mirror of
https://gitlab.winehq.org/wine/wine-gecko.git
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197 lines
6.3 KiB
C++
197 lines
6.3 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 AudioPacketizer_h_
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#define AudioPacketizer_h_
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#include <mozilla/PodOperations.h>
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#include <mozilla/Assertions.h>
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#include <nsAutoPtr.h>
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#include <AudioSampleFormat.h>
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// Enable this to warn when `Output` has been called but not enough data was
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// buffered.
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// #define LOG_PACKETIZER_UNDERRUN
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namespace mozilla {
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/**
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* This class takes arbitrary input data, and returns packets of a specific
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* size. In the process, it can convert audio samples from 16bit integers to
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* float (or vice-versa).
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*
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* Input and output, as well as length units in the public interface are
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* interleaved frames.
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*
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* Allocations of output buffer can be performed by this class. Buffers can
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* simply be delete-d. This is because packets are intended to be sent off to
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* non-gecko code using normal pointers/length pairs
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*
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* Alternatively, consumers can pass in a buffer in which the output is copied.
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* The buffer needs to be large enough to store a packet worth of audio.
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*
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* The implementation uses a circular buffer using absolute virtual indices.
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*/
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template <typename InputType, typename OutputType>
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class AudioPacketizer
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{
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public:
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AudioPacketizer(uint32_t aPacketSize, uint32_t aChannels)
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: mPacketSize(aPacketSize)
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, mChannels(aChannels)
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, mReadIndex(0)
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, mWriteIndex(0)
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// Start off with a single packet
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, mStorage(new InputType[aPacketSize * aChannels])
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, mLength(aPacketSize * aChannels)
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{
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MOZ_ASSERT(aPacketSize > 0 && aChannels > 0,
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"The packet size and the number of channel should be strictly positive");
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}
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void Input(const InputType* aFrames, uint32_t aFrameCount)
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{
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uint32_t inputSamples = aFrameCount * mChannels;
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// Need to grow the storage. This should rarely happen, if at all, once the
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// array has the right size.
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if (inputSamples > EmptySlots()) {
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// Calls to Input and Output are roughtly interleaved
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// (Input,Output,Input,Output, etc.), or balanced
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// (Input,Input,Input,Output,Output,Output), so we update the buffer to
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// the exact right size in order to not waste space.
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uint32_t newLength = AvailableSamples() + inputSamples;
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uint32_t toCopy = AvailableSamples();
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nsAutoPtr<InputType> oldStorage = mStorage;
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mStorage = new InputType[newLength];
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// Copy the old data at the beginning of the new storage.
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if (WriteIndex() >= ReadIndex()) {
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PodCopy(mStorage.get(),
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oldStorage.get() + ReadIndex(),
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AvailableSamples());
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} else {
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uint32_t firstPartLength = mLength - ReadIndex();
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uint32_t secondPartLength = AvailableSamples() - firstPartLength;
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PodCopy(mStorage.get(),
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oldStorage.get() + ReadIndex(),
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firstPartLength);
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PodCopy(mStorage.get() + firstPartLength,
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oldStorage.get(),
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secondPartLength);
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}
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mWriteIndex = toCopy;
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mReadIndex = 0;
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mLength = newLength;
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}
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if (WriteIndex() + inputSamples <= mLength) {
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PodCopy(mStorage.get() + WriteIndex(), aFrames, aFrameCount * mChannels);
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} else {
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uint32_t firstPartLength = mLength - WriteIndex();
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uint32_t secondPartLength = inputSamples - firstPartLength;
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PodCopy(mStorage.get() + WriteIndex(), aFrames, firstPartLength);
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PodCopy(mStorage.get(), aFrames + firstPartLength, secondPartLength);
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}
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mWriteIndex += inputSamples;
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}
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OutputType* Output()
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{
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uint32_t samplesNeeded = mPacketSize * mChannels;
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OutputType* out = new OutputType[samplesNeeded];
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Output(out);
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return out;
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}
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void Output(OutputType* aOutputBuffer)
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{
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uint32_t samplesNeeded = mPacketSize * mChannels;
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// Under-run. Pad the end of the buffer with silence.
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if (AvailableSamples() < samplesNeeded) {
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#ifdef LOG_PACKETIZER_UNDERRUN
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char buf[256];
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snprintf(buf, 256,
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"AudioPacketizer %p underrun: available: %u, needed: %u\n",
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this, AvailableSamples(), samplesNeeded);
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NS_WARNING(buf);
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#endif
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uint32_t zeros = samplesNeeded - AvailableSamples();
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PodZero(aOutputBuffer + AvailableSamples(), zeros);
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samplesNeeded -= zeros;
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}
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if (ReadIndex() + samplesNeeded <= mLength) {
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ConvertAudioSamples<InputType,OutputType>(mStorage.get() + ReadIndex(),
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aOutputBuffer,
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samplesNeeded);
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} else {
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uint32_t firstPartLength = mLength - ReadIndex();
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uint32_t secondPartLength = samplesNeeded - firstPartLength;
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ConvertAudioSamples<InputType, OutputType>(mStorage.get() + ReadIndex(),
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aOutputBuffer,
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firstPartLength);
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ConvertAudioSamples<InputType, OutputType>(mStorage.get(),
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aOutputBuffer + firstPartLength,
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secondPartLength);
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}
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mReadIndex += samplesNeeded;
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}
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uint32_t PacketsAvailable() const {
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return AvailableSamples() / mChannels / mPacketSize;
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}
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bool Empty() const {
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return mWriteIndex == mReadIndex;
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}
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bool Full() const {
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return mWriteIndex - mReadIndex == mLength;
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}
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uint32_t PacketSize() const {
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return mPacketSize;
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}
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uint32_t Channels() const {
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return mChannels;
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}
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private:
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uint32_t ReadIndex() const {
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return mReadIndex % mLength;
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}
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uint32_t WriteIndex() const {
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return mWriteIndex % mLength;
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}
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uint32_t AvailableSamples() const {
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return mWriteIndex - mReadIndex;
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}
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uint32_t EmptySlots() const {
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return mLength - AvailableSamples();
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}
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// Size of one packet of audio, in frames
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uint32_t mPacketSize;
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// Number of channels of the stream flowing through this packetizer
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uint32_t mChannels;
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// Two virtual index into the buffer: the read position and the write
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// position.
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uint64_t mReadIndex;
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uint64_t mWriteIndex;
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// Storage for the samples
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nsAutoPtr<InputType> mStorage;
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// Length of the buffer, in samples
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uint32_t mLength;
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};
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} // mozilla
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#endif // AudioPacketizer_h_
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