modules/audio_coding/neteq/tools/neteq_test_factory.h - mirrors/cros/chromiumos/third_party/webrtc-apm - Git at Google

 /*
  *  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.
  */

 #ifndef MODULES_AUDIO_CODING_NETEQ_TOOLS_NETEQ_TEST_FACTORY_H_
 #define MODULES_AUDIO_CODING_NETEQ_TOOLS_NETEQ_TEST_FACTORY_H_

 #include <memory>
 #include <string>

 #include "absl/types/optional.h"
 #include "modules/audio_coding/neteq/tools/neteq_test.h"
 #include "test/field_trial.h"

 namespace webrtc {
 namespace test {

 class SsrcSwitchDetector;
 class NetEqStatsGetter;
 class NetEqStatsPlotter;

 // Note that the NetEqTestFactory needs to be alive when the NetEqTest object is
 // used for a simulation.
 class NetEqTestFactory {
  public:
   NetEqTestFactory();
   ~NetEqTestFactory();
   struct Config {
     Config();
     Config(const Config& other);
     ~Config();
     // RTP payload type for PCM-u.
     static constexpr int default_pcmu() { return 0; }
     int pcmu = default_pcmu();
     // RTP payload type for PCM-a.
     static constexpr int default_pcma() { return 8; }
     int pcma = default_pcma();
     // RTP payload type for iLBC.
     static constexpr int default_ilbc() { return 102; }
     int ilbc = default_ilbc();
     // RTP payload type for iSAC.
     static constexpr int default_isac() { return 103; }
     int isac = default_isac();
     // RTP payload type for iSAC-swb (32 kHz).
     static constexpr int default_isac_swb() { return 104; }
     int isac_swb = default_isac_swb();
     // RTP payload type for Opus.
     static constexpr int default_opus() { return 111; }
     int opus = default_opus();
     // RTP payload type for PCM16b-nb (8 kHz).
     static constexpr int default_pcm16b() { return 93; }
     int pcm16b = default_pcm16b();
     // RTP payload type for PCM16b-wb (16 kHz).
     static constexpr int default_pcm16b_wb() { return 94; }
     int pcm16b_wb = default_pcm16b_wb();
     // RTP payload type for PCM16b-swb32 (32 kHz).
     static constexpr int default_pcm16b_swb32() { return 95; }
     int pcm16b_swb32 = default_pcm16b_swb32();
     // RTP payload type for PCM16b-swb48 (48 kHz).
     static constexpr int default_pcm16b_swb48() { return 96; }
     int pcm16b_swb48 = default_pcm16b_swb48();
     // RTP payload type for G.722.
     static constexpr int default_g722() { return 9; }
     int g722 = default_g722();
     // RTP payload type for AVT/DTMF (8 kHz).
     static constexpr int default_avt() { return 106; }
     int avt = default_avt();
     // RTP payload type for AVT/DTMF (16 kHz).
     static constexpr int default_avt_16() { return 114; }
     int avt_16 = default_avt_16();
     // RTP payload type for AVT/DTMF (32 kHz).
     static constexpr int default_avt_32() { return 115; }
     int avt_32 = default_avt_32();
     // RTP payload type for AVT/DTMF (48 kHz).
     static constexpr int default_avt_48() { return 116; }
     int avt_48 = default_avt_48();
     // RTP payload type for redundant audio (RED).
     static constexpr int default_red() { return 117; }
     int red = default_red();
     // RTP payload type for comfort noise (8 kHz).
     static constexpr int default_cn_nb() { return 13; }
     int cn_nb = default_cn_nb();
     // RTP payload type for comfort noise (16 kHz).
     static constexpr int default_cn_wb() { return 98; }
     int cn_wb = default_cn_wb();
     // RTP payload type for comfort noise (32 kHz).
     static constexpr int default_cn_swb32() { return 99; }
     int cn_swb32 = default_cn_swb32();
     // RTP payload type for comfort noise (48 kHz).
     static constexpr int default_cn_swb48() { return 100; }
     int cn_swb48 = default_cn_swb48();
     // A PCM file that will be used to populate dummy RTP packets.
     std::string replacement_audio_file;
     // Only use packets with this SSRC.
     absl::optional<uint32_t> ssrc_filter;
     // Extension ID for audio level (RFC 6464).
     static constexpr int default_audio_level() { return 1; }
     int audio_level = default_audio_level();
     // Extension ID for absolute sender time.
     static constexpr int default_abs_send_time() { return 3; }
     int abs_send_time = default_abs_send_time();
     // Extension ID for transport sequence number.
     static constexpr int default_transport_seq_no() { return 5; }
     int transport_seq_no = default_transport_seq_no();
     // Extension ID for video content type.
     static constexpr int default_video_content_type() { return 7; }
     int video_content_type = default_video_content_type();
     // Extension ID for video timing.
     static constexpr int default_video_timing() { return 8; }
     int video_timing = default_video_timing();
     // Generate a matlab script for plotting the delay profile.
     bool matlabplot = false;
     // Generates a python script for plotting the delay profile.
     bool pythonplot = false;
     // Prints concealment events.
     bool concealment_events = false;
     // Maximum allowed number of packets in the buffer.
     static constexpr int default_max_nr_packets_in_buffer() { return 200; }
     int max_nr_packets_in_buffer = default_max_nr_packets_in_buffer();
     // Number of dummy packets to put in the packet buffer at the start of the
     // simulation.
     static constexpr int default_initial_dummy_packets() { return 0; }
     int initial_dummy_packets = default_initial_dummy_packets();
     // Number of getAudio events to skip at the start of the simulation.
     static constexpr int default_skip_get_audio_events() { return 0; }
     int skip_get_audio_events = default_skip_get_audio_events();
     // Enables jitter buffer fast accelerate.
     bool enable_fast_accelerate = false;
     // Dumps events that describes the simulation on a step-by-step basis.
     bool textlog = false;
     // If specified and |textlog| is true, the output of |textlog| is written to
     // the specified file name.
     absl::optional<std::string> textlog_filename;
     // Base name for the output script files for plotting the delay profile.
     absl::optional<std::string> plot_scripts_basename;
     // Path to the output audio file.
     absl::optional<std::string> output_audio_filename;
     // Field trials to use during the simulation.
     std::string field_trial_string;
   };

