mirror of
https://github.com/mozilla/gecko-dev.git
synced 2024-10-30 05:35:31 +00:00
f96ab4782f
--HG-- extra : rebase_source : ef176c629f16a00042d2a281bfffbe75c31d6002
501 lines
16 KiB
C++
501 lines
16 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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#include "AudioNodeStream.h"
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#include "MediaStreamGraphImpl.h"
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#include "AudioNodeEngine.h"
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#include "ThreeDPoint.h"
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using namespace mozilla::dom;
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namespace mozilla {
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/**
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* An AudioNodeStream produces a single audio track with ID
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* AUDIO_NODE_STREAM_TRACK_ID. This track has rate AudioContext::sIdealAudioRate
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* for regular audio contexts, and the rate requested by the web content
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* for offline audio contexts.
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* Each chunk in the track is a single block of WEBAUDIO_BLOCK_SIZE samples.
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* Note: This must be a different value than MEDIA_STREAM_DEST_TRACK_ID
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*/
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static const int AUDIO_NODE_STREAM_TRACK_ID = 1;
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AudioNodeStream::~AudioNodeStream()
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{
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MOZ_COUNT_DTOR(AudioNodeStream);
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}
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void
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AudioNodeStream::SetStreamTimeParameter(uint32_t aIndex, MediaStream* aRelativeToStream,
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double aStreamTime)
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{
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class Message : public ControlMessage {
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public:
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Message(AudioNodeStream* aStream, uint32_t aIndex, MediaStream* aRelativeToStream,
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double aStreamTime)
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: ControlMessage(aStream), mStreamTime(aStreamTime),
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mRelativeToStream(aRelativeToStream), mIndex(aIndex) {}
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virtual void Run()
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{
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static_cast<AudioNodeStream*>(mStream)->
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SetStreamTimeParameterImpl(mIndex, mRelativeToStream, mStreamTime);
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}
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double mStreamTime;
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MediaStream* mRelativeToStream;
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uint32_t mIndex;
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};
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MOZ_ASSERT(this);
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GraphImpl()->AppendMessage(new Message(this, aIndex, aRelativeToStream, aStreamTime));
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}
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void
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AudioNodeStream::SetStreamTimeParameterImpl(uint32_t aIndex, MediaStream* aRelativeToStream,
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double aStreamTime)
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{
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TrackTicks ticks =
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WebAudioUtils::ConvertDestinationStreamTimeToSourceStreamTime(
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aStreamTime, this, aRelativeToStream);
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mEngine->SetStreamTimeParameter(aIndex, ticks);
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}
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void
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AudioNodeStream::SetDoubleParameter(uint32_t aIndex, double aValue)
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{
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class Message : public ControlMessage {
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public:
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Message(AudioNodeStream* aStream, uint32_t aIndex, double aValue)
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: ControlMessage(aStream), mValue(aValue), mIndex(aIndex) {}
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virtual void Run()
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{
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static_cast<AudioNodeStream*>(mStream)->Engine()->
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SetDoubleParameter(mIndex, mValue);
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}
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double mValue;
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uint32_t mIndex;
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};
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MOZ_ASSERT(this);
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GraphImpl()->AppendMessage(new Message(this, aIndex, aValue));
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}
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void
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AudioNodeStream::SetInt32Parameter(uint32_t aIndex, int32_t aValue)
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{
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class Message : public ControlMessage {
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public:
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Message(AudioNodeStream* aStream, uint32_t aIndex, int32_t aValue)
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: ControlMessage(aStream), mValue(aValue), mIndex(aIndex) {}
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virtual void Run()
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{
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static_cast<AudioNodeStream*>(mStream)->Engine()->
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SetInt32Parameter(mIndex, mValue);
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}
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int32_t mValue;
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uint32_t mIndex;
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};
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MOZ_ASSERT(this);
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GraphImpl()->AppendMessage(new Message(this, aIndex, aValue));
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}
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void
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AudioNodeStream::SetTimelineParameter(uint32_t aIndex,
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const AudioParamTimeline& aValue)
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{
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class Message : public ControlMessage {
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public:
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Message(AudioNodeStream* aStream, uint32_t aIndex,
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const AudioParamTimeline& aValue)
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: ControlMessage(aStream),
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mValue(aValue),
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mSampleRate(aStream->SampleRate()),
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mIndex(aIndex) {}
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virtual void Run()
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{
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static_cast<AudioNodeStream*>(mStream)->Engine()->
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SetTimelineParameter(mIndex, mValue, mSampleRate);
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}
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AudioParamTimeline mValue;
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TrackRate mSampleRate;
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uint32_t mIndex;
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};
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GraphImpl()->AppendMessage(new Message(this, aIndex, aValue));
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}
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void
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AudioNodeStream::SetThreeDPointParameter(uint32_t aIndex, const ThreeDPoint& aValue)
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{
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class Message : public ControlMessage {
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public:
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Message(AudioNodeStream* aStream, uint32_t aIndex, const ThreeDPoint& aValue)
