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30bb9083ce
Backed out changeset 79b1a4a62635 (bug 909187) Backed out changeset 0601038e2a31 (bug 909187)
347 lines
15 KiB
C++
347 lines
15 KiB
C++
/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*-*/
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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 file,
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* You can obtain one at http://mozilla.org/MPL/2.0/. */
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#ifndef MOZILLA_TRACKUNIONSTREAM_H_
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#define MOZILLA_TRACKUNIONSTREAM_H_
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#include "MediaStreamGraph.h"
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#include <algorithm>
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namespace mozilla {
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#ifdef PR_LOGGING
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#define LOG(type, msg) PR_LOG(gMediaStreamGraphLog, type, msg)
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#else
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#define LOG(type, msg)
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#endif
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/**
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* See MediaStreamGraph::CreateTrackUnionStream.
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* This file is only included by MediaStreamGraph.cpp so it's OK to put the
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* entire implementation in this header file.
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*/
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class TrackUnionStream : public ProcessedMediaStream {
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public:
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TrackUnionStream(DOMMediaStream* aWrapper) :
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ProcessedMediaStream(aWrapper),
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mFilterCallback(nullptr),
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mMaxTrackID(0) {}
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virtual void RemoveInput(MediaInputPort* aPort)
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{
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for (int32_t i = mTrackMap.Length() - 1; i >= 0; --i) {
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if (mTrackMap[i].mInputPort == aPort) {
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EndTrack(i);
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mTrackMap.RemoveElementAt(i);
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}
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}
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ProcessedMediaStream::RemoveInput(aPort);
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}
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virtual void ProduceOutput(GraphTime aFrom, GraphTime aTo)
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{
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nsAutoTArray<bool,8> mappedTracksFinished;
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nsAutoTArray<bool,8> mappedTracksWithMatchingInputTracks;
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for (uint32_t i = 0; i < mTrackMap.Length(); ++i) {
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mappedTracksFinished.AppendElement(true);
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mappedTracksWithMatchingInputTracks.AppendElement(false);
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}
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bool allFinished = true;
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bool allHaveCurrentData = true;
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for (uint32_t i = 0; i < mInputs.Length(); ++i) {
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MediaStream* stream = mInputs[i]->GetSource();
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if (!stream->IsFinishedOnGraphThread()) {
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allFinished = false;
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}
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if (!stream->HasCurrentData()) {
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allHaveCurrentData = false;
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}
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for (StreamBuffer::TrackIter tracks(stream->GetStreamBuffer());
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!tracks.IsEnded(); tracks.Next()) {
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bool found = false;
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for (uint32_t j = 0; j < mTrackMap.Length(); ++j) {
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TrackMapEntry* map = &mTrackMap[j];
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if (map->mInputPort == mInputs[i] && map->mInputTrackID == tracks->GetID()) {
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bool trackFinished;
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StreamBuffer::Track* outputTrack = mBuffer.FindTrack(map->mOutputTrackID);
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if (!outputTrack || outputTrack->IsEnded()) {
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trackFinished = true;
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} else {
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CopyTrackData(tracks.get(), j, aFrom, aTo, &trackFinished);
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}
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mappedTracksFinished[j] = trackFinished;
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mappedTracksWithMatchingInputTracks[j] = true;
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found = true;
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break;
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}
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}
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if (!found && (!mFilterCallback || mFilterCallback(tracks.get()))) {
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bool trackFinished = false;
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uint32_t mapIndex = AddTrack(mInputs[i], tracks.get(), aFrom);
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CopyTrackData(tracks.get(), mapIndex, aFrom, aTo, &trackFinished);
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mappedTracksFinished.AppendElement(trackFinished);
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mappedTracksWithMatchingInputTracks.AppendElement(true);
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}
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}
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}
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for (int32_t i = mTrackMap.Length() - 1; i >= 0; --i) {
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if (mappedTracksFinished[i]) {
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EndTrack(i);
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} else {
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allFinished = false;
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}
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if (!mappedTracksWithMatchingInputTracks[i]) {
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mTrackMap.RemoveElementAt(i);
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}
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}
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if (allFinished && mAutofinish) {
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// All streams have finished and won't add any more tracks, and
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// all our tracks have actually finished and been removed from our map,
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// so we're finished now.
