include/private/GrTextureStripAtlas.h - skia - Git at Google

 /*
  * Copyright 2012 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #ifndef GrTextureStripAtlas_DEFINED
 #define GrTextureStripAtlas_DEFINED

 #include "SkBitmap.h"
 #include "SkOpts.h"
 #include "SkGr.h"
 #include "SkTDArray.h"
 #include "SkTDynamicHash.h"
 #include "SkTypes.h"

 /**
  * Maintains a single large texture whose rows store many textures of a small fixed height,
  * stored in rows across the x-axis such that we can safely wrap/repeat them horizontally.
  */
 class GrTextureStripAtlas {
 public:
     /**
      * Descriptor struct which we'll use as a hash table key
      **/
     struct Desc {
         Desc() { sk_bzero(this, sizeof(*this)); }
         GrContext* fContext;
         GrPixelConfig fConfig;
         uint16_t fWidth, fHeight, fRowHeight;
         uint16_t fUnusedPadding;
         bool operator==(const Desc& other) const {
             return 0 == memcmp(this, &other, sizeof(Desc));
         }
     };

     /**
      * Try to find an atlas with the required parameters, creates a new one if necessary
      */
     static GrTextureStripAtlas* GetAtlas(const Desc& desc);

     ~GrTextureStripAtlas();

     /**
      * Add a texture to the atlas
      *  @param data Bitmap data to copy into the row
      *  @return The row index we inserted into, or -1 if we failed to find an open row. The caller
      *      is responsible for calling unlockRow() with this row index when it's done with it.
      */
     int lockRow(const SkBitmap& data);
     void unlockRow(int row);

     /**
      * These functions help turn an integer row index in [0, 1, 2, ... numRows] into a scalar y
      * texture coordinate in [0, 1] that we can use in a shader.
      *
      * If a regular texture access without using the atlas looks like:
      *
      *      texture2D(sampler, vec2(x, y))
      *
      * Then when using the atlas we'd replace it with:
      *
      *       texture2D(sampler, vec2(x, yOffset + y * scaleFactor))
      *
      * Where yOffset, returned by getYOffset(), is the offset to the start of the row within the
      * atlas and scaleFactor, returned by getNormalizedTexelHeight, is the normalized height of
      * one texel row.
      */
     SkScalar getYOffset(int row) const { return SkIntToScalar(row) / fNumRows; }
     SkScalar getNormalizedTexelHeight() const { return fNormalizedYHeight; }

     GrContext* getContext() const { return fDesc.fContext; }
     GrTexture* getTexture() const { return fTexture; }

 private:

     // Key to indicate an atlas row without any meaningful data stored in it
     const static uint32_t kEmptyAtlasRowKey = 0xffffffff;

     /**
      * The state of a single row in our cache, next/prev pointers allow these to be chained
      * together to represent LRU status
      */
     struct AtlasRow : SkNoncopyable {
         AtlasRow() : fKey(kEmptyAtlasRowKey), fLocks(0), fNext(nullptr), fPrev(nullptr) { }
         // GenerationID of the bitmap that is represented by this row, 0xffffffff means "empty"
         uint32_t fKey;
         // How many times this has been locked (0 == unlocked)
         int32_t fLocks;
         // We maintain an LRU linked list between unlocked nodes with these pointers
         AtlasRow* fNext;
         AtlasRow* fPrev;
     };

     /**
      * We'll only allow construction via the static GrTextureStripAtlas::GetAtlas
      */
     GrTextureStripAtlas(Desc desc);

     void lockTexture();
     void unlockTexture();

     /**
      * Initialize our LRU list (if one already exists, clear it and start anew)
      */
     void initLRU();

     /**
      * Grabs the least recently used free row out of the LRU list, returns nullptr if no rows are free.
      */
     AtlasRow* getLRU();

     void appendLRU(AtlasRow* row);
     void removeFromLRU(AtlasRow* row);

     /**
      * Searches the key table for a key and returns the index if found; if not found, it returns
      * the bitwise not of the index at which we could insert the key to maintain a sorted list.
      **/
     int searchByKey(uint32_t key);

     /**
      * Compare two atlas rows by key, so we can sort/search by key
      */
     static bool KeyLess(const AtlasRow& lhs, const AtlasRow& rhs) {
         return lhs.fKey < rhs.fKey;
     }

