FaceAccess/VocieProcess/api/audio/echo_canceller3_config.h

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/*
* Copyright (c) 2018 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 API_AUDIO_ECHO_CANCELLER3_CONFIG_H_
#define API_AUDIO_ECHO_CANCELLER3_CONFIG_H_
#include <stddef.h> // size_t
#include "rtc_base/system/rtc_export.h"
namespace webrtc {
// Configuration struct for EchoCanceller3
struct RTC_EXPORT EchoCanceller3Config {
// Checks and updates the config parameters to lie within (mostly) reasonable
// ranges. Returns true if and only of the config did not need to be changed.
static bool Validate(EchoCanceller3Config* config);
EchoCanceller3Config();
EchoCanceller3Config(const EchoCanceller3Config& e);
EchoCanceller3Config& operator=(const EchoCanceller3Config& other);
struct Buffering {
size_t excess_render_detection_interval_blocks = 250;
size_t max_allowed_excess_render_blocks = 8;
} buffering;
struct Delay {
Delay();
Delay(const Delay& e);
Delay& operator=(const Delay& e);
size_t default_delay = 5;
size_t down_sampling_factor = 4;
size_t num_filters = 5;
size_t delay_headroom_samples = 32;
size_t hysteresis_limit_blocks = 1;
size_t fixed_capture_delay_samples = 0;
float delay_estimate_smoothing = 0.7f;
float delay_estimate_smoothing_delay_found = 0.7f;
float delay_candidate_detection_threshold = 0.2f;
struct DelaySelectionThresholds {
int initial;
int converged;
} delay_selection_thresholds = {5, 20};
bool use_external_delay_estimator = false;
bool log_warning_on_delay_changes = false;
struct AlignmentMixing {
bool downmix;
bool adaptive_selection;
float activity_power_threshold;
bool prefer_first_two_channels;
};
AlignmentMixing render_alignment_mixing = {false, true, 10000.f, true};
AlignmentMixing capture_alignment_mixing = {false, true, 10000.f, false};
bool detect_pre_echo = true;
} delay;
struct Filter {
struct RefinedConfiguration {
size_t length_blocks;
float leakage_converged;
float leakage_diverged;
float error_floor;
float error_ceil;
float noise_gate;
};
struct CoarseConfiguration {
size_t length_blocks;
float rate;
float noise_gate;
};
RefinedConfiguration refined = {13, 0.00005f, 0.05f,
0.001f, 2.f, 20075344.f};
CoarseConfiguration coarse = {13, 0.7f, 20075344.f};
RefinedConfiguration refined_initial = {12, 0.005f, 0.5f,
0.001f, 2.f, 20075344.f};
CoarseConfiguration coarse_initial = {12, 0.9f, 20075344.f};
size_t config_change_duration_blocks = 250;
float initial_state_seconds = 2.5f;
int coarse_reset_hangover_blocks = 25;
bool conservative_initial_phase = false;
bool enable_coarse_filter_output_usage = true;
bool use_linear_filter = true;
bool high_pass_filter_echo_reference = false;
bool export_linear_aec_output = false;
} filter;
struct Erle {
float min = 1.f;
float max_l = 4.f;
float max_h = 1.5f;
bool onset_detection = true;
size_t num_sections = 1;
bool clamp_quality_estimate_to_zero = true;
bool clamp_quality_estimate_to_one = true;
} erle;
struct EpStrength {
float default_gain = 1.f;
float default_len = 0.83f;
float nearend_len = 0.83f;
bool echo_can_saturate = true;
bool bounded_erl = false;
bool erle_onset_compensation_in_dominant_nearend = false;
bool use_conservative_tail_frequency_response = true;
} ep_strength;
struct EchoAudibility {
float low_render_limit = 4 * 64.f;
float normal_render_limit = 64.f;
float floor_power = 2 * 64.f;
