зеркало из https://github.com/mozilla/gecko-dev.git
527 строки
16 KiB
C++
527 строки
16 KiB
C++
/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*-
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*
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* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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#ifndef mozilla_image_imgFrame_h
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#define mozilla_image_imgFrame_h
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#include "mozilla/MemoryReporting.h"
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#include "mozilla/Monitor.h"
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#include "mozilla/Move.h"
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#include "mozilla/VolatileBuffer.h"
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#include "gfxDrawable.h"
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#include "imgIContainer.h"
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#include "MainThreadUtils.h"
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namespace mozilla {
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namespace image {
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class ImageRegion;
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class DrawableFrameRef;
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class RawAccessFrameRef;
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enum class BlendMethod : int8_t {
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// All color components of the frame, including alpha, overwrite the current
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// contents of the frame's output buffer region.
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SOURCE,
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// The frame should be composited onto the output buffer based on its alpha,
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// using a simple OVER operation.
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OVER
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};
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enum class DisposalMethod : int8_t {
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CLEAR_ALL = -1, // Clear the whole image, revealing what's underneath.
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NOT_SPECIFIED, // Leave the frame and let the new frame draw on top.
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KEEP, // Leave the frame and let the new frame draw on top.
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CLEAR, // Clear the frame's area, revealing what's underneath.
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RESTORE_PREVIOUS // Restore the previous (composited) frame.
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};
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enum class Opacity : uint8_t {
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OPAQUE,
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SOME_TRANSPARENCY
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};
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/**
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* AnimationData contains all of the information necessary for using an imgFrame
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* as part of an animation.
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*
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* It includes pointers to the raw image data of the underlying imgFrame, but
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* does not own that data. A RawAccessFrameRef for the underlying imgFrame must
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* outlive the AnimationData for it to remain valid.
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*/
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struct AnimationData
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{
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AnimationData(uint8_t* aRawData, uint32_t aPaletteDataLength,
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int32_t aRawTimeout, const nsIntRect& aRect,
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BlendMethod aBlendMethod, DisposalMethod aDisposalMethod,
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bool aHasAlpha)
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: mRawData(aRawData)
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, mPaletteDataLength(aPaletteDataLength)
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, mRawTimeout(aRawTimeout)
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, mRect(aRect)
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, mBlendMethod(aBlendMethod)
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, mDisposalMethod(aDisposalMethod)
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, mHasAlpha(aHasAlpha)
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{ }
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uint8_t* mRawData;
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uint32_t mPaletteDataLength;
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int32_t mRawTimeout;
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nsIntRect mRect;
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BlendMethod mBlendMethod;
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DisposalMethod mDisposalMethod;
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bool mHasAlpha;
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};
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/**
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* ScalingData contains all of the information necessary for performing
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* high-quality (CPU-based) scaling an imgFrame.
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*
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* It includes pointers to the raw image data of the underlying imgFrame, but
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* does not own that data. A RawAccessFrameRef for the underlying imgFrame must
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* outlive the ScalingData for it to remain valid.
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*/
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struct ScalingData
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{
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ScalingData(uint8_t* aRawData,
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gfx::IntSize aSize,
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uint32_t aBytesPerRow,
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gfx::SurfaceFormat aFormat)
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: mRawData(aRawData)
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, mSize(aSize)
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, mBytesPerRow(aBytesPerRow)
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, mFormat(aFormat)
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{ }
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uint8_t* mRawData;
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gfx::IntSize mSize;
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uint32_t mBytesPerRow;
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gfx::SurfaceFormat mFormat;
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};
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class imgFrame
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{
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typedef gfx::Color Color;
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typedef gfx::DataSourceSurface DataSourceSurface;
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typedef gfx::DrawTarget DrawTarget;
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typedef gfx::IntSize IntSize;
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typedef gfx::SourceSurface SourceSurface;
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typedef gfx::SurfaceFormat SurfaceFormat;
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public:
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MOZ_DECLARE_REFCOUNTED_TYPENAME(imgFrame)
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NS_INLINE_DECL_THREADSAFE_REFCOUNTING(imgFrame)
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imgFrame();
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/**
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* Initialize this imgFrame with an empty surface and prepare it for being
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* written to by a decoder.
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*
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* This is appropriate for use with decoded images, but it should not be used
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* when drawing content into an imgFrame, as it may use a different graphics
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* backend than normal content drawing.