 #ifdef SK_DEBUG
     void validate();
 #endif

     /**
      * Clean up callback registered with GrContext. Allows this class to
      * free up any allocated AtlasEntry and GrTextureStripAtlas objects
      */
     static void CleanUp(const GrContext* context, void* info);

     // Hash table entry for atlases
     class AtlasEntry : public ::SkNoncopyable {
     public:
         // for SkTDynamicHash
         static const Desc& GetKey(const AtlasEntry& entry) { return entry.fDesc; }
         static uint32_t Hash(const Desc& desc) { return SkOpts::hash(&desc, sizeof(Desc)); }

         // AtlasEntry proper
         AtlasEntry() : fAtlas(nullptr) {}
         ~AtlasEntry() { delete fAtlas; }
         Desc fDesc;
         GrTextureStripAtlas* fAtlas;
     };

     class Hash;
     static Hash* gAtlasCache;

     static Hash* GetCache();

     // We increment gCacheCount for each atlas
     static int32_t gCacheCount;

     // A unique ID for this texture (formed with: gCacheCount++), so we can be sure that if we
     // get a texture back from the texture cache, that it's the same one we last used.
     const int32_t fCacheKey;

     // Total locks on all rows (when this reaches zero, we can unlock our texture)
     int32_t fLockedRows;

     const Desc fDesc;
     const uint16_t fNumRows;
     GrTexture* fTexture;

     SkScalar fNormalizedYHeight;

     // Array of AtlasRows which store the state of all our rows. Stored in a contiguous array, in
     // order that they appear in our texture, this means we can subtract this pointer from a row
     // pointer to get its index in the texture, and can save storing a row number in AtlasRow.
     AtlasRow* fRows;

     // Head and tail for linked list of least-recently-used rows (front = least recently used).
     // Note that when a texture is locked, it gets removed from this list until it is unlocked.
     AtlasRow* fLRUFront;
     AtlasRow* fLRUBack;

     // A list of pointers to AtlasRows that currently contain cached images, sorted by key
     SkTDArray<AtlasRow*> fKeyTable;
 };

 #endif
	/*
	* Copyright 2012 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#ifndef GrTextureStripAtlas_DEFINED
	#define GrTextureStripAtlas_DEFINED

	#include "SkBitmap.h"
	#include "SkOpts.h"
	#include "SkGr.h"
	#include "SkTDArray.h"
	#include "SkTDynamicHash.h"
	#include "SkTypes.h"

	/**
	* Maintains a single large texture whose rows store many textures of a small fixed height,
	* stored in rows across the x-axis such that we can safely wrap/repeat them horizontally.
	*/
	class GrTextureStripAtlas {
	public:
	/**
	* Descriptor struct which we'll use as a hash table key
	**/
	struct Desc {
	Desc() { sk_bzero(this, sizeof(*this)); }
	GrContext* fContext;
	GrPixelConfig fConfig;
	uint16_t fWidth, fHeight, fRowHeight;
	uint16_t fUnusedPadding;
	bool operator==(const Desc& other) const {
	return 0 == memcmp(this, &other, sizeof(Desc));
	}
	};

	/**
	* Try to find an atlas with the required parameters, creates a new one if necessary
	*/
	static GrTextureStripAtlas* GetAtlas(const Desc& desc);

	~GrTextureStripAtlas();

	/**
	* Add a texture to the atlas
	* @param data Bitmap data to copy into the row
	* @return The row index we inserted into, or -1 if we failed to find an open row. The caller
	* is responsible for calling unlockRow() with this row index when it's done with it.
	*/
	int lockRow(const SkBitmap& data);
	void unlockRow(int row);

	/**
	* These functions help turn an integer row index in [0, 1, 2, ... numRows] into a scalar y
	* texture coordinate in [0, 1] that we can use in a shader.
	*
	* If a regular texture access without using the atlas looks like:
	*
	* texture2D(sampler, vec2(x, y))
	*
	* Then when using the atlas we'd replace it with:
	*
	* texture2D(sampler, vec2(x, yOffset + y * scaleFactor))
	*
	* Where yOffset, returned by getYOffset(), is the offset to the start of the row within the
	* atlas and scaleFactor, returned by getNormalizedTexelHeight, is the normalized height of
	* one texel row.
	*/
	SkScalar getYOffset(int row) const { return SkIntToScalar(row) / fNumRows; }
	SkScalar getNormalizedTexelHeight() const { return fNormalizedYHeight; }