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: ControlMessage(aStream), mValue(aValue), mIndex(aIndex) {}
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virtual void Run()
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{
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static_cast<AudioNodeStream*>(mStream)->Engine()->
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SetThreeDPointParameter(mIndex, mValue);
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}
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ThreeDPoint mValue;
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uint32_t mIndex;
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};
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MOZ_ASSERT(this);
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GraphImpl()->AppendMessage(new Message(this, aIndex, aValue));
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}
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void
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AudioNodeStream::SetBuffer(already_AddRefed<ThreadSharedFloatArrayBufferList> aBuffer)
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{
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class Message : public ControlMessage {
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public:
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Message(AudioNodeStream* aStream,
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already_AddRefed<ThreadSharedFloatArrayBufferList> aBuffer)
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: ControlMessage(aStream), mBuffer(aBuffer) {}
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virtual void Run()
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{
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static_cast<AudioNodeStream*>(mStream)->Engine()->
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SetBuffer(mBuffer.forget());
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}
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nsRefPtr<ThreadSharedFloatArrayBufferList> mBuffer;
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};
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MOZ_ASSERT(this);
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GraphImpl()->AppendMessage(new Message(this, aBuffer));
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}
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void
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AudioNodeStream::SetRawArrayData(nsTArray<float>& aData)
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{
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class Message : public ControlMessage {
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public:
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Message(AudioNodeStream* aStream,
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nsTArray<float>& aData)
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: ControlMessage(aStream)
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{
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mData.SwapElements(aData);
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}
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virtual void Run()
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{
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static_cast<AudioNodeStream*>(mStream)->Engine()->SetRawArrayData(mData);
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}
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nsTArray<float> mData;
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};
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MOZ_ASSERT(this);
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GraphImpl()->AppendMessage(new Message(this, aData));
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}
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void
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AudioNodeStream::SetChannelMixingParameters(uint32_t aNumberOfChannels,
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ChannelCountMode aChannelCountMode,
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ChannelInterpretation aChannelInterpretation)
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{
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class Message : public ControlMessage {
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public:
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Message(AudioNodeStream* aStream,
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uint32_t aNumberOfChannels,
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ChannelCountMode aChannelCountMode,
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ChannelInterpretation aChannelInterpretation)
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: ControlMessage(aStream),
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mNumberOfChannels(aNumberOfChannels),
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mChannelCountMode(aChannelCountMode),
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mChannelInterpretation(aChannelInterpretation)
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{}
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virtual void Run()
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{
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static_cast<AudioNodeStream*>(mStream)->
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SetChannelMixingParametersImpl(mNumberOfChannels, mChannelCountMode,
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mChannelInterpretation);
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}
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uint32_t mNumberOfChannels;
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ChannelCountMode mChannelCountMode;
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ChannelInterpretation mChannelInterpretation;
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};
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MOZ_ASSERT(this);
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GraphImpl()->AppendMessage(new Message(this, aNumberOfChannels,
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aChannelCountMode,
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aChannelInterpretation));
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}
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void
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AudioNodeStream::SetChannelMixingParametersImpl(uint32_t aNumberOfChannels,
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ChannelCountMode aChannelCountMode,
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ChannelInterpretation aChannelInterpretation)
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{
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// Make sure that we're not clobbering any significant bits by fitting these
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// values in 16 bits.
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MOZ_ASSERT(int(aChannelCountMode) < INT16_MAX);
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MOZ_ASSERT(int(aChannelInterpretation) < INT16_MAX);
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mNumberOfInputChannels = aNumberOfChannels;
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mChannelCountMode = aChannelCountMode;
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mChannelInterpretation = aChannelInterpretation;
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}
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bool
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AudioNodeStream::AllInputsFinished() const
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{
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uint32_t inputCount = mInputs.Length();
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for (uint32_t i = 0; i < inputCount; ++i) {
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if (!mInputs[i]->GetSource()->IsFinishedOnGraphThread()) {
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return false;
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}
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}
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return !!inputCount;
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}
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uint32_t
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AudioNodeStream::ComputeFinalOuputChannelCount(uint32_t aInputChannelCount)
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{
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switch (mChannelCountMode) {
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case ChannelCountMode::Explicit:
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// Disregard the channel count we've calculated from inputs, and just use
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// mNumberOfInputChannels.
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return mNumberOfInputChannels;
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case ChannelCountMode::Clamped_max:
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// Clamp the computed output channel count to mNumberOfInputChannels.
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return std::min(aInputChannelCount, mNumberOfInputChannels);
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default:
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case ChannelCountMode::Max:
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// Nothing to do here, just shut up the compiler warning.
