modules/audio_coding/neteq/decision_logic.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_DECISION_LOGIC_H_
 #define MODULES_AUDIO_CODING_NETEQ_DECISION_LOGIC_H_

 #include <memory>

 #include "api/neteq/neteq.h"
 #include "api/neteq/neteq_controller.h"
 #include "api/neteq/tick_timer.h"
 #include "modules/audio_coding/neteq/buffer_level_filter.h"
 #include "modules/audio_coding/neteq/delay_manager.h"
 #include "rtc_base/constructor_magic.h"
 #include "rtc_base/experiments/field_trial_parser.h"

 namespace webrtc {

 // This is the class for the decision tree implementation.
 class DecisionLogic : public NetEqController {
  public:
   static const int kReinitAfterExpands = 100;
   static const int kMaxWaitForPacket = 10;

   // Constructor.
   DecisionLogic(NetEqController::Config config);
   DecisionLogic(NetEqController::Config config,
                 std::unique_ptr<DelayManager> delay_manager,
                 std::unique_ptr<BufferLevelFilter> buffer_level_filter);

   ~DecisionLogic() override;

   // Resets object to a clean state.
   void Reset() override;

   // Resets parts of the state. Typically done when switching codecs.
   void SoftReset() override;

   // Sets the sample rate and the output block size.
   void SetSampleRate(int fs_hz, size_t output_size_samples) override;

   // Given info about the latest received packet, and current jitter buffer
   // status, returns the operation. `target_timestamp` and `expand_mutefactor`
   // are provided for reference. `last_packet_samples` is the number of samples
   // obtained from the last decoded frame. If there is a packet available, it
   // should be supplied in `packet`; otherwise it should be NULL. The mode
   // resulting from the last call to NetEqImpl::GetAudio is supplied in
   // `last_mode`. If there is a DTMF event to play, `play_dtmf` should be set to
   // true. The output variable `reset_decoder` will be set to true if a reset is
   // required; otherwise it is left unchanged (i.e., it can remain true if it
   // was true before the call).
   NetEq::Operation GetDecision(const NetEqController::NetEqStatus& status,
                                bool* reset_decoder) override;

   // These methods test the `cng_state_` for different conditions.
   bool CngRfc3389On() const override { return cng_state_ == kCngRfc3389On; }
   bool CngOff() const override { return cng_state_ == kCngOff; }

   // Resets the `cng_state_` to kCngOff.
   void SetCngOff() override { cng_state_ = kCngOff; }

   // Reports back to DecisionLogic whether the decision to do expand remains or
   // not. Note that this is necessary, since an expand decision can be changed
   // to kNormal in NetEqImpl::GetDecision if there is still enough data in the
   // sync buffer.
   void ExpandDecision(NetEq::Operation operation) override;

   // Adds `value` to `sample_memory_`.
   void AddSampleMemory(int32_t value) override { sample_memory_ += value; }

   int TargetLevelMs() const override { return delay_manager_->TargetDelayMs(); }

   absl::optional<int> PacketArrived(int fs_hz,
                                     bool should_update_stats,
                                     const PacketArrivedInfo& info) override;

   void RegisterEmptyPacket() override {}

   void NotifyMutedState() override {}

   bool SetMaximumDelay(int delay_ms) override {
     return delay_manager_->SetMaximumDelay(delay_ms);
   }
   bool SetMinimumDelay(int delay_ms) override {
     return delay_manager_->SetMinimumDelay(delay_ms);
   }
   bool SetBaseMinimumDelay(int delay_ms) override {
     return delay_manager_->SetBaseMinimumDelay(delay_ms);
   }
   int GetBaseMinimumDelay() const override {
     return delay_manager_->GetBaseMinimumDelay();
   }
   bool PeakFound() const override { return false; }

   int GetFilteredBufferLevel() const override {
     return buffer_level_filter_->filtered_current_level();
   }