	GrContext* getContext() const { return fDesc.fContext; }
	GrTexture* getTexture() const { return fTexture; }

	private:

	// Key to indicate an atlas row without any meaningful data stored in it
	const static uint32_t kEmptyAtlasRowKey = 0xffffffff;

	/**
	* The state of a single row in our cache, next/prev pointers allow these to be chained
	* together to represent LRU status
	*/
	struct AtlasRow : SkNoncopyable {
	AtlasRow() : fKey(kEmptyAtlasRowKey), fLocks(0), fNext(nullptr), fPrev(nullptr) { }
	// GenerationID of the bitmap that is represented by this row, 0xffffffff means "empty"
	uint32_t fKey;
	// How many times this has been locked (0 == unlocked)
	int32_t fLocks;
	// We maintain an LRU linked list between unlocked nodes with these pointers
	AtlasRow* fNext;
	AtlasRow* fPrev;
	};

	/**
	* We'll only allow construction via the static GrTextureStripAtlas::GetAtlas
	*/
	GrTextureStripAtlas(Desc desc);

	void lockTexture();
	void unlockTexture();

	/**
	* Initialize our LRU list (if one already exists, clear it and start anew)
	*/
	void initLRU();

	/**
	* Grabs the least recently used free row out of the LRU list, returns nullptr if no rows are free.
	*/
	AtlasRow* getLRU();

	void appendLRU(AtlasRow* row);
	void removeFromLRU(AtlasRow* row);

	/**
	* Searches the key table for a key and returns the index if found; if not found, it returns
	* the bitwise not of the index at which we could insert the key to maintain a sorted list.
	**/
	int searchByKey(uint32_t key);

	/**
	* Compare two atlas rows by key, so we can sort/search by key
	*/
	static bool KeyLess(const AtlasRow& lhs, const AtlasRow& rhs) {
	return lhs.fKey < rhs.fKey;
	}

	#ifdef SK_DEBUG
	void validate();
	#endif

	/**
	* Clean up callback registered with GrContext. Allows this class to
	* free up any allocated AtlasEntry and GrTextureStripAtlas objects
	*/
	static void CleanUp(const GrContext* context, void* info);

	// Hash table entry for atlases
	class AtlasEntry : public ::SkNoncopyable {
	public:
	// for SkTDynamicHash
	static const Desc& GetKey(const AtlasEntry& entry) { return entry.fDesc; }
	static uint32_t Hash(const Desc& desc) { return SkOpts::hash(&desc, sizeof(Desc)); }

	// AtlasEntry proper
	AtlasEntry() : fAtlas(nullptr) {}
	~AtlasEntry() { delete fAtlas; }
	Desc fDesc;
	GrTextureStripAtlas* fAtlas;
	};

	class Hash;
	static Hash* gAtlasCache;

	static Hash* GetCache();

	// We increment gCacheCount for each atlas
	static int32_t gCacheCount;

	// A unique ID for this texture (formed with: gCacheCount++), so we can be sure that if we
	// get a texture back from the texture cache, that it's the same one we last used.
	const int32_t fCacheKey;

	// Total locks on all rows (when this reaches zero, we can unlock our texture)
	int32_t fLockedRows;

	const Desc fDesc;
	const uint16_t fNumRows;
	GrTexture* fTexture;

	SkScalar fNormalizedYHeight;

	// Array of AtlasRows which store the state of all our rows. Stored in a contiguous array, in
	// order that they appear in our texture, this means we can subtract this pointer from a row
	// pointer to get its index in the texture, and can save storing a row number in AtlasRow.
	AtlasRow* fRows;

	// Head and tail for linked list of least-recently-used rows (front = least recently used).
	// Note that when a texture is locked, it gets removed from this list until it is unlocked.
	AtlasRow* fLRUFront;
	AtlasRow* fLRUBack;

	// A list of pointers to AtlasRows that currently contain cached images, sorted by key
	SkTDArray<AtlasRow*> fKeyTable;
	};

	#endif