291 lines
11 KiB
C++
291 lines
11 KiB
C++
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/*
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* Copyright (c) 2018 The WebRTC project authors. All Rights Reserved.
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*
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* Use of this source code is governed by a BSD-style license
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* that can be found in the LICENSE file in the root of the source
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* tree. An additional intellectual property rights grant can be found
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* in the file PATENTS. All contributing project authors may
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* be found in the AUTHORS file in the root of the source tree.
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*/
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#include "modules/audio_processing/aec3/block_processor.h"
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#include <stddef.h>
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#include <atomic>
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#include <memory>
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#include <utility>
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#include <vector>
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#include "absl/types/optional.h"
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#include "api/audio/echo_canceller3_config.h"
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#include "api/audio/echo_control.h"
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#include "modules/audio_processing/aec3/aec3_common.h"
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#include "modules/audio_processing/aec3/block_processor_metrics.h"
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#include "modules/audio_processing/aec3/delay_estimate.h"
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#include "modules/audio_processing/aec3/echo_path_variability.h"
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#include "modules/audio_processing/aec3/echo_remover.h"
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#include "modules/audio_processing/aec3/render_delay_buffer.h"
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#include "modules/audio_processing/aec3/render_delay_controller.h"
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#include "modules/audio_processing/logging/apm_data_dumper.h"
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#include "rtc_base/checks.h"
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#include "rtc_base/logging.h"
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namespace webrtc {
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namespace {
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enum class BlockProcessorApiCall { kCapture, kRender };
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class BlockProcessorImpl final : public BlockProcessor {
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public:
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BlockProcessorImpl(const EchoCanceller3Config& config,
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int sample_rate_hz,
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size_t num_render_channels,
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size_t num_capture_channels,
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std::unique_ptr<RenderDelayBuffer> render_buffer,
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std::unique_ptr<RenderDelayController> delay_controller,
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std::unique_ptr<EchoRemover> echo_remover);
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BlockProcessorImpl() = delete;
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~BlockProcessorImpl() override;
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void ProcessCapture(bool echo_path_gain_change,
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bool capture_signal_saturation,
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Block* linear_output,
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Block* capture_block) override;
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void BufferRender(const Block& block) override;
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void UpdateEchoLeakageStatus(bool leakage_detected) override;
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void GetMetrics(EchoControl::Metrics* metrics) const override;
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void SetAudioBufferDelay(int delay_ms) override;
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void SetCaptureOutputUsage(bool capture_output_used) override;
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private:
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static std::atomic<int> instance_count_;
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std::unique_ptr<ApmDataDumper> data_dumper_;
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const EchoCanceller3Config config_;
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bool capture_properly_started_ = false;
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bool render_properly_started_ = false;
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const size_t sample_rate_hz_;
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std::unique_ptr<RenderDelayBuffer> render_buffer_;
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std::unique_ptr<RenderDelayController> delay_controller_;
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std::unique_ptr<EchoRemover> echo_remover_;
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BlockProcessorMetrics metrics_;
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RenderDelayBuffer::BufferingEvent render_event_;
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size_t capture_call_counter_ = 0;
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absl::optional<DelayEstimate> estimated_delay_;
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};
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std::atomic<int> BlockProcessorImpl::instance_count_(0);
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BlockProcessorImpl::BlockProcessorImpl(
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const EchoCanceller3Config& config,
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int sample_rate_hz,
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size_t num_render_channels,
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size_t num_capture_channels,
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std::unique_ptr<RenderDelayBuffer> render_buffer,
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std::unique_ptr<RenderDelayController> delay_controller,
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std::unique_ptr<EchoRemover> echo_remover)
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: data_dumper_(new ApmDataDumper(instance_count_.fetch_add(1) + 1)),
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config_(config),
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sample_rate_hz_(sample_rate_hz),
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render_buffer_(std::move(render_buffer)),
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delay_controller_(std::move(delay_controller)),
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echo_remover_(std::move(echo_remover)),
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render_event_(RenderDelayBuffer::BufferingEvent::kNone) {
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RTC_DCHECK(ValidFullBandRate(sample_rate_hz_));
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}
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BlockProcessorImpl::~BlockProcessorImpl() = default;
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void BlockProcessorImpl::ProcessCapture(bool echo_path_gain_change,
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bool capture_signal_saturation,
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Block* linear_output,
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Block* capture_block) {
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RTC_DCHECK(capture_block);
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RTC_DCHECK_EQ(NumBandsForRate(sample_rate_hz_), capture_block->NumBands());
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capture_call_counter_++;
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data_dumper_->DumpRaw("aec3_processblock_call_order",
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static_cast<int>(BlockProcessorApiCall::kCapture));
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data_dumper_->DumpWav("aec3_processblock_capture_input",
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capture_block->View(/*band=*/0, /*channel=*/0), 16000,
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1);
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if (render_properly_started_) {
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if (!capture_properly_started_) {
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capture_properly_started_ = true;
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render_buffer_->Reset();
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if (delay_controller_)
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delay_controller_->Reset(true);
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}
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} else {
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// If no render data has yet arrived, do not process the capture signal.
