mirror of
https://gitlab.winehq.org/wine/wine-gecko.git
synced 2024-09-13 09:24:08 -07:00
b0f7962d2b
On FirefoxOS, the Android libraries estimate the duration of MP3 streams by examining the first MP3 frame header. This only works for streams with constant bit rate. For streams with variable bit rate, a too short or too long duration is computed. This patch adds support for parsing MP3 frame headers. The decoder handles file streams by reading them at once at the beginning and parsing them immediately. Network streams are updated when a new fragment arrives.
552 lines
17 KiB
C++
552 lines
17 KiB
C++
/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
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/* vim:set ts=2 sw=2 sts=2 et cindent: */
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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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#if !defined(MediaDecoderReader_h_)
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#define MediaDecoderReader_h_
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#include <nsDeque.h>
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#include "nsSize.h"
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#include "mozilla/ReentrantMonitor.h"
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#include "MediaStreamGraph.h"
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#include "SharedBuffer.h"
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#include "ImageLayers.h"
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#include "AudioSampleFormat.h"
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#include "MediaResource.h"
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#include "mozilla/dom/HTMLMediaElement.h"
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namespace mozilla {
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class AbstractMediaDecoder;
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// Stores info relevant to presenting media frames.
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class VideoInfo {
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public:
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VideoInfo()
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: mAudioRate(44100),
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mAudioChannels(2),
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mDisplay(0,0),
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mStereoMode(STEREO_MODE_MONO),
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mHasAudio(false),
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mHasVideo(false)
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{}
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// Returns true if it's safe to use aPicture as the picture to be
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// extracted inside a frame of size aFrame, and scaled up to and displayed
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// at a size of aDisplay. You should validate the frame, picture, and
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// display regions before using them to display video frames.
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static bool ValidateVideoRegion(const nsIntSize& aFrame,
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const nsIntRect& aPicture,
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const nsIntSize& aDisplay);
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// Sample rate.
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uint32_t mAudioRate;
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// Number of audio channels.
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uint32_t mAudioChannels;
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// Size in pixels at which the video is rendered. This is after it has
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// been scaled by its aspect ratio.
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nsIntSize mDisplay;
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// Indicates the frame layout for single track stereo videos.
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StereoMode mStereoMode;
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// True if we have an active audio bitstream.
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bool mHasAudio;
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// True if we have an active video bitstream.
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bool mHasVideo;
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};
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// Holds chunk a decoded audio frames.
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class AudioData {
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public:
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AudioData(int64_t aOffset,
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int64_t aTime,
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int64_t aDuration,
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uint32_t aFrames,
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AudioDataValue* aData,
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uint32_t aChannels)
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: mOffset(aOffset),
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mTime(aTime),
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mDuration(aDuration),
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mFrames(aFrames),
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mChannels(aChannels),
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mAudioData(aData)
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{
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MOZ_COUNT_CTOR(AudioData);
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}
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~AudioData()
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{
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MOZ_COUNT_DTOR(AudioData);
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}
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// If mAudioBuffer is null, creates it from mAudioData.
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void EnsureAudioBuffer();
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int64_t GetEnd() { return mTime + mDuration; }
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// Approximate byte offset of the end of the page on which this chunk
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// ends.
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const int64_t mOffset;
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int64_t mTime; // Start time of data in usecs.
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const int64_t mDuration; // In usecs.
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const uint32_t mFrames;
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const uint32_t mChannels;
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// At least one of mAudioBuffer/mAudioData must be non-null.
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// mChannels channels, each with mFrames frames
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nsRefPtr<SharedBuffer> mAudioBuffer;
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// mFrames frames, each with mChannels values
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nsAutoArrayPtr<AudioDataValue> mAudioData;
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};
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namespace layers {
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class GraphicBufferLocked;
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}
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// Holds a decoded video frame, in YCbCr format. These are queued in the reader.
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class VideoData {
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public:
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typedef layers::ImageContainer ImageContainer;
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typedef layers::Image Image;
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// YCbCr data obtained from decoding the video. The index's are:
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// 0 = Y
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// 1 = Cb
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// 2 = Cr
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struct YCbCrBuffer {
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struct Plane {
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uint8_t* mData;
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uint32_t mWidth;
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uint32_t mHeight;
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uint32_t mStride;
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uint32_t mOffset;
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uint32_t mSkip;
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};
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Plane mPlanes[3];
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};
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// Constructs a VideoData object. If aImage is NULL, creates a new Image
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// holding a copy of the YCbCr data passed in aBuffer. If aImage is not NULL,
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// it's stored as the underlying video image and aBuffer is assumed to point
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// to memory within aImage so no copy is made. aTimecode is a codec specific
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// number representing the timestamp of the frame of video data. Returns
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// nsnull if an error occurs. This may indicate that memory couldn't be
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// allocated to create the VideoData object, or it may indicate some problem
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// with the input data (e.g. negative stride).
