rtc_tools/unpack_aecdump/unpack.cc - src - Git at Google

 /*
  *  Copyright (c) 2011 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.
  */

 // Commandline tool to unpack audioproc debug files.
 //
 // The debug files are dumped as protobuf blobs. For analysis, it's necessary
 // to unpack the file into its component parts: audio and other data.

 #include <inttypes.h>
 #include <stdint.h>
 #include <stdio.h>
 #include <stdlib.h>

 #include <memory>
 #include <string>
 #include <vector>

 #include "absl/flags/flag.h"
 #include "absl/flags/parse.h"
 #include "api/function_view.h"
 #include "common_audio/wav_file.h"
 #include "modules/audio_processing/test/protobuf_utils.h"
 #include "modules/audio_processing/test/test_utils.h"
 #include "rtc_base/format_macros.h"
 #include "rtc_base/ignore_wundef.h"
 #include "rtc_base/strings/string_builder.h"

 RTC_PUSH_IGNORING_WUNDEF()
 #include "modules/audio_processing/debug.pb.h"
 RTC_POP_IGNORING_WUNDEF()

 ABSL_FLAG(std::string,
           input_file,
           "input",
           "The name of the input stream file.");
 ABSL_FLAG(std::string,
           output_file,
           "ref_out",
           "The name of the reference output stream file.");
 ABSL_FLAG(std::string,
           reverse_file,
           "reverse",
           "The name of the reverse input stream file.");
 ABSL_FLAG(std::string,
           delay_file,
           "delay.int32",
           "The name of the delay file.");
 ABSL_FLAG(std::string,
           drift_file,
           "drift.int32",
           "The name of the drift file.");
 ABSL_FLAG(std::string,
           level_file,
           "level.int32",
           "The name of the level file.");
 ABSL_FLAG(std::string,
           keypress_file,
           "keypress.bool",
           "The name of the keypress file.");
 ABSL_FLAG(std::string,
           callorder_file,
           "callorder",
           "The name of the render/capture call order file.");
 ABSL_FLAG(std::string,
           settings_file,
           "settings.txt",
           "The name of the settings file.");
 ABSL_FLAG(bool,
           full,
           false,
           "Unpack the full set of files (normally not needed).");
 ABSL_FLAG(bool, raw, false, "Write raw data instead of a WAV file.");
 ABSL_FLAG(bool,
           text,
           false,
           "Write non-audio files as text files instead of binary files.");
 ABSL_FLAG(bool,
           use_init_suffix,
           false,
           "Use init index instead of capture frame count as file name suffix.");

 #define PRINT_CONFIG(field_name)                                         \
   if (msg.has_##field_name()) {                                          \
     fprintf(settings_file, "  " #field_name ": %d\n", msg.field_name()); \
   }

 #define PRINT_CONFIG_FLOAT(field_name)                                   \
   if (msg.has_##field_name()) {                                          \
     fprintf(settings_file, "  " #field_name ": %f\n", msg.field_name()); \
   }

 namespace webrtc {

 using audioproc::Event;
 using audioproc::Init;
 using audioproc::ReverseStream;
 using audioproc::Stream;

 namespace {

 void WriteData(const void* data,
                size_t size,
                FILE* file,
                const std::string& filename) {
   if (fwrite(data, size, 1, file) != 1) {
     printf("Error when writing to %s\n", filename.c_str());
     exit(1);
   }
 }

 void WriteCallOrderData(const bool render_call,
                         FILE* file,
                         const std::string& filename) {
   const char call_type = render_call ? 'r' : 'c';
   WriteData(&call_type, sizeof(call_type), file, filename.c_str());
 }

 bool WritingCallOrderFile() {
   return absl::GetFlag(FLAGS_full);
 }

 bool WritingRuntimeSettingFiles() {
   return absl::GetFlag(FLAGS_full);
 }

 // Exports RuntimeSetting AEC dump events to Audacity-readable files.
 // This class is not RAII compliant.
 class RuntimeSettingWriter {
  public:
   RuntimeSettingWriter(
       std::string name,
       rtc::FunctionView<bool(const Event)> is_exporter_for,
       rtc::FunctionView<std::string(const Event)> get_timeline_label)
       : setting_name_(std::move(name)),
         is_exporter_for_(is_exporter_for),
         get_timeline_label_(get_timeline_label) {}
   ~RuntimeSettingWriter() { Flush(); }

   bool IsExporterFor(const Event& event) const {
     return is_exporter_for_(event);
   }

   // Writes to file the payload of |event| using |frame_count| to calculate
   // timestamp.
   void WriteEvent(const Event& event, int frame_count) {
     RTC_DCHECK(is_exporter_for_(event));
     if (file_ == nullptr) {
       rtc::StringBuilder file_name;
       file_name << setting_name_ << frame_offset_ << ".txt";
       file_ = OpenFile(file_name.str(), "wb");
     }

     // Time in the current WAV file, in seconds.
     double time = (frame_count - frame_offset_) / 100.0;
     std::string label = get_timeline_label_(event);
     // In Audacity, all annotations are encoded as intervals.
     fprintf(file_, "%.6f\t%.6f\t%s \n", time, time, label.c_str());
   }