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render_buffer_->HandleSkippedCaptureProcessing();
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return;
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}
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EchoPathVariability echo_path_variability(
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echo_path_gain_change, EchoPathVariability::DelayAdjustment::kNone,
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false);
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if (render_event_ == RenderDelayBuffer::BufferingEvent::kRenderOverrun &&
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render_properly_started_) {
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echo_path_variability.delay_change =
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EchoPathVariability::DelayAdjustment::kBufferFlush;
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if (delay_controller_)
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delay_controller_->Reset(true);
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RTC_LOG(LS_WARNING) << "Reset due to render buffer overrun at block "
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<< capture_call_counter_;
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}
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render_event_ = RenderDelayBuffer::BufferingEvent::kNone;
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// Update the render buffers with any newly arrived render blocks and prepare
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// the render buffers for reading the render data corresponding to the current
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// capture block.
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RenderDelayBuffer::BufferingEvent buffer_event =
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render_buffer_->PrepareCaptureProcessing();
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// Reset the delay controller at render buffer underrun.
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if (buffer_event == RenderDelayBuffer::BufferingEvent::kRenderUnderrun) {
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if (delay_controller_)
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delay_controller_->Reset(false);
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}
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data_dumper_->DumpWav("aec3_processblock_capture_input2",
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capture_block->View(/*band=*/0, /*channel=*/0), 16000,
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1);
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bool has_delay_estimator = !config_.delay.use_external_delay_estimator;
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if (has_delay_estimator) {
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RTC_DCHECK(delay_controller_);
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// Compute and apply the render delay required to achieve proper signal
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// alignment.
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estimated_delay_ = delay_controller_->GetDelay(
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render_buffer_->GetDownsampledRenderBuffer(), render_buffer_->Delay(),
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*capture_block);
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if (estimated_delay_) {
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bool delay_change =
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render_buffer_->AlignFromDelay(estimated_delay_->delay);
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if (delay_change) {
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rtc::LoggingSeverity log_level =
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config_.delay.log_warning_on_delay_changes ? rtc::LS_WARNING
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: rtc::LS_INFO;
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RTC_LOG_V(log_level) << "Delay changed to " << estimated_delay_->delay
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<< " at block " << capture_call_counter_;
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echo_path_variability.delay_change =
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EchoPathVariability::DelayAdjustment::kNewDetectedDelay;
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}
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}
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echo_path_variability.clock_drift = delay_controller_->HasClockdrift();
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} else {
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render_buffer_->AlignFromExternalDelay();
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}
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// Remove the echo from the capture signal.
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if (has_delay_estimator || render_buffer_->HasReceivedBufferDelay()) {
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echo_remover_->ProcessCapture(
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echo_path_variability, capture_signal_saturation, estimated_delay_,
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render_buffer_->GetRenderBuffer(), linear_output, capture_block);
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}
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// Update the metrics.