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*/
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nsresult InitForDecoder(const nsIntSize& aImageSize,
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const nsIntRect& aRect,
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SurfaceFormat aFormat,
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uint8_t aPaletteDepth = 0,
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bool aNonPremult = false);
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nsresult InitForDecoder(const nsIntSize& aSize,
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SurfaceFormat aFormat,
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uint8_t aPaletteDepth = 0)
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{
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return InitForDecoder(aSize, nsIntRect(0, 0, aSize.width, aSize.height),
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aFormat, aPaletteDepth);
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}
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/**
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* Initialize this imgFrame with a new surface and draw the provided
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* gfxDrawable into it.
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*
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* This is appropriate to use when drawing content into an imgFrame, as it
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* uses the same graphics backend as normal content drawing. The downside is
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* that the underlying surface may not be stored in a volatile buffer on all
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* platforms, and raw access to the surface (using RawAccessRef()) may be much
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* more expensive than in the InitForDecoder() case.
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*/
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nsresult InitWithDrawable(gfxDrawable* aDrawable,
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const nsIntSize& aSize,
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const SurfaceFormat aFormat,
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GraphicsFilter aFilter,
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uint32_t aImageFlags);
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DrawableFrameRef DrawableRef();
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RawAccessFrameRef RawAccessRef();
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/**
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* Make this imgFrame permanently available for raw access.
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*
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* This is irrevocable, and should be avoided whenever possible, since it
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* prevents this imgFrame from being optimized and makes it impossible for its
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* volatile buffer to be freed.
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*
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* It is an error to call this without already holding a RawAccessFrameRef to
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* this imgFrame.
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*/
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void SetRawAccessOnly();
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bool Draw(gfxContext* aContext, const ImageRegion& aRegion,
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GraphicsFilter aFilter, uint32_t aImageFlags);
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nsresult ImageUpdated(const nsIntRect& aUpdateRect);
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/**
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* Mark this imgFrame as completely decoded, and set final options.
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*
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* You must always call either Finish() or Abort() before releasing the last
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* RawAccessFrameRef pointing to an imgFrame.
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*
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* @param aFrameOpacity Whether this imgFrame is opaque.
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* @param aDisposalMethod For animation frames, how this imgFrame is cleared
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* from the compositing frame before the next frame is
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* displayed.
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* @param aRawTimeout For animation frames, the timeout in milliseconds
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* before the next frame is displayed. This timeout is
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* not necessarily the timeout that will actually be
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* used; see FrameAnimator::GetTimeoutForFrame.
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* @param aBlendMethod For animation frames, a blending method to be used
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* when compositing this frame.
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*/
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void Finish(Opacity aFrameOpacity = Opacity::SOME_TRANSPARENCY,
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DisposalMethod aDisposalMethod = DisposalMethod::KEEP,
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int32_t aRawTimeout = 0,
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BlendMethod aBlendMethod = BlendMethod::OVER);
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/**
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* Mark this imgFrame as aborted. This informs the imgFrame that if it isn't
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* completely decoded now, it never will be.
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*
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* You must always call either Finish() or Abort() before releasing the last
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* RawAccessFrameRef pointing to an imgFrame.
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*/
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void Abort();
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/**
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* Returns true if this imgFrame is completely decoded.
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*/
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bool IsImageComplete() const;
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/**
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* Blocks until this imgFrame is either completely decoded, or is marked as
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* aborted.
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*
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* Note that calling this on the main thread _blocks the main thread_. Be very
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* careful in your use of this method to avoid excessive main thread jank or
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* deadlock.
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*/
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void WaitUntilComplete() const;
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/**
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* Returns the number of bytes per pixel this imgFrame requires. This is a
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* worst-case value that does not take into account the effects of format
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* changes caused by Optimize(), since an imgFrame is not optimized throughout
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* its lifetime.
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*/
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uint32_t GetBytesPerPixel() const { return GetIsPaletted() ? 1 : 4; }
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IntSize GetImageSize() const { return mImageSize; }
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nsIntRect GetRect() const;
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IntSize GetSize() const { return mSize; }
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bool NeedsPadding() const { return mOffset != nsIntPoint(0, 0); }
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void GetImageData(uint8_t** aData, uint32_t* length) const;
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uint8_t* GetImageData() const;
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bool GetIsPaletted() const;
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void GetPaletteData(uint32_t** aPalette, uint32_t* length) const;
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uint32_t* GetPaletteData() const;
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uint8_t GetPaletteDepth() const { return mPaletteDepth; }
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/**
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* Get the SurfaceFormat for this imgFrame.
