrSurfaceFlag; desc.fWidth = fWidth; desc.fHeight = fHeight; desc.fConfig = pixelConfig; fBackingTexture = resourceProvider->createTexture(desc, SkBudgeted::kYes); } return fBackingTexture; }, format, GrProxyProvider::Renderable::kYes, kTextureOrigin, pixelConfig, caps); } GrCCAtlas::~GrCCAtlas() { } bool GrCCAtlas::addRect(const SkIRect& devIBounds, SkIVector* offset) { // This can't be called anymore once makeRenderTargetContext() has been called. SkASSERT(!fTextureProxy->isInstantiated()); SkIPoint16 location; if (!this->internalPlaceRect(devIBounds.width(), devIBounds.height(), &location)) { return false; } offset->set(location.x() - devIBounds.left(), location.y() - devIBounds.top()); fDrawBounds.fWidth = SkTMax(fDrawBounds.width(), location.x() + devIBounds.width()); fDrawBounds.fHeight = SkTMax(fDrawBounds.height(), location.y() + devIBounds.height()); return true; } bool GrCCAtlas::internalPlaceRect(int w, int h, SkIPoint16* loc) { for (Node* node = fTopNode.get(); node; node = node->previous()) { if (node->addRect(w, h, loc, fMaxTextureSize)) { return true; } } // The rect didn't fit. Grow the atlas and try again. do { if (fWidth == fMaxTextureSize && fHeight == fMaxTextureSize) { return false; } if (fHeight <= fWidth) { int top = fHeight; fHeight = SkTMin(fHeight * 2, fMaxTextureSize); fTopNode = skstd::make_unique(std::move(fTopNode), 0, top, fWidth, fHeight); } else { int left = fWidth; fWidth = SkTMin(fWidth * 2, fMaxTextureSize); fTopNode = skstd::make_unique(std::move(fTopNode), left, 0, fWidth, fHeight); } } while (!fTopNode->addRect(w, h, loc, fMaxTextureSize)); return true; } void GrCCAtlas::setFillBatchID(int id) { // This can't be called anymore once makeRenderTargetContext() has been called. SkASSERT(!fTextureProxy->isInstantiated()); fFillBatchID = id; } void GrCCAtlas::setStrokeBatchID(int id) { // This can't be called anymore once makeRenderTargetContext() has been called. SkASSERT(!fTextureProxy->isInstantiated()); fStrokeBatchID = id; } static uint32_t next_atlas_unique_id() { static std::atomic nextID; return nextID++; } sk_sp GrCCAtlas::refOrMakeCachedAtlas(GrOnFlushResourceProvider* onFlushRP) { if (!fCachedAtlas) { static const GrUniqueKey::Domain kAtlasDomain = GrUniqueKey::GenerateDomain(); GrUniqueKey atlasUniqueKey; GrUniqueKey::Builder builder(&atlasUniqueKey, kAtlasDomain, 1, "CCPR Atlas"); builder[0] = next_atlas_unique_id(); builder.finish(); onFlushRP->assignUniqueKeyToProxy(atlasUniqueKey, fTextureProxy.get()); fCachedAtlas = sk_make_sp(fCoverageType, atlasUniqueKey, fTextureProxy); } SkASSERT(fCachedAtlas->coverageType() == fCoverageType); SkASSERT(fCachedAtlas->getOnFlushProxy() == fTextureProxy.get()); return fCachedAtlas; } sk_sp GrCCAtlas::makeRenderTargetContext( GrOnFlushResourceProvider* onFlushRP, sk_sp backingTexture) { SkASSERT(!fTextureProxy->isInstantiated()); // This method should only be called once. // Caller should have cropped any paths to the destination render target instead of asking for // an atlas larger than maxRenderTargetSize. SkASSERT(SkTMax(fHeight, fWidth) <= fMaxTextureSize); SkASSERT(fMaxTextureSize <= onFlushRP->caps()->maxRenderTargetSize()); if (backingTexture) { SkASSERT(backingTexture->config() == kAlpha_half_GrPixelConfig); SkASSERT(backingTexture->width() == fWidth); SkASSERT(backingTexture->height() == fHeight); fBackingTexture = std::move(backingTexture); } sk_sp rtc = onFlushRP->makeRenderTargetContext(fTextureProxy, nullptr, nullptr); if (!rtc) { SkDebugf("WARNING: failed to allocate a %ix%i atlas. Some paths will not be drawn.\n", fWidth, fHeight); return nullptr; } SkIRect clearRect = SkIRect::MakeSize(fDrawBounds); rtc->clear(&clearRect, SK_PMColor4fTRANSPARENT, GrRenderTargetContext::CanClearFullscreen::kYes); return rtc; } GrCCAtlas* GrCCAtlasStack::addRect(const SkIRect& devIBounds, SkIVector* devToAtlasOffset) { GrCCAtlas* retiredAtlas = nullptr; if (fAtlases.empty() || !fAtlases.back().addRect(devIBounds, devToAtlasOffset)) { // The retired atlas is out of room and can't grow any bigger. retiredAtlas = !fAtlases.empty() ? &fAtlases.back() : nullptr; fAtlases.emplace_back(fCoverageType, fSpecs, *fCaps); SkASSERT(devIBounds.width() <= fSpecs.fMinWidth); SkASSERT(devIBounds.height() <= fSpecs.fMinHeight); SkAssertResult(fAtlases.back().addRect(devIBounds, devToAtlasOffset)); } return retiredAtlas; }