   // Handles an AEC dump initialization event, occurring at frame
   // |frame_offset|.
   void HandleInitEvent(int frame_offset) {
     Flush();
     frame_offset_ = frame_offset;
   }

  private:
   void Flush() {
     if (file_ != nullptr) {
       fclose(file_);
       file_ = nullptr;
     }
   }

   FILE* file_ = nullptr;
   int frame_offset_ = 0;
   const std::string setting_name_;
   const rtc::FunctionView<bool(Event)> is_exporter_for_;
   const rtc::FunctionView<std::string(Event)> get_timeline_label_;
 };

 // Returns RuntimeSetting exporters for runtime setting types defined in
 // debug.proto.
 std::vector<RuntimeSettingWriter> RuntimeSettingWriters() {
   return {
       RuntimeSettingWriter(
           "CapturePreGain",
           [](const Event& event) -> bool {
             return event.runtime_setting().has_capture_pre_gain();
           },
           [](const Event& event) -> std::string {
             return std::to_string(event.runtime_setting().capture_pre_gain());
           }),
       RuntimeSettingWriter(
           "CustomRenderProcessingRuntimeSetting",
           [](const Event& event) -> bool {
             return event.runtime_setting()
                 .has_custom_render_processing_setting();
           },
           [](const Event& event) -> std::string {
             return std::to_string(
                 event.runtime_setting().custom_render_processing_setting());
           }),
       RuntimeSettingWriter(
           "CaptureFixedPostGain",
           [](const Event& event) -> bool {
             return event.runtime_setting().has_capture_fixed_post_gain();
           },
           [](const Event& event) -> std::string {
             return std::to_string(
                 event.runtime_setting().capture_fixed_post_gain());
           }),
       RuntimeSettingWriter(
           "PlayoutVolumeChange",
           [](const Event& event) -> bool {
             return event.runtime_setting().has_playout_volume_change();
           },
           [](const Event& event) -> std::string {
             return std::to_string(
                 event.runtime_setting().playout_volume_change());
           })};
 }

 std::string GetWavFileIndex(int init_index, int frame_count) {
   rtc::StringBuilder suffix;
   if (absl::GetFlag(FLAGS_use_init_suffix)) {
     suffix << "_" << init_index;
   } else {
     suffix << frame_count;
   }
   return suffix.str();
 }

 }  // namespace

 int do_main(int argc, char* argv[]) {
   std::vector<char*> args = absl::ParseCommandLine(argc, argv);
   std::string program_name = args[0];
   std::string usage =
       "Commandline tool to unpack audioproc debug files.\n"
       "Example usage:\n" +
       program_name + " debug_dump.pb\n";

   if (args.size() < 2) {
     printf("%s", usage.c_str());
     return 1;
   }

   FILE* debug_file = OpenFile(args[1], "rb");

   Event event_msg;
   int frame_count = 0;
   int init_count = 0;
   size_t reverse_samples_per_channel = 0;
   size_t input_samples_per_channel = 0;
   size_t output_samples_per_channel = 0;
   size_t num_reverse_channels = 0;
   size_t num_input_channels = 0;
   size_t num_output_channels = 0;
   std::unique_ptr<WavWriter> reverse_wav_file;
   std::unique_ptr<WavWriter> input_wav_file;
   std::unique_ptr<WavWriter> output_wav_file;
   std::unique_ptr<RawFile> reverse_raw_file;
   std::unique_ptr<RawFile> input_raw_file;
   std::unique_ptr<RawFile> output_raw_file;

   rtc::StringBuilder callorder_raw_name;
   callorder_raw_name << absl::GetFlag(FLAGS_callorder_file) << ".char";
   FILE* callorder_char_file = WritingCallOrderFile()
                                   ? OpenFile(callorder_raw_name.str(), "wb")
                                   : nullptr;
   FILE* settings_file = OpenFile(absl::GetFlag(FLAGS_settings_file), "wb");

   std::vector<RuntimeSettingWriter> runtime_setting_writers =
       RuntimeSettingWriters();

   while (ReadMessageFromFile(debug_file, &event_msg)) {
     if (event_msg.type() == Event::REVERSE_STREAM) {
       if (!event_msg.has_reverse_stream()) {
         printf("Corrupt input file: ReverseStream missing.\n");
         return 1;
       }

       const ReverseStream msg = event_msg.reverse_stream();
       if (msg.has_data()) {
         if (absl::GetFlag(FLAGS_raw) && !reverse_raw_file) {
           reverse_raw_file.reset(
               new RawFile(absl::GetFlag(FLAGS_reverse_file) + ".pcm"));
         }
         // TODO(aluebs): Replace "num_reverse_channels *
         // reverse_samples_per_channel" with "msg.data().size() /
         // sizeof(int16_t)" and so on when this fix in audio_processing has made
         // it into stable: https://webrtc-codereview.appspot.com/15299004/
         WriteIntData(reinterpret_cast<const int16_t*>(msg.data().data()),
                      num_reverse_channels * reverse_samples_per_channel,
                      reverse_wav_file.get(), reverse_raw_file.get());
       } else if (msg.channel_size() > 0) {
         if (absl::GetFlag(FLAGS_raw) && !reverse_raw_file) {
           reverse_raw_file.reset(
               new RawFile(absl::GetFlag(FLAGS_reverse_file) + ".float"));
         }
         std::unique_ptr<const float*[]> data(
             new const float*[num_reverse_channels]);
         for (size_t i = 0; i < num_reverse_channels; ++i) {
           data[i] = reinterpret_cast<const float*>(msg.channel(i).data());
         }
         WriteFloatData(data.get(), reverse_samples_per_channel,
                        num_reverse_channels, reverse_wav_file.get(),
                        reverse_raw_file.get());
       }
       if (absl::GetFlag(FLAGS_full)) {
         if (WritingCallOrderFile()) {
           WriteCallOrderData(true /* render_call */, callorder_char_file,
                              absl::GetFlag(FLAGS_callorder_file));
         }
       }
     } else if (event_msg.type() == Event::STREAM) {
       frame_count++;
       if (!event_msg.has_stream()) {
         printf("Corrupt input file: Stream missing.\n");
         return 1;
       }

