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https://gitlab.winehq.org/wine/wine-gecko.git
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070a39e4a1
We believe the rate is constrained by the audio driver in practice, but want to verify this assumption. The valid range 8-192 kHz covers all sample rates in general use for audio data. Note we must use an error return instead of an assertion since these bounds are verified by unit tests, which do not catch MOZ_ASSERT().
440 lines
15 KiB
C++
440 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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#include "OpusTrackEncoder.h"
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#include "nsString.h"
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#include "GeckoProfiler.h"
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#include <opus/opus.h>
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#undef LOG
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#ifdef MOZ_WIDGET_GONK
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#include <android/log.h>
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#define LOG(args...) __android_log_print(ANDROID_LOG_INFO, "MediaEncoder", ## args);
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#else
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#define LOG(args, ...)
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#endif
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namespace mozilla {
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// The Opus format supports up to 8 channels, and supports multitrack audio up
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// to 255 channels, but the current implementation supports only mono and
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// stereo, and downmixes any more than that.
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static const int MAX_SUPPORTED_AUDIO_CHANNELS = 8;
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// http://www.opus-codec.org/docs/html_api-1.0.2/group__opus__encoder.html
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// In section "opus_encoder_init", channels must be 1 or 2 of input signal.
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static const int MAX_CHANNELS = 2;
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// A maximum data bytes for Opus to encode.
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static const int MAX_DATA_BYTES = 4096;
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// http://tools.ietf.org/html/draft-ietf-codec-oggopus-00#section-4
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// Second paragraph, " The granule position of an audio data page is in units
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// of PCM audio samples at a fixed rate of 48 kHz."
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static const int kOpusSamplingRate = 48000;
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// The duration of an Opus frame, and it must be 2.5, 5, 10, 20, 40 or 60 ms.
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static const int kFrameDurationMs = 20;
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// The supported sampling rate of input signal (Hz),
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// must be one of the following. Will resampled to 48kHz otherwise.
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static const int kOpusSupportedInputSamplingRates[] =
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{8000, 12000, 16000, 24000, 48000};
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namespace {
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// An endian-neutral serialization of integers. Serializing T in little endian
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// format to aOutput, where T is a 16 bits or 32 bits integer.
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template<typename T>
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static void
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SerializeToBuffer(T aValue, nsTArray<uint8_t>* aOutput)
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{
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for (uint32_t i = 0; i < sizeof(T); i++) {
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aOutput->AppendElement((uint8_t)(0x000000ff & (aValue >> (i * 8))));
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}
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}
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static inline void
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SerializeToBuffer(const nsCString& aComment, nsTArray<uint8_t>* aOutput)
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{
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// Format of serializing a string to buffer is, the length of string (32 bits,
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// little endian), and the string.
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SerializeToBuffer((uint32_t)(aComment.Length()), aOutput);
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aOutput->AppendElements(aComment.get(), aComment.Length());
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}
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static void
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SerializeOpusIdHeader(uint8_t aChannelCount, uint16_t aPreskip,
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uint32_t aInputSampleRate, nsTArray<uint8_t>* aOutput)
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{
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// The magic signature, null terminator has to be stripped off from strings.
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static const uint8_t magic[] = "OpusHead";
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aOutput->AppendElements(magic, sizeof(magic) - 1);
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// The version must always be 1 (8 bits, unsigned).
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aOutput->AppendElement(1);
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// Number of output channels (8 bits, unsigned).
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aOutput->AppendElement(aChannelCount);
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// Number of samples (at 48 kHz) to discard from the decoder output when
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// starting playback (16 bits, unsigned, little endian).
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SerializeToBuffer(aPreskip, aOutput);
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// The sampling rate of input source (32 bits, unsigned, little endian).
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SerializeToBuffer(aInputSampleRate, aOutput);
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// Output gain, an encoder should set this field to zero (16 bits, signed,
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// little endian).
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SerializeToBuffer((int16_t)0, aOutput);
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// Channel mapping family. Family 0 allows only 1 or 2 channels (8 bits,
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// unsigned).
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aOutput->AppendElement(0);
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}
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static void
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SerializeOpusCommentHeader(const nsCString& aVendor,
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const nsTArray<nsCString>& aComments,
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nsTArray<uint8_t>* aOutput)
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{
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// The magic signature, null terminator has to be stripped off.
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static const uint8_t magic[] = "OpusTags";
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aOutput->AppendElements(magic, sizeof(magic) - 1);
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// The vendor; Should append in the following order:
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// vendor string length (32 bits, unsigned, little endian)
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// vendor string.
