src/gpu/ganesh/GrDrawOpAtlas.h - skia - Git at Google

 /*
  * Copyright 2015 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #ifndef GrDrawOpAtlas_DEFINED
 #define GrDrawOpAtlas_DEFINED

 #include "include/core/SkRefCnt.h"
 #include "include/core/SkSize.h"
 #include "include/gpu/ganesh/GrBackendSurface.h"
 #include "include/private/base/SkAssert.h"
 #include "include/private/base/SkDebug.h"
 #include "src/gpu/AtlasTypes.h"
 #include "src/gpu/ganesh/GrDeferredUpload.h"
 #include "src/gpu/ganesh/GrSurfaceProxyView.h"

 #include <cstddef>
 #include <cstdint>
 #include <memory>
 #include <string>
 #include <string_view>
 #include <vector>

 class GrOnFlushResourceProvider;
 class GrProxyProvider;
 class GrResourceProvider;
 class GrTextureProxy;
 enum SkColorType : int;

 /**
  * This class manages one or more atlas textures on behalf of GrDrawOps. The draw ops that use the
  * atlas perform texture uploads when preparing their draws during flush. The class provides
  * facilities for using GrDrawOpUploadToken to detect data hazards. Op's uploads are performed in
  * "ASAP" mode until it is impossible to add data without overwriting texels read by draws that
  * have not yet executed on the gpu. 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, the uploads are performed "inline" between draws. If a
  * single draw would use enough subimage space to overflow the atlas texture then the atlas will
  * fail to add a subimage. This gives the op the chance to end the draw and begin a new one.
  * Additional uploads will then succeed in inline mode.
  *
  * 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 GrDrawUploadToken system: After a flush each subarea of the page
  * is checked to see whether it was used in that flush. 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 GrDrawOpAtlas's client via the compact() method. One
  * solution is to make the client a subclass of GrOnFlushCallbackObject, register it with the
  * GrContext via addOnFlushCallbackObject(), and the client's postFlush() method calls compact()
  * and passes in the given GrDrawUploadToken.
  */
 class GrDrawOpAtlas {
 public:
     /** Is the atlas allowed to use more than one texture? */
     enum class AllowMultitexturing : bool { kNo, kYes };

     /**
      * Returns a GrDrawOpAtlas. This function can be called anywhere, but the returned atlas
      * should only be used inside of GrMeshDrawOp::onPrepareDraws.
      *  @param proxyProvider       Used to create the atlas's texture proxies.
      *  @param format              Backend format for the atlas's textures.
      *                             Should be compatible with ct.
      *  @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 generationCounter   A pointer to the context's generation counter.
      *  @param allowMultitexturing Can the atlas use more than one texture.
      *  @param evictor             A pointer to an eviction callback class.
      *  @param label               A label for the atlas texture.
      *
      *  @return                    An initialized DrawAtlas, or nullptr if creation fails.
      */
     static std::unique_ptr<GrDrawOpAtlas> Make(GrProxyProvider* proxyProvider,
                                                const GrBackendFormat& format,
                                                SkColorType ct, size_t bpp,
                                                int width, int height,
                                                int plotWidth, int plotHeight,
                                                skgpu::AtlasGenerationCounter* generationCounter,
                                                AllowMultitexturing allowMultitexturing,
                                                skgpu::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 draw. This indicates that the op should end its current draw and begin another
      * before adding more data. Upon success, an upload of the provided image data will have
      * been added to the GrDrawOp::Target, in "asap" mode if possible, otherwise in "inline" mode.
      * Successive uploads in either mode may be consolidated.
      * 'kError' will be returned when some unrecoverable error was encountered while trying to
      * add the subimage. In this case the op being created should be discarded.
      *
      * NOTE: When the GrDrawOp prepares a draw that reads from the atlas, it must immediately call
      * 'setLastUseToken' with the currentToken from the GrDrawOp::Target, 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(GrResourceProvider*, GrDeferredUploadTarget*,
                          int width, int height, const void* image, skgpu::AtlasLocator*);