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return aInputChannelCount;
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}
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}
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void
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AudioNodeStream::ObtainInputBlock(AudioChunk& aTmpChunk, uint32_t aPortIndex)
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{
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uint32_t inputCount = mInputs.Length();
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uint32_t outputChannelCount = 1;
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nsAutoTArray<AudioChunk*,250> inputChunks;
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for (uint32_t i = 0; i < inputCount; ++i) {
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if (aPortIndex != mInputs[i]->InputNumber()) {
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// This input is connected to a different port
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continue;
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}
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MediaStream* s = mInputs[i]->GetSource();
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AudioNodeStream* a = static_cast<AudioNodeStream*>(s);
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MOZ_ASSERT(a == s->AsAudioNodeStream());
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if (a->IsFinishedOnGraphThread() ||
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a->IsAudioParamStream()) {
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continue;
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}
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AudioChunk* chunk = &a->mLastChunks[mInputs[i]->OutputNumber()];
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MOZ_ASSERT(chunk);
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if (chunk->IsNull()) {
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continue;
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}
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inputChunks.AppendElement(chunk);
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outputChannelCount =
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GetAudioChannelsSuperset(outputChannelCount, chunk->mChannelData.Length());
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}
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outputChannelCount = ComputeFinalOuputChannelCount(outputChannelCount);
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uint32_t inputChunkCount = inputChunks.Length();
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if (inputChunkCount == 0 ||
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(inputChunkCount == 1 && inputChunks[0]->mChannelData.Length() == 0)) {
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aTmpChunk.SetNull(WEBAUDIO_BLOCK_SIZE);
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return;
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}
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if (inputChunkCount == 1 &&
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inputChunks[0]->mChannelData.Length() == outputChannelCount) {
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aTmpChunk = *inputChunks[0];
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return;
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}
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if (outputChannelCount == 0) {
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aTmpChunk.SetNull(WEBAUDIO_BLOCK_SIZE);
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return;
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}
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AllocateAudioBlock(outputChannelCount, &aTmpChunk);
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// The static storage here should be 1KB, so it's fine
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nsAutoTArray<float, GUESS_AUDIO_CHANNELS*WEBAUDIO_BLOCK_SIZE> downmixBuffer;
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for (uint32_t i = 0; i < inputChunkCount; ++i) {
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AccumulateInputChunk(i, *inputChunks[i], &aTmpChunk, &downmixBuffer);
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}
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}
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void
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AudioNodeStream::AccumulateInputChunk(uint32_t aInputIndex, const AudioChunk& aChunk,
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AudioChunk* aBlock,
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nsTArray<float>* aDownmixBuffer)
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{
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nsAutoTArray<const void*,GUESS_AUDIO_CHANNELS> channels;
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UpMixDownMixChunk(&aChunk, aBlock->mChannelData.Length(), channels, *aDownmixBuffer);
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for (uint32_t c = 0; c < channels.Length(); ++c) {
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const float* inputData = static_cast<const float*>(channels[c]);
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float* outputData = static_cast<float*>(const_cast<void*>(aBlock->mChannelData[c]));
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if (inputData) {
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if (aInputIndex == 0) {
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AudioBlockCopyChannelWithScale(inputData, aChunk.mVolume, outputData);
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} else {
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AudioBlockAddChannelWithScale(inputData, aChunk.mVolume, outputData);
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}
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} else {
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if (aInputIndex == 0) {
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PodZero(outputData, WEBAUDIO_BLOCK_SIZE);
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}
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}
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}
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}
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void
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AudioNodeStream::UpMixDownMixChunk(const AudioChunk* aChunk,
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uint32_t aOutputChannelCount,
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nsTArray<const void*>& aOutputChannels,
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nsTArray<float>& aDownmixBuffer)
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{
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static const float silenceChannel[WEBAUDIO_BLOCK_SIZE] = {0.f};
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aOutputChannels.AppendElements(aChunk->mChannelData);
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if (aOutputChannels.Length() < aOutputChannelCount) {
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if (mChannelInterpretation == ChannelInterpretation::Speakers) {
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AudioChannelsUpMix(&aOutputChannels, aOutputChannelCount, nullptr);
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NS_ASSERTION(aOutputChannelCount == aOutputChannels.Length(),
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"We called GetAudioChannelsSuperset to avoid this");
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} else {
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// Fill up the remaining aOutputChannels by zeros
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for (uint32_t j = aOutputChannels.Length(); j < aOutputChannelCount; ++j) {
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aOutputChannels.AppendElement(silenceChannel);
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}
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}
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} else if (aOutputChannels.Length() > aOutputChannelCount) {
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if (mChannelInterpretation == ChannelInterpretation::Speakers) {
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nsAutoTArray<float*,GUESS_AUDIO_CHANNELS> outputChannels;
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outputChannels.SetLength(aOutputChannelCount);
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aDownmixBuffer.SetLength(aOutputChannelCount * WEBAUDIO_BLOCK_SIZE);
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for (uint32_t j = 0; j < aOutputChannelCount; ++j) {
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outputChannels[j] = &aDownmixBuffer[j * WEBAUDIO_BLOCK_SIZE];
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}
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AudioChannelsDownMix(aOutputChannels, outputChannels.Elements(),
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aOutputChannelCount, WEBAUDIO_BLOCK_SIZE);
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aOutputChannels.SetLength(aOutputChannelCount);
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for (uint32_t j = 0; j < aOutputChannels.Length(); ++j) {
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aOutputChannels[j] = outputChannels[j];
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}
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} else {
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// Drop the remaining aOutputChannels
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aOutputChannels.RemoveElementsAt(aOutputChannelCount,
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aOutputChannels.Length() - aOutputChannelCount);
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}
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}
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}
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// The MediaStreamGraph guarantees that this is actually one block, for
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// AudioNodeStreams.
