/* * Copyright 2008 The Android Open Source Project * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #ifndef SkPixelRef_DEFINED #define SkPixelRef_DEFINED #include "../private/SkAtomics.h" #include "../private/SkMutex.h" #include "../private/SkTDArray.h" #include "SkBitmap.h" #include "SkFilterQuality.h" #include "SkImageInfo.h" #include "SkPixmap.h" #include "SkRefCnt.h" #include "SkSize.h" #include "SkString.h" class SkColorTable; class SkData; struct SkIRect; class GrTexture; class SkDiscardableMemory; /** \class SkPixelRef This class is the smart container for pixel memory, and is used with SkBitmap. A pixelref is installed into a bitmap, and then the bitmap can access the actual pixel memory by calling lockPixels/unlockPixels. This class can be shared/accessed between multiple threads. */ class SK_API SkPixelRef : public SkRefCnt { public: explicit SkPixelRef(const SkImageInfo&); virtual ~SkPixelRef(); const SkImageInfo& info() const { return fInfo; } /** Return the pixel memory returned from lockPixels, or null if the lockCount is 0. */ void* pixels() const { return fRec.fPixels; } /** Return the current colorTable (if any) if pixels are locked, or null. */ SkColorTable* colorTable() const { return fRec.fColorTable; } size_t rowBytes() const { return fRec.fRowBytes; } /** * To access the actual pixels of a pixelref, it must be "locked". * Calling lockPixels returns a LockRec struct (on success). */ struct LockRec { LockRec() : fPixels(NULL), fColorTable(NULL) {} void* fPixels; SkColorTable* fColorTable; size_t fRowBytes; void zero() { sk_bzero(this, sizeof(*this)); } bool isZero() const { return NULL == fPixels && NULL == fColorTable && 0 == fRowBytes; } }; SkDEBUGCODE(bool isLocked() const { return fLockCount > 0; }) SkDEBUGCODE(int getLockCount() const { return fLockCount; }) /** * Call to access the pixel memory. Return true on success. Balance this * with a call to unlockPixels(). */ bool lockPixels(); /** * Call to access the pixel memory. On success, return true and fill out * the specified rec. On failure, return false and ignore the rec parameter. * Balance this with a call to unlockPixels(). */ bool lockPixels(LockRec* rec); /** Call to balanace a previous call to lockPixels(). Returns the pixels (or null) after the unlock. NOTE: lock calls can be nested, but the matching number of unlock calls must be made in order to free the memory (if the subclass implements caching/deferred-decoding.) */ void unlockPixels(); /** * Some bitmaps can return a copy of their pixels for lockPixels(), but * that copy, if modified, will not be pushed back. These bitmaps should * not be used as targets for a raster device/canvas (since all pixels * modifications will be lost when unlockPixels() is called.) */ bool lockPixelsAreWritable() const; /** Returns a non-zero, unique value corresponding to the pixels in this pixelref. Each time the pixels are changed (and notifyPixelsChanged is called), a different generation ID will be returned. */ uint32_t getGenerationID() const; #ifdef SK_BUILD_FOR_ANDROID_FRAMEWORK /** Returns a non-zero, unique value corresponding to this SkPixelRef. Unlike the generation ID, this ID remains the same even when the pixels are changed. IDs are not reused (until uint32_t wraps), so it is safe to consider this ID unique even after this SkPixelRef is deleted. Can be used as a key which uniquely identifies this SkPixelRef regardless of changes to its pixels or deletion of this object. */ uint32_t getStableID() const { return fStableID; } #endif /** * Call this if you have changed the contents of the pixels. This will in- * turn cause a different generation ID value to be returned from * getGenerationID(). */ void notifyPixelsChanged(); /** * Change the info's AlphaType. Note that this does not automatically * invalidate the generation ID. If the pixel values themselves have * changed, then you must explicitly call notifyPixelsChanged() as well. */ void changeAlphaType(SkAlphaType at); /** Returns true if this pixelref is marked as immutable, meaning that the contents of its pixels will not change for the lifetime of the pixelref. */ bool isImmutable() const { return fMutability != kMutable; } /** Marks this pixelref is immutable, meaning