       const Stream msg = event_msg.stream();
       if (msg.has_input_data()) {
         if (absl::GetFlag(FLAGS_raw) && !input_raw_file) {
           input_raw_file.reset(
               new RawFile(absl::GetFlag(FLAGS_input_file) + ".pcm"));
         }
         WriteIntData(reinterpret_cast<const int16_t*>(msg.input_data().data()),
                      num_input_channels * input_samples_per_channel,
                      input_wav_file.get(), input_raw_file.get());
       } else if (msg.input_channel_size() > 0) {
         if (absl::GetFlag(FLAGS_raw) && !input_raw_file) {
           input_raw_file.reset(
               new RawFile(absl::GetFlag(FLAGS_input_file) + ".float"));
         }
         std::unique_ptr<const float*[]> data(
             new const float*[num_input_channels]);
         for (size_t i = 0; i < num_input_channels; ++i) {
           data[i] = reinterpret_cast<const float*>(msg.input_channel(i).data());
         }
         WriteFloatData(data.get(), input_samples_per_channel,
                        num_input_channels, input_wav_file.get(),
                        input_raw_file.get());
       }

       if (msg.has_output_data()) {
         if (absl::GetFlag(FLAGS_raw) && !output_raw_file) {
           output_raw_file.reset(
               new RawFile(absl::GetFlag(FLAGS_output_file) + ".pcm"));
         }
         WriteIntData(reinterpret_cast<const int16_t*>(msg.output_data().data()),
                      num_output_channels * output_samples_per_channel,
                      output_wav_file.get(), output_raw_file.get());
       } else if (msg.output_channel_size() > 0) {
         if (absl::GetFlag(FLAGS_raw) && !output_raw_file) {
           output_raw_file.reset(
               new RawFile(absl::GetFlag(FLAGS_output_file) + ".float"));
         }
         std::unique_ptr<const float*[]> data(
             new const float*[num_output_channels]);
         for (size_t i = 0; i < num_output_channels; ++i) {
           data[i] =
               reinterpret_cast<const float*>(msg.output_channel(i).data());
         }
         WriteFloatData(data.get(), output_samples_per_channel,
                        num_output_channels, output_wav_file.get(),
                        output_raw_file.get());
       }

       if (absl::GetFlag(FLAGS_full)) {
         if (WritingCallOrderFile()) {
           WriteCallOrderData(false /* render_call */, callorder_char_file,
                              absl::GetFlag(FLAGS_callorder_file));
         }
         if (msg.has_delay()) {
           static FILE* delay_file =
               OpenFile(absl::GetFlag(FLAGS_delay_file), "wb");
           int32_t delay = msg.delay();
           if (absl::GetFlag(FLAGS_text)) {
             fprintf(delay_file, "%d\n", delay);
           } else {
             WriteData(&delay, sizeof(delay), delay_file,
                       absl::GetFlag(FLAGS_delay_file));
           }
         }

         if (msg.has_drift()) {
           static FILE* drift_file =
               OpenFile(absl::GetFlag(FLAGS_drift_file), "wb");
           int32_t drift = msg.drift();
           if (absl::GetFlag(FLAGS_text)) {
             fprintf(drift_file, "%d\n", drift);
           } else {
             WriteData(&drift, sizeof(drift), drift_file,
                       absl::GetFlag(FLAGS_drift_file));
           }
         }

         if (msg.has_level()) {
           static FILE* level_file =
               OpenFile(absl::GetFlag(FLAGS_level_file), "wb");
           int32_t level = msg.level();
           if (absl::GetFlag(FLAGS_text)) {
             fprintf(level_file, "%d\n", level);
           } else {
             WriteData(&level, sizeof(level), level_file,
                       absl::GetFlag(FLAGS_level_file));
           }
         }

         if (msg.has_keypress()) {
           static FILE* keypress_file =
               OpenFile(absl::GetFlag(FLAGS_keypress_file), "wb");
           bool keypress = msg.keypress();
           if (absl::GetFlag(FLAGS_text)) {
             fprintf(keypress_file, "%d\n", keypress);
           } else {
             WriteData(&keypress, sizeof(keypress), keypress_file,
                       absl::GetFlag(FLAGS_keypress_file));
           }
         }
       }
     } else if (event_msg.type() == Event::CONFIG) {
       if (!event_msg.has_config()) {
         printf("Corrupt input file: Config missing.\n");
         return 1;
       }
       const audioproc::Config msg = event_msg.config();

       fprintf(settings_file, "APM re-config at frame: %d\n", frame_count);