   std::unique_ptr<NetEqTest> InitializeTestFromFile(
       const std::string& input_filename,
       NetEqFactory* neteq_factory,
       const Config& config);
   std::unique_ptr<NetEqTest> InitializeTestFromString(
       const std::string& input_string,
       NetEqFactory* neteq_factory,
       const Config& config);

  private:
   std::unique_ptr<NetEqTest> InitializeTest(std::unique_ptr<NetEqInput> input,
                                             NetEqFactory* neteq_factory,
                                             const Config& config);
   std::unique_ptr<SsrcSwitchDetector> ssrc_switch_detector_;
   std::unique_ptr<NetEqStatsPlotter> stats_plotter_;
   // The field trials are stored in the test factory, because neteq_test is not
   // in a testonly target, and therefore cannot use ScopedFieldTrials.
   std::unique_ptr<ScopedFieldTrials> field_trials_;
 };

 }  // namespace test
 }  // namespace webrtc

 #endif  // MODULES_AUDIO_CODING_NETEQ_TOOLS_NETEQ_TEST_FACTORY_H_
	/*
	* 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.
	*/

	#ifndef MODULES_AUDIO_CODING_NETEQ_TOOLS_NETEQ_TEST_FACTORY_H_
	#define MODULES_AUDIO_CODING_NETEQ_TOOLS_NETEQ_TEST_FACTORY_H_

	#include <memory>
	#include <string>

	#include "absl/types/optional.h"
	#include "modules/audio_coding/neteq/tools/neteq_test.h"
	#include "test/field_trial.h"

	namespace webrtc {
	namespace test {

	class SsrcSwitchDetector;
	class NetEqStatsGetter;
	class NetEqStatsPlotter;

