src/core/SkBitmapHeap.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 SkBitmapHeap_DEFINED
 #define SkBitmapHeap_DEFINED

 #include "SkBitmap.h"
 #include "SkFlattenable.h"
 #include "SkRefCnt.h"
 #include "SkTDArray.h"
 #include "SkThread.h"
 #include "SkTRefArray.h"

 /**
  * SkBitmapHeapEntry provides users of SkBitmapHeap (using internal storage) with a means to...
  *  (1) get access a bitmap in the heap
  *  (2) indicate they are done with bitmap by releasing their reference (if they were an owner).
  */
 class SkBitmapHeapEntry : SkNoncopyable {
 public:
     ~SkBitmapHeapEntry();

     int32_t getSlot() { return fSlot; }

     SkBitmap* getBitmap() { return &fBitmap; }

     void releaseRef() {
         sk_atomic_dec(&fRefCount);
     }

 private:
     SkBitmapHeapEntry();

     void addReferences(int count);

     int32_t fSlot;
     int32_t fRefCount;

     SkBitmap fBitmap;
     // Keep track of the bytes allocated for this bitmap. When replacing the
     // bitmap or removing this HeapEntry we know how much memory has been
     // reclaimed.
     size_t fBytesAllocated;

     friend class SkBitmapHeap;
     friend class SkBitmapHeapTester;
 };


 class SkBitmapHeapReader : public SkRefCnt {
 public:
     SK_DECLARE_INST_COUNT(SkBitmapHeapReader)

     SkBitmapHeapReader() : INHERITED() {}
     virtual SkBitmap* getBitmap(int32_t slot) const = 0;
     virtual void releaseRef(int32_t slot) = 0;
 private:
     typedef SkRefCnt INHERITED;
 };


 /**
  * TODO: stores immutable bitmaps into a heap
  */
 class SkBitmapHeap : public SkBitmapHeapReader {
 public:
     class ExternalStorage : public SkRefCnt {
      public:
         SK_DECLARE_INST_COUNT(ExternalStorage)

         virtual bool insert(const SkBitmap& bitmap, int32_t slot) = 0;

      private:
         typedef SkRefCnt INHERITED;
     };

     static const int32_t UNLIMITED_SIZE = -1;
     static const int32_t IGNORE_OWNERS  = -1;
     static const int32_t INVALID_SLOT   = -1;

     /**
      * Constructs a heap that is responsible for allocating and managing its own storage.  In the
      * case where we choose to allow the heap to grow indefinitely (i.e. UNLIMITED_SIZE) we
      * guarantee that once allocated in the heap a bitmap's index in the heap is immutable.
      * Otherwise we guarantee the bitmaps placement in the heap until its owner count goes to zero.
      *
      * @param preferredSize  Specifies the preferred maximum number of bitmaps to store. This is
      *   not a hard limit as it can grow larger if the number of bitmaps in the heap with active
      *   owners exceeds this limit.
      * @param ownerCount  The number of owners to assign to each inserted bitmap. NOTE: while a
      *   bitmap in the heap has a least one owner it can't be removed.
      */
     SkBitmapHeap(int32_t preferredSize = UNLIMITED_SIZE, int32_t ownerCount = IGNORE_OWNERS);

     /**
      * Constructs a heap that defers the responsibility of storing the bitmaps to an external
      * function. This is especially useful if the bitmaps will be used in a separate process as the
      * external storage can ensure the data is properly shuttled to the appropriate processes.
      *
      * Our LRU implementation assumes that inserts into the external storage are consumed in the
      * order that they are inserted (i.e. SkPipe). This ensures that we don't need to query the
      * external storage to see if a slot in the heap is eligible to be overwritten.
      *
      * @param externalStorage  The class responsible for storing the bitmaps inserted into the heap
      * @param heapSize  The maximum size of the heap. Because of the sequential limitation imposed
      *   by our LRU implementation we can guarantee that the heap will never grow beyond this size.
      */
     SkBitmapHeap(ExternalStorage* externalStorage, int32_t heapSize = UNLIMITED_SIZE);

     virtual ~SkBitmapHeap();

     /**
      * Makes a shallow copy of all bitmaps currently in the heap and returns them as an array. The
      * array indices match their position in the heap.
      *
      * @return  a ptr to an array of bitmaps or NULL if external storage is being used.
      */
     SkTRefArray<SkBitmap>* extractBitmaps() const;

