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webrtc/modules/audio_processing/test/audio_processing_simulator.h
Alessio Bazzica ca90a552e9 audioproc_f with simulated mic analog gain 
The gain suggested by AGC is optionally used in audioproc_f to simulate analog gain applied to the mic.
The simulation is done by applying digital gain to the input samples.
This functionality is optional and disabled by default. If an AECdump is provided and the mic gain simulation is enabled, an extra "level undo" step is performed to virtually restore the unmodified mic signal.

This CL has been ported from https://codereview.webrtc.org/2834643002/.

Bug: webrtc:7494
Change-Id: I0df52b5d45a6bfa1efced980d8d6de5c5d9bed48
Reviewed-on: https://webrtc-review.googlesource.com/2685
Commit-Queue: Alessio Bazzica <alessiob@webrtc.org>
Reviewed-by: Per Åhgren <peah@webrtc.org>
Cr-Commit-Position: refs/heads/master@{#19992}
2017-09-27 10:27:56 +00:00

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/*
* Copyright (c) 2016 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 MODULES_AUDIO_PROCESSING_TEST_AUDIO_PROCESSING_SIMULATOR_H_
#define MODULES_AUDIO_PROCESSING_TEST_AUDIO_PROCESSING_SIMULATOR_H_
#include <algorithm>
#include <fstream>
#include <limits>
#include <memory>
#include <string>
#include "api/optional.h"
#include "common_audio/channel_buffer.h"
#include "modules/audio_processing/include/audio_processing.h"
#include "modules/audio_processing/test/fake_recording_device.h"
#include "modules/audio_processing/test/test_utils.h"
#include "rtc_base/constructormagic.h"
#include "rtc_base/task_queue.h"
#include "rtc_base/timeutils.h"
namespace webrtc {
namespace test {
// Holds all the parameters available for controlling the simulation.
struct SimulationSettings {
SimulationSettings();
SimulationSettings(const SimulationSettings&);
~SimulationSettings();
rtc::Optional<int> stream_delay;
rtc::Optional<int> stream_drift_samples;
rtc::Optional<int> output_sample_rate_hz;
rtc::Optional<int> output_num_channels;
rtc::Optional<int> reverse_output_sample_rate_hz;
rtc::Optional<int> reverse_output_num_channels;
rtc::Optional<std::string> microphone_positions;
int target_angle_degrees = 90;
rtc::Optional<std::string> output_filename;
rtc::Optional<std::string> reverse_output_filename;
rtc::Optional<std::string> input_filename;
rtc::Optional<std::string> reverse_input_filename;
rtc::Optional<std::string> artificial_nearend_filename;
rtc::Optional<bool> use_aec;
rtc::Optional<bool> use_aecm;
rtc::Optional<bool> use_ed; // Residual Echo Detector.
rtc::Optional<std::string> ed_graph_output_filename;
rtc::Optional<bool> use_agc;
rtc::Optional<bool> use_agc2;
rtc::Optional<bool> use_hpf;
rtc::Optional<bool> use_ns;
rtc::Optional<bool> use_ts;
rtc::Optional<bool> use_bf;
rtc::Optional<bool> use_ie;
rtc::Optional<bool> use_vad;
rtc::Optional<bool> use_le;
rtc::Optional<bool> use_all;
rtc::Optional<int> aec_suppression_level;
rtc::Optional<bool> use_delay_agnostic;
rtc::Optional<bool> use_extended_filter;
rtc::Optional<bool> use_drift_compensation;
rtc::Optional<bool> use_aec3;
rtc::Optional<bool> use_lc;
rtc::Optional<bool> use_experimental_agc;
rtc::Optional<int> aecm_routing_mode;
rtc::Optional<bool> use_aecm_comfort_noise;
rtc::Optional<int> agc_mode;
rtc::Optional<int> agc_target_level;
rtc::Optional<bool> use_agc_limiter;
rtc::Optional<int> agc_compression_gain;
rtc::Optional<int> vad_likelihood;
rtc::Optional<int> ns_level;
rtc::Optional<bool> use_refined_adaptive_filter;
int initial_mic_level;
bool simulate_mic_gain = false;
rtc::Optional<int> simulated_mic_kind;
bool report_performance = false;
