| /external/webrtc/modules/audio_processing/aec3/ |
| D | echo_remover.cc | 149 const size_t num_capture_channels_; member in webrtc::__anon30cab5100111::EchoRemoverImpl
191 num_capture_channels_(num_capture_channels), in EchoRemoverImpl()
196 num_capture_channels_, in EchoRemoverImpl()
203 cng_(config_, optimization_, num_capture_channels_), in EchoRemoverImpl()
206 num_capture_channels_), in EchoRemoverImpl()
209 aec_state_(config_, num_capture_channels_), in EchoRemoverImpl()
210 e_old_(num_capture_channels_, {0.f}), in EchoRemoverImpl()
211 y_old_(num_capture_channels_, {0.f}),
212 e_heap_(NumChannelsOnHeap(num_capture_channels_), {0.f}),
213 Y2_heap_(NumChannelsOnHeap(num_capture_channels_)),
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| D | comfort_noise_generator.cc | 107 num_capture_channels_(num_capture_channels), in ComfortNoiseGenerator()
111 num_capture_channels_)), in ComfortNoiseGenerator()
112 Y2_smoothed_(num_capture_channels_), in ComfortNoiseGenerator()
113 N2_(num_capture_channels_) { in ComfortNoiseGenerator()
114 for (size_t ch = 0; ch < num_capture_channels_; ++ch) { in ComfortNoiseGenerator()
133 for (size_t ch = 0; ch < num_capture_channels_; ++ch) { in Compute()
141 for (size_t ch = 0; ch < num_capture_channels_; ++ch) { in Compute()
155 for (size_t ch = 0; ch < num_capture_channels_; ++ch) { in Compute()
165 for (size_t ch = 0; ch < num_capture_channels_; ++ch) { in Compute()
180 for (size_t ch = 0; ch < num_capture_channels_; ++ch) { in Compute()
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| D | subtractor.cc | 68 num_capture_channels_(num_capture_channels), in Subtractor()
69 refined_filters_(num_capture_channels_), in Subtractor()
70 coarse_filter_(num_capture_channels_), in Subtractor()
71 refined_gains_(num_capture_channels_), in Subtractor()
72 coarse_gains_(num_capture_channels_), in Subtractor()
73 filter_misadjustment_estimators_(num_capture_channels_), in Subtractor()
74 poor_coarse_filter_counters_(num_capture_channels_, 0), in Subtractor()
76 num_capture_channels_, in Subtractor()
82 num_capture_channels_, in Subtractor()
87 for (size_t ch = 0; ch < num_capture_channels_; ++ch) { in Subtractor()
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| D | dominant_nearend_detector.cc | 25 num_capture_channels_(num_capture_channels), in DominantNearendDetector()
26 trigger_counters_(num_capture_channels_), in DominantNearendDetector()
27 hold_counters_(num_capture_channels_) {} in DominantNearendDetector()
44 for (size_t ch = 0; ch < num_capture_channels_; ++ch) { in Update()
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| D | aec_state.cc | 136 num_capture_channels_(num_capture_channels), in AecState()
144 delay_state_(config_, num_capture_channels_), in AecState()
146 filter_quality_state_(config_, num_capture_channels_), in AecState()
148 erle_estimator_(2 * kNumBlocksPerSecond, config_, num_capture_channels_), in AecState()
149 filter_analyzer_(config_, num_capture_channels_), in AecState()
152 reverb_model_estimator_(config_, num_capture_channels_), in AecState()
153 subtractor_output_analyzer_(num_capture_channels_) {} in AecState()
197 RTC_DCHECK_EQ(num_capture_channels_, Y2.size()); in Update()
198 RTC_DCHECK_EQ(num_capture_channels_, subtractor_output.size()); in Update()
199 RTC_DCHECK_EQ(num_capture_channels_, in Update()
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| D | subband_nearend_detector.cc | 20 num_capture_channels_(num_capture_channels), in SubbandNearendDetector()
21 nearend_smoothers_(num_capture_channels_, in SubbandNearendDetector()
38 for (size_t ch = 0; ch < num_capture_channels_; ++ch) { in Update()
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| D | suppression_filter.h | 28 size_t num_capture_channels_);
40 const size_t num_capture_channels_; variable
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| D | suppression_gain.cc | 176 for (size_t ch = 0; ch < num_capture_channels_; ++ch) { in UpperBandsGain()
274 for (size_t ch = 0; ch < num_capture_channels_; ++ch) { in LowerBandGain()
319 num_capture_channels_(num_capture_channels), in SuppressionGain()
322 last_nearend_(num_capture_channels_, {0}), in SuppressionGain()
323 last_echo_(num_capture_channels_, {0}),
325 num_capture_channels_,
334 config_.suppressor.subband_nearend_detection, num_capture_channels_);
337 config_.suppressor.dominant_nearend_detection, num_capture_channels_);
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| D | suppression_filter.cc | 68 num_capture_channels_(num_capture_channels), in SuppressionFilter()
72 num_capture_channels_)) { in SuppressionFilter()
103 for (size_t ch = 0; ch < num_capture_channels_; ++ch) { in ApplyGain()
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| D | echo_canceller3.cc | 647 num_capture_channels_(num_capture_channels), in EchoCanceller3()
648 output_framer_(num_bands_, num_capture_channels_), in EchoCanceller3()
649 capture_blocker_(num_bands_, num_capture_channels_), in EchoCanceller3()
673 std::vector<std::vector<float>>(num_capture_channels_, in EchoCanceller3()
680 std::vector<rtc::ArrayView<float>>(num_capture_channels_)) { in EchoCanceller3()
685 num_capture_channels_, num_bands_, AudioBuffer::kSplitBandSize, in EchoCanceller3()
697 linear_output_framer_.reset(new BlockFramer(1, num_capture_channels_)); in EchoCanceller3()
701 num_capture_channels_, std::vector<float>(kBlockSize, 0.f))); in EchoCanceller3()
704 1, std::vector<rtc::ArrayView<float>>(num_capture_channels_)); in EchoCanceller3()
746 RTC_DCHECK_EQ(capture->num_channels(), num_capture_channels_); in ProcessCapture()
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| D | subband_nearend_detector.h | 43 const size_t num_capture_channels_; variable
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| D | dominant_nearend_detector.h | 47 const size_t num_capture_channels_; variable
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| D | comfort_noise_generator.h | 67 const size_t num_capture_channels_; variable
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| D | subtractor.h | 122 const size_t num_capture_channels_; variable
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| D | suppression_gain.h | 112 const size_t num_capture_channels_; variable
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| D | echo_canceller3.h | 163 const size_t num_capture_channels_; variable
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| D | aec_state.h | 154 const size_t num_capture_channels_; variable
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| /external/webrtc/modules/audio_processing/agc/ |
| D | agc_manager_direct.h | 63 int num_channels() const { return num_capture_channels_; } in num_channels()
92 const int num_capture_channels_; variable
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| D | agc_manager_direct.cc | 436 num_capture_channels_(num_capture_channels), in AgcManagerDirect()
516 ComputeClippedRatio(audio, num_capture_channels_, samples_per_channel); in AnalyzePreProcess()
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