/external/webrtc/modules/audio_processing/aec3/ |
D | erl_estimator_unittest.cc | 59 std::vector<bool> converged_filters(num_capture_channels, false); in TEST_P() local 61 converged_filters[converged_idx] = true; in TEST_P() 71 estimator.Update(converged_filters, X2, Y2); in TEST_P() 79 estimator.Update(converged_filters, X2, Y2); in TEST_P() 84 estimator.Update(converged_filters, X2, Y2); in TEST_P() 90 estimator.Update(converged_filters, X2, Y2); in TEST_P() 100 estimator.Update(converged_filters, X2, Y2); in TEST_P()
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D | erl_estimator.cc | 42 const std::vector<bool>& converged_filters, in Update() argument 46 const size_t num_capture_channels = converged_filters.size(); in Update() 53 std::find(converged_filters.begin(), converged_filters.end(), true); in Update() 55 first_converged_iter != converged_filters.end(); in Update() 69 std::distance(converged_filters.begin(), first_converged_iter); in Update() 75 if (!converged_filters[ch]) { in Update()
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D | erle_estimator.cc | 54 const std::vector<bool>& converged_filters) { in Update() argument 66 subband_erle_estimator_.Update(X2_reverb, Y2, E2, converged_filters); in Update() 71 subband_erle_estimator_.Erle(), converged_filters); in Update() 74 fullband_erle_estimator_.Update(X2_reverb, Y2, E2, converged_filters); in Update()
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D | subband_erle_estimator.cc | 75 const std::vector<bool>& converged_filters) { in Update() argument 76 UpdateAccumulatedSpectra(X2, Y2, E2, converged_filters); in Update() 77 UpdateBands(converged_filters); in Update() 95 const std::vector<bool>& converged_filters) { in UpdateBands() argument 101 if (!converged_filters[ch]) { in UpdateBands() 182 const std::vector<bool>& converged_filters) { in UpdateAccumulatedSpectra() argument 191 if (!converged_filters[ch]) { in UpdateAccumulatedSpectra()
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D | erle_estimator_unittest.cc | 150 std::vector<bool> converged_filters(num_capture_channels, true); in TEST_P() local 179 filter_frequency_response, X2, Y2, E2, converged_filters); in TEST_P() 191 filter_frequency_response, X2, Y2, E2, converged_filters); in TEST_P() 206 std::vector<bool> converged_filters(num_capture_channels, true); in TEST_P() local 236 converged_filters); in TEST_P() 245 converged_filters); in TEST_P() 253 converged_filters); in TEST_P() 260 filter_frequency_response, X2, Y2, E2, converged_filters); in TEST_P()
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D | subband_erle_estimator.h | 41 const std::vector<bool>& converged_filters); 73 const std::vector<bool>& converged_filters); 77 void UpdateBands(const std::vector<bool>& converged_filters);
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D | signal_dependent_erle_estimator.h | 54 const std::vector<bool>& converged_filters); 70 const std::vector<bool>& converged_filters);
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D | signal_dependent_erle_estimator.cc | 183 const std::vector<bool>& converged_filters) { in Update() argument 193 UpdateCorrectionFactors(X2, Y2, E2, converged_filters); in Update() 240 const std::vector<bool>& converged_filters) { in UpdateCorrectionFactors() argument 241 for (size_t ch = 0; ch < converged_filters.size(); ++ch) { in UpdateCorrectionFactors() 242 if (converged_filters[ch]) { in UpdateCorrectionFactors()
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D | fullband_erle_estimator.cc | 63 const std::vector<bool>& converged_filters) { in Update() argument 65 if (converged_filters[ch]) { in Update()
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D | erl_estimator.h | 35 void Update(const std::vector<bool>& converged_filters,
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D | erle_estimator.h | 55 const std::vector<bool>& converged_filters);
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D | fullband_erle_estimator.h | 39 const std::vector<bool>& converged_filters);
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