672588b684
BUG= R=scroggo@google.com Review URL: https://codereview.chromium.org/105893012 git-svn-id: http://skia.googlecode.com/svn/trunk@12958 2bbb7eff-a529-9590-31e7-b0007b416f81
368 lines
12 KiB
C++
368 lines
12 KiB
C++
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/*
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* Copyright 2008 The Android Open Source Project
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*
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* Use of this source code is governed by a BSD-style license that can be
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* found in the LICENSE file.
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*/
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#ifndef SkPixelRef_DEFINED
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#define SkPixelRef_DEFINED
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#include "SkBitmap.h"
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#include "SkRefCnt.h"
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#include "SkString.h"
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#include "SkFlattenable.h"
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#include "SkImageInfo.h"
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#include "SkTDArray.h"
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//#define SK_SUPPORT_LEGACY_ONLOCKPIXELS
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#ifdef SK_DEBUG
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/**
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* Defining SK_IGNORE_PIXELREF_SETPRELOCKED will force all pixelref
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* subclasses to correctly handle lock/unlock pixels. For performance
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* reasons, simple malloc-based subclasses call setPreLocked() to skip
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* the overhead of implementing these calls.
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*
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* This build-flag disables that optimization, to add in debugging our
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* call-sites, to ensure that they correctly balance their calls of
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* lock and unlock.
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*/
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// #define SK_IGNORE_PIXELREF_SETPRELOCKED
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#endif
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class SkColorTable;
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class SkData;
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struct SkIRect;
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class SkMutex;
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class GrTexture;
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/** \class SkPixelRef
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This class is the smart container for pixel memory, and is used with
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SkBitmap. A pixelref is installed into a bitmap, and then the bitmap can
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access the actual pixel memory by calling lockPixels/unlockPixels.
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This class can be shared/accessed between multiple threads.
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*/
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class SK_API SkPixelRef : public SkFlattenable {
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public:
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SK_DECLARE_INST_COUNT(SkPixelRef)
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explicit SkPixelRef(const SkImageInfo&);
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SkPixelRef(const SkImageInfo&, SkBaseMutex* mutex);
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virtual ~SkPixelRef();
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const SkImageInfo& info() const {
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return fInfo;
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}
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/** Return the pixel memory returned from lockPixels, or null if the
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lockCount is 0.
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*/
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void* pixels() const { return fRec.fPixels; }
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/** Return the current colorTable (if any) if pixels are locked, or null.
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*/
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SkColorTable* colorTable() const { return fRec.fColorTable; }
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size_t rowBytes() const { return fRec.fRowBytes; }
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/**
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* To access the actual pixels of a pixelref, it must be "locked".
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* Calling lockPixels returns a LockRec struct (on success).
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*/
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struct LockRec {
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void* fPixels;
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SkColorTable* fColorTable;
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size_t fRowBytes;
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void zero() { sk_bzero(this, sizeof(*this)); }
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bool isZero() const {
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return NULL == fPixels && NULL == fColorTable && 0 == fRowBytes;
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}
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};
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/**
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* Returns true if the lockcount > 0
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*/
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bool isLocked() const { return fLockCount > 0; }
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SkDEBUGCODE(int getLockCount() const { return fLockCount; })
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/**
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* Call to access the pixel memory. Return true on success. Balance this
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* with a call to unlockPixels().
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*/
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bool lockPixels();
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/**
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* Call to access the pixel memory. On success, return true and fill out
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* the specified rec. On failure, return false and ignore the rec parameter.
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* Balance this with a call to unlockPixels().
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*/
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bool lockPixels(LockRec* rec);
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/** Call to balanace a previous call to lockPixels(). Returns the pixels
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(or null) after the unlock. NOTE: lock calls can be nested, but the
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matching number of unlock calls must be made in order to free the
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memory (if the subclass implements caching/deferred-decoding.)
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*/
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void unlockPixels();
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/**
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* Some bitmaps can return a copy of their pixels for lockPixels(), but
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* that copy, if modified, will not be pushed back. These bitmaps should
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* not be used as targets for a raster device/canvas (since all pixels
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* modifications will be lost when unlockPixels() is called.)