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void
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AudioNodeStream::ProduceOutput(GraphTime aFrom, GraphTime aTo)
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{
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if (mMarkAsFinishedAfterThisBlock) {
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// This stream was finished the last time that we looked at it, and all
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// of the depending streams have finished their output as well, so now
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// it's time to mark this stream as finished.
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FinishOutput();
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}
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EnsureTrack(AUDIO_NODE_STREAM_TRACK_ID, mSampleRate);
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uint16_t outputCount = std::max(uint16_t(1), mEngine->OutputCount());
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mLastChunks.SetLength(outputCount);
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if (mInCycle) {
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// XXX DelayNode not supported yet so just produce silence
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for (uint16_t i = 0; i < outputCount; ++i) {
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mLastChunks[i].SetNull(WEBAUDIO_BLOCK_SIZE);
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}
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} else {
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for (uint16_t i = 0; i < outputCount; ++i) {
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mLastChunks[i].SetNull(0);
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}
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// We need to generate at least one input
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uint16_t maxInputs = std::max(uint16_t(1), mEngine->InputCount());
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OutputChunks inputChunks;
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inputChunks.SetLength(maxInputs);
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for (uint16_t i = 0; i < maxInputs; ++i) {
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ObtainInputBlock(inputChunks[i], i);
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}
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bool finished = false;
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if (maxInputs <= 1 && mEngine->OutputCount() <= 1) {
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mEngine->ProduceAudioBlock(this, inputChunks[0], &mLastChunks[0], &finished);
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} else {
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mEngine->ProduceAudioBlocksOnPorts(this, inputChunks, mLastChunks, &finished);
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}
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if (finished) {
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mMarkAsFinishedAfterThisBlock = true;
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}
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}
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if (mDisabledTrackIDs.Contains(AUDIO_NODE_STREAM_TRACK_ID)) {
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for (uint32_t i = 0; i < mLastChunks.Length(); ++i) {
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mLastChunks[i].SetNull(WEBAUDIO_BLOCK_SIZE);
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}
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}
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AdvanceOutputSegment();
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}
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void
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AudioNodeStream::AdvanceOutputSegment()
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{
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StreamBuffer::Track* track = EnsureTrack(AUDIO_NODE_STREAM_TRACK_ID, mSampleRate);
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AudioSegment* segment = track->Get<AudioSegment>();
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if (mKind == MediaStreamGraph::EXTERNAL_STREAM) {
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segment->AppendAndConsumeChunk(&mLastChunks[0]);
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} else {
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segment->AppendNullData(mLastChunks[0].GetDuration());
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}
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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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AudioChunk copyChunk = mLastChunks[0];
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AudioSegment tmpSegment;
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tmpSegment.AppendAndConsumeChunk(©Chunk);
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l->NotifyQueuedTrackChanges(Graph(), AUDIO_NODE_STREAM_TRACK_ID,
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mSampleRate, segment->GetDuration(), 0,
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tmpSegment);
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}
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}
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TrackTicks
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AudioNodeStream::GetCurrentPosition()
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{
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return EnsureTrack(AUDIO_NODE_STREAM_TRACK_ID, mSampleRate)->Get<AudioSegment>()->GetDuration();
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}
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void
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AudioNodeStream::FinishOutput()
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{
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if (IsFinishedOnGraphThread()) {
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return;
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}
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StreamBuffer::Track* track = EnsureTrack(AUDIO_NODE_STREAM_TRACK_ID, mSampleRate);
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track->SetEnded();
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FinishOnGraphThread();
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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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AudioSegment emptySegment;
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l->NotifyQueuedTrackChanges(Graph(), AUDIO_NODE_STREAM_TRACK_ID,
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mSampleRate,
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track->GetSegment()->GetDuration(),
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MediaStreamListener::TRACK_EVENT_ENDED, emptySegment);
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}
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}
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}
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