modules/audio_coding/neteq/statistics_calculator.h - src - Git at Google

 /*
  *  Copyright (c) 2013 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_STATISTICS_CALCULATOR_H_
 #define MODULES_AUDIO_CODING_NETEQ_STATISTICS_CALCULATOR_H_

 #include <deque>
 #include <string>

 #include "absl/strings/string_view.h"
 #include "api/neteq/neteq.h"

 namespace webrtc {

 class DelayManager;

 // This class handles various network statistics in NetEq.
 class StatisticsCalculator {
  public:
   StatisticsCalculator();

   virtual ~StatisticsCalculator();

   StatisticsCalculator(const StatisticsCalculator&) = delete;
   StatisticsCalculator& operator=(const StatisticsCalculator&) = delete;

   // Resets most of the counters.
   void Reset();

   // Resets the counters that are not handled by Reset().
   void ResetMcu();

   // Reports that `num_samples` samples were produced through expansion, and
   // that the expansion produced other than just noise samples.
   void ExpandedVoiceSamples(size_t num_samples, bool is_new_concealment_event);

   // Reports that `num_samples` samples were produced through expansion, and
   // that the expansion produced only noise samples.
   void ExpandedNoiseSamples(size_t num_samples, bool is_new_concealment_event);

   // Corrects the statistics for number of samples produced through non-noise
   // expansion by adding `num_samples` (negative or positive) to the current
   // value. The result is capped to zero to avoid negative values.
   void ExpandedVoiceSamplesCorrection(int num_samples);

   // Same as ExpandedVoiceSamplesCorrection but for noise samples.
   void ExpandedNoiseSamplesCorrection(int num_samples);

   void DecodedOutputPlayed();

   // Mark end of expand event; triggers some stats to be reported.
   void EndExpandEvent(int fs_hz);

   // Reports that `num_samples` samples were produced through preemptive
   // expansion.
   void PreemptiveExpandedSamples(size_t num_samples);

   // Reports that `num_samples` samples were removed through accelerate.
   void AcceleratedSamples(size_t num_samples);

   // Reports that `num_samples` comfort noise samples were generated.
   void GeneratedNoiseSamples(size_t num_samples);

   // Reports that `num_packets` packets were discarded.
   virtual void PacketsDiscarded(size_t num_packets);

   // Reports that `num_packets` secondary (FEC) packets were discarded.
   virtual void SecondaryPacketsDiscarded(size_t num_packets);

   // Reports that `num_packets` secondary (FEC) packets were received.
   virtual void SecondaryPacketsReceived(size_t num_packets);

   // Increases the report interval counter with `num_samples` at a sample rate
   // of `fs_hz`. This is how the StatisticsCalculator gets notified that current
   // time is increasing.
   void IncreaseCounter(size_t num_samples, int fs_hz);

   // Update jitter buffer delay counter.
   void JitterBufferDelay(size_t num_samples,
                          uint64_t waiting_time_ms,
                          uint64_t target_delay_ms,
                          uint64_t unlimited_target_delay_ms);

   // Stores new packet waiting time in waiting time statistics.
   void StoreWaitingTime(int waiting_time_ms);

   // Reports that `num_samples` samples were decoded from secondary packets.
   void SecondaryDecodedSamples(int num_samples);

   // Reports that the packet buffer was flushed.
   void FlushedPacketBuffer();

   // Reports that the jitter buffer received a packet.
   void ReceivedPacket();

   // Reports that a received packet was delayed by `delay_ms` milliseconds.
   virtual void RelativePacketArrivalDelay(size_t delay_ms);

   // Logs a delayed packet outage event of `num_samples` expanded at a sample
   // rate of `fs_hz`. A delayed packet outage event is defined as an expand
   // period caused not by an actual packet loss, but by a delayed packet.
   virtual void LogDelayedPacketOutageEvent(int num_samples, int fs_hz);

   // Returns the current network statistics in `stats`. The number of samples
   // per packet is `samples_per_packet`. The method does not populate
   // `preferred_buffer_size_ms`, `jitter_peaks_found` or `clockdrift_ppm`; use
   // the PopulateDelayManagerStats method for those.
   void GetNetworkStatistics(size_t samples_per_packet,
                             NetEqNetworkStatistics* stats);

   // Returns a copy of this class's lifetime statistics. These statistics are
   // never reset.
   NetEqLifetimeStatistics GetLifetimeStatistics() const;