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metrics_.UpdateCapture(false);
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}
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void BlockProcessorImpl::BufferRender(const Block& block) {
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RTC_DCHECK_EQ(NumBandsForRate(sample_rate_hz_), block.NumBands());
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data_dumper_->DumpRaw("aec3_processblock_call_order",
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static_cast<int>(BlockProcessorApiCall::kRender));
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data_dumper_->DumpWav("aec3_processblock_render_input",
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block.View(/*band=*/0, /*channel=*/0), 16000, 1);
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render_event_ = render_buffer_->Insert(block);
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metrics_.UpdateRender(render_event_ !=
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RenderDelayBuffer::BufferingEvent::kNone);
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render_properly_started_ = true;
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if (delay_controller_)
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delay_controller_->LogRenderCall();
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}
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void BlockProcessorImpl::UpdateEchoLeakageStatus(bool leakage_detected) {
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echo_remover_->UpdateEchoLeakageStatus(leakage_detected);
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}
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void BlockProcessorImpl::GetMetrics(EchoControl::Metrics* metrics) const {
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echo_remover_->GetMetrics(metrics);
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constexpr int block_size_ms = 4;
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absl::optional<size_t> delay = render_buffer_->Delay();
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metrics->delay_ms = delay ? static_cast<int>(*delay) * block_size_ms : 0;
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}
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void BlockProcessorImpl::SetAudioBufferDelay(int delay_ms) {
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render_buffer_->SetAudioBufferDelay(delay_ms);
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}
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void BlockProcessorImpl::SetCaptureOutputUsage(bool capture_output_used) {
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echo_remover_->SetCaptureOutputUsage(capture_output_used);
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}
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} // namespace
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BlockProcessor* BlockProcessor::Create(const EchoCanceller3Config& config,
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int sample_rate_hz,
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size_t num_render_channels,
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size_t num_capture_channels) {
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std::unique_ptr<RenderDelayBuffer> render_buffer(
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RenderDelayBuffer::Create(config, sample_rate_hz, num_render_channels));
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std::unique_ptr<RenderDelayController> delay_controller;
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if (!config.delay.use_external_delay_estimator) {
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delay_controller.reset(RenderDelayController::Create(config, sample_rate_hz,
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num_capture_channels));
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}
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std::unique_ptr<EchoRemover> echo_remover(EchoRemover::Create(
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config, sample_rate_hz, num_render_channels, num_capture_channels));
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return Create(config, sample_rate_hz, num_render_channels,
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num_capture_channels, std::move(render_buffer),
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std::move(delay_controller), std::move(echo_remover));
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}
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BlockProcessor* BlockProcessor::Create(
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const EchoCanceller3Config& config,
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int sample_rate_hz,
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size_t num_render_channels,
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size_t num_capture_channels,
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std::unique_ptr<RenderDelayBuffer> render_buffer) {
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std::unique_ptr<RenderDelayController> delay_controller;
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if (!config.delay.use_external_delay_estimator) {
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delay_controller.reset(RenderDelayController::Create(config, sample_rate_hz,
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num_capture_channels));
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}
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std::unique_ptr<EchoRemover> echo_remover(EchoRemover::Create(
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config, sample_rate_hz, num_render_channels, num_capture_channels));
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return Create(config, sample_rate_hz, num_render_channels,
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num_capture_channels, std::move(render_buffer),
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std::move(delay_controller), std::move(echo_remover));
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}
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BlockProcessor* BlockProcessor::Create(
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const EchoCanceller3Config& config,
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int sample_rate_hz,
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size_t num_render_channels,
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size_t num_capture_channels,
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std::unique_ptr<RenderDelayBuffer> render_buffer,
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std::unique_ptr<RenderDelayController> delay_controller,
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std::unique_ptr<EchoRemover> echo_remover) {
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return new BlockProcessorImpl(config, sample_rate_hz, num_render_channels,
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num_capture_channels, std::move(render_buffer),
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std::move(delay_controller),
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std::move(echo_remover));
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}
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} // namespace webrtc
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