float audibility_threshold_lf = 10;
float audibility_threshold_mf = 10;
float audibility_threshold_hf = 10;
bool use_stationarity_properties = false;
bool use_stationarity_properties_at_init = false;
} echo_audibility;
struct RenderLevels {
float active_render_limit = 100.f;
float poor_excitation_render_limit = 150.f;
float poor_excitation_render_limit_ds8 = 20.f;
float render_power_gain_db = 0.f;
} render_levels;
struct EchoRemovalControl {
bool has_clock_drift = false;
bool linear_and_stable_echo_path = false;
} echo_removal_control;
struct EchoModel {
EchoModel();
EchoModel(const EchoModel& e);
EchoModel& operator=(const EchoModel& e);
size_t noise_floor_hold = 50;
float min_noise_floor_power = 1638400.f;
float stationary_gate_slope = 10.f;
float noise_gate_power = 27509.42f;
float noise_gate_slope = 0.3f;
size_t render_pre_window_size = 1;
size_t render_post_window_size = 1;
bool model_reverb_in_nonlinear_mode = true;
} echo_model;
struct ComfortNoise {
float noise_floor_dbfs = -96.03406f;
} comfort_noise;
struct Suppressor {
Suppressor();
Suppressor(const Suppressor& e);
Suppressor& operator=(const Suppressor& e);
size_t nearend_average_blocks = 4;
struct MaskingThresholds {
MaskingThresholds(float enr_transparent,
float enr_suppress,
float emr_transparent);
MaskingThresholds(const MaskingThresholds& e);
MaskingThresholds& operator=(const MaskingThresholds& e);
float enr_transparent;
float enr_suppress;
float emr_transparent;
};
struct Tuning {
Tuning(MaskingThresholds mask_lf,
MaskingThresholds mask_hf,
float max_inc_factor,
float max_dec_factor_lf);
Tuning(const Tuning& e);
Tuning& operator=(const Tuning& e);
MaskingThresholds mask_lf;
MaskingThresholds mask_hf;
float max_inc_factor;
float max_dec_factor_lf;
};
Tuning normal_tuning = Tuning(MaskingThresholds(.3f, .4f, .3f),
MaskingThresholds(.07f, .1f, .3f),
2.0f,
0.25f);
Tuning nearend_tuning = Tuning(MaskingThresholds(1.09f, 1.1f, .3f),
MaskingThresholds(.1f, .3f, .3f),
2.0f,
0.25f);
bool lf_smoothing_during_initial_phase = true;
int last_permanent_lf_smoothing_band = 0;
int last_lf_smoothing_band = 5;
int last_lf_band = 5;
int first_hf_band = 8;
struct DominantNearendDetection {
float enr_threshold = .25f;
float enr_exit_threshold = 10.f;
float snr_threshold = 30.f;
int hold_duration = 50;
int trigger_threshold = 12;
bool use_during_initial_phase = true;
bool use_unbounded_echo_spectrum = true;
} dominant_nearend_detection;
struct SubbandNearendDetection {
size_t nearend_average_blocks = 1;
struct SubbandRegion {
size_t low;
size_t high;
};
SubbandRegion subband1 = {1, 1};
SubbandRegion subband2 = {1, 1};
float nearend_threshold = 1.f;
float snr_threshold = 1.f;
} subband_nearend_detection;
bool use_subband_nearend_detection = false;
struct HighBandsSuppression {
float enr_threshold = 1.f;
float max_gain_during_echo = 1.f;
float anti_howling_activation_threshold = 400.f;
float anti_howling_gain = 1.f;
} high_bands_suppression;
float floor_first_increase = 0.00001f;
bool conservative_hf_suppression = false;
} suppressor;
struct MultiChannel {
bool detect_stereo_content = true;
float stereo_detection_threshold = 0.0f;
int stereo_detection_timeout_threshold_seconds = 300;
float stereo_detection_hysteresis_seconds = 2.0f;
} multi_channel;
};
} // namespace webrtc
#endif // API_AUDIO_ECHO_CANCELLER3_CONFIG_H_