     const GrSurfaceProxyView* getViews() const { return fViews; }

     uint64_t atlasGeneration() const { return fAtlasGeneration; }

     bool hasID(const skgpu::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 skgpu::AtlasLocator& atlasLocator, skgpu::AtlasToken token) {
         SkASSERT(this->hasID(atlasLocator.plotLocator()));
         uint32_t plotIdx = atlasLocator.plotIndex();
         SkASSERT(plotIdx < fNumPlots);
         uint32_t pageIdx = atlasLocator.pageIndex();
         SkASSERT(pageIdx < fNumActivePages);
         skgpu::Plot* plot = fPages[pageIdx].fPlotArray[plotIdx].get();
         this->makeMRU(plot, pageIdx);
         plot->setLastUseToken(token);
     }

     uint32_t numActivePages() { return fNumActivePages; }

     void setLastUseTokenBulk(const skgpu::BulkUsePlotUpdater& updater,
                              skgpu::AtlasToken token) {
         int count = updater.count();
         for (int i = 0; i < count; i++) {
             const skgpu::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) {
                 skgpu::Plot* plot = fPages[pd.fPageIndex].fPlotArray[pd.fPlotIndex].get();
                 this->makeMRU(plot, pd.fPageIndex);
                 plot->setLastUseToken(token);
             }
         }
     }

     void compact(skgpu::AtlasToken startTokenForNextFlush);

     void instantiate(GrOnFlushResourceProvider*);

     uint32_t maxPages() const {
         return fMaxPages;
     }

 private:
     friend class GrDrawOpAtlasTools;

     GrDrawOpAtlas(GrProxyProvider*, const GrBackendFormat& format, SkColorType, size_t bpp,
                   int width, int height, int plotWidth, int plotHeight,
                   skgpu::AtlasGenerationCounter* generationCounter,
                   AllowMultitexturing allowMultitexturing, std::string_view label);

     inline bool updatePlot(GrDeferredUploadTarget*, skgpu::AtlasLocator*, skgpu::Plot*);

     inline void makeMRU(skgpu::Plot* plot, uint32_t 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.
     }

     bool uploadToPage(unsigned int pageIdx, GrDeferredUploadTarget*, int width, int height,
                       const void* image, skgpu::AtlasLocator*);

     void uploadPlotToTexture(GrDeferredTextureUploadWritePixelsFn& writePixels,
                              GrTextureProxy* proxy,
                              skgpu::Plot* plot);

     bool createPages(GrProxyProvider*, skgpu::AtlasGenerationCounter*);
     bool activateNewPage(GrResourceProvider*);
     void deactivateLastPage();

     void processEviction(skgpu::PlotLocator);
     inline void processEvictionAndResetRects(skgpu::Plot* plot) {
         this->processEviction(plot->plotLocator());
         plot->resetRects();
     }

     GrBackendFormat       fFormat;
     SkColorType           fColorType;
     size_t                fBytesPerPixel;
     int                   fTextureWidth;
     int                   fTextureHeight;
     int                   fPlotWidth;
     int                   fPlotHeight;
     unsigned int          fNumPlots;
     const std::string     fLabel;

     // 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.
     skgpu::AtlasGenerationCounter* const fGenerationCounter;
     uint64_t                      fAtlasGeneration;

     // nextFlushToken() value at the end of the previous flush
     skgpu::AtlasToken fPrevFlushToken;

     // the number of flushes since this atlas has been last used
     int                   fFlushesSinceLastUse;

     std::vector<skgpu::PlotEvictionCallback*> fEvictionCallbacks;

     struct Page {
         // allocated array of Plots
         std::unique_ptr<sk_sp<skgpu::Plot>[]> fPlotArray;
         // LRU list of Plots (MRU at head - LRU at tail)
         skgpu::PlotList fPlotList;
     };
     // proxies kept separate to make it easier to pass them up to client
     GrSurfaceProxyView fViews[skgpu::PlotLocator::kMaxMultitexturePages];
     Page fPages[skgpu::PlotLocator::kMaxMultitexturePages];
     uint32_t fMaxPages;

     uint32_t fNumActivePages;

     SkDEBUGCODE(void validate(const skgpu::AtlasLocator& atlasLocator) const;)
 };

 // 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 GrDrawOpAtlasConfig {
 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.
     GrDrawOpAtlasConfig(int maxTextureSize, size_t maxBytes);

     // For testing only - make minimum sized atlases -- a single plot for ARGB, four for A8
     GrDrawOpAtlasConfig() : GrDrawOpAtlasConfig(kMaxAtlasDim, 0) {}