   NetEqOperationsAndState GetOperationsAndState() const;

  private:
   static const int kMaxReportPeriod = 60;  // Seconds before auto-reset.
   static const size_t kLenWaitingTimes = 100;

   class PeriodicUmaLogger {
    public:
     PeriodicUmaLogger(absl::string_view uma_name,
                       int report_interval_ms,
                       int max_value);
     virtual ~PeriodicUmaLogger();
     void AdvanceClock(int step_ms);

    protected:
     void LogToUma(int value) const;
     virtual int Metric() const = 0;
     virtual void Reset() = 0;

     const std::string uma_name_;
     const int report_interval_ms_;
     const int max_value_;
     int timer_ = 0;
   };

   class PeriodicUmaCount final : public PeriodicUmaLogger {
    public:
     PeriodicUmaCount(absl::string_view uma_name,
                      int report_interval_ms,
                      int max_value);
     ~PeriodicUmaCount() override;
     void RegisterSample();

    protected:
     int Metric() const override;
     void Reset() override;

    private:
     int counter_ = 0;
   };

   class PeriodicUmaAverage final : public PeriodicUmaLogger {
    public:
     PeriodicUmaAverage(absl::string_view uma_name,
                        int report_interval_ms,
                        int max_value);
     ~PeriodicUmaAverage() override;
     void RegisterSample(int value);

    protected:
     int Metric() const override;
     void Reset() override;

    private:
     double sum_ = 0.0;
     int counter_ = 0;
   };

   // Corrects the concealed samples counter in lifetime_stats_. The value of
   // num_samples_ is added directly to the stat if the correction is positive.
   // If the correction is negative, it is cached and will be subtracted against
   // future additions to the counter. This is meant to be called from
   // Expanded{Voice,Noise}Samples{Correction}.
   void ConcealedSamplesCorrection(int num_samples, bool is_voice);

   // Calculates numerator / denominator, and returns the value in Q14.
   static uint16_t CalculateQ14Ratio(size_t numerator, uint32_t denominator);

   NetEqLifetimeStatistics lifetime_stats_;
   NetEqOperationsAndState operations_and_state_;
   size_t concealed_samples_correction_ = 0;
   size_t silent_concealed_samples_correction_ = 0;
   size_t preemptive_samples_;
   size_t accelerate_samples_;
   size_t expanded_speech_samples_;
   size_t expanded_noise_samples_;
   size_t concealed_samples_at_event_end_ = 0;
   uint32_t timestamps_since_last_report_;
   std::deque<int> waiting_times_;
   uint32_t secondary_decoded_samples_;
   size_t discarded_secondary_packets_;
   PeriodicUmaCount delayed_packet_outage_counter_;
   PeriodicUmaAverage excess_buffer_delay_;
   PeriodicUmaCount buffer_full_counter_;
   bool decoded_output_played_ = false;
 };

 }  // namespace webrtc
 #endif  // MODULES_AUDIO_CODING_NETEQ_STATISTICS_CALCULATOR_H_
	/*
	* Copyright (c) 2013 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_STATISTICS_CALCULATOR_H_
	#define MODULES_AUDIO_CODING_NETEQ_STATISTICS_CALCULATOR_H_

	#include <deque>
	#include <string>

	#include "absl/strings/string_view.h"
	#include "api/neteq/neteq.h"

	namespace webrtc {

	class DelayManager;

	// This class handles various network statistics in NetEq.
	class StatisticsCalculator {
	public:
	StatisticsCalculator();

	virtual ~StatisticsCalculator();

	StatisticsCalculator(const StatisticsCalculator&) = delete;
	StatisticsCalculator& operator=(const StatisticsCalculator&) = delete;

	// Resets most of the counters.
	void Reset();

	// Resets the counters that are not handled by Reset().
	void ResetMcu();

	// Reports that `num_samples` samples were produced through expansion, and
	// that the expansion produced other than just noise samples.
	void ExpandedVoiceSamples(size_t num_samples, bool is_new_concealment_event);

	// Reports that `num_samples` samples were produced through expansion, and
	// that the expansion produced only noise samples.
	void ExpandedNoiseSamples(size_t num_samples, bool is_new_concealment_event);

	// Corrects the statistics for number of samples produced through non-noise
	// expansion by adding `num_samples` (negative or positive) to the current
	// value. The result is capped to zero to avoid negative values.
	void ExpandedVoiceSamplesCorrection(int num_samples);

	// Same as ExpandedVoiceSamplesCorrection but for noise samples.
	void ExpandedNoiseSamplesCorrection(int num_samples);

	void DecodedOutputPlayed();

	// Mark end of expand event; triggers some stats to be reported.
	void EndExpandEvent(int fs_hz);

	// Reports that `num_samples` samples were produced through preemptive
	// expansion.
	void PreemptiveExpandedSamples(size_t num_samples);

	// Reports that `num_samples` samples were removed through accelerate.
	void AcceleratedSamples(size_t num_samples);

	// Reports that `num_samples` comfort noise samples were generated.
	void GeneratedNoiseSamples(size_t num_samples);

	// Reports that `num_packets` packets were discarded.
	virtual void PacketsDiscarded(size_t num_packets);

	// Reports that `num_packets` secondary (FEC) packets were discarded.
	virtual void SecondaryPacketsDiscarded(size_t num_packets);