       PRINT_CONFIG(aec_enabled);
       PRINT_CONFIG(aec_delay_agnostic_enabled);
       PRINT_CONFIG(aec_drift_compensation_enabled);
       PRINT_CONFIG(aec_extended_filter_enabled);
       PRINT_CONFIG(aec_suppression_level);
       PRINT_CONFIG(aecm_enabled);
       PRINT_CONFIG(aecm_comfort_noise_enabled);
       PRINT_CONFIG(aecm_routing_mode);
       PRINT_CONFIG(agc_enabled);
       PRINT_CONFIG(agc_mode);
       PRINT_CONFIG(agc_limiter_enabled);
       PRINT_CONFIG(noise_robust_agc_enabled);
       PRINT_CONFIG(hpf_enabled);
       PRINT_CONFIG(ns_enabled);
       PRINT_CONFIG(ns_level);
       PRINT_CONFIG(transient_suppression_enabled);
       PRINT_CONFIG(pre_amplifier_enabled);
       PRINT_CONFIG_FLOAT(pre_amplifier_fixed_gain_factor);

       if (msg.has_experiments_description()) {
         fprintf(settings_file, "  experiments_description: %s\n",
                 msg.experiments_description().c_str());
       }
     } else if (event_msg.type() == Event::INIT) {
       if (!event_msg.has_init()) {
         printf("Corrupt input file: Init missing.\n");
         return 1;
       }

       ++init_count;
       const Init msg = event_msg.init();
       // These should print out zeros if they're missing.
       fprintf(settings_file, "Init #%d at frame: %d\n", init_count,
               frame_count);
       int input_sample_rate = msg.sample_rate();
       fprintf(settings_file, "  Input sample rate: %d\n", input_sample_rate);
       int output_sample_rate = msg.output_sample_rate();
       fprintf(settings_file, "  Output sample rate: %d\n", output_sample_rate);
       int reverse_sample_rate = msg.reverse_sample_rate();
       fprintf(settings_file, "  Reverse sample rate: %d\n",
               reverse_sample_rate);
       num_input_channels = msg.num_input_channels();
       fprintf(settings_file, "  Input channels: %" RTC_PRIuS "\n",
               num_input_channels);
       num_output_channels = msg.num_output_channels();
       fprintf(settings_file, "  Output channels: %" RTC_PRIuS "\n",
               num_output_channels);
       num_reverse_channels = msg.num_reverse_channels();
       fprintf(settings_file, "  Reverse channels: %" RTC_PRIuS "\n",
               num_reverse_channels);
       if (msg.has_timestamp_ms()) {
         const int64_t timestamp = msg.timestamp_ms();
         fprintf(settings_file, "  Timestamp in millisecond: %" PRId64 "\n",
                 timestamp);
       }

       fprintf(settings_file, "\n");

       if (reverse_sample_rate == 0) {
         reverse_sample_rate = input_sample_rate;
       }
       if (output_sample_rate == 0) {
         output_sample_rate = input_sample_rate;
       }

       reverse_samples_per_channel =
           static_cast<size_t>(reverse_sample_rate / 100);
       input_samples_per_channel = static_cast<size_t>(input_sample_rate / 100);
       output_samples_per_channel =
           static_cast<size_t>(output_sample_rate / 100);

       if (!absl::GetFlag(FLAGS_raw)) {
         // The WAV files need to be reset every time, because they cant change
         // their sample rate or number of channels.

         std::string suffix = GetWavFileIndex(init_count, frame_count);
         rtc::StringBuilder reverse_name;
         reverse_name << absl::GetFlag(FLAGS_reverse_file) << suffix << ".wav";
         reverse_wav_file.reset(new WavWriter(
             reverse_name.str(), reverse_sample_rate, num_reverse_channels));
         rtc::StringBuilder input_name;
         input_name << absl::GetFlag(FLAGS_input_file) << suffix << ".wav";
         input_wav_file.reset(new WavWriter(input_name.str(), input_sample_rate,
                                            num_input_channels));
         rtc::StringBuilder output_name;
         output_name << absl::GetFlag(FLAGS_output_file) << suffix << ".wav";
         output_wav_file.reset(new WavWriter(
             output_name.str(), output_sample_rate, num_output_channels));

         if (WritingCallOrderFile()) {
           rtc::StringBuilder callorder_name;
           callorder_name << absl::GetFlag(FLAGS_callorder_file) << suffix
                          << ".char";
           callorder_char_file = OpenFile(callorder_name.str(), "wb");
         }

         if (WritingRuntimeSettingFiles()) {
           for (RuntimeSettingWriter& writer : runtime_setting_writers) {
             writer.HandleInitEvent(frame_count);
           }
         }
       }
     } else if (event_msg.type() == Event::RUNTIME_SETTING) {
       if (WritingRuntimeSettingFiles()) {
         for (RuntimeSettingWriter& writer : runtime_setting_writers) {
           if (writer.IsExporterFor(event_msg)) {
             writer.WriteEvent(event_msg, frame_count);
           }
         }
       }
     }
   }

   return 0;
 }

 }  // namespace webrtc

 int main(int argc, char* argv[]) {
   return webrtc::do_main(argc, argv);
 }
	/*
	* Copyright (c) 2011 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.
	*/

	// Commandline tool to unpack audioproc debug files.
	//
	// The debug files are dumped as protobuf blobs. For analysis, it's necessary
	// to unpack the file into its component parts: audio and other data.

