api/audio_codecs/audio_encoder.h - src/webrtc - Git at Google

 /*
  *  Copyright (c) 2014 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 WEBRTC_API_AUDIO_CODECS_AUDIO_ENCODER_H_
 #define WEBRTC_API_AUDIO_CODECS_AUDIO_ENCODER_H_

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

 #include "webrtc/api/array_view.h"
 #include "webrtc/api/optional.h"
 #include "webrtc/rtc_base/buffer.h"
 #include "webrtc/rtc_base/deprecation.h"
 #include "webrtc/typedefs.h"

 namespace webrtc {

 class Clock;
 class RtcEventLog;

 // Statistics related to Audio Network Adaptation.
 struct ANAStats {
   ANAStats();
   ANAStats(const ANAStats&);
   ~ANAStats();
   // Number of actions taken by the ANA bitrate controller since the start of
   // the call. If this value is not set, it indicates that the bitrate
   // controller is disabled.
   rtc::Optional<uint32_t> bitrate_action_counter;
   // Number of actions taken by the ANA channel controller since the start of
   // the call. If this value is not set, it indicates that the channel
   // controller is disabled.
   rtc::Optional<uint32_t> channel_action_counter;
   // Number of actions taken by the ANA DTX controller since the start of the
   // call. If this value is not set, it indicates that the DTX controller is
   // disabled.
   rtc::Optional<uint32_t> dtx_action_counter;
   // Number of actions taken by the ANA FEC controller since the start of the
   // call. If this value is not set, it indicates that the FEC controller is
   // disabled.
   rtc::Optional<uint32_t> fec_action_counter;
   // Number of times the ANA frame length controller decided to increase the
   // frame length since the start of the call. If this value is not set, it
   // indicates that the frame length controller is disabled.
   rtc::Optional<uint32_t> frame_length_increase_counter;
   // Number of times the ANA frame length controller decided to decrease the
   // frame length since the start of the call. If this value is not set, it
   // indicates that the frame length controller is disabled.
   rtc::Optional<uint32_t> frame_length_decrease_counter;
   // The uplink packet loss fractions as set by the ANA FEC controller. If this
   // value is not set, it indicates that the ANA FEC controller is not active.
   rtc::Optional<float> uplink_packet_loss_fraction;
 };

 // This is the interface class for encoders in AudioCoding module. Each codec
 // type must have an implementation of this class.
 class AudioEncoder {
  public:
   // Used for UMA logging of codec usage. The same codecs, with the
   // same values, must be listed in
   // src/tools/metrics/histograms/histograms.xml in chromium to log
   // correct values.
   enum class CodecType {
     kOther = 0,  // Codec not specified, and/or not listed in this enum
     kOpus = 1,
     kIsac = 2,
     kPcmA = 3,
     kPcmU = 4,
     kG722 = 5,
     kIlbc = 6,

     // Number of histogram bins in the UMA logging of codec types. The
     // total number of different codecs that are logged cannot exceed this
     // number.
     kMaxLoggedAudioCodecTypes
   };

   struct EncodedInfoLeaf {
     size_t encoded_bytes = 0;
     uint32_t encoded_timestamp = 0;
     int payload_type = 0;
     bool send_even_if_empty = false;
     bool speech = true;
     CodecType encoder_type = CodecType::kOther;
   };

   // This is the main struct for auxiliary encoding information. Each encoded
   // packet should be accompanied by one EncodedInfo struct, containing the
   // total number of |encoded_bytes|, the |encoded_timestamp| and the
   // |payload_type|. If the packet contains redundant encodings, the |redundant|
   // vector will be populated with EncodedInfoLeaf structs. Each struct in the
   // vector represents one encoding; the order of structs in the vector is the
   // same as the order in which the actual payloads are written to the byte
   // stream. When EncoderInfoLeaf structs are present in the vector, the main
   // struct's |encoded_bytes| will be the sum of all the |encoded_bytes| in the
   // vector.
   struct EncodedInfo : public EncodedInfoLeaf {
     EncodedInfo();
     EncodedInfo(const EncodedInfo&);
     EncodedInfo(EncodedInfo&&);
     ~EncodedInfo();
     EncodedInfo& operator=(const EncodedInfo&);
     EncodedInfo& operator=(EncodedInfo&&);

     std::vector<EncodedInfoLeaf> redundant;
   };

   virtual ~AudioEncoder() = default;