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SerializeToBuffer(aVendor, aOutput);
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// Add comments; Should append in the following order:
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// comment list length (32 bits, unsigned, little endian)
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// comment #0 string length (32 bits, unsigned, little endian)
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// comment #0 string
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// comment #1 string length (32 bits, unsigned, little endian)
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// comment #1 string ...
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SerializeToBuffer((uint32_t)aComments.Length(), aOutput);
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for (uint32_t i = 0; i < aComments.Length(); ++i) {
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SerializeToBuffer(aComments[i], aOutput);
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}
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}
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} // Anonymous namespace.
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OpusTrackEncoder::OpusTrackEncoder()
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: AudioTrackEncoder()
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, mEncoder(nullptr)
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, mLookahead(0)
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, mResampler(nullptr)
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{
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}
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OpusTrackEncoder::~OpusTrackEncoder()
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{
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if (mEncoder) {
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opus_encoder_destroy(mEncoder);
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}
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if (mResampler) {
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speex_resampler_destroy(mResampler);
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mResampler = nullptr;
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}
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}
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nsresult
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OpusTrackEncoder::Init(int aChannels, int aSamplingRate)
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{
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// This monitor is used to wake up other methods that are waiting for encoder
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// to be completely initialized.
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ReentrantMonitorAutoEnter mon(mReentrantMonitor);
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NS_ENSURE_TRUE((aChannels <= MAX_SUPPORTED_AUDIO_CHANNELS) && (aChannels > 0),
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NS_ERROR_FAILURE);
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// This version of encoder API only support 1 or 2 channels,
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// So set the mChannels less or equal 2 and
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// let InterleaveTrackData downmix pcm data.
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mChannels = aChannels > MAX_CHANNELS ? MAX_CHANNELS : aChannels;
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// Reject non-audio sample rates.
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NS_ENSURE_TRUE(aSamplingRate >= 8000, NS_ERROR_INVALID_ARG);
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NS_ENSURE_TRUE(aSamplingRate <= 192000, NS_ERROR_INVALID_ARG);
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// According to www.opus-codec.org, creating an opus encoder requires the
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// sampling rate of source signal be one of 8000, 12000, 16000, 24000, or
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// 48000. If this constraint is not satisfied, we resample the input to 48kHz.
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nsTArray<int> supportedSamplingRates;
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supportedSamplingRates.AppendElements(kOpusSupportedInputSamplingRates,
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ArrayLength(kOpusSupportedInputSamplingRates));
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if (!supportedSamplingRates.Contains(aSamplingRate)) {
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int error;
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mResampler = speex_resampler_init(mChannels,
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aSamplingRate,
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kOpusSamplingRate,
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SPEEX_RESAMPLER_QUALITY_DEFAULT,
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&error);
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if (error != RESAMPLER_ERR_SUCCESS) {
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return NS_ERROR_FAILURE;
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}
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}
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mSamplingRate = aSamplingRate;
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NS_ENSURE_TRUE(mSamplingRate > 0, NS_ERROR_FAILURE);
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int error = 0;
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mEncoder = opus_encoder_create(GetOutputSampleRate(), mChannels,
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OPUS_APPLICATION_AUDIO, &error);
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mInitialized = (error == OPUS_OK);
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mReentrantMonitor.NotifyAll();
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return error == OPUS_OK ? NS_OK : NS_ERROR_FAILURE;
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}
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int
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OpusTrackEncoder::GetOutputSampleRate()
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{
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return mResampler ? kOpusSamplingRate : mSamplingRate;
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}
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int
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OpusTrackEncoder::GetPacketDuration()
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{
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return GetOutputSampleRate() * kFrameDurationMs / 1000;
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}
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already_AddRefed<TrackMetadataBase>
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OpusTrackEncoder::GetMetadata()
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{
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PROFILER_LABEL("OpusTrackEncoder", "GetMetadata",
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js::ProfileEntry::Category::OTHER);
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{
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// Wait if mEncoder is not initialized.
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ReentrantMonitorAutoEnter mon(mReentrantMonitor);
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while (!mCanceled && !mInitialized) {
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mReentrantMonitor.Wait();
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}
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}
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if (mCanceled || mEncodingComplete) {
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return nullptr;
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}
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nsRefPtr<OpusMetadata> meta = new OpusMetadata();
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mLookahead = 0;
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int error = opus_encoder_ctl(mEncoder, OPUS_GET_LOOKAHEAD(&mLookahead));
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if (error != OPUS_OK) {
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mLookahead = 0;
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}
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// The ogg time stamping and pre-skip is always timed at 48000.