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FinishOnGraphThread();
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}
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mBuffer.AdvanceKnownTracksTime(GraphTimeToStreamTime(aTo));
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if (allHaveCurrentData) {
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// We can make progress if we're not blocked
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mHasCurrentData = true;
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}
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}
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// Consumers may specify a filtering callback to apply to every input track.
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// Returns true to allow the track to act as an input; false to reject it entirely.
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typedef bool (*TrackIDFilterCallback)(StreamBuffer::Track*);
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void SetTrackIDFilter(TrackIDFilterCallback aCallback) {
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mFilterCallback = aCallback;
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}
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// Forward SetTrackEnabled(output_track_id, enabled) to the Source MediaStream,
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// translating the output track ID into the correct ID in the source.
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virtual void ForwardTrackEnabled(TrackID aOutputID, bool aEnabled) {
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for (int32_t i = mTrackMap.Length() - 1; i >= 0; --i) {
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if (mTrackMap[i].mOutputTrackID == aOutputID) {
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mTrackMap[i].mInputPort->GetSource()->
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SetTrackEnabled(mTrackMap[i].mInputTrackID, aEnabled);
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}
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}
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}
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protected:
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TrackIDFilterCallback mFilterCallback;
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// Only non-ended tracks are allowed to persist in this map.
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struct TrackMapEntry {
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// mEndOfConsumedInputTicks is the end of the input ticks that we've consumed.
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// 0 if we haven't consumed any yet.
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TrackTicks mEndOfConsumedInputTicks;
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// mEndOfLastInputIntervalInInputStream is the timestamp for the end of the
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// previous interval which was unblocked for both the input and output
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// stream, in the input stream's timeline, or -1 if there wasn't one.
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StreamTime mEndOfLastInputIntervalInInputStream;
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// mEndOfLastInputIntervalInOutputStream is the timestamp for the end of the
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// previous interval which was unblocked for both the input and output
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// stream, in the output stream's timeline, or -1 if there wasn't one.
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StreamTime mEndOfLastInputIntervalInOutputStream;
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MediaInputPort* mInputPort;
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// We keep track IDs instead of track pointers because
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// tracks can be removed without us being notified (e.g.
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// when a finished track is forgotten.) When we need a Track*,
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// we call StreamBuffer::FindTrack, which will return null if
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// the track has been deleted.
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TrackID mInputTrackID;
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TrackID mOutputTrackID;
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nsAutoPtr<MediaSegment> mSegment;
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};
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uint32_t AddTrack(MediaInputPort* aPort, StreamBuffer::Track* aTrack,
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GraphTime aFrom)
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{
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// Use the ID of the source track if we can, otherwise allocate a new
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// unique ID
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TrackID id = std::max(mMaxTrackID + 1, aTrack->GetID());
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mMaxTrackID = id;
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TrackRate rate = aTrack->GetRate();
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// Round up the track start time so the track, if anything, starts a
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// little later than the true time. This means we'll have enough
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// samples in our input stream to go just beyond the destination time.