     /**
      * Retrieves the bitmap from the specified slot in the heap
      *
      * @return  The bitmap located at that slot or NULL if external storage is being used.
      */
     virtual SkBitmap* getBitmap(int32_t slot) const SK_OVERRIDE {
         SkASSERT(fExternalStorage == NULL);
         SkBitmapHeapEntry* entry = getEntry(slot);
         if (entry) {
             return &entry->fBitmap;
         }
         return NULL;
     }

     /**
      * Retrieves the bitmap from the specified slot in the heap
      *
      * @return  The bitmap located at that slot or NULL if external storage is being used.
      */
     virtual void releaseRef(int32_t slot) SK_OVERRIDE {
         SkASSERT(fExternalStorage == NULL);
         if (fOwnerCount != IGNORE_OWNERS) {
             SkBitmapHeapEntry* entry = getEntry(slot);
             if (entry) {
                 entry->releaseRef();
             }
         }
     }

     /**
      * Inserts a bitmap into the heap. The stored version of bitmap is guaranteed to be immutable
      * and is not dependent on the lifecycle of the provided bitmap.
      *
      * @param bitmap  the bitmap to be inserted into the heap
      * @return  the slot in the heap where the bitmap is stored or INVALID_SLOT if the bitmap could
      *          not be added to the heap. If it was added the slot will remain valid...
      *            (1) indefinitely if no owner count has been specified.
      *            (2) until all owners have called releaseRef on the appropriate SkBitmapHeapEntry*
      */
     int32_t insert(const SkBitmap& bitmap);

     /**
      * Retrieves an entry from the heap at a given slot.
      *
      * @param slot  the slot in the heap where a bitmap was stored.
      * @return  a SkBitmapHeapEntry that wraps the bitmap or NULL if external storage is used.
      */
     SkBitmapHeapEntry* getEntry(int32_t slot) const {
         SkASSERT(slot <= fStorage.count());
         if (fExternalStorage != NULL) {
             return NULL;
         }
         return fStorage[slot];
     }

     /**
      * Returns a count of the number of items currently in the heap
      */
     int count() const {
         SkASSERT(fExternalStorage != NULL ||
                  fStorage.count() - fUnusedSlots.count() == fLookupTable.count());
         return fLookupTable.count();
     }

     /**
      * Returns the total number of bytes allocated by the bitmaps in the heap
      */
     size_t bytesAllocated() const {
         return fBytesAllocated;
     }

     /**
      * Attempt to reduce the storage allocated.
      * @param bytesToFree minimum number of bytes that should be attempted to
      *   be freed.
      * @return number of bytes actually freed.
      */
     size_t freeMemoryIfPossible(size_t bytesToFree);

     /**
      * Defer any increments of owner counts until endAddingOwnersDeferral is called. So if an
      * existing SkBitmap is inserted into the SkBitmapHeap, its corresponding SkBitmapHeapEntry will
      * not have addReferences called on it, and the client does not need to make a corresponding
      * call to releaseRef. Only meaningful if this SkBitmapHeap was created with an owner count not
      * equal to IGNORE_OWNERS.
      */
     void deferAddingOwners();

     /**
      * Resume adding references when duplicate SkBitmaps are inserted.
      * @param add If true, add references to the SkBitmapHeapEntrys whose SkBitmaps were re-inserted
      *            while deferring.
      */
     void endAddingOwnersDeferral(bool add);

 private:
     struct LookupEntry {
         LookupEntry(const SkBitmap& bm)
         : fGenerationId(bm.getGenerationID())
         , fPixelOrigin(bm.pixelRefOrigin())
         , fWidth(bm.width())
         , fHeight(bm.height())
         , fMoreRecentlyUsed(NULL)
         , fLessRecentlyUsed(NULL){}

         const uint32_t fGenerationId; // SkPixelRef GenerationID.
         const SkIPoint fPixelOrigin;
         const uint32_t fWidth;
         const uint32_t fHeight;

         // TODO: Generalize the LRU caching mechanism
         LookupEntry* fMoreRecentlyUsed;
         LookupEntry* fLessRecentlyUsed;

         uint32_t fStorageSlot; // slot of corresponding bitmap in fStorage.