that the contents of its pixels will not change for the lifetime of the pixelref. This state can be set on a pixelref, but it cannot be cleared once it is set. */ void setImmutable(); /** Return the optional URI string associated with this pixelref. May be null. */ const char* getURI() const { return fURI.size() ? fURI.c_str() : NULL; } /** Copy a URI string to this pixelref, or clear the URI if the uri is null */ void setURI(const char uri[]) { fURI.set(uri); } /** Copy a URI string to this pixelref */ void setURI(const char uri[], size_t len) { fURI.set(uri, len); } /** Assign a URI string to this pixelref. */ void setURI(const SkString& uri) { fURI = uri; } /** * If the pixelRef has an encoded (i.e. compressed) representation, * return a ref to its data. If the pixelRef * is uncompressed or otherwise does not have this form, return NULL. * * If non-null is returned, the caller is responsible for calling unref() * on the data when it is finished. */ SkData* refEncodedData() { return this->onRefEncodedData(); } struct LockRequest { SkISize fSize; SkFilterQuality fQuality; }; struct LockResult { LockResult() : fPixels(NULL), fCTable(NULL) {} void (*fUnlockProc)(void* ctx); void* fUnlockContext; const void* fPixels; SkColorTable* fCTable; // should be NULL unless colortype is kIndex8 size_t fRowBytes; SkISize fSize; void unlock() { if (fUnlockProc) { fUnlockProc(fUnlockContext); fUnlockProc = NULL; // can't unlock twice! } } }; bool requestLock(const LockRequest&, LockResult*); /** Are we really wrapping a texture instead of a bitmap? */ virtual GrTexture* getTexture() { return NULL; } /** * If any planes or rowBytes is NULL, this should output the sizes and return true * if it can efficiently return YUV planar data. If it cannot, it should return false. * * If all planes and rowBytes are not NULL, then it should copy the associated Y,U,V data * into those planes of memory supplied by the caller. It should validate that the sizes * match what it expected. If the sizes do not match, it should return false. * * If colorSpace is not NULL, the YUV color space of the data should be stored in the address * it points at. */ bool getYUV8Planes(SkISize sizes[3], void* planes[3], size_t rowBytes[3], SkYUVColorSpace* colorSpace) { return this->onGetYUV8Planes(sizes, planes, rowBytes, colorSpace); } /** Populates dst with the pixels of this pixelRef, converting them to colorType. */ bool readPixels(SkBitmap* dst, SkColorType colorType, const SkIRect* subset = NULL); /** * Makes a deep copy of this PixelRef, respecting the requested config. * @param colorType Desired colortype. * @param profileType Desired colorprofiletype. * @param subset Subset of this PixelRef to copy. Must be fully contained within the bounds of * of this PixelRef. * @return A new SkPixelRef, or NULL if either there is an error (e.g. the destination could * not be created with the given config), or this PixelRef does not support deep * copies. */ virtual SkPixelRef* deepCopy(SkColorType, SkColorProfileType, const SkIRect* /*subset*/) { return NULL; } // Register a listener that may be called the next time our generation ID changes. // // We'll only call the listener if we're confident that we are the only SkPixelRef with this // generation ID. If our generation ID changes and we decide not to call the listener, we'll // never call it: you must add a new listener for each generation ID change. We also won't call // the listener when we're certain no one knows what our generation ID is. // // This can be used to invalidate caches keyed by SkPixelRef generation ID. struct GenIDChangeListener { virtual ~GenIDChangeListener() {} virtual void onChange() = 0; }; // Takes ownership of listener. void addGenIDChangeListener(GenIDChangeListener* listener); // Call when this pixelref is part of the key to a resourcecache entry. This allows the cache // to know automatically those entries can be purged when this pixelref is changed or deleted. void notifyAddedToCache() { fAddedToCache.store(true); } virtual SkDiscardableMemory* diagnostic_only_getDiscardable() const { return NULL; } /** * Returns true if the pixels are generated on-the-fly (when required). */ bool isLazyGenerated() const { return