mirror of
https://gitlab.winehq.org/wine/wine-gecko.git
synced 2024-09-13 09:24:08 -07:00
f76919f8a0
Modifies MediaStreamGraph to always advance its time by a multiple of WEBAUDIO_BLOCK_SIZE. --HG-- extra : rebase_source : 99524b09edd4ac0e1bc6607f2ba14925bc2f11c2
176 lines
6.5 KiB
C++
176 lines
6.5 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 "AudioSegment.h"
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#include "AudioStream.h"
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#include "AudioChannelFormat.h"
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namespace mozilla {
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template <class SrcT, class DestT>
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static void
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InterleaveAndConvertBuffer(const SrcT** aSourceChannels,
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int32_t aLength, float aVolume,
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int32_t aChannels,
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DestT* aOutput)
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{
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DestT* output = aOutput;
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for (int32_t i = 0; i < aLength; ++i) {
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for (int32_t channel = 0; channel < aChannels; ++channel) {
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float v = AudioSampleToFloat(aSourceChannels[channel][i])*aVolume;
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*output = FloatToAudioSample<DestT>(v);
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++output;
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}
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}
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}
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static inline void
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InterleaveAndConvertBuffer(const int16_t** aSourceChannels,
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int32_t aLength, float aVolume,
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int32_t aChannels,
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int16_t* aOutput)
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{
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int16_t* output = aOutput;
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if (0.0f <= aVolume && aVolume <= 1.0f) {
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int32_t scale = int32_t((1 << 16) * aVolume);
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for (int32_t i = 0; i < aLength; ++i) {
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for (int32_t channel = 0; channel < aChannels; ++channel) {
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int16_t s = aSourceChannels[channel][i];
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*output = int16_t((int32_t(s) * scale) >> 16);
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++output;
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}
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}
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return;
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}
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for (int32_t i = 0; i < aLength; ++i) {
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for (int32_t channel = 0; channel < aChannels; ++channel) {
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float v = AudioSampleToFloat(aSourceChannels[channel][i])*aVolume;
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*output = FloatToAudioSample<int16_t>(v);
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++output;
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}
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}
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}
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static void
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InterleaveAndConvertBuffer(const void** aSourceChannels,
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AudioSampleFormat aSourceFormat,
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int32_t aLength, float aVolume,
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int32_t aChannels,
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AudioDataValue* aOutput)
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{
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switch (aSourceFormat) {
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case AUDIO_FORMAT_FLOAT32:
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InterleaveAndConvertBuffer(reinterpret_cast<const float**>(aSourceChannels),
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aLength,
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aVolume,
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aChannels,
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aOutput);
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break;
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case AUDIO_FORMAT_S16:
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InterleaveAndConvertBuffer(reinterpret_cast<const int16_t**>(aSourceChannels),
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aLength,
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aVolume,
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aChannels,
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aOutput);
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break;
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}
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}
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void
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AudioSegment::ApplyVolume(float aVolume)
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{
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for (ChunkIterator ci(*this); !ci.IsEnded(); ci.Next()) {
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ci->mVolume *= aVolume;
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}
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}
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static const int AUDIO_PROCESSING_FRAMES = 640; /* > 10ms of 48KHz audio */
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static const uint8_t gZeroChannel[MAX_AUDIO_SAMPLE_SIZE*AUDIO_PROCESSING_FRAMES] = {0};
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void
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AudioSegment::WriteTo(AudioStream* aOutput)
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{
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uint32_t outputChannels = aOutput->GetChannels();
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nsAutoTArray<AudioDataValue,AUDIO_PROCESSING_FRAMES*GUESS_AUDIO_CHANNELS> buf;
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nsAutoTArray<const void*,GUESS_AUDIO_CHANNELS> channelData;
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nsAutoTArray<float,AUDIO_PROCESSING_FRAMES*GUESS_AUDIO_CHANNELS> downmixConversionBuffer;
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nsAutoTArray<float,AUDIO_PROCESSING_FRAMES*GUESS_AUDIO_CHANNELS> downmixOutputBuffer;
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for (ChunkIterator ci(*this); !ci.IsEnded(); ci.Next()) {
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AudioChunk& c = *ci;
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TrackTicks offset = 0;
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while (offset < c.mDuration) {
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TrackTicks durationTicks =
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std::min<TrackTicks>(c.mDuration - offset, AUDIO_PROCESSING_FRAMES);
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if (uint64_t(outputChannels)*durationTicks > INT32_MAX || offset > INT32_MAX) {
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NS_ERROR("Buffer overflow");
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return;
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}
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uint32_t duration = uint32_t(durationTicks);
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buf.SetLength(outputChannels*duration);
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if (c.mBuffer) {
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channelData.SetLength(c.mChannelData.Length());
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for (uint32_t i = 0; i < channelData.Length(); ++i) {
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channelData[i] =
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AddAudioSampleOffset(c.mChannelData[i], c.mBufferFormat, int32_t(offset));
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}
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if (channelData.Length() < outputChannels) {
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// Up-mix. Note that this might actually make channelData have more
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// than outputChannels temporarily.
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AudioChannelsUpMix(&channelData, outputChannels, gZeroChannel);
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}
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if (channelData.Length() > outputChannels) {
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// Down-mix.
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if (c.mBufferFormat != AUDIO_FORMAT_FLOAT32) {
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NS_ASSERTION(c.mBufferFormat == AUDIO_FORMAT_S16, "unknown format");
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downmixConversionBuffer.SetLength(duration*channelData.Length());
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for (uint32_t i = 0; i < channelData.Length(); ++i) {
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float* conversionBuf = downmixConversionBuffer.Elements() + (i*duration);
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const int16_t* sourceBuf = static_cast<const int16_t*>(channelData[i]);
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for (uint32_t j = 0; j < duration; ++j) {
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conversionBuf[j] = AudioSampleToFloat(sourceBuf[j]);
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}
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channelData[i] = conversionBuf;
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}
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}
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downmixOutputBuffer.SetLength(duration*outputChannels);
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nsAutoTArray<float*,GUESS_AUDIO_CHANNELS> outputChannelBuffers;
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nsAutoTArray<const void*,GUESS_AUDIO_CHANNELS> outputChannelData;
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outputChannelBuffers.SetLength(outputChannels);
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outputChannelData.SetLength(outputChannels);
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for (uint32_t i = 0; i < outputChannels; ++i) {
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outputChannelData[i] = outputChannelBuffers[i] =
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downmixOutputBuffer.Elements() + duration*i;
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}
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AudioChannelsDownMix(channelData, outputChannelBuffers.Elements(),
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outputChannels, duration);
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InterleaveAndConvertBuffer(outputChannelData.Elements(), AUDIO_FORMAT_FLOAT32,
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duration, c.mVolume,
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outputChannels,
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buf.Elements());
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} else {
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InterleaveAndConvertBuffer(channelData.Elements(), c.mBufferFormat,
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duration, c.mVolume,
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outputChannels,
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buf.Elements());
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}
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} else {
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// Assumes that a bit pattern of zeroes == 0.0f
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memset(buf.Elements(), 0, buf.Length()*sizeof(AudioDataValue));
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}
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aOutput->Write(buf.Elements(), int32_t(duration));
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offset += duration;
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}
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}
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aOutput->Start();
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}
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}
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