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SerializeOpusIdHeader(mChannels, mLookahead * (kOpusSamplingRate /
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GetOutputSampleRate()), mSamplingRate,
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&meta->mIdHeader);
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nsCString vendor;
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vendor.AppendASCII(opus_get_version_string());
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nsTArray<nsCString> comments;
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comments.AppendElement(NS_LITERAL_CSTRING("ENCODER=Mozilla" MOZ_APP_UA_VERSION));
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SerializeOpusCommentHeader(vendor, comments,
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&meta->mCommentHeader);
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return meta.forget();
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}
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nsresult
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OpusTrackEncoder::GetEncodedTrack(EncodedFrameContainer& aData)
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{
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PROFILER_LABEL("OpusTrackEncoder", "GetEncodedTrack",
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js::ProfileEntry::Category::OTHER);
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{
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ReentrantMonitorAutoEnter mon(mReentrantMonitor);
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// Wait until initialized or cancelled.
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while (!mCanceled && !mInitialized) {
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mReentrantMonitor.Wait();
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}
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if (mCanceled || mEncodingComplete) {
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return NS_ERROR_FAILURE;
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}
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}
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// calculation below depends on the truth that mInitialized is true.
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MOZ_ASSERT(mInitialized);
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// re-sampled frames left last time which didn't fit into an Opus packet duration.
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const int framesLeft = mResampledLeftover.Length() / mChannels;
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// When framesLeft is 0, (GetPacketDuration() - framesLeft) is a multiple
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// of kOpusSamplingRate. There is not precision loss in the integer division
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// in computing framesToFetch. If frameLeft > 0, we need to add 1 to
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// framesToFetch to ensure there will be at least n frames after re-sampling.
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const int frameRoundUp = framesLeft ? 1 : 0;
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MOZ_ASSERT(GetPacketDuration() >= framesLeft);
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// Try to fetch m frames such that there will be n frames
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// where (n + frameLeft) >= GetPacketDuration() after re-sampling.
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const int framesToFetch = !mResampler ? GetPacketDuration()
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: (GetPacketDuration() - framesLeft) * mSamplingRate / kOpusSamplingRate
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+ frameRoundUp;
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{
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// Move all the samples from mRawSegment to mSourceSegment. We only hold
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// the monitor in this block.
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ReentrantMonitorAutoEnter mon(mReentrantMonitor);
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// Wait until enough raw data, end of stream or cancelled.
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while (!mCanceled && mRawSegment.GetDuration() +
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mSourceSegment.GetDuration() < framesToFetch &&
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!mEndOfStream) {
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mReentrantMonitor.Wait();
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}
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if (mCanceled || mEncodingComplete) {
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return NS_ERROR_FAILURE;
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}
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mSourceSegment.AppendFrom(&mRawSegment);
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// Pad |mLookahead| samples to the end of source stream to prevent lost of
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// original data, the pcm duration will be calculated at rate 48K later.
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if (mEndOfStream && !mEosSetInEncoder) {
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mEosSetInEncoder = true;
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mSourceSegment.AppendNullData(mLookahead);
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}
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}
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// Start encoding data.
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nsAutoTArray<AudioDataValue, 9600> pcm;
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pcm.SetLength(GetPacketDuration() * mChannels);
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AudioSegment::ChunkIterator iter(mSourceSegment);
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int frameCopied = 0;
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while (!iter.IsEnded() && frameCopied < framesToFetch) {
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AudioChunk chunk = *iter;
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// Chunk to the required frame size.
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int frameToCopy = chunk.GetDuration();
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if (frameCopied + frameToCopy > framesToFetch) {
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frameToCopy = framesToFetch - frameCopied;
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}
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if (!chunk.IsNull()) {
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// Append the interleaved data to the end of pcm buffer.
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AudioTrackEncoder::InterleaveTrackData(chunk, frameToCopy, mChannels,
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pcm.Elements() + frameCopied * mChannels);
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} else {
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memset(pcm.Elements() + frameCopied * mChannels, 0,
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frameToCopy * mChannels * sizeof(AudioDataValue));
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}
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frameCopied += frameToCopy;
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iter.Next();
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}
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nsRefPtr<EncodedFrame> audiodata = new EncodedFrame();
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audiodata->SetFrameType(EncodedFrame::OPUS_AUDIO_FRAME);
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int framesInPCM = frameCopied;
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if (mResampler) {
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nsAutoTArray<AudioDataValue, 9600> resamplingDest;
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// We want to consume all the input data, so we slightly oversize the
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// resampled data buffer so we can fit the output data in. We cannot really
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// predict the output frame count at each call.
