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d83a3d71bc
Merge in RedPhone // FREEBIE
261 lines
10 KiB
C++
261 lines
10 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/background_noise.h"
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#include <assert.h>
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#include <string.h> // memcpy
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#include <algorithm> // min, max
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#include "webrtc/common_audio/signal_processing/include/signal_processing_library.h"
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#include "webrtc/modules/audio_coding/neteq/audio_multi_vector.h"
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#include "webrtc/modules/audio_coding/neteq/post_decode_vad.h"
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namespace webrtc {
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BackgroundNoise::BackgroundNoise(size_t num_channels)
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: num_channels_(num_channels),
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channel_parameters_(new ChannelParameters[num_channels_]),
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mode_(NetEq::kBgnOn) {
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Reset();
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}
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BackgroundNoise::~BackgroundNoise() {}
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void BackgroundNoise::Reset() {
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initialized_ = false;
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for (size_t channel = 0; channel < num_channels_; ++channel) {
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channel_parameters_[channel].Reset();
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}
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// Keep _bgnMode as it is.
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}
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void BackgroundNoise::Update(const AudioMultiVector& input,
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const PostDecodeVad& vad) {
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if (vad.running() && vad.active_speech()) {
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// Do not update the background noise parameters if we know that the signal
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// is active speech.
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return;
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}
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int32_t auto_correlation[kMaxLpcOrder + 1];
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int16_t fiter_output[kMaxLpcOrder + kResidualLength];
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int16_t reflection_coefficients[kMaxLpcOrder];
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int16_t lpc_coefficients[kMaxLpcOrder + 1];
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for (size_t channel_ix = 0; channel_ix < num_channels_; ++channel_ix) {
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ChannelParameters& parameters = channel_parameters_[channel_ix];
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int16_t temp_signal_array[kVecLen + kMaxLpcOrder] = {0};
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int16_t* temp_signal = &temp_signal_array[kMaxLpcOrder];
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memcpy(temp_signal,
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&input[channel_ix][input.Size() - kVecLen],
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sizeof(int16_t) * kVecLen);
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int32_t sample_energy = CalculateAutoCorrelation(temp_signal, kVecLen,
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auto_correlation);
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if ((!vad.running() &&
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sample_energy < parameters.energy_update_threshold) ||
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(vad.running() && !vad.active_speech())) {
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// Generate LPC coefficients.
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if (auto_correlation[0] > 0) {
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// Regardless of whether the filter is actually updated or not,
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// update energy threshold levels, since we have in fact observed
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// a low energy signal.
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if (sample_energy < parameters.energy_update_threshold) {
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// Never go under 1.0 in average sample energy.
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parameters.energy_update_threshold = std::max(sample_energy, 1);
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parameters.low_energy_update_threshold = 0;
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}
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// Only update BGN if filter is stable, i.e., if return value from
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// Levinson-Durbin function is 1.
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if (WebRtcSpl_LevinsonDurbin(auto_correlation, lpc_coefficients,
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reflection_coefficients,
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kMaxLpcOrder) != 1) {
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return;
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}
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} else {
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// Center value in auto-correlation is not positive. Do not update.
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return;
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}
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// Generate the CNG gain factor by looking at the energy of the residual.
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WebRtcSpl_FilterMAFastQ12(temp_signal + kVecLen - kResidualLength,
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fiter_output, lpc_coefficients,
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kMaxLpcOrder + 1, kResidualLength);
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int32_t residual_energy = WebRtcSpl_DotProductWithScale(fiter_output,
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fiter_output,
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kResidualLength,
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0);
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// Check spectral flatness.
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// Comparing the residual variance with the input signal variance tells
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// if the spectrum is flat or not.
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// If 20 * residual_energy >= sample_energy << 6, the spectrum is flat
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// enough. Also ensure that the energy is non-zero.
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if ((residual_energy * 20 >= (sample_energy << 6)) &&
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(sample_energy > 0)) {
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// Spectrum is flat enough; save filter parameters.
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// |temp_signal| + |kVecLen| - |kMaxLpcOrder| points at the first of the
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// |kMaxLpcOrder| samples in the residual signal, which will form the
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// filter state for the next noise generation.
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SaveParameters(channel_ix, lpc_coefficients,
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temp_signal + kVecLen - kMaxLpcOrder, sample_energy,
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residual_energy);
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}
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} else {
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// Will only happen if post-decode VAD is disabled and |sample_energy| is
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// not low enough. Increase the threshold for update so that it increases
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// by a factor 4 in 4 seconds.