	#include <inttypes.h>
	#include <stdint.h>
	#include <stdio.h>
	#include <stdlib.h>

	#include <memory>
	#include <string>
	#include <vector>

	#include "absl/flags/flag.h"
	#include "absl/flags/parse.h"
	#include "api/function_view.h"
	#include "common_audio/wav_file.h"
	#include "modules/audio_processing/test/protobuf_utils.h"
	#include "modules/audio_processing/test/test_utils.h"
	#include "rtc_base/format_macros.h"
	#include "rtc_base/ignore_wundef.h"
	#include "rtc_base/strings/string_builder.h"

	RTC_PUSH_IGNORING_WUNDEF()
	#include "modules/audio_processing/debug.pb.h"
	RTC_POP_IGNORING_WUNDEF()

	ABSL_FLAG(std::string,
	input_file,
	"input",
	"The name of the input stream file.");
	ABSL_FLAG(std::string,
	output_file,
	"ref_out",
	"The name of the reference output stream file.");
	ABSL_FLAG(std::string,
	reverse_file,
	"reverse",
	"The name of the reverse input stream file.");
	ABSL_FLAG(std::string,
	delay_file,
	"delay.int32",
	"The name of the delay file.");
	ABSL_FLAG(std::string,
	drift_file,
	"drift.int32",
	"The name of the drift file.");
	ABSL_FLAG(std::string,
	level_file,
	"level.int32",
	"The name of the level file.");
	ABSL_FLAG(std::string,
	keypress_file,
	"keypress.bool",
	"The name of the keypress file.");
	ABSL_FLAG(std::string,
	callorder_file,
	"callorder",
	"The name of the render/capture call order file.");
	ABSL_FLAG(std::string,
	settings_file,
	"settings.txt",
	"The name of the settings file.");
	ABSL_FLAG(bool,
	full,
	false,
	"Unpack the full set of files (normally not needed).");
	ABSL_FLAG(bool, raw, false, "Write raw data instead of a WAV file.");
	ABSL_FLAG(bool,
	text,
	false,
	"Write non-audio files as text files instead of binary files.");
	ABSL_FLAG(bool,
	use_init_suffix,
	false,
	"Use init index instead of capture frame count as file name suffix.");

	#define PRINT_CONFIG(field_name) \
	if (msg.has_##field_name()) { \
	fprintf(settings_file, " " #field_name ": %d\n", msg.field_name()); \
	}

	#define PRINT_CONFIG_FLOAT(field_name) \
	if (msg.has_##field_name()) { \
	fprintf(settings_file, " " #field_name ": %f\n", msg.field_name()); \
	}

	namespace webrtc {

	using audioproc::Event;
	using audioproc::Init;
	using audioproc::ReverseStream;
	using audioproc::Stream;

	namespace {

	void WriteData(const void* data,
	size_t size,
	FILE* file,
	const std::string& filename) {
	if (fwrite(data, size, 1, file) != 1) {
	printf("Error when writing to %s\n", filename.c_str());
	exit(1);
	}
	}

	void WriteCallOrderData(const bool render_call,
	FILE* file,
	const std::string& filename) {
	const char call_type = render_call ? 'r' : 'c';
	WriteData(&call_type, sizeof(call_type), file, filename.c_str());
	}

	bool WritingCallOrderFile() {
	return absl::GetFlag(FLAGS_full);
	}

	bool WritingRuntimeSettingFiles() {
	return absl::GetFlag(FLAGS_full);
	}

	// Exports RuntimeSetting AEC dump events to Audacity-readable files.
	// This class is not RAII compliant.
	class RuntimeSettingWriter {
	public:
	RuntimeSettingWriter(
	std::string name,
	rtc::FunctionView<bool(const Event)> is_exporter_for,
	rtc::FunctionView<std::string(const Event)> get_timeline_label)
	: setting_name_(std::move(name)),
	is_exporter_for_(is_exporter_for),
	get_timeline_label_(get_timeline_label) {}
	~RuntimeSettingWriter() { Flush(); }

	bool IsExporterFor(const Event& event) const {
	return is_exporter_for_(event);
	}

	// Writes to file the payload of \|event\| using \|frame_count\| to calculate
	// timestamp.
	void WriteEvent(const Event& event, int frame_count) {
	RTC_DCHECK(is_exporter_for_(event));
	if (file_ == nullptr) {
	rtc::StringBuilder file_name;
	file_name << setting_name_ << frame_offset_ << ".txt";
	file_ = OpenFile(file_name.str(), "wb");
	}

	// Time in the current WAV file, in seconds.
	double time = (frame_count - frame_offset_) / 100.0;
	std::string label = get_timeline_label_(event);
	// In Audacity, all annotations are encoded as intervals.
	fprintf(file_, "%.6f\t%.6f\t%s \n", time, time, label.c_str());
	}