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TrackTicks outputStart = TimeToTicksRoundUp(rate, GraphTimeToStreamTime(aFrom));
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nsAutoPtr<MediaSegment> segment;
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segment = aTrack->GetSegment()->CreateEmptyClone();
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for (uint32_t j = 0; j < mListeners.Length(); ++j) {
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MediaStreamListener* l = mListeners[j];
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l->NotifyQueuedTrackChanges(Graph(), id, rate, outputStart,
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MediaStreamListener::TRACK_EVENT_CREATED,
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*segment);
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}
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segment->AppendNullData(outputStart);
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StreamBuffer::Track* track =
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&mBuffer.AddTrack(id, rate, outputStart, segment.forget());
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LOG(PR_LOG_DEBUG, ("TrackUnionStream %p adding track %d for input stream %p track %d, start ticks %lld",
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this, id, aPort->GetSource(), aTrack->GetID(),
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(long long)outputStart));
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TrackMapEntry* map = mTrackMap.AppendElement();
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map->mEndOfConsumedInputTicks = 0;
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map->mEndOfLastInputIntervalInInputStream = -1;
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map->mEndOfLastInputIntervalInOutputStream = -1;
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map->mInputPort = aPort;
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map->mInputTrackID = aTrack->GetID();
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map->mOutputTrackID = track->GetID();
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map->mSegment = aTrack->GetSegment()->CreateEmptyClone();
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return mTrackMap.Length() - 1;
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}
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void EndTrack(uint32_t aIndex)
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{
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StreamBuffer::Track* outputTrack = mBuffer.FindTrack(mTrackMap[aIndex].mOutputTrackID);
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if (!outputTrack || outputTrack->IsEnded())
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return;
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for (uint32_t j = 0; j < mListeners.Length(); ++j) {
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MediaStreamListener* l = mListeners[j];
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TrackTicks offset = outputTrack->GetSegment()->GetDuration();
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nsAutoPtr<MediaSegment> segment;
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segment = outputTrack->GetSegment()->CreateEmptyClone();
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l->NotifyQueuedTrackChanges(Graph(), outputTrack->GetID(),
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outputTrack->GetRate(), offset,
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MediaStreamListener::TRACK_EVENT_ENDED,
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*segment);
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}
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outputTrack->SetEnded();
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}
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void CopyTrackData(StreamBuffer::Track* aInputTrack,
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uint32_t aMapIndex, GraphTime aFrom, GraphTime aTo,
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bool* aOutputTrackFinished)
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{
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TrackMapEntry* map = &mTrackMap[aMapIndex];
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StreamBuffer::Track* outputTrack = mBuffer.FindTrack(map->mOutputTrackID);
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MOZ_ASSERT(outputTrack && !outputTrack->IsEnded(), "Can't copy to ended track");
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TrackRate rate = outputTrack->GetRate();
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MediaSegment* segment = map->mSegment;
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MediaStream* source = map->mInputPort->GetSource();
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GraphTime next;
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*aOutputTrackFinished = false;
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for (GraphTime t = aFrom; t < aTo; t = next) {
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MediaInputPort::InputInterval interval = map->mInputPort->GetNextInputInterval(t);
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interval.mEnd = std::min(interval.mEnd, aTo);
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if (interval.mStart >= interval.mEnd)
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break;
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next = interval.mEnd;
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// Ticks >= startTicks and < endTicks are in the interval
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StreamTime outputEnd = GraphTimeToStreamTime(interval.mEnd);
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TrackTicks startTicks = outputTrack->GetEnd();
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StreamTime outputStart = GraphTimeToStreamTime(interval.mStart);
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NS_ASSERTION(startTicks == TimeToTicksRoundUp(rate, outputStart),
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"Samples missing");
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TrackTicks endTicks = TimeToTicksRoundUp(rate, outputEnd);
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TrackTicks ticks = endTicks - startTicks;
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StreamTime inputStart = source->GraphTimeToStreamTime(interval.mStart);
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StreamTime inputEnd = source->GraphTimeToStreamTime(interval.mEnd);
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TrackTicks inputTrackEndPoint = TRACK_TICKS_MAX;
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if (aInputTrack->IsEnded()) {
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TrackTicks inputEndTicks = aInputTrack->TimeToTicksRoundDown(inputEnd);
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if (aInputTrack->GetEnd() <= inputEndTicks) {
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inputTrackEndPoint = aInputTrack->GetEnd();
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*aOutputTrackFinished = true;
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}
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}
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if (interval.mInputIsBlocked) {
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// Maybe the input track ended?
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segment->AppendNullData(ticks);
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LOG(PR_LOG_DEBUG+1, ("TrackUnionStream %p appending %lld ticks of null data to track %d",
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this, (long long)ticks, outputTrack->GetID()));
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} else {
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// Figuring out which samples to use from the input stream is tricky
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// because its start time and our start time may differ by a fraction
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// of a tick. Assuming the input track hasn't ended, we have to ensure
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// that 'ticks' samples are gathered, even though a tick boundary may
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// occur between outputStart and outputEnd but not between inputStart
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// and inputEnd.
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// These are the properties we need to ensure:
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// 1) Exactly 'ticks' ticks of output are produced, i.e.
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// inputEndTicks - inputStartTicks = ticks.
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// 2) inputEndTicks <= aInputTrack->GetSegment()->GetDuration().
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// 3) In any sequence of intervals where neither stream is blocked,
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// the content of the input track we use is a contiguous sequence of
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// ticks with no gaps or overlaps.
