/* * Copyright 2022 Google LLC * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #ifndef skgpu_graphite_DrawAtlas_DEFINED #define skgpu_graphite_DrawAtlas_DEFINED #include #include #include #include #include "src/core/SkIPoint16.h" #include "src/core/SkTHash.h" #include "src/gpu/AtlasTypes.h" class SkAutoPixmapStorage; namespace skgpu::graphite { class DrawContext; class Recorder; class TextureProxy; /** * TODO: the process described here is tentative, and this comment revised once locked down. * * This class manages one or more atlas textures on behalf of primitive draws in Device. The * drawing processes that use the atlas add preceding UploadTasks when generating RenderPassTasks. * The class provides facilities for using DrawTokens to detect data hazards. Plots that need * uploads are tracked until it is impossible to add data without overwriting texels read by draws * that have not yet been snapped to a RenderPassTask. At that point, the atlas will attempt to * allocate a new atlas texture (or "page") of the same size, up to a maximum number of textures, * and upload to that texture. If that's not possible, then the atlas will fail to add a subimage. * This gives the Device the chance to end the current draw, snap a RenderpassTask, and begin a new * one. Additional uploads will then succeed. * * When the atlas has multiple pages, new uploads are prioritized to the lower index pages, i.e., * it will try to upload to page 0 before page 1 or 2. To keep the atlas from continually using * excess space, periodic garbage collection is needed to shift data from the higher index pages to * the lower ones, and then eventually remove any pages that are no longer in use. "In use" is * determined by using the AtlasToken system: After a DrawPass is snapped a subarea of the page, or * "plot" is checked to see whether it was used in that DrawPass. If less than a quarter of the * plots have been used recently (within kPlotRecentlyUsedCount iterations) and there are available * plots in lower index pages, the higher index page will be deactivated, and its glyphs will * gradually migrate to other pages via the usual upload system. * * Garbage collection is initiated by the DrawAtlas's client via the compact() method. */ class DrawAtlas { public: /** Is the atlas allowed to use more than one texture? */ enum class AllowMultitexturing : bool { kNo, kYes }; /** Should the atlas use storage textures? */ enum class UseStorageTextures : bool { kNo, kYes }; /** * Returns a DrawAtlas. * @param ct The colorType which this atlas will store. * @param bpp Size in bytes of each pixel. * @param width Width in pixels of the atlas. * @param height Height in pixels of the atlas. * @param plotWidth The width of each plot. width/plotWidth should be an integer. * @param plotWidth The height of each plot. height/plotHeight should be an integer. * @param atlasGeneration A pointer to the context's generation counter. * @param allowMultitexturing Can the atlas use more than one texture. * @param useStorageTextures Should the atlas use storage textures. * @param evictor A pointer to an eviction callback class. * @param label Label for texture resources. * * @return An initialized DrawAtlas, or nullptr if creation fails. */ static std::unique_ptr Make(SkColorType ct, size_t bpp, int width, int height, int plotWidth, int plotHeight, AtlasGenerationCounter* generationCounter, AllowMultitexturing allowMultitexturing, UseStorageTextures useStorageTextures, PlotEvictionCallback* evictor, std::string_view label); /** * Adds a width x height subimage to the atlas. Upon success it returns 'kSucceeded' and returns * the ID and the subimage's coordinates in the backing texture. 'kTryAgain' is returned if * the subimage cannot fit in the atlas without overwriting texels that will be read in the * current list of draws. This indicates that the Device should end its current draw, snap a * DrawPass, and begin another before adding more data. 'kError' will be returned when some * unrecoverable error was encountered while trying to add the subimage. In this case the draw * being created should be discarded. * * This tracking does not generate UploadTasks per se. Instead, when the RenderPassTask is * ready to be snapped, recordUploads() will be called by the Device and that will generate the * necessary UploadTasks. If the useCachedUploads argument in recordUploads() is true, this * will generate uploads for the entire area of each Plot that has changed since the last * eviction. Otherwise it will only generate uploads for newly added changes. * * NOTE: When a draw that reads from the atlas is added to the DrawList, the client using this * DrawAtlas must immediately call 'setLastUseToken' with the currentToken from the Recorder, * otherwise the next call to addToAtlas might cause the previous data to be overwritten before * it has been read. */ enum class ErrorCode { kError, kSucceeded, kTryAgain }; ErrorCode addToAtlas(Recorder*, int width, int height, const void* image, AtlasLocator*); ErrorCode addRect(Recorder*, int width, int height, AtlasLocator*); // Reset Pixmap to point to backing data for the AtlasLocator's Plot. // Return relative location within the Plot, as indicated by the AtlasLocator. SkIPoint prepForRender(const AtlasLocator&, SkAutoPixmapStorage*); bool recordUploads(DrawContext*, Recorder*); const sk_sp* getProxies() const { return fProxies; } uint32_t atlasID() const { return fAtlasID; } uint64_t atlasGeneration() const { return fAtlasGeneration; } uint32_t numActivePages() const { return fNumActivePages; } unsigned int numPlots() const { return fNumPlots; } SkISize plotSize() const { return {fPlotWidth, fPlotHeight}; } bool hasID(const PlotLocator& plotLocator) { if (!plotLocator.isValid()) { return false; } uint32_t plot = plotLocator.plotIndex(); uint32_t page = plotLocator.pageIndex(); uint64_t plotGeneration = fPages[page].fPlotArray[plot]->genID(); uint64_t locatorGeneration = plotLocator.genID(); return plot < fNumPlots && page < fNumActivePages && plotGeneration == locatorGeneration; } /** To ensure the atlas does not evict a given entry, the client must set the last use token. */ void setLastUseToken(const AtlasLocator& atlasLocator, AtlasToken token) { Plot* plot = this->findPlot(atlasLocator); this->internalSetLastUseToken(plot, atlasLocator.pageIndex(), token); } void setLastUseTokenBulk(const BulkUsePlotUpdater& updater, AtlasToken token) { int count = updater.count(); for (int i = 0; i < count; i++) { const BulkUsePlotUpdater::PlotData& pd = updater.plotData(i); // it's possible we've added a plot to the updater and subsequently the plot's page // was deleted -- so we check to prevent a crash if (pd.fPageIndex < fNumActivePages) { Plot* plot = fPages[pd.fPageIndex].fPlotArray[pd.fPlotIndex].get(); this->internalSetLastUseToken(plot, pd.fPageIndex, token); } } } void compact(AtlasToken startTokenForNextFlush); // Mark all plots with any content as full. Used only with Vello because it can't do // new renders to a texture without a clear. void markUsedPlotsAsFull(); void evictAllPlots(); uint32_t maxPages() const { return fMaxPages; } int numAllocated_TestingOnly() const; void setMaxPages_TestingOnly(uint32_t maxPages); private: DrawAtlas(SkColorType, size_t bpp, int width, int height, int plotWidth, int plotHeight, AtlasGenerationCounter* generationCounter, AllowMultitexturing allowMultitexturing, UseStorageTextures useStorageTextures, std::string_view label); bool addRectToPage(unsigned int pageIdx, int width, int height, AtlasLocator*); void updatePlot(Plot* plot, AtlasLocator*); inline void makeMRU(Plot* plot, int pageIdx) { if (fPages[pageIdx].fPlotList.head() == plot) { return; } fPages[pageIdx].fPlotList.remove(plot); fPages[pageIdx].fPlotList.addToHead(plot); // No MRU update for pages -- since we will always try to add from // the front and remove from the back there is no need for MRU. } Plot* findPlot(const AtlasLocator& atlasLocator) { SkASSERT(this->hasID(atlasLocator.plotLocator())); uint32_t pageIdx = atlasLocator.pageIndex(); uint32_t plotIdx = atlasLocator.plotIndex(); return fPages[pageIdx].fPlotArray[plotIdx].get(); } void internalSetLastUseToken(Plot* plot, uint32_t pageIdx, AtlasToken token) { this->makeMRU(plot, pageIdx); plot->setLastUseToken(token); } bool createPages(AtlasGenerationCounter*); bool activateNewPage(Recorder*); void deactivateLastPage(); void processEviction(PlotLocator); inline void processEvictionAndResetRects(Plot* plot) { this->processEviction(plot->plotLocator()); plot->resetRects(); } SkColorType fColorType; size_t fBytesPerPixel; int fTextureWidth; int fTextureHeight; int fPlotWidth; int fPlotHeight; unsigned int fNumPlots; UseStorageTextures fUseStorageTextures; const std::string fLabel; uint32_t fAtlasID; // unique identifier for this atlas // A counter to track the atlas eviction state for Glyphs. Each Glyph has a PlotLocator // which contains its current generation. When the atlas evicts a plot, it increases // the generation counter. If a Glyph's generation is less than the atlas's // generation, then it knows it's been evicted and is either free to be deleted or // re-added to the atlas if necessary. AtlasGenerationCounter* const fGenerationCounter; uint64_t fAtlasGeneration; // nextFlushToken() value at the end of the previous DrawPass // TODO: rename AtlasToken fPrevFlushToken; // the number of flushes since this atlas has been last used // TODO: rename int fFlushesSinceLastUse; std::vector fEvictionCallbacks; struct Page { // allocated array of Plots std::unique_ptr[]> fPlotArray; // LRU list of Plots (MRU at head - LRU at tail) PlotList fPlotList; }; // proxies kept separate to make it easier to pass them up to client sk_sp fProxies[PlotLocator::kMaxMultitexturePages]; Page fPages[PlotLocator::kMaxMultitexturePages]; uint32_t fMaxPages; uint32_t fNumActivePages; SkDEBUGCODE(void validate(const AtlasLocator& atlasLocator) const;) }; // For text there are three atlases (A8, 565, ARGB) that are kept in relation with one another. In // general, because A8 is the most frequently used mask format its dimensions are 2x the 565 and // ARGB dimensions, with the constraint that an atlas size will always contain at least one plot. // Since the ARGB atlas takes the most space, its dimensions are used to size the other two atlases. class DrawAtlasConfig { public: // The capabilities of the GPU define maxTextureSize. The client provides maxBytes, and this // represents the largest they want a single atlas texture to be. Due to multitexturing, we // may expand temporarily to use more space as needed. DrawAtlasConfig(int maxTextureSize, size_t maxBytes); SkISize atlasDimensions(MaskFormat type) const; SkISize plotDimensions(MaskFormat type) const; private: // On some systems texture coordinates are represented using half-precision floating point // with 11 significant bits, which limits the largest atlas dimensions to 2048x2048. // For simplicity we'll use this constraint for all of our atlas textures. // This can be revisited later if we need larger atlases. inline static constexpr int kMaxAtlasDim = 2048; SkISize fARGBDimensions; int fMaxTextureSize; }; } // namespace skgpu::graphite #endif