     SkISize atlasDimensions(skgpu::MaskFormat type) const;
     SkISize plotDimensions(skgpu::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;
 };

 #endif
	/*
	* Copyright 2015 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#ifndef GrDrawOpAtlas_DEFINED
	#define GrDrawOpAtlas_DEFINED

	#include "include/core/SkRefCnt.h"
	#include "include/core/SkSize.h"
	#include "include/gpu/ganesh/GrBackendSurface.h"
	#include "include/private/base/SkAssert.h"
	#include "include/private/base/SkDebug.h"
	#include "src/gpu/AtlasTypes.h"
	#include "src/gpu/ganesh/GrDeferredUpload.h"
	#include "src/gpu/ganesh/GrSurfaceProxyView.h"

	#include <cstddef>
	#include <cstdint>
	#include <memory>
	#include <string>
	#include <string_view>
	#include <vector>

	class GrOnFlushResourceProvider;
	class GrProxyProvider;
	class GrResourceProvider;
	class GrTextureProxy;
	enum SkColorType : int;

	/**
	* This class manages one or more atlas textures on behalf of GrDrawOps. The draw ops that use the
	* atlas perform texture uploads when preparing their draws during flush. The class provides
	* facilities for using GrDrawOpUploadToken to detect data hazards. Op's uploads are performed in
	* "ASAP" mode until it is impossible to add data without overwriting texels read by draws that
	* have not yet executed on the gpu. 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, the uploads are performed "inline" between draws. If a
	* single draw would use enough subimage space to overflow the atlas texture then the atlas will
	* fail to add a subimage. This gives the op the chance to end the draw and begin a new one.
	* Additional uploads will then succeed in inline mode.
	*
	* 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 GrDrawUploadToken system: After a flush each subarea of the page
	* is checked to see whether it was used in that flush. 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 GrDrawOpAtlas's client via the compact() method. One
	* solution is to make the client a subclass of GrOnFlushCallbackObject, register it with the
	* GrContext via addOnFlushCallbackObject(), and the client's postFlush() method calls compact()
	* and passes in the given GrDrawUploadToken.
	*/
	class GrDrawOpAtlas {
	public:
	/** Is the atlas allowed to use more than one texture? */
	enum class AllowMultitexturing : bool { kNo, kYes };

	/**
	* Returns a GrDrawOpAtlas. This function can be called anywhere, but the returned atlas
	* should only be used inside of GrMeshDrawOp::onPrepareDraws.
	* @param proxyProvider Used to create the atlas's texture proxies.
	* @param format Backend format for the atlas's textures.
	* Should be compatible with ct.
	* @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 generationCounter A pointer to the context's generation counter.
	* @param allowMultitexturing Can the atlas use more than one texture.
	* @param evictor A pointer to an eviction callback class.
	* @param label A label for the atlas texture.
	*
	* @return An initialized DrawAtlas, or nullptr if creation fails.
	*/
	static std::unique_ptr<GrDrawOpAtlas> Make(GrProxyProvider* proxyProvider,
	const GrBackendFormat& format,
	SkColorType ct, size_t bpp,
	int width, int height,
	int plotWidth, int plotHeight,
	skgpu::AtlasGenerationCounter* generationCounter,
	AllowMultitexturing allowMultitexturing,
	skgpu::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 draw. This indicates that the op should end its current draw and begin another
	* before adding more data. Upon success, an upload of the provided image data will have
	* been added to the GrDrawOp::Target, in "asap" mode if possible, otherwise in "inline" mode.
	* Successive uploads in either mode may be consolidated.
	* 'kError' will be returned when some unrecoverable error was encountered while trying to
	* add the subimage. In this case the op being created should be discarded.
	*
	* NOTE: When the GrDrawOp prepares a draw that reads from the atlas, it must immediately call
	* 'setLastUseToken' with the currentToken from the GrDrawOp::Target, 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(GrResourceProvider, GrDeferredUploadTarget,
	int width, int height, const void* image, skgpu::AtlasLocator*);