         /**
          * Compare two LookupEntry pointers for sorting and searching.
          */
         static bool Less(const LookupEntry& a, const LookupEntry& b);
     };

     /**
      * Remove the entry from the lookup table. Also deletes the entry pointed
      * to by the table. Therefore, if a pointer to that one was passed in, the
      * pointer should no longer be used, since the object to which it points has
      * been deleted.
      * @return The index in the lookup table of the entry before removal.
      */
     int removeEntryFromLookupTable(LookupEntry*);

     /**
      * Searches for the bitmap in the lookup table and returns the bitmaps index within the table.
      * If the bitmap was not already in the table it is added.
      *
      * @param key    The key to search the lookup table, created from a bitmap.
      * @param entry  A pointer to a SkBitmapHeapEntry* that if non-null AND the bitmap is found
      *               in the lookup table is populated with the entry from the heap storage.
      */
     int findInLookupTable(const LookupEntry& key, SkBitmapHeapEntry** entry);

     LookupEntry* findEntryToReplace(const SkBitmap& replacement);
     bool copyBitmap(const SkBitmap& originalBitmap, SkBitmap& copiedBitmap);

     /**
      * Remove a LookupEntry from the LRU, in preparation for either deleting or appending as most
      * recent. Points the LookupEntry's old neighbors at each other, and sets fLeastRecentlyUsed
      * (if there is still an entry left). Sets LookupEntry's fMoreRecentlyUsed to NULL and leaves
      * its fLessRecentlyUsed unmodified.
      */
     void removeFromLRU(LookupEntry* entry);

     /**
      * Append a LookupEntry to the end of the LRU cache, marking it as the most
      * recently used. Assumes that the LookupEntry is already in fLookupTable,
      * but is not in the LRU cache. If it is in the cache, removeFromLRU should
      * be called first.
      */
     void appendToLRU(LookupEntry*);

     // searchable index that maps to entries in the heap
     SkTDArray<LookupEntry*> fLookupTable;

     // heap storage
     SkTDArray<SkBitmapHeapEntry*> fStorage;
     // Used to mark slots in fStorage as deleted without actually deleting
     // the slot so as not to mess up the numbering.
     SkTDArray<int> fUnusedSlots;
     ExternalStorage* fExternalStorage;

     LookupEntry* fMostRecentlyUsed;
     LookupEntry* fLeastRecentlyUsed;

     const int32_t fPreferredCount;
     const int32_t fOwnerCount;
     size_t fBytesAllocated;

     bool fDeferAddingOwners;
     SkTDArray<int> fDeferredEntries;

     typedef SkBitmapHeapReader INHERITED;
 };

 #endif // SkBitmapHeap_DEFINED

	/*
	* 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 SkBitmapHeap_DEFINED
	#define SkBitmapHeap_DEFINED

	#include "SkBitmap.h"
	#include "SkFlattenable.h"
	#include "SkRefCnt.h"
	#include "SkTDArray.h"
	#include "SkThread.h"
	#include "SkTRefArray.h"

	/**
	* SkBitmapHeapEntry provides users of SkBitmapHeap (using internal storage) with a means to...
	* (1) get access a bitmap in the heap
	* (2) indicate they are done with bitmap by releasing their reference (if they were an owner).
	*/
	class SkBitmapHeapEntry : SkNoncopyable {
	public:
	~SkBitmapHeapEntry();

	int32_t getSlot() { return fSlot; }

	SkBitmap* getBitmap() { return &fBitmap; }

	void releaseRef() {
	sk_atomic_dec(&fRefCount);
	}

	private:
	SkBitmapHeapEntry();

	void addReferences(int count);

	int32_t fSlot;
	int32_t fRefCount;

	SkBitmap fBitmap;
	// Keep track of the bytes allocated for this bitmap. When replacing the
	// bitmap or removing this HeapEntry we know how much memory has been
	// reclaimed.
	size_t fBytesAllocated;

	friend class SkBitmapHeap;
	friend class SkBitmapHeapTester;
	};


	class SkBitmapHeapReader : public SkRefCnt {
	public:
	SK_DECLARE_INST_COUNT(SkBitmapHeapReader)

	SkBitmapHeapReader() : INHERITED() {}
	virtual SkBitmap* getBitmap(int32_t slot) const = 0;
	virtual void releaseRef(int32_t slot) = 0;
	private:
	typedef SkRefCnt INHERITED;
	};


	/**
	* TODO: stores immutable bitmaps into a heap
	*/
	class SkBitmapHeap : public SkBitmapHeapReader {
	public:
	class ExternalStorage : public SkRefCnt {
	public:
	SK_DECLARE_INST_COUNT(ExternalStorage)

	virtual bool insert(const SkBitmap& bitmap, int32_t slot) = 0;

	private:
	typedef SkRefCnt INHERITED;
	};

	static const int32_t UNLIMITED_SIZE = -1;
	static const int32_t IGNORE_OWNERS = -1;
	static const int32_t INVALID_SLOT = -1;