	// Reports that `num_packets` secondary (FEC) packets were received.
	virtual void SecondaryPacketsReceived(size_t num_packets);

	// Increases the report interval counter with `num_samples` at a sample rate
	// of `fs_hz`. This is how the StatisticsCalculator gets notified that current
	// time is increasing.
	void IncreaseCounter(size_t num_samples, int fs_hz);

	// Update jitter buffer delay counter.
	void JitterBufferDelay(size_t num_samples,
	uint64_t waiting_time_ms,
	uint64_t target_delay_ms,
	uint64_t unlimited_target_delay_ms);

	// Stores new packet waiting time in waiting time statistics.
	void StoreWaitingTime(int waiting_time_ms);

	// Reports that `num_samples` samples were decoded from secondary packets.
	void SecondaryDecodedSamples(int num_samples);

	// Reports that the packet buffer was flushed.
	void FlushedPacketBuffer();

	// Reports that the jitter buffer received a packet.
	void ReceivedPacket();

	// Reports that a received packet was delayed by `delay_ms` milliseconds.
	virtual void RelativePacketArrivalDelay(size_t delay_ms);

	// Logs a delayed packet outage event of `num_samples` expanded at a sample
	// rate of `fs_hz`. A delayed packet outage event is defined as an expand
	// period caused not by an actual packet loss, but by a delayed packet.
	virtual void LogDelayedPacketOutageEvent(int num_samples, int fs_hz);

	// Returns the current network statistics in `stats`. The number of samples
	// per packet is `samples_per_packet`. The method does not populate
	// `preferred_buffer_size_ms`, `jitter_peaks_found` or `clockdrift_ppm`; use
	// the PopulateDelayManagerStats method for those.
	void GetNetworkStatistics(size_t samples_per_packet,
	NetEqNetworkStatistics* stats);

	// Returns a copy of this class's lifetime statistics. These statistics are
	// never reset.
	NetEqLifetimeStatistics GetLifetimeStatistics() const;

	NetEqOperationsAndState GetOperationsAndState() const;

	private:
	static const int kMaxReportPeriod = 60; // Seconds before auto-reset.
	static const size_t kLenWaitingTimes = 100;

	class PeriodicUmaLogger {
	public:
	PeriodicUmaLogger(absl::string_view uma_name,
	int report_interval_ms,
	int max_value);
	virtual ~PeriodicUmaLogger();
	void AdvanceClock(int step_ms);

	protected:
	void LogToUma(int value) const;
	virtual int Metric() const = 0;
	virtual void Reset() = 0;

	const std::string uma_name_;
	const int report_interval_ms_;
	const int max_value_;
	int timer_ = 0;
	};

	class PeriodicUmaCount final : public PeriodicUmaLogger {
	public:
	PeriodicUmaCount(absl::string_view uma_name,
	int report_interval_ms,
	int max_value);
	~PeriodicUmaCount() override;
	void RegisterSample();

	protected:
	int Metric() const override;
	void Reset() override;

	private:
	int counter_ = 0;
	};

	class PeriodicUmaAverage final : public PeriodicUmaLogger {
	public:
	PeriodicUmaAverage(absl::string_view uma_name,
	int report_interval_ms,
	int max_value);
	~PeriodicUmaAverage() override;
	void RegisterSample(int value);

	protected:
	int Metric() const override;
	void Reset() override;

	private:
	double sum_ = 0.0;
	int counter_ = 0;
	};

	// Corrects the concealed samples counter in lifetime_stats_. The value of
	// num_samples_ is added directly to the stat if the correction is positive.
	// If the correction is negative, it is cached and will be subtracted against
	// future additions to the counter. This is meant to be called from
	// Expanded{Voice,Noise}Samples{Correction}.
	void ConcealedSamplesCorrection(int num_samples, bool is_voice);

	// Calculates numerator / denominator, and returns the value in Q14.
	static uint16_t CalculateQ14Ratio(size_t numerator, uint32_t denominator);

	NetEqLifetimeStatistics lifetime_stats_;
	NetEqOperationsAndState operations_and_state_;
	size_t concealed_samples_correction_ = 0;
	size_t silent_concealed_samples_correction_ = 0;
	size_t preemptive_samples_;
	size_t accelerate_samples_;
	size_t expanded_speech_samples_;
	size_t expanded_noise_samples_;
	size_t concealed_samples_at_event_end_ = 0;
	uint32_t timestamps_since_last_report_;
	std::deque<int> waiting_times_;
	uint32_t secondary_decoded_samples_;
	size_t discarded_secondary_packets_;
	PeriodicUmaCount delayed_packet_outage_counter_;
	PeriodicUmaAverage excess_buffer_delay_;
	PeriodicUmaCount buffer_full_counter_;
	bool decoded_output_played_ = false;
	};

	} // namespace webrtc
	#endif // MODULES_AUDIO_CODING_NETEQ_STATISTICS_CALCULATOR_H_