	const GrSurfaceProxyView* getViews() const { return fViews; }

	uint64_t atlasGeneration() const { return fAtlasGeneration; }

	bool hasID(const skgpu::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 skgpu::AtlasLocator& atlasLocator, skgpu::AtlasToken token) {
	SkASSERT(this->hasID(atlasLocator.plotLocator()));
	uint32_t plotIdx = atlasLocator.plotIndex();
	SkASSERT(plotIdx < fNumPlots);
	uint32_t pageIdx = atlasLocator.pageIndex();
	SkASSERT(pageIdx < fNumActivePages);
	skgpu::Plot* plot = fPages[pageIdx].fPlotArray[plotIdx].get();
	this->makeMRU(plot, pageIdx);
	plot->setLastUseToken(token);
	}

	uint32_t numActivePages() { return fNumActivePages; }

	void setLastUseTokenBulk(const skgpu::BulkUsePlotUpdater& updater,
	skgpu::AtlasToken token) {
	int count = updater.count();
	for (int i = 0; i < count; i++) {
	const skgpu::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) {
	skgpu::Plot* plot = fPages[pd.fPageIndex].fPlotArray[pd.fPlotIndex].get();
	this->makeMRU(plot, pd.fPageIndex);
	plot->setLastUseToken(token);
	}
	}
	}

	void compact(skgpu::AtlasToken startTokenForNextFlush);

	void instantiate(GrOnFlushResourceProvider*);

	uint32_t maxPages() const {
	return fMaxPages;
	}

	private:
	friend class GrDrawOpAtlasTools;

	GrDrawOpAtlas(GrProxyProvider*, const GrBackendFormat& format, SkColorType, size_t bpp,
	int width, int height, int plotWidth, int plotHeight,
	skgpu::AtlasGenerationCounter* generationCounter,
	AllowMultitexturing allowMultitexturing, std::string_view label);

	inline bool updatePlot(GrDeferredUploadTarget, skgpu::AtlasLocator, skgpu::Plot*);

	inline void makeMRU(skgpu::Plot* plot, uint32_t 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.
	}

	bool uploadToPage(unsigned int pageIdx, GrDeferredUploadTarget*, int width, int height,
	const void* image, skgpu::AtlasLocator*);

	void uploadPlotToTexture(GrDeferredTextureUploadWritePixelsFn& writePixels,
	GrTextureProxy* proxy,
	skgpu::Plot* plot);

	bool createPages(GrProxyProvider, skgpu::AtlasGenerationCounter);
	bool activateNewPage(GrResourceProvider*);
	void deactivateLastPage();

	void processEviction(skgpu::PlotLocator);
	inline void processEvictionAndResetRects(skgpu::Plot* plot) {
	this->processEviction(plot->plotLocator());
	plot->resetRects();
	}

	GrBackendFormat fFormat;
	SkColorType fColorType;
	size_t fBytesPerPixel;
	int fTextureWidth;
	int fTextureHeight;
	int fPlotWidth;
	int fPlotHeight;
	unsigned int fNumPlots;
	const std::string fLabel;

	// 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.
	skgpu::AtlasGenerationCounter* const fGenerationCounter;
	uint64_t fAtlasGeneration;

	// nextFlushToken() value at the end of the previous flush
	skgpu::AtlasToken fPrevFlushToken;

	// the number of flushes since this atlas has been last used
	int fFlushesSinceLastUse;

	std::vector<skgpu::PlotEvictionCallback*> fEvictionCallbacks;

	struct Page {
	// allocated array of Plots
	std::unique_ptr<sk_sp<skgpu::Plot>[]> fPlotArray;
	// LRU list of Plots (MRU at head - LRU at tail)
	skgpu::PlotList fPlotList;
	};
	// proxies kept separate to make it easier to pass them up to client
	GrSurfaceProxyView fViews[skgpu::PlotLocator::kMaxMultitexturePages];
	Page fPages[skgpu::PlotLocator::kMaxMultitexturePages];
	uint32_t fMaxPages;

	uint32_t fNumActivePages;

	SkDEBUGCODE(void validate(const skgpu::AtlasLocator& atlasLocator) const;)
	};

	// 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 GrDrawOpAtlasConfig {
	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.
	GrDrawOpAtlasConfig(int maxTextureSize, size_t maxBytes);

	// For testing only - make minimum sized atlases -- a single plot for ARGB, four for A8
	GrDrawOpAtlasConfig() : GrDrawOpAtlasConfig(kMaxAtlasDim, 0) {}

	SkISize atlasDimensions(skgpu::MaskFormat type) const;
	SkISize plotDimensions(skgpu::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;
	};

	#endif