this->onIsLazyGenerated(); } protected: /** * On success, returns true and fills out the LockRec for the pixels. On * failure returns false and ignores the LockRec parameter. * * The caller will have already acquired a mutex for thread safety, so this * method need not do that. */ virtual bool onNewLockPixels(LockRec*) = 0; /** * Balancing the previous successful call to onNewLockPixels. The locked * pixel address will no longer be referenced, so the subclass is free to * move or discard that memory. * * The caller will have already acquired a mutex for thread safety, so this * method need not do that. */ virtual void onUnlockPixels() = 0; /** Default impl returns true */ virtual bool onLockPixelsAreWritable() const; /** * For pixelrefs that don't have access to their raw pixels, they may be * able to make a copy of them (e.g. if the pixels are on the GPU). * * The base class implementation returns false; */ virtual bool onReadPixels(SkBitmap* dst, SkColorType colorType, const SkIRect* subsetOrNull); // default impl returns NULL. virtual SkData* onRefEncodedData(); // default impl does nothing. virtual void onNotifyPixelsChanged(); // default impl returns false. virtual bool onGetYUV8Planes(SkISize sizes[3], void* planes[3], size_t rowBytes[3], SkYUVColorSpace* colorSpace); /** * Returns the size (in bytes) of the internally allocated memory. * This should be implemented in all serializable SkPixelRef derived classes. * SkBitmap::fPixelRefOffset + SkBitmap::getSafeSize() should never overflow this value, * otherwise the rendering code may attempt to read memory out of bounds. * * @return default impl returns 0. */ virtual size_t getAllocatedSizeInBytes() const; virtual bool onRequestLock(const LockRequest&, LockResult*); virtual bool onIsLazyGenerated() const { return false; } /** Return the mutex associated with this pixelref. This value is assigned in the constructor, and cannot change during the lifetime of the object. */ SkBaseMutex* mutex() const { return &fMutex; } // only call from constructor. Flags this to always be locked, removing // the need to grab the mutex and call onLockPixels/onUnlockPixels. // Performance tweak to avoid those calls (esp. in multi-thread use case). void setPreLocked(void*, size_t rowBytes, SkColorTable*); private: mutable SkMutex fMutex; // mostly const. fInfo.fAlpahType can be changed at runtime. const SkImageInfo fInfo; // LockRec is only valid if we're in a locked state (isLocked()) LockRec fRec; int fLockCount; bool lockPixelsInsideMutex(); // Bottom bit indicates the Gen ID is unique. bool genIDIsUnique() const { return SkToBool(fTaggedGenID.load() & 1); } mutable SkAtomic fTaggedGenID; #ifdef SK_BUILD_FOR_ANDROID_FRAMEWORK const uint32_t fStableID; #endif SkTDArray fGenIDChangeListeners; // pointers are owned SkString fURI; // Set true by caches when they cache content that's derived from the current pixels. SkAtomic fAddedToCache; enum { kMutable, // PixelRefs begin mutable. kTemporarilyImmutable, // Considered immutable, but can revert to mutable. kImmutable, // Once set to this state, it never leaves. } fMutability : 8; // easily fits inside a byte // only ever set in constructor, const after that bool fPreLocked; void needsNewGenID(); void callGenIDChangeListeners(); void setTemporarilyImmutable(); void restoreMutability(); friend class SkSurface_Raster; // For the two methods above. bool isPreLocked() const { return fPreLocked; } friend class SkImage_Raster; friend class SkSpecialImage_Raster; // When copying a bitmap to another with the same shape and config, we can safely // clone the pixelref generation ID too, which makes them equivalent under caching. friend class SkBitmap; // only for cloneGenID void cloneGenID(const SkPixelRef&); void setImmutableWithID(uint32_t genID); friend class SkImage_Gpu; friend class SkImageCacherator; typedef SkRefCnt INHERITED; }; class SkPixelRefFactory : public SkRefCnt { public: /** * Allocate a new pixelref matching the specified ImageInfo, allocating * the memory for the pixels. If the ImageInfo requires a ColorTable, * the pixelref will ref() the colortable. * On failure return NULL. */ virtual SkPixelRef* create(const SkImageInfo&, size_t rowBytes, SkColorTable*) = 0; }; #endif