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*
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* This should only be used for assertions.
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*/
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SurfaceFormat GetFormat() const;
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AnimationData GetAnimationData() const;
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ScalingData GetScalingData() const;
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bool GetCompositingFailed() const;
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void SetCompositingFailed(bool val);
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void SetOptimizable();
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Color SinglePixelColor() const;
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bool IsSinglePixel() const;
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already_AddRefed<SourceSurface> GetSurface();
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already_AddRefed<DrawTarget> GetDrawTarget();
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void AddSizeOfExcludingThis(MallocSizeOf aMallocSizeOf, size_t& aHeapSizeOut,
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size_t& aNonHeapSizeOut) const;
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private: // methods
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~imgFrame();
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nsresult LockImageData();
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nsresult UnlockImageData();
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nsresult Optimize();
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nsresult Deoptimize();
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void AssertImageDataLocked() const;
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bool IsImageCompleteInternal() const;
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nsresult ImageUpdatedInternal(const nsIntRect& aUpdateRect);
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void GetImageDataInternal(uint8_t** aData, uint32_t* length) const;
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uint32_t GetImageBytesPerRow() const;
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uint32_t GetImageDataLength() const;
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int32_t GetStride() const;
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already_AddRefed<SourceSurface> GetSurfaceInternal();
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uint32_t PaletteDataLength() const
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{
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return mPaletteDepth ? (size_t(1) << mPaletteDepth) * sizeof(uint32_t)
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: 0;
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}
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struct SurfaceWithFormat {
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nsRefPtr<gfxDrawable> mDrawable;
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SurfaceFormat mFormat;
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SurfaceWithFormat() { }
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SurfaceWithFormat(gfxDrawable* aDrawable, SurfaceFormat aFormat)
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: mDrawable(aDrawable), mFormat(aFormat)
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{ }
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bool IsValid() { return !!mDrawable; }
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};
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SurfaceWithFormat SurfaceForDrawing(bool aDoPadding,
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bool aDoPartialDecode,
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bool aDoTile,
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gfxContext* aContext,
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const nsIntMargin& aPadding,
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gfxRect& aImageRect,
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ImageRegion& aRegion,
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SourceSurface* aSurface);
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private: // data
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friend class DrawableFrameRef;
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friend class RawAccessFrameRef;
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friend class UnlockImageDataRunnable;
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//////////////////////////////////////////////////////////////////////////////
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// Thread-safe mutable data, protected by mMonitor.
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//////////////////////////////////////////////////////////////////////////////
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mutable Monitor mMonitor;
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RefPtr<DataSourceSurface> mImageSurface;
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RefPtr<SourceSurface> mOptSurface;
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RefPtr<VolatileBuffer> mVBuf;
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VolatileBufferPtr<uint8_t> mVBufPtr;
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nsIntRect mDecoded;
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//! Number of RawAccessFrameRefs currently alive for this imgFrame.
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int32_t mLockCount;
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//! Raw timeout for this frame. (See FrameAnimator::GetTimeoutForFrame.)
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int32_t mTimeout; // -1 means display forever.
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DisposalMethod mDisposalMethod;
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BlendMethod mBlendMethod;
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SurfaceFormat mFormat;
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bool mHasNoAlpha;
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bool mAborted;
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bool mOptimizable;
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//////////////////////////////////////////////////////////////////////////////
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// Effectively const data, only mutated in the Init methods.
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//////////////////////////////////////////////////////////////////////////////
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IntSize mImageSize;
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IntSize mSize;
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nsIntPoint mOffset;
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// The palette and image data for images that are paletted, since Cairo
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// doesn't support these images.
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// The paletted data comes first, then the image data itself.
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// Total length is PaletteDataLength() + GetImageDataLength().
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uint8_t* mPalettedImageData;
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uint8_t mPaletteDepth;
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bool mNonPremult;
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//////////////////////////////////////////////////////////////////////////////
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// Main-thread-only mutable data.
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//////////////////////////////////////////////////////////////////////////////
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// Note that the data stored in gfx::Color is *non-alpha-premultiplied*.