   // Accessors and mutators.
   void set_sample_memory(int32_t value) override { sample_memory_ = value; }
   size_t noise_fast_forward() const override { return noise_fast_forward_; }
   size_t packet_length_samples() const override {
     return packet_length_samples_;
   }
   void set_packet_length_samples(size_t value) override {
     packet_length_samples_ = value;
   }
   void set_prev_time_scale(bool value) override { prev_time_scale_ = value; }

  private:
   // The value 5 sets maximum time-stretch rate to about 100 ms/s.
   static const int kMinTimescaleInterval = 5;

   enum CngState { kCngOff, kCngRfc3389On, kCngInternalOn };

   // Updates the `buffer_level_filter_` with the current buffer level
   // `buffer_size_samples`.
   void FilterBufferLevel(size_t buffer_size_samples);

   // Returns the operation given that the next available packet is a comfort
   // noise payload (RFC 3389 only, not codec-internal).
   virtual NetEq::Operation CngOperation(NetEq::Mode prev_mode,
                                         uint32_t target_timestamp,
                                         uint32_t available_timestamp,
                                         size_t generated_noise_samples);

   // Returns the operation given that no packets are available (except maybe
   // a DTMF event, flagged by setting `play_dtmf` true).
   virtual NetEq::Operation NoPacket(bool play_dtmf);

   // Returns the operation to do given that the expected packet is available.
   virtual NetEq::Operation ExpectedPacketAvailable(NetEq::Mode prev_mode,
                                                    bool play_dtmf);

   // Returns the operation to do given that the expected packet is not
   // available, but a packet further into the future is at hand.
   virtual NetEq::Operation FuturePacketAvailable(
       size_t decoder_frame_length,
       NetEq::Mode prev_mode,
       uint32_t target_timestamp,
       uint32_t available_timestamp,
       bool play_dtmf,
       size_t generated_noise_samples,
       size_t span_samples_in_packet_buffer,
       size_t num_packets_in_packet_buffer);

   // Checks if enough time has elapsed since the last successful timescale
   // operation was done (i.e., accelerate or preemptive expand).
   bool TimescaleAllowed() const {
     return !timescale_countdown_ || timescale_countdown_->Finished();
   }

   // Checks if the current (filtered) buffer level is under the target level.
   bool UnderTargetLevel() const;

   // Checks if `timestamp_leap` is so long into the future that a reset due
   // to exceeding kReinitAfterExpands will be done.
   bool ReinitAfterExpands(uint32_t timestamp_leap) const;

   // Checks if we still have not done enough expands to cover the distance from
   // the last decoded packet to the next available packet, the distance beeing
   // conveyed in `timestamp_leap`.
   bool PacketTooEarly(uint32_t timestamp_leap) const;

   // Checks if num_consecutive_expands_ >= kMaxWaitForPacket.
   bool MaxWaitForPacket() const;

   std::unique_ptr<DelayManager> delay_manager_;
   std::unique_ptr<BufferLevelFilter> buffer_level_filter_;
   const TickTimer* tick_timer_;
   int sample_rate_;
   size_t output_size_samples_;
   CngState cng_state_ = kCngOff;  // Remember if comfort noise is interrupted by
                                   // other event (e.g., DTMF).
   size_t noise_fast_forward_ = 0;
   size_t packet_length_samples_ = 0;
   int sample_memory_ = 0;
   bool prev_time_scale_ = false;
   bool disallow_time_stretching_;
   std::unique_ptr<TickTimer::Countdown> timescale_countdown_;
   int num_consecutive_expands_ = 0;
   int time_stretched_cn_samples_ = 0;
   bool last_pack_cng_or_dtmf_ = true;
   bool buffer_flush_ = false;
   FieldTrialParameter<bool> estimate_dtx_delay_;
   FieldTrialParameter<bool> time_stretch_cn_;
   FieldTrialConstrained<int> target_level_window_ms_;

   RTC_DISALLOW_COPY_AND_ASSIGN(DecisionLogic);
 };