   // Returns the input sample rate in Hz and the number of input channels.
   // These are constants set at instantiation time.
   virtual int SampleRateHz() const = 0;
   virtual size_t NumChannels() const = 0;

   // Returns the rate at which the RTP timestamps are updated. The default
   // implementation returns SampleRateHz().
   virtual int RtpTimestampRateHz() const;

   // Returns the number of 10 ms frames the encoder will put in the next
   // packet. This value may only change when Encode() outputs a packet; i.e.,
   // the encoder may vary the number of 10 ms frames from packet to packet, but
   // it must decide the length of the next packet no later than when outputting
   // the preceding packet.
   virtual size_t Num10MsFramesInNextPacket() const = 0;

   // Returns the maximum value that can be returned by
   // Num10MsFramesInNextPacket().
   virtual size_t Max10MsFramesInAPacket() const = 0;

   // Returns the current target bitrate in bits/s. The value -1 means that the
   // codec adapts the target automatically, and a current target cannot be
   // provided.
   virtual int GetTargetBitrate() const = 0;

   // Accepts one 10 ms block of input audio (i.e., SampleRateHz() / 100 *
   // NumChannels() samples). Multi-channel audio must be sample-interleaved.
   // The encoder appends zero or more bytes of output to |encoded| and returns
   // additional encoding information.  Encode() checks some preconditions, calls
   // EncodeImpl() which does the actual work, and then checks some
   // postconditions.
   EncodedInfo Encode(uint32_t rtp_timestamp,
                      rtc::ArrayView<const int16_t> audio,
                      rtc::Buffer* encoded);

   // Resets the encoder to its starting state, discarding any input that has
   // been fed to the encoder but not yet emitted in a packet.
   virtual void Reset() = 0;

   // Enables or disables codec-internal FEC (forward error correction). Returns
   // true if the codec was able to comply. The default implementation returns
   // true when asked to disable FEC and false when asked to enable it (meaning
   // that FEC isn't supported).
   virtual bool SetFec(bool enable);

   // Enables or disables codec-internal VAD/DTX. Returns true if the codec was
   // able to comply. The default implementation returns true when asked to
   // disable DTX and false when asked to enable it (meaning that DTX isn't
   // supported).
   virtual bool SetDtx(bool enable);

   // Returns the status of codec-internal DTX. The default implementation always
   // returns false.
   virtual bool GetDtx() const;

   // Sets the application mode. Returns true if the codec was able to comply.
   // The default implementation just returns false.
   enum class Application { kSpeech, kAudio };
   virtual bool SetApplication(Application application);

   // Tells the encoder about the highest sample rate the decoder is expected to
   // use when decoding the bitstream. The encoder would typically use this
   // information to adjust the quality of the encoding. The default
   // implementation does nothing.
   virtual void SetMaxPlaybackRate(int frequency_hz);

   // This is to be deprecated. Please use |OnReceivedTargetAudioBitrate|
   // instead.
   // Tells the encoder what average bitrate we'd like it to produce. The
   // encoder is free to adjust or disregard the given bitrate (the default
   // implementation does the latter).
   RTC_DEPRECATED virtual void SetTargetBitrate(int target_bps);

   // Causes this encoder to let go of any other encoders it contains, and
   // returns a pointer to an array where they are stored (which is required to
   // live as long as this encoder). Unless the returned array is empty, you may
   // not call any methods on this encoder afterwards, except for the
   // destructor. The default implementation just returns an empty array.
   // NOTE: This method is subject to change. Do not call or override it.
   virtual rtc::ArrayView<std::unique_ptr<AudioEncoder>>
   ReclaimContainedEncoders();

   // Enables audio network adaptor. Returns true if successful.
   virtual bool EnableAudioNetworkAdaptor(const std::string& config_string,
                                          RtcEventLog* event_log);

   // Disables audio network adaptor.
   virtual void DisableAudioNetworkAdaptor();