	// Handles an AEC dump initialization event, occurring at frame
	// \|frame_offset\|.
	void HandleInitEvent(int frame_offset) {
	Flush();
	frame_offset_ = frame_offset;
	}

	private:
	void Flush() {
	if (file_ != nullptr) {
	fclose(file_);
	file_ = nullptr;
	}
	}

	FILE* file_ = nullptr;
	int frame_offset_ = 0;
	const std::string setting_name_;
	const rtc::FunctionView<bool(Event)> is_exporter_for_;
	const rtc::FunctionView<std::string(Event)> get_timeline_label_;
	};

	// Returns RuntimeSetting exporters for runtime setting types defined in
	// debug.proto.
	std::vector<RuntimeSettingWriter> RuntimeSettingWriters() {
	return {
	RuntimeSettingWriter(
	"CapturePreGain",
	[](const Event& event) -> bool {
	return event.runtime_setting().has_capture_pre_gain();
	},
	[](const Event& event) -> std::string {
	return std::to_string(event.runtime_setting().capture_pre_gain());
	}),
	RuntimeSettingWriter(
	"CustomRenderProcessingRuntimeSetting",
	[](const Event& event) -> bool {
	return event.runtime_setting()
	.has_custom_render_processing_setting();
	},
	[](const Event& event) -> std::string {
	return std::to_string(
	event.runtime_setting().custom_render_processing_setting());
	}),
	RuntimeSettingWriter(
	"CaptureFixedPostGain",
	[](const Event& event) -> bool {
	return event.runtime_setting().has_capture_fixed_post_gain();
	},
	[](const Event& event) -> std::string {
	return std::to_string(
	event.runtime_setting().capture_fixed_post_gain());
	}),
	RuntimeSettingWriter(
	"PlayoutVolumeChange",
	[](const Event& event) -> bool {
	return event.runtime_setting().has_playout_volume_change();
	},
	[](const Event& event) -> std::string {
	return std::to_string(
	event.runtime_setting().playout_volume_change());
	})};
	}

	std::string GetWavFileIndex(int init_index, int frame_count) {
	rtc::StringBuilder suffix;
	if (absl::GetFlag(FLAGS_use_init_suffix)) {
	suffix << "_" << init_index;
	} else {
	suffix << frame_count;
	}
	return suffix.str();
	}

	} // namespace

	int do_main(int argc, char* argv[]) {
	std::vector<char*> args = absl::ParseCommandLine(argc, argv);
	std::string program_name = args[0];
	std::string usage =
	"Commandline tool to unpack audioproc debug files.\n"
	"Example usage:\n" +
	program_name + " debug_dump.pb\n";

	if (args.size() < 2) {
	printf("%s", usage.c_str());
	return 1;
	}

	FILE* debug_file = OpenFile(args[1], "rb");

	Event event_msg;
	int frame_count = 0;
	int init_count = 0;
	size_t reverse_samples_per_channel = 0;
	size_t input_samples_per_channel = 0;
	size_t output_samples_per_channel = 0;
	size_t num_reverse_channels = 0;
	size_t num_input_channels = 0;
	size_t num_output_channels = 0;
	std::unique_ptr<WavWriter> reverse_wav_file;
	std::unique_ptr<WavWriter> input_wav_file;
	std::unique_ptr<WavWriter> output_wav_file;
	std::unique_ptr<RawFile> reverse_raw_file;
	std::unique_ptr<RawFile> input_raw_file;
	std::unique_ptr<RawFile> output_raw_file;

	rtc::StringBuilder callorder_raw_name;
	callorder_raw_name << absl::GetFlag(FLAGS_callorder_file) << ".char";
	FILE* callorder_char_file = WritingCallOrderFile()
	? OpenFile(callorder_raw_name.str(), "wb")
	: nullptr;
	FILE* settings_file = OpenFile(absl::GetFlag(FLAGS_settings_file), "wb");

	std::vector<RuntimeSettingWriter> runtime_setting_writers =
	RuntimeSettingWriters();

	while (ReadMessageFromFile(debug_file, &event_msg)) {
	if (event_msg.type() == Event::REVERSE_STREAM) {
	if (!event_msg.has_reverse_stream()) {
	printf("Corrupt input file: ReverseStream missing.\n");
	return 1;
	}

	const ReverseStream msg = event_msg.reverse_stream();
	if (msg.has_data()) {
	if (absl::GetFlag(FLAGS_raw) && !reverse_raw_file) {
	reverse_raw_file.reset(
	new RawFile(absl::GetFlag(FLAGS_reverse_file) + ".pcm"));
	}
	// TODO(aluebs): Replace "num_reverse_channels *
	// reverse_samples_per_channel" with "msg.data().size() /
	// sizeof(int16_t)" and so on when this fix in audio_processing has made
	// it into stable: https://webrtc-codereview.appspot.com/15299004/
	WriteIntData(reinterpret_cast<const int16_t*>(msg.data().data()),
	num_reverse_channels * reverse_samples_per_channel,
	reverse_wav_file.get(), reverse_raw_file.get());
	} else if (msg.channel_size() > 0) {
	if (absl::GetFlag(FLAGS_raw) && !reverse_raw_file) {
	reverse_raw_file.reset(
	new RawFile(absl::GetFlag(FLAGS_reverse_file) + ".float"));
	}
	std::unique_ptr<const float*[]> data(
	new const float*[num_reverse_channels]);
	for (size_t i = 0; i < num_reverse_channels; ++i) {
	data[i] = reinterpret_cast<const float*>(msg.channel(i).data());
	}
	WriteFloatData(data.get(), reverse_samples_per_channel,
	num_reverse_channels, reverse_wav_file.get(),
	reverse_raw_file.get());
	}
	if (absl::GetFlag(FLAGS_full)) {
	if (WritingCallOrderFile()) {
	WriteCallOrderData(true /* render_call */, callorder_char_file,
	absl::GetFlag(FLAGS_callorder_file));
	}
	}
	} else if (event_msg.type() == Event::STREAM) {
	frame_count++;
	if (!event_msg.has_stream()) {
	printf("Corrupt input file: Stream missing.\n");
	return 1;
	}