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*/
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bool lockPixelsAreWritable() const;
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/** Returns a non-zero, unique value corresponding to the pixels in this
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pixelref. Each time the pixels are changed (and notifyPixelsChanged is
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called), a different generation ID will be returned.
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*/
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uint32_t getGenerationID() const;
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/** Call this if you have changed the contents of the pixels. This will in-
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turn cause a different generation ID value to be returned from
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getGenerationID().
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*/
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void notifyPixelsChanged();
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/** Returns true if this pixelref is marked as immutable, meaning that the
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contents of its pixels will not change for the lifetime of the pixelref.
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*/
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bool isImmutable() const { return fIsImmutable; }
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/** Marks this pixelref is immutable, meaning that the contents of its
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pixels will not change for the lifetime of the pixelref. This state can
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be set on a pixelref, but it cannot be cleared once it is set.
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*/
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void setImmutable();
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/** Return the optional URI string associated with this pixelref. May be
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null.
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*/
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const char* getURI() const { return fURI.size() ? fURI.c_str() : NULL; }
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/** Copy a URI string to this pixelref, or clear the URI if the uri is null
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*/
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void setURI(const char uri[]) {
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fURI.set(uri);
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}
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/** Copy a URI string to this pixelref
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*/
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void setURI(const char uri[], size_t len) {
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fURI.set(uri, len);
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}
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/** Assign a URI string to this pixelref.
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*/
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void setURI(const SkString& uri) { fURI = uri; }
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/**
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* If the pixelRef has an encoded (i.e. compressed) representation,
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* return a ref to its data. If the pixelRef
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* is uncompressed or otherwise does not have this form, return NULL.
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*
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* If non-null is returned, the caller is responsible for calling unref()
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* on the data when it is finished.
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*/
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SkData* refEncodedData() {
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return this->onRefEncodedData();
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}
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/**
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* Experimental -- tells the caller if it is worth it to call decodeInto().
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* Just an optimization at this point, to avoid checking the cache first.
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* We may remove/change this call in the future.
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*/
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bool implementsDecodeInto() {
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return this->onImplementsDecodeInto();
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}
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/**
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* Return a decoded instance of this pixelRef in bitmap. If this cannot be
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* done, return false and the bitmap parameter is ignored/unchanged.
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*
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* pow2 is the requeste power-of-two downscale that the caller needs. This
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* can be ignored, and the "original" size can be returned, but if the
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* underlying codec can efficiently return a smaller size, that should be
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* done. Some examples:
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*
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* To request the "base" version (original scale), pass 0 for pow2
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* To request 1/2 scale version (1/2 width, 1/2 height), pass 1 for pow2
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* To request 1/4 scale version (1/4 width, 1/4 height), pass 2 for pow2
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* ...
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*
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* If this returns true, then bitmap must be "locked" such that
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* bitmap->getPixels() will return the correct address.
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*/
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bool decodeInto(int pow2, SkBitmap* bitmap) {
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SkASSERT(pow2 >= 0);
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return this->onDecodeInto(pow2, bitmap);
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}
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/** Are we really wrapping a texture instead of a bitmap?
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*/
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virtual GrTexture* getTexture() { return NULL; }
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bool readPixels(SkBitmap* dst, const SkIRect* subset = NULL);
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/**
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* Makes a deep copy of this PixelRef, respecting the requested config.
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* @param config Desired config.
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* @param subset Subset of this PixelRef to copy. Must be fully contained within the bounds of
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* of this PixelRef.
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* @return A new SkPixelRef, or NULL if either there is an error (e.g. the destination could
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* not be created with the given config), or this PixelRef does not support deep
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* copies.
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*/
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virtual SkPixelRef* deepCopy(SkBitmap::Config config, const SkIRect* subset = NULL) {
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return NULL;
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}
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#ifdef SK_BUILD_FOR_ANDROID
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/**
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* Acquire a "global" ref on this object.
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* The default implementation just calls ref(), but subclasses can override
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* this method to implement additional behavior.
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*/
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virtual void globalRef(void* data=NULL);
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/**
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* Release a "global" ref on this object.
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* The default implementation just calls unref(), but subclasses can override
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* this method to implement additional behavior.
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*/
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virtual void globalUnref();
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#endif
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SK_DEFINE_FLATTENABLE_TYPE(SkPixelRef)
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// Register a listener that may be called the next time our generation ID changes.