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static VideoData* Create(VideoInfo& aInfo,
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ImageContainer* aContainer,
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Image* aImage,
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int64_t aOffset,
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int64_t aTime,
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int64_t aEndTime,
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const YCbCrBuffer &aBuffer,
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bool aKeyframe,
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int64_t aTimecode,
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nsIntRect aPicture);
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// Variant that always makes a copy of aBuffer
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static VideoData* Create(VideoInfo& aInfo,
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ImageContainer* aContainer,
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int64_t aOffset,
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int64_t aTime,
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int64_t aEndTime,
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const YCbCrBuffer &aBuffer,
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bool aKeyframe,
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int64_t aTimecode,
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nsIntRect aPicture);
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// Variant to create a VideoData instance given an existing aImage
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static VideoData* Create(VideoInfo& aInfo,
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Image* aImage,
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int64_t aOffset,
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int64_t aTime,
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int64_t aEndTime,
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const YCbCrBuffer &aBuffer,
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bool aKeyframe,
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int64_t aTimecode,
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nsIntRect aPicture);
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static VideoData* Create(VideoInfo& aInfo,
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ImageContainer* aContainer,
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int64_t aOffset,
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int64_t aTime,
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int64_t aEndTime,
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layers::GraphicBufferLocked* aBuffer,
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bool aKeyframe,
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int64_t aTimecode,
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nsIntRect aPicture);
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static VideoData* CreateFromImage(VideoInfo& aInfo,
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ImageContainer* aContainer,
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int64_t aOffset,
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int64_t aTime,
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int64_t aEndTime,
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const nsRefPtr<Image>& aImage,
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bool aKeyframe,
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int64_t aTimecode,
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nsIntRect aPicture);
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// Constructs a duplicate VideoData object. This intrinsically tells the
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// player that it does not need to update the displayed frame when this
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// frame is played; this frame is identical to the previous.
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static VideoData* CreateDuplicate(int64_t aOffset,
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int64_t aTime,
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int64_t aEndTime,
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int64_t aTimecode)
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{
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return new VideoData(aOffset, aTime, aEndTime, aTimecode);
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}
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~VideoData();
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int64_t GetEnd() { return mEndTime; }
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// Dimensions at which to display the video frame. The picture region
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// will be scaled to this size. This is should be the picture region's
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// dimensions scaled with respect to its aspect ratio.
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nsIntSize mDisplay;
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// Approximate byte offset of the end of the frame in the media.
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int64_t mOffset;
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// Start time of frame in microseconds.
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int64_t mTime;
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// End time of frame in microseconds.
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int64_t mEndTime;
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// Codec specific internal time code. For Ogg based codecs this is the
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// granulepos.
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int64_t mTimecode;
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// This frame's image.
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nsRefPtr<Image> mImage;
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// When true, denotes that this frame is identical to the frame that
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// came before; it's a duplicate. mBuffer will be empty.
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bool mDuplicate;
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bool mKeyframe;
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public:
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VideoData(int64_t aOffset, int64_t aTime, int64_t aEndTime, int64_t aTimecode);
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VideoData(int64_t aOffset,
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int64_t aTime,
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int64_t aEndTime,
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bool aKeyframe,
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int64_t aTimecode,
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nsIntSize aDisplay);
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};
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// Thread and type safe wrapper around nsDeque.