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uint32_t outframes = frameCopied * kOpusSamplingRate / mSamplingRate + 1;
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uint32_t inframes = frameCopied;
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resamplingDest.SetLength(outframes * mChannels);
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#if MOZ_SAMPLE_TYPE_S16
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short* in = reinterpret_cast<short*>(pcm.Elements());
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short* out = reinterpret_cast<short*>(resamplingDest.Elements());
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speex_resampler_process_interleaved_int(mResampler, in, &inframes,
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out, &outframes);
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#else
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float* in = reinterpret_cast<float*>(pcm.Elements());
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float* out = reinterpret_cast<float*>(resamplingDest.Elements());
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speex_resampler_process_interleaved_float(mResampler, in, &inframes,
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out, &outframes);
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#endif
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MOZ_ASSERT(pcm.Length() >= mResampledLeftover.Length());
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PodCopy(pcm.Elements(), mResampledLeftover.Elements(),
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mResampledLeftover.Length());
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uint32_t outframesToCopy = std::min(outframes,
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static_cast<uint32_t>(GetPacketDuration() - framesLeft));
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MOZ_ASSERT(pcm.Length() - mResampledLeftover.Length() >=
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outframesToCopy * mChannels);
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PodCopy(pcm.Elements() + mResampledLeftover.Length(),
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resamplingDest.Elements(), outframesToCopy * mChannels);
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int frameLeftover = outframes - outframesToCopy;
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mResampledLeftover.SetLength(frameLeftover * mChannels);
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PodCopy(mResampledLeftover.Elements(),
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resamplingDest.Elements() + outframesToCopy * mChannels,
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mResampledLeftover.Length());
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// This is always at 48000Hz.
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framesInPCM = framesLeft + outframesToCopy;
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audiodata->SetDuration(framesInPCM);
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} else {
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// The ogg time stamping and pre-skip is always timed at 48000.
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audiodata->SetDuration(frameCopied * (kOpusSamplingRate / mSamplingRate));
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}
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// Remove the raw data which has been pulled to pcm buffer.
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// The value of frameCopied should equal to (or smaller than, if eos)
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// GetPacketDuration().
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mSourceSegment.RemoveLeading(frameCopied);
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// Has reached the end of input stream and all queued data has pulled for
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// encoding.
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if (mSourceSegment.GetDuration() == 0 && mEndOfStream) {
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mEncodingComplete = true;
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LOG("[Opus] Done encoding.");
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}
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MOZ_ASSERT(mEndOfStream || framesInPCM == GetPacketDuration());
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// Append null data to pcm buffer if the leftover data is not enough for
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// opus encoder.
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if (framesInPCM < GetPacketDuration() && mEndOfStream) {
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PodZero(pcm.Elements() + framesInPCM * mChannels,
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(GetPacketDuration() - framesInPCM) * mChannels);
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}
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nsTArray<uint8_t> frameData;
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// Encode the data with Opus Encoder.
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frameData.SetLength(MAX_DATA_BYTES);
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// result is returned as opus error code if it is negative.
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int result = 0;
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#ifdef MOZ_SAMPLE_TYPE_S16
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const opus_int16* pcmBuf = static_cast<opus_int16*>(pcm.Elements());
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result = opus_encode(mEncoder, pcmBuf, GetPacketDuration(),
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frameData.Elements(), MAX_DATA_BYTES);
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#else
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const float* pcmBuf = static_cast<float*>(pcm.Elements());
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result = opus_encode_float(mEncoder, pcmBuf, GetPacketDuration(),
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frameData.Elements(), MAX_DATA_BYTES);
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#endif
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frameData.SetLength(result >= 0 ? result : 0);
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if (result < 0) {
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LOG("[Opus] Fail to encode data! Result: %s.", opus_strerror(result));
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}
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if (mEncodingComplete) {
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if (mResampler) {
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speex_resampler_destroy(mResampler);
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mResampler = nullptr;
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}
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mResampledLeftover.SetLength(0);
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}
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audiodata->SwapInFrameData(frameData);
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aData.AppendEncodedFrame(audiodata);
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return result >= 0 ? NS_OK : NS_ERROR_FAILURE;
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}
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}
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