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webrtc/modules/audio_processing/aec3/aec_state.h
Per Åhgren 7ddd46386a Balancing the transparency in AEC3 between saturating and low echo paths 
This CL balances the NLP tradeoff in AEC3 to properly handle the cases
when the echo path is so strong that it saturates the echo and when it
is so weak that the echo is very low compared to nearend.

Bug: webrtc:8411, webrtc:8412, chromium:775653
Change-Id: I5aff74dfadd51cac1ce71b1cb935d68a5be6918d
Reviewed-on: https://webrtc-review.googlesource.com/14120
Commit-Queue: Per Åhgren <peah@webrtc.org>
Reviewed-by: Per Åhgren <peah@webrtc.org>
Reviewed-by: Gustaf Ullberg <gustaf@webrtc.org>
Cr-Commit-Position: refs/heads/master@{#20418}
2017-10-25 01:36:59 +00:00

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/*
* Copyright (c) 2017 The WebRTC project authors. All Rights Reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#ifndef MODULES_AUDIO_PROCESSING_AEC3_AEC_STATE_H_
#define MODULES_AUDIO_PROCESSING_AEC3_AEC_STATE_H_
#include <algorithm>
#include <memory>
#include <vector>
#include "api/array_view.h"
#include "api/optional.h"
#include "modules/audio_processing/aec3/aec3_common.h"
#include "modules/audio_processing/aec3/echo_path_variability.h"
#include "modules/audio_processing/aec3/erl_estimator.h"
#include "modules/audio_processing/aec3/erle_estimator.h"
#include "modules/audio_processing/aec3/render_buffer.h"
#include "modules/audio_processing/include/audio_processing.h"
#include "rtc_base/constructormagic.h"
namespace webrtc {
class ApmDataDumper;
// Handles the state and the conditions for the echo removal functionality.
class AecState {
public:
explicit AecState(const EchoCanceller3Config& config);
~AecState();
// Returns whether the linear filter estimate is usable.
bool UsableLinearEstimate() const { return usable_linear_estimate_; }
// Returns whether there has been echo leakage detected.
bool EchoLeakageDetected() const { return echo_leakage_detected_; }
// Returns whether the render signal is currently active.
// TODO(peah): Deprecate this in an upcoming CL.
bool ActiveRender() const { return blocks_with_filter_adaptation_ > 200; }
// Returns the ERLE.
const std::array<float, kFftLengthBy2Plus1>& Erle() const {
return erle_estimator_.Erle();
}
// Returns the ERL.
const std::array<float, kFftLengthBy2Plus1>& Erl() const {
return erl_estimator_.Erl();
}
// Returns the delay estimate based on the linear filter.
rtc::Optional<size_t> FilterDelay() const { return filter_delay_; }
// Returns the externally provided delay.
rtc::Optional<size_t> ExternalDelay() const { return external_delay_; }
// Returns whether the capture signal is saturated.
bool SaturatedCapture() const { return capture_signal_saturation_; }
// Returns whether the echo signal is saturated.
bool SaturatedEcho() const { return echo_saturation_; }
// Returns whether the echo path can saturate.
bool SaturatingEchoPath() const { return saturating_echo_path_; }
// Updates the capture signal saturation.
void UpdateCaptureSaturation(bool capture_signal_saturation) {
capture_signal_saturation_ = capture_signal_saturation;
}
// Returns whether the transparent mode is active
bool TransparentMode() const { return transparent_mode_; }
// Takes appropriate action at an echo path change.
void HandleEchoPathChange(const EchoPathVariability& echo_path_variability);
// Returns the decay factor for the echo reverberation.
float ReverbDecay() const { return reverb_decay_; }
// Returns whether the echo suppression gain should be forced to zero.
bool ForcedZeroGain() const { return force_zero_gain_; }
// Returns whether the echo in the capture signal is audible.
bool InaudibleEcho() const { return echo_audibility_.InaudibleEcho(); }
// Updates the aec state with the AEC output signal.
void UpdateWithOutput(rtc::ArrayView<const float> e) {
echo_audibility_.UpdateWithOutput(e);
}
// Returns whether the linear filter should have been able to adapt properly.
bool SufficientFilterUpdates() const { return sufficient_filter_updates_; }
// Returns whether the echo subtractor can be used to determine the residual
// echo.
bool LinearEchoEstimate() const { return linear_echo_estimate_; }
// Returns whether the AEC is in an initial state.
bool InitialState() const { return initial_state_; }
// Updates the aec state.
void Update(const std::vector<std::array<float, kFftLengthBy2Plus1>>&
adaptive_filter_frequency_response,
const std::array<float, kAdaptiveFilterTimeDomainLength>&
adaptive_filter_impulse_response,
bool converged_filter,
const rtc::Optional<size_t>& external_delay_samples,
const RenderBuffer& render_buffer,
const std::array<float, kFftLengthBy2Plus1>& E2_main,
const std::array<float, kFftLengthBy2Plus1>& Y2,
rtc::ArrayView<const float> x,
const std::array<float, kBlockSize>& s_main,
bool echo_leakage_detected);
private:
class EchoAudibility {
public:
void Update(rtc::ArrayView<const float> x,
const std::array<float, kBlockSize>& s,
bool converged_filter);
void UpdateWithOutput(rtc::ArrayView<const float> e);
bool InaudibleEcho() const { return inaudible_echo_; }
private:
float max_nearend_ = 0.f;
size_t max_nearend_counter_ = 0;
size_t low_farend_counter_ = 0;
bool inaudible_echo_ = false;
};
void UpdateReverb(const std::array<float, kAdaptiveFilterTimeDomainLength>&
impulse_response);
static int instance_count_;
std::unique_ptr<ApmDataDumper> data_dumper_;
ErlEstimator erl_estimator_;
ErleEstimator erle_estimator_;
size_t capture_block_counter_ = 0;
size_t blocks_with_filter_adaptation_ = 0;
size_t blocks_with_strong_render_ = 0;
bool usable_linear_estimate_ = false;
bool echo_leakage_detected_ = false;
bool capture_signal_saturation_ = false;
bool echo_saturation_ = false;
bool transparent_mode_ = false;
std::array<float, kAdaptiveFilterLength> max_render_;
size_t max_render_index_ = 0;
bool force_zero_gain_ = false;
bool render_received_ = false;
size_t force_zero_gain_counter_ = 0;
rtc::Optional<size_t> filter_delay_;
rtc::Optional<size_t> external_delay_;
size_t blocks_since_last_saturation_ = 1000;
float reverb_decay_to_test_ = 0.9f;
float reverb_decay_candidate_ = 0.f;
float reverb_decay_candidate_residual_ = -1.f;
EchoAudibility echo_audibility_;
const EchoCanceller3Config config_;
float reverb_decay_;
bool saturating_echo_path_ = false;
int saturating_echo_path_counter_ = 0;
bool initial_state_ = true;
bool linear_echo_estimate_ = false;
bool sufficient_filter_updates_ = false;
RTC_DISALLOW_COPY_AND_ASSIGN(AecState);
};
} // namespace webrtc
#endif // MODULES_AUDIO_PROCESSING_AEC3_AEC_STATE_H_
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