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template <class T>
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class MediaQueueDeallocator : public nsDequeFunctor {
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virtual void* operator() (void* anObject) {
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delete static_cast<T*>(anObject);
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return nullptr;
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}
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};
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template <class T> class MediaQueue : private nsDeque {
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public:
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MediaQueue()
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: nsDeque(new MediaQueueDeallocator<T>()),
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mReentrantMonitor("mediaqueue"),
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mEndOfStream(false)
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{}
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~MediaQueue() {
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Reset();
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}
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inline int32_t GetSize() {
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ReentrantMonitorAutoEnter mon(mReentrantMonitor);
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return nsDeque::GetSize();
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}
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inline void Push(T* aItem) {
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ReentrantMonitorAutoEnter mon(mReentrantMonitor);
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nsDeque::Push(aItem);
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}
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inline void PushFront(T* aItem) {
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ReentrantMonitorAutoEnter mon(mReentrantMonitor);
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nsDeque::PushFront(aItem);
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}
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inline T* Pop() {
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ReentrantMonitorAutoEnter mon(mReentrantMonitor);
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return static_cast<T*>(nsDeque::Pop());
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}
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inline T* PopFront() {
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ReentrantMonitorAutoEnter mon(mReentrantMonitor);
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return static_cast<T*>(nsDeque::PopFront());
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}
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inline T* Peek() {
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ReentrantMonitorAutoEnter mon(mReentrantMonitor);
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return static_cast<T*>(nsDeque::Peek());
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}
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inline T* PeekFront() {
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ReentrantMonitorAutoEnter mon(mReentrantMonitor);
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return static_cast<T*>(nsDeque::PeekFront());
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}
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inline void Empty() {
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ReentrantMonitorAutoEnter mon(mReentrantMonitor);
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nsDeque::Empty();
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}
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inline void Erase() {
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ReentrantMonitorAutoEnter mon(mReentrantMonitor);
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nsDeque::Erase();
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}
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void Reset() {
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ReentrantMonitorAutoEnter mon(mReentrantMonitor);
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while (GetSize() > 0) {
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T* x = PopFront();
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delete x;
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}
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mEndOfStream = false;
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}
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bool AtEndOfStream() {
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ReentrantMonitorAutoEnter mon(mReentrantMonitor);
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return GetSize() == 0 && mEndOfStream;
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}
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// Returns true if the media queue has had its last item added to it.
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// This happens when the media stream has been completely decoded. Note this
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// does not mean that the corresponding stream has finished playback.
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bool IsFinished() {
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ReentrantMonitorAutoEnter mon(mReentrantMonitor);
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return mEndOfStream;
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}
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// Informs the media queue that it won't be receiving any more items.
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void Finish() {
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ReentrantMonitorAutoEnter mon(mReentrantMonitor);
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mEndOfStream = true;
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}
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// Returns the approximate number of microseconds of items in the queue.
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int64_t Duration() {
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ReentrantMonitorAutoEnter mon(mReentrantMonitor);
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if (GetSize() < 2) {
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return 0;
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}
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T* last = Peek();
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T* first = PeekFront();
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return last->mTime - first->mTime;
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}
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void LockedForEach(nsDequeFunctor& aFunctor) const {
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ReentrantMonitorAutoEnter mon(mReentrantMonitor);
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ForEach(aFunctor);
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}
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// Extracts elements from the queue into aResult, in order.
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// Elements whose start time is before aTime are ignored.
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void GetElementsAfter(int64_t aTime, nsTArray<T*>* aResult) {
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ReentrantMonitorAutoEnter mon(mReentrantMonitor);
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if (!GetSize())
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return;
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int32_t i;
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for (i = GetSize() - 1; i > 0; --i) {
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T* v = static_cast<T*>(ObjectAt(i));
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if (v->GetEnd() < aTime)
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break;
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}
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// Elements less than i have a end time before aTime. It's also possible
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// that the element at i has a end time before aTime, but that's OK.
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for (; i < GetSize(); ++i) {
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aResult->AppendElement(static_cast<T*>(ObjectAt(i)));
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}
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}
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uint32_t FrameCount() {
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ReentrantMonitorAutoEnter mon(mReentrantMonitor);
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uint32_t frames = 0;
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for (int32_t i = 0; i < GetSize(); ++i) {
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T* v = static_cast<T*>(ObjectAt(i));
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frames += v->mFrames;
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}
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return frames;
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}
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private:
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mutable ReentrantMonitor mReentrantMonitor;
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// True when we've decoded the last frame of data in the
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// bitstream for which we're queueing frame data.
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bool mEndOfStream;
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};
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// Encapsulates the decoding and reading of media data. Reading can only be
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// done on the decode thread. Never hold the decoder monitor when
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// calling into this class. Unless otherwise specified, methods and fields of
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// this class can only be accessed on the decode thread.
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class MediaDecoderReader {
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public:
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MediaDecoderReader(AbstractMediaDecoder* aDecoder);
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virtual ~MediaDecoderReader();
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// Initializes the reader, returns NS_OK on success, or NS_ERROR_FAILURE
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// on failure.
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virtual nsresult Init(MediaDecoderReader* aCloneDonor) = 0;
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// True if this reader is waiting media resource allocation
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virtual bool IsWaitingMediaResources() { return false; }
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// True when this reader need to become dormant state
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virtual bool IsDormantNeeded() { return false; }
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// Release media resources they should be released in dormant state
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virtual void ReleaseMediaResources() {};
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// Resets all state related to decoding, emptying all buffers etc.
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virtual nsresult ResetDecode();
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// Decodes an unspecified amount of audio data, enqueuing the audio data
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// in mAudioQueue. Returns true when there's more audio to decode,
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// false if the audio is finished, end of file has been reached,
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// or an un-recoverable read error has occured.