	const Stream msg = event_msg.stream();
	if (msg.has_input_data()) {
	if (absl::GetFlag(FLAGS_raw) && !input_raw_file) {
	input_raw_file.reset(
	new RawFile(absl::GetFlag(FLAGS_input_file) + ".pcm"));
	}
	WriteIntData(reinterpret_cast<const int16_t*>(msg.input_data().data()),
	num_input_channels * input_samples_per_channel,
	input_wav_file.get(), input_raw_file.get());
	} else if (msg.input_channel_size() > 0) {
	if (absl::GetFlag(FLAGS_raw) && !input_raw_file) {
	input_raw_file.reset(
	new RawFile(absl::GetFlag(FLAGS_input_file) + ".float"));
	}
	std::unique_ptr<const float*[]> data(
	new const float*[num_input_channels]);
	for (size_t i = 0; i < num_input_channels; ++i) {
	data[i] = reinterpret_cast<const float*>(msg.input_channel(i).data());
	}
	WriteFloatData(data.get(), input_samples_per_channel,
	num_input_channels, input_wav_file.get(),
	input_raw_file.get());
	}

	if (msg.has_output_data()) {
	if (absl::GetFlag(FLAGS_raw) && !output_raw_file) {
	output_raw_file.reset(
	new RawFile(absl::GetFlag(FLAGS_output_file) + ".pcm"));
	}
	WriteIntData(reinterpret_cast<const int16_t*>(msg.output_data().data()),
	num_output_channels * output_samples_per_channel,
	output_wav_file.get(), output_raw_file.get());
	} else if (msg.output_channel_size() > 0) {
	if (absl::GetFlag(FLAGS_raw) && !output_raw_file) {
	output_raw_file.reset(
	new RawFile(absl::GetFlag(FLAGS_output_file) + ".float"));
	}
	std::unique_ptr<const float*[]> data(
	new const float*[num_output_channels]);
	for (size_t i = 0; i < num_output_channels; ++i) {
	data[i] =
	reinterpret_cast<const float*>(msg.output_channel(i).data());
	}
	WriteFloatData(data.get(), output_samples_per_channel,
	num_output_channels, output_wav_file.get(),
	output_raw_file.get());
	}

	if (absl::GetFlag(FLAGS_full)) {
	if (WritingCallOrderFile()) {
	WriteCallOrderData(false /* render_call */, callorder_char_file,
	absl::GetFlag(FLAGS_callorder_file));
	}
	if (msg.has_delay()) {
	static FILE* delay_file =
	OpenFile(absl::GetFlag(FLAGS_delay_file), "wb");
	int32_t delay = msg.delay();
	if (absl::GetFlag(FLAGS_text)) {
	fprintf(delay_file, "%d\n", delay);
	} else {
	WriteData(&delay, sizeof(delay), delay_file,
	absl::GetFlag(FLAGS_delay_file));
	}
	}

	if (msg.has_drift()) {
	static FILE* drift_file =
	OpenFile(absl::GetFlag(FLAGS_drift_file), "wb");
	int32_t drift = msg.drift();
	if (absl::GetFlag(FLAGS_text)) {
	fprintf(drift_file, "%d\n", drift);
	} else {
	WriteData(&drift, sizeof(drift), drift_file,
	absl::GetFlag(FLAGS_drift_file));
	}
	}

	if (msg.has_level()) {
	static FILE* level_file =
	OpenFile(absl::GetFlag(FLAGS_level_file), "wb");
	int32_t level = msg.level();
	if (absl::GetFlag(FLAGS_text)) {
	fprintf(level_file, "%d\n", level);
	} else {
	WriteData(&level, sizeof(level), level_file,
	absl::GetFlag(FLAGS_level_file));
	}
	}

	if (msg.has_keypress()) {
	static FILE* keypress_file =
	OpenFile(absl::GetFlag(FLAGS_keypress_file), "wb");
	bool keypress = msg.keypress();
	if (absl::GetFlag(FLAGS_text)) {
	fprintf(keypress_file, "%d\n", keypress);
	} else {
	WriteData(&keypress, sizeof(keypress), keypress_file,
	absl::GetFlag(FLAGS_keypress_file));
	}
	}
	}
	} else if (event_msg.type() == Event::CONFIG) {
	if (!event_msg.has_config()) {
	printf("Corrupt input file: Config missing.\n");
	return 1;
	}
	const audioproc::Config msg = event_msg.config();

	fprintf(settings_file, "APM re-config at frame: %d\n", frame_count);