 }  // namespace webrtc
 #endif  // MODULES_AUDIO_CODING_NETEQ_DECISION_LOGIC_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_DECISION_LOGIC_H_
	#define MODULES_AUDIO_CODING_NETEQ_DECISION_LOGIC_H_

	#include <memory>

	#include "api/neteq/neteq.h"
	#include "api/neteq/neteq_controller.h"
	#include "api/neteq/tick_timer.h"
	#include "modules/audio_coding/neteq/buffer_level_filter.h"
	#include "modules/audio_coding/neteq/delay_manager.h"
	#include "rtc_base/constructor_magic.h"
	#include "rtc_base/experiments/field_trial_parser.h"

	namespace webrtc {

	// This is the class for the decision tree implementation.
	class DecisionLogic : public NetEqController {
	public:
	static const int kReinitAfterExpands = 100;
	static const int kMaxWaitForPacket = 10;

	// Constructor.
	DecisionLogic(NetEqController::Config config);
	DecisionLogic(NetEqController::Config config,
	std::unique_ptr<DelayManager> delay_manager,
	std::unique_ptr<BufferLevelFilter> buffer_level_filter);

	~DecisionLogic() override;

	// Resets object to a clean state.
	void Reset() override;

	// Resets parts of the state. Typically done when switching codecs.
	void SoftReset() override;

	// Sets the sample rate and the output block size.
	void SetSampleRate(int fs_hz, size_t output_size_samples) override;

	// Given info about the latest received packet, and current jitter buffer
	// status, returns the operation. `target_timestamp` and `expand_mutefactor`
	// are provided for reference. `last_packet_samples` is the number of samples
	// obtained from the last decoded frame. If there is a packet available, it
	// should be supplied in `packet`; otherwise it should be NULL. The mode
	// resulting from the last call to NetEqImpl::GetAudio is supplied in
	// `last_mode`. If there is a DTMF event to play, `play_dtmf` should be set to
	// true. The output variable `reset_decoder` will be set to true if a reset is
	// required; otherwise it is left unchanged (i.e., it can remain true if it
	// was true before the call).
	NetEq::Operation GetDecision(const NetEqController::NetEqStatus& status,
	bool* reset_decoder) override;

	// These methods test the `cng_state_` for different conditions.
	bool CngRfc3389On() const override { return cng_state_ == kCngRfc3389On; }
	bool CngOff() const override { return cng_state_ == kCngOff; }

	// Resets the `cng_state_` to kCngOff.
	void SetCngOff() override { cng_state_ = kCngOff; }

	// Reports back to DecisionLogic whether the decision to do expand remains or
	// not. Note that this is necessary, since an expand decision can be changed
	// to kNormal in NetEqImpl::GetDecision if there is still enough data in the
	// sync buffer.
	void ExpandDecision(NetEq::Operation operation) override;

	// Adds `value` to `sample_memory_`.
	void AddSampleMemory(int32_t value) override { sample_memory_ += value; }

	int TargetLevelMs() const override { return delay_manager_->TargetDelayMs(); }

	absl::optional<int> PacketArrived(int fs_hz,
	bool should_update_stats,
	const PacketArrivedInfo& info) override;

	void RegisterEmptyPacket() override {}

	void NotifyMutedState() override {}

	bool SetMaximumDelay(int delay_ms) override {
	return delay_manager_->SetMaximumDelay(delay_ms);
	}
	bool SetMinimumDelay(int delay_ms) override {
	return delay_manager_->SetMinimumDelay(delay_ms);
	}
	bool SetBaseMinimumDelay(int delay_ms) override {
	return delay_manager_->SetBaseMinimumDelay(delay_ms);
	}
	int GetBaseMinimumDelay() const override {
	return delay_manager_->GetBaseMinimumDelay();
	}
	bool PeakFound() const override { return false; }

	int GetFilteredBufferLevel() const override {
	return buffer_level_filter_->filtered_current_level();
	}