bool report_bitexactness = false;
bool use_verbose_logging = false;
bool discard_all_settings_in_aecdump = true;
rtc::Optional<std::string> aec_dump_input_filename;
rtc::Optional<std::string> aec_dump_output_filename;
bool fixed_interface = false;
bool store_intermediate_output = false;
rtc::Optional<std::string> custom_call_order_filename;
};
// Holds a few statistics about a series of TickIntervals.
struct TickIntervalStats {
TickIntervalStats() : min(std::numeric_limits<int64_t>::max()) {}
int64_t sum;
int64_t max;
int64_t min;
};
// Copies samples present in a ChannelBuffer into an AudioFrame.
void CopyToAudioFrame(const ChannelBuffer<float>& src, AudioFrame* dest);
// Provides common functionality for performing audioprocessing simulations.
class AudioProcessingSimulator {
public:
static const int kChunksPerSecond = 1000 / AudioProcessing::kChunkSizeMs;
explicit AudioProcessingSimulator(const SimulationSettings& settings);
virtual ~AudioProcessingSimulator();
// Processes the data in the input.
virtual void Process() = 0;
// Returns the execution time of all AudioProcessing calls.
const TickIntervalStats& proc_time() const { return proc_time_; }
// Reports whether the processed recording was bitexact.
bool OutputWasBitexact() { return bitexact_output_; }
size_t get_num_process_stream_calls() { return num_process_stream_calls_; }
size_t get_num_reverse_process_stream_calls() {
return num_reverse_process_stream_calls_;
}
protected:
// RAII class for execution time measurement. Updates the provided
// TickIntervalStats based on the time between ScopedTimer creation and
// leaving the enclosing scope.
class ScopedTimer {
public:
explicit ScopedTimer(TickIntervalStats* proc_time)
: proc_time_(proc_time), start_time_(rtc::TimeNanos()) {}
~ScopedTimer();
private:
TickIntervalStats* const proc_time_;
int64_t start_time_;
};
TickIntervalStats* mutable_proc_time() { return &proc_time_; }
void ProcessStream(bool fixed_interface);
void ProcessReverseStream(bool fixed_interface);
void CreateAudioProcessor();
void DestroyAudioProcessor();
void SetupBuffersConfigsOutputs(int input_sample_rate_hz,
int output_sample_rate_hz,
int reverse_input_sample_rate_hz,
int reverse_output_sample_rate_hz,
int input_num_channels,
int output_num_channels,
int reverse_input_num_channels,
int reverse_output_num_channels);
const SimulationSettings settings_;
std::unique_ptr<AudioProcessing> ap_;
std::unique_ptr<ChannelBuffer<float>> in_buf_;
std::unique_ptr<ChannelBuffer<float>> out_buf_;
std::unique_ptr<ChannelBuffer<float>> reverse_in_buf_;
std::unique_ptr<ChannelBuffer<float>> reverse_out_buf_;
StreamConfig in_config_;
StreamConfig out_config_;
StreamConfig reverse_in_config_;
StreamConfig reverse_out_config_;
std::unique_ptr<ChannelBufferWavReader> buffer_reader_;
std::unique_ptr<ChannelBufferWavReader> reverse_buffer_reader_;
AudioFrame rev_frame_;
AudioFrame fwd_frame_;
bool bitexact_output_ = true;
int aec_dump_mic_level_ = 0;
private:
void SetupOutput();
size_t num_process_stream_calls_ = 0;
size_t num_reverse_process_stream_calls_ = 0;
size_t output_reset_counter_ = 0;
std::unique_ptr<ChannelBufferWavWriter> buffer_writer_;
std::unique_ptr<ChannelBufferWavWriter> reverse_buffer_writer_;
TickIntervalStats proc_time_;
std::ofstream residual_echo_likelihood_graph_writer_;
int analog_mic_level_;
FakeRecordingDevice fake_recording_device_;
rtc::TaskQueue worker_queue_;
RTC_DISALLOW_IMPLICIT_CONSTRUCTORS(AudioProcessingSimulator);
};
} // namespace test
} // namespace webrtc
#endif // MODULES_AUDIO_PROCESSING_TEST_AUDIO_PROCESSING_SIMULATOR_H_
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