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Color mSinglePixelColor;
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bool mSinglePixel;
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bool mCompositingFailed;
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};
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/**
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* A reference to an imgFrame that holds the imgFrame's surface in memory,
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* allowing drawing. If you have a DrawableFrameRef |ref| and |if (ref)| returns
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* true, then calls to Draw() and GetSurface() are guaranteed to succeed.
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*/
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class DrawableFrameRef final
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{
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public:
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DrawableFrameRef() { }
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explicit DrawableFrameRef(imgFrame* aFrame)
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: mFrame(aFrame)
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, mRef(aFrame->mVBuf)
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{
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if (mRef.WasBufferPurged()) {
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mFrame = nullptr;
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mRef = nullptr;
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}
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}
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DrawableFrameRef(DrawableFrameRef&& aOther)
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: mFrame(aOther.mFrame.forget())
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, mRef(Move(aOther.mRef))
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{ }
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DrawableFrameRef& operator=(DrawableFrameRef&& aOther)
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{
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MOZ_ASSERT(this != &aOther, "Self-moves are prohibited");
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mFrame = aOther.mFrame.forget();
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mRef = Move(aOther.mRef);
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return *this;
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}
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explicit operator bool() const { return bool(mFrame); }
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imgFrame* operator->()
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{
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MOZ_ASSERT(mFrame);
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return mFrame;
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}
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const imgFrame* operator->() const
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{
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MOZ_ASSERT(mFrame);
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return mFrame;
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}
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imgFrame* get() { return mFrame; }
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const imgFrame* get() const { return mFrame; }
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void reset()
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{
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mFrame = nullptr;
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mRef = nullptr;
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}
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private:
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DrawableFrameRef(const DrawableFrameRef& aOther) = delete;
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nsRefPtr<imgFrame> mFrame;
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VolatileBufferPtr<uint8_t> mRef;
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};
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/**
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* A reference to an imgFrame that holds the imgFrame's surface in memory in a
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* format appropriate for access as raw data. If you have a RawAccessFrameRef
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* |ref| and |if (ref)| is true, then calls to GetImageData(), GetPaletteData(),
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* and GetDrawTarget() are guaranteed to succeed. This guarantee is stronger
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* than DrawableFrameRef, so everything that a valid DrawableFrameRef guarantees
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* is also guaranteed by a valid RawAccessFrameRef.
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*
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* This may be considerably more expensive than is necessary just for drawing,
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* so only use this when you need to read or write the raw underlying image data
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* that the imgFrame holds.
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*/
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class RawAccessFrameRef final
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{
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public:
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RawAccessFrameRef() { }
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explicit RawAccessFrameRef(imgFrame* aFrame)
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: mFrame(aFrame)
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{
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MOZ_ASSERT(mFrame, "Need a frame");
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if (NS_FAILED(mFrame->LockImageData())) {
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mFrame->UnlockImageData();
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mFrame = nullptr;
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}
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}
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RawAccessFrameRef(RawAccessFrameRef&& aOther)
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: mFrame(aOther.mFrame.forget())
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{ }
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~RawAccessFrameRef()
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{
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if (mFrame) {
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mFrame->UnlockImageData();
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}
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}
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RawAccessFrameRef& operator=(RawAccessFrameRef&& aOther)
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{
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MOZ_ASSERT(this != &aOther, "Self-moves are prohibited");
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if (mFrame) {
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mFrame->UnlockImageData();
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}
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mFrame = aOther.mFrame.forget();
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return *this;
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}
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explicit operator bool() const { return bool(mFrame); }
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imgFrame* operator->()
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{
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MOZ_ASSERT(mFrame);
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return mFrame.get();
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}
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const imgFrame* operator->() const
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{
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MOZ_ASSERT(mFrame);
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return mFrame;
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}
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imgFrame* get() { return mFrame; }
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const imgFrame* get() const { return mFrame; }
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void reset()
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{
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if (mFrame) {
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mFrame->UnlockImageData();
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}
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mFrame = nullptr;
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}
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private:
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RawAccessFrameRef(const RawAccessFrameRef& aOther) = delete;
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nsRefPtr<imgFrame> mFrame;
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};
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} // namespace image
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} // namespace mozilla
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#endif // mozilla_image_imgFrame_h
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