	PRINT_CONFIG(aec_enabled);
	PRINT_CONFIG(aec_delay_agnostic_enabled);
	PRINT_CONFIG(aec_drift_compensation_enabled);
	PRINT_CONFIG(aec_extended_filter_enabled);
	PRINT_CONFIG(aec_suppression_level);
	PRINT_CONFIG(aecm_enabled);
	PRINT_CONFIG(aecm_comfort_noise_enabled);
	PRINT_CONFIG(aecm_routing_mode);
	PRINT_CONFIG(agc_enabled);
	PRINT_CONFIG(agc_mode);
	PRINT_CONFIG(agc_limiter_enabled);
	PRINT_CONFIG(noise_robust_agc_enabled);
	PRINT_CONFIG(hpf_enabled);
	PRINT_CONFIG(ns_enabled);
	PRINT_CONFIG(ns_level);
	PRINT_CONFIG(transient_suppression_enabled);
	PRINT_CONFIG(pre_amplifier_enabled);
	PRINT_CONFIG_FLOAT(pre_amplifier_fixed_gain_factor);

	if (msg.has_experiments_description()) {
	fprintf(settings_file, " experiments_description: %s\n",
	msg.experiments_description().c_str());
	}
	} else if (event_msg.type() == Event::INIT) {
	if (!event_msg.has_init()) {
	printf("Corrupt input file: Init missing.\n");
	return 1;
	}

	++init_count;
	const Init msg = event_msg.init();
	// These should print out zeros if they're missing.
	fprintf(settings_file, "Init #%d at frame: %d\n", init_count,
	frame_count);
	int input_sample_rate = msg.sample_rate();
	fprintf(settings_file, " Input sample rate: %d\n", input_sample_rate);
	int output_sample_rate = msg.output_sample_rate();
	fprintf(settings_file, " Output sample rate: %d\n", output_sample_rate);
	int reverse_sample_rate = msg.reverse_sample_rate();
	fprintf(settings_file, " Reverse sample rate: %d\n",
	reverse_sample_rate);
	num_input_channels = msg.num_input_channels();
	fprintf(settings_file, " Input channels: %" RTC_PRIuS "\n",
	num_input_channels);
	num_output_channels = msg.num_output_channels();
	fprintf(settings_file, " Output channels: %" RTC_PRIuS "\n",
	num_output_channels);
	num_reverse_channels = msg.num_reverse_channels();
	fprintf(settings_file, " Reverse channels: %" RTC_PRIuS "\n",
	num_reverse_channels);
	if (msg.has_timestamp_ms()) {
	const int64_t timestamp = msg.timestamp_ms();
	fprintf(settings_file, " Timestamp in millisecond: %" PRId64 "\n",
	timestamp);
	}

	fprintf(settings_file, "\n");

	if (reverse_sample_rate == 0) {
	reverse_sample_rate = input_sample_rate;
	}
	if (output_sample_rate == 0) {
	output_sample_rate = input_sample_rate;
	}

	reverse_samples_per_channel =
	static_cast<size_t>(reverse_sample_rate / 100);
	input_samples_per_channel = static_cast<size_t>(input_sample_rate / 100);
	output_samples_per_channel =
	static_cast<size_t>(output_sample_rate / 100);

	if (!absl::GetFlag(FLAGS_raw)) {
	// The WAV files need to be reset every time, because they cant change
	// their sample rate or number of channels.

	std::string suffix = GetWavFileIndex(init_count, frame_count);
	rtc::StringBuilder reverse_name;
	reverse_name << absl::GetFlag(FLAGS_reverse_file) << suffix << ".wav";
	reverse_wav_file.reset(new WavWriter(
	reverse_name.str(), reverse_sample_rate, num_reverse_channels));
	rtc::StringBuilder input_name;
	input_name << absl::GetFlag(FLAGS_input_file) << suffix << ".wav";
	input_wav_file.reset(new WavWriter(input_name.str(), input_sample_rate,
	num_input_channels));
	rtc::StringBuilder output_name;
	output_name << absl::GetFlag(FLAGS_output_file) << suffix << ".wav";
	output_wav_file.reset(new WavWriter(
	output_name.str(), output_sample_rate, num_output_channels));

	if (WritingCallOrderFile()) {
	rtc::StringBuilder callorder_name;
	callorder_name << absl::GetFlag(FLAGS_callorder_file) << suffix
	<< ".char";
	callorder_char_file = OpenFile(callorder_name.str(), "wb");
	}

	if (WritingRuntimeSettingFiles()) {
	for (RuntimeSettingWriter& writer : runtime_setting_writers) {
	writer.HandleInitEvent(frame_count);
	}
	}
	}
	} else if (event_msg.type() == Event::RUNTIME_SETTING) {
	if (WritingRuntimeSettingFiles()) {
	for (RuntimeSettingWriter& writer : runtime_setting_writers) {
	if (writer.IsExporterFor(event_msg)) {
	writer.WriteEvent(event_msg, frame_count);
	}
	}
	}
	}
	}

	return 0;
	}

	} // namespace webrtc

	int main(int argc, char* argv[]) {
	return webrtc::do_main(argc, argv);
	}