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if (map->mEndOfLastInputIntervalInInputStream != inputStart ||
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map->mEndOfLastInputIntervalInOutputStream != outputStart) {
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// Start of a new series of intervals where neither stream is blocked.
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map->mEndOfConsumedInputTicks = TimeToTicksRoundDown(rate, inputStart) - 1;
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}
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TrackTicks inputStartTicks = map->mEndOfConsumedInputTicks;
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TrackTicks inputEndTicks = inputStartTicks + ticks;
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map->mEndOfConsumedInputTicks = inputEndTicks;
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map->mEndOfLastInputIntervalInInputStream = inputEnd;
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map->mEndOfLastInputIntervalInOutputStream = outputEnd;
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// Now we prove that the above properties hold:
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// Property #1: trivial by construction.
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// Property #3: trivial by construction. Between every two
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// intervals where both streams are not blocked, the above if condition
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// is false and mEndOfConsumedInputTicks advances exactly to match
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// the ticks that were consumed.
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// Property #2:
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// Let originalOutputStart be the value of outputStart and originalInputStart
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// be the value of inputStart when the body of the "if" block was last
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// executed.
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// Let allTicks be the sum of the values of 'ticks' computed since then.
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// The interval [originalInputStart/rate, inputEnd/rate) is the
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// same length as the interval [originalOutputStart/rate, outputEnd/rate),
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// so the latter interval can have at most one more integer in it. Thus
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// TimeToTicksRoundUp(rate, outputEnd) - TimeToTicksRoundUp(rate, originalOutputStart)
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// <= TimeToTicksRoundDown(rate, inputEnd) - TimeToTicksRoundDown(rate, originalInputStart) + 1
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// Then
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// inputEndTicks = TimeToTicksRoundDown(rate, originalInputStart) - 1 + allTicks
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// = TimeToTicksRoundDown(rate, originalInputStart) - 1 + TimeToTicksRoundUp(rate, outputEnd) - TimeToTicksRoundUp(rate, originalOutputStart)
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// <= TimeToTicksRoundDown(rate, originalInputStart) - 1 + TimeToTicksRoundDown(rate, inputEnd) - TimeToTicksRoundDown(rate, originalInputStart) + 1
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// = TimeToTicksRoundDown(rate, inputEnd)
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// <= inputEnd/rate
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// (now using the fact that inputEnd <= track->GetEndTimeRoundDown() for a non-ended track)
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// <= TicksToTimeRoundDown(rate, aInputTrack->GetSegment()->GetDuration())/rate
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// <= rate*aInputTrack->GetSegment()->GetDuration()/rate
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// = aInputTrack->GetSegment()->GetDuration()
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// as required.
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if (inputStartTicks < 0) {
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// Data before the start of the track is just null.
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// We have to add a small amount of delay to ensure that there is
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// always a sample available if we see an interval that contains a
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// tick boundary on the output stream's timeline but does not contain
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// a tick boundary on the input stream's timeline. 1 tick delay is
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// necessary and sufficient.
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segment->AppendNullData(-inputStartTicks);
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inputStartTicks = 0;
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}
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if (inputEndTicks > inputStartTicks) {
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segment->AppendSlice(*aInputTrack->GetSegment(),
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std::min(inputTrackEndPoint, inputStartTicks),
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std::min(inputTrackEndPoint, inputEndTicks));
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}
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LOG(PR_LOG_DEBUG+1, ("TrackUnionStream %p appending %lld ticks of input data to track %d",
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this, (long long)(std::min(inputTrackEndPoint, inputEndTicks) - std::min(inputTrackEndPoint, inputStartTicks)),
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outputTrack->GetID()));
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}
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ApplyTrackDisabling(outputTrack->GetID(), segment);
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for (uint32_t j = 0; j < mListeners.Length(); ++j) {
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MediaStreamListener* l = mListeners[j];
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l->NotifyQueuedTrackChanges(Graph(), outputTrack->GetID(),
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outputTrack->GetRate(), startTicks, 0,
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*segment);
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}
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outputTrack->GetSegment()->AppendFrom(segment);
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}
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}
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nsTArray<TrackMapEntry> mTrackMap;
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TrackID mMaxTrackID;
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};
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}
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#endif /* MOZILLA_MEDIASTREAMGRAPH_H_ */
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