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//
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// We'll only call the listener if we're confident that we are the only SkPixelRef with this
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// generation ID. If our generation ID changes and we decide not to call the listener, we'll
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// never call it: you must add a new listener for each generation ID change. We also won't call
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// the listener when we're certain no one knows what our generation ID is.
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//
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// This can be used to invalidate caches keyed by SkPixelRef generation ID.
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struct GenIDChangeListener {
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virtual ~GenIDChangeListener() {}
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virtual void onChange() = 0;
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};
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// Takes ownership of listener.
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void addGenIDChangeListener(GenIDChangeListener* listener);
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protected:
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#ifdef SK_SUPPORT_LEGACY_ONLOCKPIXELS
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virtual void* onLockPixels(SkColorTable**);
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virtual bool onNewLockPixels(LockRec*);
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#else
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/**
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* On success, returns true and fills out the LockRec for the pixels. On
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* failure returns false and ignores the LockRec parameter.
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*
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* The caller will have already acquired a mutex for thread safety, so this
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* method need not do that.
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*/
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virtual bool onNewLockPixels(LockRec*) = 0;
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#endif
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/**
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* Balancing the previous successful call to onNewLockPixels. The locked
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* pixel address will no longer be referenced, so the subclass is free to
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* move or discard that memory.
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*
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* The caller will have already acquired a mutex for thread safety, so this
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* method need not do that.
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*/
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virtual void onUnlockPixels() = 0;
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/** Default impl returns true */
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virtual bool onLockPixelsAreWritable() const;
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// returns false;
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virtual bool onImplementsDecodeInto();
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// returns false;
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virtual bool onDecodeInto(int pow2, SkBitmap* bitmap);
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/**
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* For pixelrefs that don't have access to their raw pixels, they may be
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* able to make a copy of them (e.g. if the pixels are on the GPU).
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*
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* The base class implementation returns false;
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*/
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virtual bool onReadPixels(SkBitmap* dst, const SkIRect* subsetOrNull);
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// default impl returns NULL.
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virtual SkData* onRefEncodedData();
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/**
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* Returns the size (in bytes) of the internally allocated memory.
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* This should be implemented in all serializable SkPixelRef derived classes.
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* SkBitmap::fPixelRefOffset + SkBitmap::getSafeSize() should never overflow this value,
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* otherwise the rendering code may attempt to read memory out of bounds.
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*
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* @return default impl returns 0.
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*/
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virtual size_t getAllocatedSizeInBytes() const;
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/** Return the mutex associated with this pixelref. This value is assigned
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in the constructor, and cannot change during the lifetime of the object.
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*/
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SkBaseMutex* mutex() const { return fMutex; }
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// serialization
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SkPixelRef(SkFlattenableReadBuffer&, SkBaseMutex*);
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virtual void flatten(SkFlattenableWriteBuffer&) const SK_OVERRIDE;
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// only call from constructor. Flags this to always be locked, removing
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// the need to grab the mutex and call onLockPixels/onUnlockPixels.
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// Performance tweak to avoid those calls (esp. in multi-thread use case).
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void setPreLocked(void*, size_t rowBytes, SkColorTable*);
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private:
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SkBaseMutex* fMutex; // must remain in scope for the life of this object
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const SkImageInfo fInfo;
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// LockRec is only valid if we're in a locked state (isLocked())
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LockRec fRec;
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int fLockCount;
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mutable uint32_t fGenerationID;
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mutable bool fUniqueGenerationID;
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SkTDArray<GenIDChangeListener*> fGenIDChangeListeners; // pointers are owned
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SkString fURI;
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// can go from false to true, but never from true to false
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bool fIsImmutable;
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// only ever set in constructor, const after that
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bool fPreLocked;
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void needsNewGenID();
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void callGenIDChangeListeners();
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void setMutex(SkBaseMutex* mutex);
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// When copying a bitmap to another with the same shape and config, we can safely
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// clone the pixelref generation ID too, which makes them equivalent under caching.
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friend class SkBitmap; // only for cloneGenID
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void cloneGenID(const SkPixelRef&);
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typedef SkFlattenable INHERITED;
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};
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#endif
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