	// Note that the NetEqTestFactory needs to be alive when the NetEqTest object is
	// used for a simulation.
	class NetEqTestFactory {
	public:
	NetEqTestFactory();
	~NetEqTestFactory();
	struct Config {
	Config();
	Config(const Config& other);
	~Config();
	// RTP payload type for PCM-u.
	static constexpr int default_pcmu() { return 0; }
	int pcmu = default_pcmu();
	// RTP payload type for PCM-a.
	static constexpr int default_pcma() { return 8; }
	int pcma = default_pcma();
	// RTP payload type for iLBC.
	static constexpr int default_ilbc() { return 102; }
	int ilbc = default_ilbc();
	// RTP payload type for iSAC.
	static constexpr int default_isac() { return 103; }
	int isac = default_isac();
	// RTP payload type for iSAC-swb (32 kHz).
	static constexpr int default_isac_swb() { return 104; }
	int isac_swb = default_isac_swb();
	// RTP payload type for Opus.
	static constexpr int default_opus() { return 111; }
	int opus = default_opus();
	// RTP payload type for PCM16b-nb (8 kHz).
	static constexpr int default_pcm16b() { return 93; }
	int pcm16b = default_pcm16b();
	// RTP payload type for PCM16b-wb (16 kHz).
	static constexpr int default_pcm16b_wb() { return 94; }
	int pcm16b_wb = default_pcm16b_wb();
	// RTP payload type for PCM16b-swb32 (32 kHz).
	static constexpr int default_pcm16b_swb32() { return 95; }
	int pcm16b_swb32 = default_pcm16b_swb32();
	// RTP payload type for PCM16b-swb48 (48 kHz).
	static constexpr int default_pcm16b_swb48() { return 96; }
	int pcm16b_swb48 = default_pcm16b_swb48();
	// RTP payload type for G.722.
	static constexpr int default_g722() { return 9; }
	int g722 = default_g722();
	// RTP payload type for AVT/DTMF (8 kHz).
	static constexpr int default_avt() { return 106; }
	int avt = default_avt();
	// RTP payload type for AVT/DTMF (16 kHz).
	static constexpr int default_avt_16() { return 114; }
	int avt_16 = default_avt_16();
	// RTP payload type for AVT/DTMF (32 kHz).
	static constexpr int default_avt_32() { return 115; }
	int avt_32 = default_avt_32();
	// RTP payload type for AVT/DTMF (48 kHz).
	static constexpr int default_avt_48() { return 116; }
	int avt_48 = default_avt_48();
	// RTP payload type for redundant audio (RED).
	static constexpr int default_red() { return 117; }
	int red = default_red();
	// RTP payload type for comfort noise (8 kHz).
	static constexpr int default_cn_nb() { return 13; }
	int cn_nb = default_cn_nb();
	// RTP payload type for comfort noise (16 kHz).
	static constexpr int default_cn_wb() { return 98; }
	int cn_wb = default_cn_wb();
	// RTP payload type for comfort noise (32 kHz).
	static constexpr int default_cn_swb32() { return 99; }
	int cn_swb32 = default_cn_swb32();
	// RTP payload type for comfort noise (48 kHz).
	static constexpr int default_cn_swb48() { return 100; }
	int cn_swb48 = default_cn_swb48();
	// A PCM file that will be used to populate dummy RTP packets.
	std::string replacement_audio_file;
	// Only use packets with this SSRC.
	absl::optional<uint32_t> ssrc_filter;
	// Extension ID for audio level (RFC 6464).
	static constexpr int default_audio_level() { return 1; }
	int audio_level = default_audio_level();
	// Extension ID for absolute sender time.
	static constexpr int default_abs_send_time() { return 3; }
	int abs_send_time = default_abs_send_time();
	// Extension ID for transport sequence number.
	static constexpr int default_transport_seq_no() { return 5; }
	int transport_seq_no = default_transport_seq_no();
	// Extension ID for video content type.
	static constexpr int default_video_content_type() { return 7; }
	int video_content_type = default_video_content_type();
	// Extension ID for video timing.
	static constexpr int default_video_timing() { return 8; }
	int video_timing = default_video_timing();
	// Generate a matlab script for plotting the delay profile.
	bool matlabplot = false;
	// Generates a python script for plotting the delay profile.
	bool pythonplot = false;
	// Prints concealment events.
	bool concealment_events = false;
	// Maximum allowed number of packets in the buffer.
	static constexpr int default_max_nr_packets_in_buffer() { return 200; }
	int max_nr_packets_in_buffer = default_max_nr_packets_in_buffer();
	// Number of dummy packets to put in the packet buffer at the start of the
	// simulation.
	static constexpr int default_initial_dummy_packets() { return 0; }
	int initial_dummy_packets = default_initial_dummy_packets();
	// Number of getAudio events to skip at the start of the simulation.
	static constexpr int default_skip_get_audio_events() { return 0; }
	int skip_get_audio_events = default_skip_get_audio_events();
	// Enables jitter buffer fast accelerate.
	bool enable_fast_accelerate = false;
	// Dumps events that describes the simulation on a step-by-step basis.
	bool textlog = false;
	// If specified and \|textlog\| is true, the output of \|textlog\| is written to
	// the specified file name.
	absl::optional<std::string> textlog_filename;
	// Base name for the output script files for plotting the delay profile.
	absl::optional<std::string> plot_scripts_basename;
	// Path to the output audio file.
	absl::optional<std::string> output_audio_filename;
	// Field trials to use during the simulation.
	std::string field_trial_string;
	};

	std::unique_ptr<NetEqTest> InitializeTestFromFile(
	const std::string& input_filename,
	NetEqFactory* neteq_factory,
	const Config& config);
	std::unique_ptr<NetEqTest> InitializeTestFromString(
	const std::string& input_string,
	NetEqFactory* neteq_factory,
	const Config& config);

	private:
	std::unique_ptr<NetEqTest> InitializeTest(std::unique_ptr<NetEqInput> input,
	NetEqFactory* neteq_factory,
	const Config& config);
	std::unique_ptr<SsrcSwitchDetector> ssrc_switch_detector_;
	std::unique_ptr<NetEqStatsPlotter> stats_plotter_;
	// The field trials are stored in the test factory, because neteq_test is not
	// in a testonly target, and therefore cannot use ScopedFieldTrials.
	std::unique_ptr<ScopedFieldTrials> field_trials_;
	};

	} // namespace test
	} // namespace webrtc

	#endif // MODULES_AUDIO_CODING_NETEQ_TOOLS_NETEQ_TEST_FACTORY_H_