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IncrementEnergyThreshold(channel_ix, sample_energy);
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}
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}
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return;
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}
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int32_t BackgroundNoise::Energy(size_t channel) const {
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assert(channel < num_channels_);
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return channel_parameters_[channel].energy;
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}
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void BackgroundNoise::SetMuteFactor(size_t channel, int16_t value) {
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assert(channel < num_channels_);
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channel_parameters_[channel].mute_factor = value;
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}
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int16_t BackgroundNoise::MuteFactor(size_t channel) const {
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assert(channel < num_channels_);
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return channel_parameters_[channel].mute_factor;
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}
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const int16_t* BackgroundNoise::Filter(size_t channel) const {
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assert(channel < num_channels_);
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return channel_parameters_[channel].filter;
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}
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const int16_t* BackgroundNoise::FilterState(size_t channel) const {
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assert(channel < num_channels_);
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return channel_parameters_[channel].filter_state;
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}
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void BackgroundNoise::SetFilterState(size_t channel, const int16_t* input,
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size_t length) {
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assert(channel < num_channels_);
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length = std::min(length, static_cast<size_t>(kMaxLpcOrder));
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memcpy(channel_parameters_[channel].filter_state, input,
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length * sizeof(int16_t));
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}
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int16_t BackgroundNoise::Scale(size_t channel) const {
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assert(channel < num_channels_);
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return channel_parameters_[channel].scale;
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}
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int16_t BackgroundNoise::ScaleShift(size_t channel) const {
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assert(channel < num_channels_);
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return channel_parameters_[channel].scale_shift;
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}
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int32_t BackgroundNoise::CalculateAutoCorrelation(
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const int16_t* signal, int length, int32_t* auto_correlation) const {
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int16_t signal_max = WebRtcSpl_MaxAbsValueW16(signal, length);
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int correlation_scale = kLogVecLen -
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WebRtcSpl_NormW32(signal_max * signal_max);
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correlation_scale = std::max(0, correlation_scale);
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static const int kCorrelationStep = -1;
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WebRtcSpl_CrossCorrelation(auto_correlation, signal, signal, length,
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kMaxLpcOrder + 1, correlation_scale,
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kCorrelationStep);
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// Number of shifts to normalize energy to energy/sample.
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int energy_sample_shift = kLogVecLen - correlation_scale;
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return auto_correlation[0] >> energy_sample_shift;
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}
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void BackgroundNoise::IncrementEnergyThreshold(size_t channel,
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int32_t sample_energy) {
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// TODO(hlundin): Simplify the below threshold update. What this code
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// does is simply "threshold += (increment * threshold) >> 16", but due
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// to the limited-width operations, it is not exactly the same. The
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// difference should be inaudible, but bit-exactness would not be
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// maintained.
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assert(channel < num_channels_);
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ChannelParameters& parameters = channel_parameters_[channel];
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int32_t temp_energy =
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WEBRTC_SPL_MUL_16_16_RSFT(kThresholdIncrement,
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parameters.low_energy_update_threshold, 16);
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temp_energy += kThresholdIncrement *
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(parameters.energy_update_threshold & 0xFF);
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temp_energy += (kThresholdIncrement *
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((parameters.energy_update_threshold>>8) & 0xFF)) << 8;
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parameters.low_energy_update_threshold += temp_energy;
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parameters.energy_update_threshold += kThresholdIncrement *
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(parameters.energy_update_threshold>>16);
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parameters.energy_update_threshold +=
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parameters.low_energy_update_threshold >> 16;
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parameters.low_energy_update_threshold =
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parameters.low_energy_update_threshold & 0x0FFFF;
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// Update maximum energy.
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// Decrease by a factor 1/1024 each time.
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parameters.max_energy = parameters.max_energy -
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(parameters.max_energy >> 10);
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if (sample_energy > parameters.max_energy) {
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parameters.max_energy = sample_energy;
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}
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// Set |energy_update_threshold| to no less than 60 dB lower than
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// |max_energy_|. Adding 524288 assures proper rounding.
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int32_t energy_update_threshold = (parameters.max_energy + 524288) >> 20;
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if (energy_update_threshold > parameters.energy_update_threshold) {
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parameters.energy_update_threshold = energy_update_threshold;
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}
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}
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void BackgroundNoise::SaveParameters(size_t channel,
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const int16_t* lpc_coefficients,
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const int16_t* filter_state,
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int32_t sample_energy,
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int32_t residual_energy) {
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assert(channel < num_channels_);
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ChannelParameters& parameters = channel_parameters_[channel];
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memcpy(parameters.filter, lpc_coefficients,
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(kMaxLpcOrder+1) * sizeof(int16_t));
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memcpy(parameters.filter_state, filter_state,
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kMaxLpcOrder * sizeof(int16_t));
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// Save energy level and update energy threshold levels.
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// Never get under 1.0 in average sample energy.
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parameters.energy = std::max(sample_energy, 1);
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parameters.energy_update_threshold = parameters.energy;
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parameters.low_energy_update_threshold = 0;
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// Normalize residual_energy to 29 or 30 bits before sqrt.
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int norm_shift = WebRtcSpl_NormW32(residual_energy) - 1;
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if (norm_shift & 0x1) {
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norm_shift -= 1; // Even number of shifts required.
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}
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assert(norm_shift >= 0); // Should always be positive.
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residual_energy = residual_energy << norm_shift;
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// Calculate scale and shift factor.
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parameters.scale = WebRtcSpl_SqrtFloor(residual_energy);
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// Add 13 to the |scale_shift_|, since the random numbers table is in
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// Q13.
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// TODO(hlundin): Move the "13" to where the |scale_shift_| is used?
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parameters.scale_shift = 13 + ((kLogResidualLength + norm_shift) / 2);
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initialized_ = true;
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}
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} // namespace webrtc
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