	/**
	* Constructs a heap that is responsible for allocating and managing its own storage. In the
	* case where we choose to allow the heap to grow indefinitely (i.e. UNLIMITED_SIZE) we
	* guarantee that once allocated in the heap a bitmap's index in the heap is immutable.
	* Otherwise we guarantee the bitmaps placement in the heap until its owner count goes to zero.
	*
	* @param preferredSize Specifies the preferred maximum number of bitmaps to store. This is
	* not a hard limit as it can grow larger if the number of bitmaps in the heap with active
	* owners exceeds this limit.
	* @param ownerCount The number of owners to assign to each inserted bitmap. NOTE: while a
	* bitmap in the heap has a least one owner it can't be removed.
	*/
	SkBitmapHeap(int32_t preferredSize = UNLIMITED_SIZE, int32_t ownerCount = IGNORE_OWNERS);

	/**
	* Constructs a heap that defers the responsibility of storing the bitmaps to an external
	* function. This is especially useful if the bitmaps will be used in a separate process as the
	* external storage can ensure the data is properly shuttled to the appropriate processes.
	*
	* Our LRU implementation assumes that inserts into the external storage are consumed in the
	* order that they are inserted (i.e. SkPipe). This ensures that we don't need to query the
	* external storage to see if a slot in the heap is eligible to be overwritten.
	*
	* @param externalStorage The class responsible for storing the bitmaps inserted into the heap
	* @param heapSize The maximum size of the heap. Because of the sequential limitation imposed
	* by our LRU implementation we can guarantee that the heap will never grow beyond this size.
	*/
	SkBitmapHeap(ExternalStorage* externalStorage, int32_t heapSize = UNLIMITED_SIZE);

	virtual ~SkBitmapHeap();

	/**
	* Makes a shallow copy of all bitmaps currently in the heap and returns them as an array. The
	* array indices match their position in the heap.
	*
	* @return a ptr to an array of bitmaps or NULL if external storage is being used.
	*/
	SkTRefArray<SkBitmap>* extractBitmaps() const;

	/**
	* Retrieves the bitmap from the specified slot in the heap
	*
	* @return The bitmap located at that slot or NULL if external storage is being used.
	*/
	virtual SkBitmap* getBitmap(int32_t slot) const SK_OVERRIDE {
	SkASSERT(fExternalStorage == NULL);
	SkBitmapHeapEntry* entry = getEntry(slot);
	if (entry) {
	return &entry->fBitmap;
	}
	return NULL;
	}

	/**
	* Retrieves the bitmap from the specified slot in the heap
	*
	* @return The bitmap located at that slot or NULL if external storage is being used.
	*/
	virtual void releaseRef(int32_t slot) SK_OVERRIDE {
	SkASSERT(fExternalStorage == NULL);
	if (fOwnerCount != IGNORE_OWNERS) {
	SkBitmapHeapEntry* entry = getEntry(slot);
	if (entry) {
	entry->releaseRef();
	}
	}
	}

	/**
	* Inserts a bitmap into the heap. The stored version of bitmap is guaranteed to be immutable
	* and is not dependent on the lifecycle of the provided bitmap.
	*
	* @param bitmap the bitmap to be inserted into the heap
	* @return the slot in the heap where the bitmap is stored or INVALID_SLOT if the bitmap could
	* not be added to the heap. If it was added the slot will remain valid...
	* (1) indefinitely if no owner count has been specified.
	* (2) until all owners have called releaseRef on the appropriate SkBitmapHeapEntry*
	*/
	int32_t insert(const SkBitmap& bitmap);

	/**
	* Retrieves an entry from the heap at a given slot.
	*
	* @param slot the slot in the heap where a bitmap was stored.
	* @return a SkBitmapHeapEntry that wraps the bitmap or NULL if external storage is used.
	*/
	SkBitmapHeapEntry* getEntry(int32_t slot) const {
	SkASSERT(slot <= fStorage.count());
	if (fExternalStorage != NULL) {
	return NULL;
	}
	return fStorage[slot];
	}

	/**
	* Returns a count of the number of items currently in the heap
	*/
	int count() const {
	SkASSERT(fExternalStorage != NULL \|\|
	fStorage.count() - fUnusedSlots.count() == fLookupTable.count());
	return fLookupTable.count();
	}

	/**
	* Returns the total number of bytes allocated by the bitmaps in the heap
	*/
	size_t bytesAllocated() const {
	return fBytesAllocated;
	}

