/* * 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. */ #include "modules/audio_processing/aec3/echo_audibility.h" #include #include #include #include #include "api/array_view.h" #include "modules/audio_processing/aec3/block_buffer.h" #include "modules/audio_processing/aec3/spectrum_buffer.h" #include "modules/audio_processing/aec3/stationarity_estimator.h" namespace webrtc { EchoAudibility::EchoAudibility(bool use_render_stationarity_at_init) : use_render_stationarity_at_init_(use_render_stationarity_at_init) { Reset(); } EchoAudibility::~EchoAudibility() = default; void EchoAudibility::Update(const RenderBuffer& render_buffer, rtc::ArrayView average_reverb, int delay_blocks, bool external_delay_seen) { UpdateRenderNoiseEstimator(render_buffer.GetSpectrumBuffer(), render_buffer.GetBlockBuffer(), external_delay_seen); if (external_delay_seen || use_render_stationarity_at_init_) { UpdateRenderStationarityFlags(render_buffer, average_reverb, delay_blocks); } } void EchoAudibility::Reset() { render_stationarity_.Reset(); non_zero_render_seen_ = false; render_spectrum_write_prev_ = absl::nullopt; } void EchoAudibility::UpdateRenderStationarityFlags( const RenderBuffer& render_buffer, rtc::ArrayView average_reverb, int min_channel_delay_blocks) { const SpectrumBuffer& spectrum_buffer = render_buffer.GetSpectrumBuffer(); int idx_at_delay = spectrum_buffer.OffsetIndex(spectrum_buffer.read, min_channel_delay_blocks); int num_lookahead = render_buffer.Headroom() - min_channel_delay_blocks + 1; num_lookahead = std::max(0, num_lookahead); render_stationarity_.UpdateStationarityFlags(spectrum_buffer, average_reverb, idx_at_delay, num_lookahead); } void EchoAudibility::UpdateRenderNoiseEstimator( const SpectrumBuffer& spectrum_buffer, const BlockBuffer& block_buffer, bool external_delay_seen) { if (!render_spectrum_write_prev_) { render_spectrum_write_prev_ = spectrum_buffer.write; render_block_write_prev_ = block_buffer.write; return; } int render_spectrum_write_current = spectrum_buffer.write; if (!non_zero_render_seen_ && !external_delay_seen) { non_zero_render_seen_ = !IsRenderTooLow(block_buffer); } if (non_zero_render_seen_) { for (int idx = render_spectrum_write_prev_.value(); idx != render_spectrum_write_current; idx = spectrum_buffer.DecIndex(idx)) { render_stationarity_.UpdateNoiseEstimator(spectrum_buffer.buffer[idx]); } } render_spectrum_write_prev_ = render_spectrum_write_current; } bool EchoAudibility::IsRenderTooLow(const BlockBuffer& block_buffer) { const int num_render_channels = static_cast(block_buffer.buffer[0][0].size()); bool too_low = false; const int render_block_write_current = block_buffer.write; if (render_block_write_current == render_block_write_prev_) { too_low = true; } else { for (int idx = render_block_write_prev_; idx != render_block_write_current; idx = block_buffer.IncIndex(idx)) { float max_abs_over_channels = 0.f; for (int ch = 0; ch < num_render_channels; ++ch) { auto block = block_buffer.buffer[idx][0][ch]; auto r = std::minmax_element(block.cbegin(), block.cend()); float max_abs_channel = std::max(std::fabs(*r.first), std::fabs(*r.second)); max_abs_over_channels = std::max(max_abs_over_channels, max_abs_channel); } if (max_abs_over_channels < 10.f) { too_low = true; // Discards all blocks if one of them is too low. break; } } } render_block_write_prev_ = render_block_write_current; return too_low; } } // namespace webrtc