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virtual bool DecodeAudioData() = 0;
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#ifdef MOZ_DASH
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// Steps to carry out at the start of the |DecodeLoop|.
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virtual void PrepareToDecode() { }
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#endif
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// Reads and decodes one video frame. Packets with a timestamp less
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// than aTimeThreshold will be decoded (unless they're not keyframes
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// and aKeyframeSkip is true), but will not be added to the queue.
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virtual bool DecodeVideoFrame(bool &aKeyframeSkip,
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int64_t aTimeThreshold) = 0;
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virtual bool HasAudio() = 0;
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virtual bool HasVideo() = 0;
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// Read header data for all bitstreams in the file. Fills aInfo with
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// the data required to present the media, and optionally fills *aTags
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// with tag metadata from the file.
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// Returns NS_OK on success, or NS_ERROR_FAILURE on failure.
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virtual nsresult ReadMetadata(VideoInfo* aInfo,
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MetadataTags** aTags) = 0;
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// Stores the presentation time of the first frame we'd be able to play if
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// we started playback at the current position. Returns the first video
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// frame, if we have video.
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virtual VideoData* FindStartTime(int64_t& aOutStartTime);
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// Moves the decode head to aTime microseconds. aStartTime and aEndTime
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// denote the start and end times of the media in usecs, and aCurrentTime
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// is the current playback position in microseconds.
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virtual nsresult Seek(int64_t aTime,
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int64_t aStartTime,
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int64_t aEndTime,
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int64_t aCurrentTime) = 0;
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// Called when the decode thread is started, before calling any other
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// decode, read metadata, or seek functions. Do any thread local setup
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// in this function.
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virtual void OnDecodeThreadStart() {}
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// Called when the decode thread is about to finish, after all calls to
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// any other decode, read metadata, or seek functions. Any backend specific
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// thread local tear down must be done in this function. Note that another
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// decode thread could start up and run in future.
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virtual void OnDecodeThreadFinish() {}
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protected:
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// Queue of audio frames. This queue is threadsafe, and is accessed from
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// the audio, decoder, state machine, and main threads.
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MediaQueue<AudioData> mAudioQueue;
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// Queue of video frames. This queue is threadsafe, and is accessed from
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// the decoder, state machine, and main threads.
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MediaQueue<VideoData> mVideoQueue;
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public:
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// Populates aBuffered with the time ranges which are buffered. aStartTime
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// must be the presentation time of the first frame in the media, e.g.
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// the media time corresponding to playback time/position 0. This function
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// should only be called on the main thread.
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virtual nsresult GetBuffered(dom::TimeRanges* aBuffered,
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int64_t aStartTime) = 0;
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class VideoQueueMemoryFunctor : public nsDequeFunctor {
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public:
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VideoQueueMemoryFunctor() : mResult(0) {}
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virtual void* operator()(void* anObject);
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int64_t mResult;
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};
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virtual int64_t VideoQueueMemoryInUse() {
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VideoQueueMemoryFunctor functor;
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mVideoQueue.LockedForEach(functor);
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return functor.mResult;
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}
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class AudioQueueMemoryFunctor : public nsDequeFunctor {
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public:
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AudioQueueMemoryFunctor() : mResult(0) {}
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virtual void* operator()(void* anObject) {
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const AudioData* audioData = static_cast<const AudioData*>(anObject);
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mResult += audioData->mFrames * audioData->mChannels * sizeof(AudioDataValue);
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return nullptr;
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}
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int64_t mResult;
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};
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virtual int64_t AudioQueueMemoryInUse() {
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AudioQueueMemoryFunctor functor;
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mAudioQueue.LockedForEach(functor);
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return functor.mResult;
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}
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// Only used by WebMReader and MediaOmxReader for now, so stub here rather
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// than in every reader than inherits from MediaDecoderReader.
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virtual void NotifyDataArrived(const char* aBuffer, uint32_t aLength, int64_t aOffset) {}
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virtual MediaQueue<AudioData>& AudioQueue() { return mAudioQueue; }
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virtual MediaQueue<VideoData>& VideoQueue() { return mVideoQueue; }
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// Returns a pointer to the decoder.
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AbstractMediaDecoder* GetDecoder() {
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return mDecoder;
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}
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AudioData* DecodeToFirstAudioData();
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VideoData* DecodeToFirstVideoData();
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protected:
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// Pumps the decode until we reach frames required to play at time aTarget
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// (usecs).
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nsresult DecodeToTarget(int64_t aTarget);
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// Reference to the owning decoder object.
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AbstractMediaDecoder* mDecoder;
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// Stores presentation info required for playback.
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VideoInfo mInfo;
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};
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} // namespace mozilla
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#endif
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