	/**
	* Attempt to reduce the storage allocated.
	* @param bytesToFree minimum number of bytes that should be attempted to
	* be freed.
	* @return number of bytes actually freed.
	*/
	size_t freeMemoryIfPossible(size_t bytesToFree);

	/**
	* Defer any increments of owner counts until endAddingOwnersDeferral is called. So if an
	* existing SkBitmap is inserted into the SkBitmapHeap, its corresponding SkBitmapHeapEntry will
	* not have addReferences called on it, and the client does not need to make a corresponding
	* call to releaseRef. Only meaningful if this SkBitmapHeap was created with an owner count not
	* equal to IGNORE_OWNERS.
	*/
	void deferAddingOwners();

	/**
	* Resume adding references when duplicate SkBitmaps are inserted.
	* @param add If true, add references to the SkBitmapHeapEntrys whose SkBitmaps were re-inserted
	* while deferring.
	*/
	void endAddingOwnersDeferral(bool add);

	private:
	struct LookupEntry {
	LookupEntry(const SkBitmap& bm)
	: fGenerationId(bm.getGenerationID())
	, fPixelOrigin(bm.pixelRefOrigin())
	, fWidth(bm.width())
	, fHeight(bm.height())
	, fMoreRecentlyUsed(NULL)
	, fLessRecentlyUsed(NULL){}

	const uint32_t fGenerationId; // SkPixelRef GenerationID.
	const SkIPoint fPixelOrigin;
	const uint32_t fWidth;
	const uint32_t fHeight;

	// TODO: Generalize the LRU caching mechanism
	LookupEntry* fMoreRecentlyUsed;
	LookupEntry* fLessRecentlyUsed;

	uint32_t fStorageSlot; // slot of corresponding bitmap in fStorage.

	/**
	* Compare two LookupEntry pointers for sorting and searching.
	*/
	static bool Less(const LookupEntry& a, const LookupEntry& b);
	};

	/**
	* Remove the entry from the lookup table. Also deletes the entry pointed
	* to by the table. Therefore, if a pointer to that one was passed in, the
	* pointer should no longer be used, since the object to which it points has
	* been deleted.
	* @return The index in the lookup table of the entry before removal.
	*/
	int removeEntryFromLookupTable(LookupEntry*);

	/**
	* Searches for the bitmap in the lookup table and returns the bitmaps index within the table.
	* If the bitmap was not already in the table it is added.
	*
	* @param key The key to search the lookup table, created from a bitmap.
	* @param entry A pointer to a SkBitmapHeapEntry* that if non-null AND the bitmap is found
	* in the lookup table is populated with the entry from the heap storage.
	*/
	int findInLookupTable(const LookupEntry& key, SkBitmapHeapEntry** entry);

	LookupEntry* findEntryToReplace(const SkBitmap& replacement);
	bool copyBitmap(const SkBitmap& originalBitmap, SkBitmap& copiedBitmap);

	/**
	* Remove a LookupEntry from the LRU, in preparation for either deleting or appending as most
	* recent. Points the LookupEntry's old neighbors at each other, and sets fLeastRecentlyUsed
	* (if there is still an entry left). Sets LookupEntry's fMoreRecentlyUsed to NULL and leaves
	* its fLessRecentlyUsed unmodified.
	*/
	void removeFromLRU(LookupEntry* entry);

	/**
	* Append a LookupEntry to the end of the LRU cache, marking it as the most
	* recently used. Assumes that the LookupEntry is already in fLookupTable,
	* but is not in the LRU cache. If it is in the cache, removeFromLRU should
	* be called first.
	*/
	void appendToLRU(LookupEntry*);

	// searchable index that maps to entries in the heap
	SkTDArray<LookupEntry*> fLookupTable;

	// heap storage
	SkTDArray<SkBitmapHeapEntry*> fStorage;
	// Used to mark slots in fStorage as deleted without actually deleting
	// the slot so as not to mess up the numbering.
	SkTDArray<int> fUnusedSlots;
	ExternalStorage* fExternalStorage;

	LookupEntry* fMostRecentlyUsed;
	LookupEntry* fLeastRecentlyUsed;

	const int32_t fPreferredCount;
	const int32_t fOwnerCount;
	size_t fBytesAllocated;

	bool fDeferAddingOwners;
	SkTDArray<int> fDeferredEntries;

	typedef SkBitmapHeapReader INHERITED;
	};

	#endif // SkBitmapHeap_DEFINED