	// Accessors and mutators.
	void set_sample_memory(int32_t value) override { sample_memory_ = value; }
	size_t noise_fast_forward() const override { return noise_fast_forward_; }
	size_t packet_length_samples() const override {
	return packet_length_samples_;
	}
	void set_packet_length_samples(size_t value) override {
	packet_length_samples_ = value;
	}
	void set_prev_time_scale(bool value) override { prev_time_scale_ = value; }

	private:
	// The value 5 sets maximum time-stretch rate to about 100 ms/s.
	static const int kMinTimescaleInterval = 5;

	enum CngState { kCngOff, kCngRfc3389On, kCngInternalOn };

	// Updates the `buffer_level_filter_` with the current buffer level
	// `buffer_size_samples`.
	void FilterBufferLevel(size_t buffer_size_samples);

	// Returns the operation given that the next available packet is a comfort
	// noise payload (RFC 3389 only, not codec-internal).
	virtual NetEq::Operation CngOperation(NetEq::Mode prev_mode,
	uint32_t target_timestamp,
	uint32_t available_timestamp,
	size_t generated_noise_samples);

	// Returns the operation given that no packets are available (except maybe
	// a DTMF event, flagged by setting `play_dtmf` true).
	virtual NetEq::Operation NoPacket(bool play_dtmf);

	// Returns the operation to do given that the expected packet is available.
	virtual NetEq::Operation ExpectedPacketAvailable(NetEq::Mode prev_mode,
	bool play_dtmf);

	// Returns the operation to do given that the expected packet is not
	// available, but a packet further into the future is at hand.
	virtual NetEq::Operation FuturePacketAvailable(
	size_t decoder_frame_length,
	NetEq::Mode prev_mode,
	uint32_t target_timestamp,
	uint32_t available_timestamp,
	bool play_dtmf,
	size_t generated_noise_samples,
	size_t span_samples_in_packet_buffer,
	size_t num_packets_in_packet_buffer);

	// Checks if enough time has elapsed since the last successful timescale
	// operation was done (i.e., accelerate or preemptive expand).
	bool TimescaleAllowed() const {
	return !timescale_countdown_ \|\| timescale_countdown_->Finished();
	}

	// Checks if the current (filtered) buffer level is under the target level.
	bool UnderTargetLevel() const;

	// Checks if `timestamp_leap` is so long into the future that a reset due
	// to exceeding kReinitAfterExpands will be done.
	bool ReinitAfterExpands(uint32_t timestamp_leap) const;

	// Checks if we still have not done enough expands to cover the distance from
	// the last decoded packet to the next available packet, the distance beeing
	// conveyed in `timestamp_leap`.
	bool PacketTooEarly(uint32_t timestamp_leap) const;

	// Checks if num_consecutive_expands_ >= kMaxWaitForPacket.
	bool MaxWaitForPacket() const;

	std::unique_ptr<DelayManager> delay_manager_;
	std::unique_ptr<BufferLevelFilter> buffer_level_filter_;
	const TickTimer* tick_timer_;
	int sample_rate_;
	size_t output_size_samples_;
	CngState cng_state_ = kCngOff; // Remember if comfort noise is interrupted by
	// other event (e.g., DTMF).
	size_t noise_fast_forward_ = 0;
	size_t packet_length_samples_ = 0;
	int sample_memory_ = 0;
	bool prev_time_scale_ = false;
	bool disallow_time_stretching_;
	std::unique_ptr<TickTimer::Countdown> timescale_countdown_;
	int num_consecutive_expands_ = 0;
	int time_stretched_cn_samples_ = 0;
	bool last_pack_cng_or_dtmf_ = true;
	bool buffer_flush_ = false;
	FieldTrialParameter<bool> estimate_dtx_delay_;
	FieldTrialParameter<bool> time_stretch_cn_;
	FieldTrialConstrained<int> target_level_window_ms_;

	RTC_DISALLOW_COPY_AND_ASSIGN(DecisionLogic);
	};

	} // namespace webrtc
	#endif // MODULES_AUDIO_CODING_NETEQ_DECISION_LOGIC_H_