dc431ce07e
That is, rather than keeping a separate pointer and size. This helps automate memory management in NetEq and will be useful in the work to minimize the AudioDecoder interface as part of the injectable audio codec work. I'm planning a follow-up that will change the current management of Packet* to wrapping them in unique_ptr instead. Review-Url: https://codereview.webrtc.org/2289093003 Cr-Commit-Position: refs/heads/master@{#14002}
129 lines
4.9 KiB
C++
129 lines
4.9 KiB
C++
/*
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* Copyright (c) 2012 The WebRTC project authors. All Rights Reserved.
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*
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* Use of this source code is governed by a BSD-style license
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* that can be found in the LICENSE file in the root of the source
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* tree. An additional intellectual property rights grant can be found
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* in the file PATENTS. All contributing project authors may
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* be found in the AUTHORS file in the root of the source tree.
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*/
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#include "webrtc/modules/audio_coding/neteq/comfort_noise.h"
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#include <assert.h>
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#include "webrtc/base/logging.h"
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#include "webrtc/modules/audio_coding/codecs/audio_decoder.h"
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#include "webrtc/modules/audio_coding/neteq/decoder_database.h"
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#include "webrtc/modules/audio_coding/neteq/dsp_helper.h"
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#include "webrtc/modules/audio_coding/neteq/sync_buffer.h"
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namespace webrtc {
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void ComfortNoise::Reset() {
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first_call_ = true;
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}
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int ComfortNoise::UpdateParameters(Packet* packet) {
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assert(packet); // Existence is verified by caller.
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// Get comfort noise decoder.
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if (decoder_database_->SetActiveCngDecoder(packet->header.payloadType)
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!= kOK) {
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delete packet;
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return kUnknownPayloadType;
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}
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ComfortNoiseDecoder* cng_decoder = decoder_database_->GetActiveCngDecoder();
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RTC_DCHECK(cng_decoder);
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cng_decoder->UpdateSid(packet->payload);
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delete packet;
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return kOK;
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}
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int ComfortNoise::Generate(size_t requested_length,
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AudioMultiVector* output) {
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// TODO(hlundin): Change to an enumerator and skip assert.
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assert(fs_hz_ == 8000 || fs_hz_ == 16000 || fs_hz_ == 32000 ||
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fs_hz_ == 48000);
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// Not adapted for multi-channel yet.
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if (output->Channels() != 1) {
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LOG(LS_ERROR) << "No multi-channel support";
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return kMultiChannelNotSupported;
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}
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size_t number_of_samples = requested_length;
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bool new_period = false;
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if (first_call_) {
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// Generate noise and overlap slightly with old data.
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number_of_samples = requested_length + overlap_length_;
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new_period = true;
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}
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output->AssertSize(number_of_samples);
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// Get the decoder from the database.
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ComfortNoiseDecoder* cng_decoder = decoder_database_->GetActiveCngDecoder();
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if (!cng_decoder) {
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LOG(LS_ERROR) << "Unknwown payload type";
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return kUnknownPayloadType;
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}
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std::unique_ptr<int16_t[]> temp(new int16_t[number_of_samples]);
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if (!cng_decoder->Generate(
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rtc::ArrayView<int16_t>(temp.get(), number_of_samples),
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new_period)) {
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// Error returned.
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output->Zeros(requested_length);
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LOG(LS_ERROR) <<
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"ComfortNoiseDecoder::Genererate failed to generate comfort noise";
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return kInternalError;
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}
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(*output)[0].OverwriteAt(temp.get(), number_of_samples, 0);
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if (first_call_) {
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// Set tapering window parameters. Values are in Q15.
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int16_t muting_window; // Mixing factor for overlap data.
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int16_t muting_window_increment; // Mixing factor increment (negative).
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int16_t unmuting_window; // Mixing factor for comfort noise.
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int16_t unmuting_window_increment; // Mixing factor increment.
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if (fs_hz_ == 8000) {
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muting_window = DspHelper::kMuteFactorStart8kHz;
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muting_window_increment = DspHelper::kMuteFactorIncrement8kHz;
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unmuting_window = DspHelper::kUnmuteFactorStart8kHz;
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unmuting_window_increment = DspHelper::kUnmuteFactorIncrement8kHz;
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} else if (fs_hz_ == 16000) {
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muting_window = DspHelper::kMuteFactorStart16kHz;
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muting_window_increment = DspHelper::kMuteFactorIncrement16kHz;
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unmuting_window = DspHelper::kUnmuteFactorStart16kHz;
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unmuting_window_increment = DspHelper::kUnmuteFactorIncrement16kHz;
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} else if (fs_hz_ == 32000) {
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muting_window = DspHelper::kMuteFactorStart32kHz;
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muting_window_increment = DspHelper::kMuteFactorIncrement32kHz;
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unmuting_window = DspHelper::kUnmuteFactorStart32kHz;
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unmuting_window_increment = DspHelper::kUnmuteFactorIncrement32kHz;
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} else { // fs_hz_ == 48000
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muting_window = DspHelper::kMuteFactorStart48kHz;
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muting_window_increment = DspHelper::kMuteFactorIncrement48kHz;
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unmuting_window = DspHelper::kUnmuteFactorStart48kHz;
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unmuting_window_increment = DspHelper::kUnmuteFactorIncrement48kHz;
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}
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// Do overlap-add between new vector and overlap.
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size_t start_ix = sync_buffer_->Size() - overlap_length_;
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for (size_t i = 0; i < overlap_length_; i++) {
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/* overlapVec[i] = WinMute * overlapVec[i] + WinUnMute * outData[i] */
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// The expression (*output)[0][i] is the i-th element in the first
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// channel.
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(*sync_buffer_)[0][start_ix + i] =
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(((*sync_buffer_)[0][start_ix + i] * muting_window) +
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((*output)[0][i] * unmuting_window) + 16384) >> 15;
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muting_window += muting_window_increment;
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unmuting_window += unmuting_window_increment;
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}
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// Remove |overlap_length_| samples from the front of |output| since they
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// were mixed into |sync_buffer_| above.
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output->PopFront(overlap_length_);
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}
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first_call_ = false;
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return kOK;
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}
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} // namespace webrtc
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