   // Provides uplink packet loss fraction to this encoder to allow it to adapt.
   // |uplink_packet_loss_fraction| is in the range [0.0, 1.0].
   virtual void OnReceivedUplinkPacketLossFraction(
       float uplink_packet_loss_fraction);

   // Provides 1st-order-FEC-recoverable uplink packet loss rate to this encoder
   // to allow it to adapt.
   // |uplink_recoverable_packet_loss_fraction| is in the range [0.0, 1.0].
   virtual void OnReceivedUplinkRecoverablePacketLossFraction(
       float uplink_recoverable_packet_loss_fraction);

   // Provides target audio bitrate to this encoder to allow it to adapt.
   virtual void OnReceivedTargetAudioBitrate(int target_bps);

   // Provides target audio bitrate and corresponding probing interval of
   // the bandwidth estimator to this encoder to allow it to adapt.
   virtual void OnReceivedUplinkBandwidth(
       int target_audio_bitrate_bps,
       rtc::Optional<int64_t> bwe_period_ms);

   // Provides RTT to this encoder to allow it to adapt.
   virtual void OnReceivedRtt(int rtt_ms);

   // Provides overhead to this encoder to adapt. The overhead is the number of
   // bytes that will be added to each packet the encoder generates.
   virtual void OnReceivedOverhead(size_t overhead_bytes_per_packet);

   // To allow encoder to adapt its frame length, it must be provided the frame
   // length range that receivers can accept.
   virtual void SetReceiverFrameLengthRange(int min_frame_length_ms,
                                            int max_frame_length_ms);

   // Get statistics related to audio network adaptation.
   virtual ANAStats GetANAStats() const;

  protected:
   // Subclasses implement this to perform the actual encoding. Called by
   // Encode().
   virtual EncodedInfo EncodeImpl(uint32_t rtp_timestamp,
                                  rtc::ArrayView<const int16_t> audio,
                                  rtc::Buffer* encoded) = 0;
 };
 }  // namespace webrtc
 #endif  // WEBRTC_API_AUDIO_CODECS_AUDIO_ENCODER_H_
	/*
	* Copyright (c) 2014 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 WEBRTC_API_AUDIO_CODECS_AUDIO_ENCODER_H_
	#define WEBRTC_API_AUDIO_CODECS_AUDIO_ENCODER_H_

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

	#include "webrtc/api/array_view.h"
	#include "webrtc/api/optional.h"
	#include "webrtc/rtc_base/buffer.h"
	#include "webrtc/rtc_base/deprecation.h"
	#include "webrtc/typedefs.h"

	namespace webrtc {

	class Clock;
	class RtcEventLog;

	// Statistics related to Audio Network Adaptation.
	struct ANAStats {
	ANAStats();
	ANAStats(const ANAStats&);
	~ANAStats();
	// Number of actions taken by the ANA bitrate controller since the start of
	// the call. If this value is not set, it indicates that the bitrate
	// controller is disabled.
	rtc::Optional<uint32_t> bitrate_action_counter;
	// Number of actions taken by the ANA channel controller since the start of
	// the call. If this value is not set, it indicates that the channel
	// controller is disabled.
	rtc::Optional<uint32_t> channel_action_counter;
	// Number of actions taken by the ANA DTX controller since the start of the
	// call. If this value is not set, it indicates that the DTX controller is
	// disabled.
	rtc::Optional<uint32_t> dtx_action_counter;
	// Number of actions taken by the ANA FEC controller since the start of the
	// call. If this value is not set, it indicates that the FEC controller is
	// disabled.
	rtc::Optional<uint32_t> fec_action_counter;
	// Number of times the ANA frame length controller decided to increase the
	// frame length since the start of the call. If this value is not set, it
	// indicates that the frame length controller is disabled.
	rtc::Optional<uint32_t> frame_length_increase_counter;
	// Number of times the ANA frame length controller decided to decrease the
	// frame length since the start of the call. If this value is not set, it
	// indicates that the frame length controller is disabled.
	rtc::Optional<uint32_t> frame_length_decrease_counter;
	// The uplink packet loss fractions as set by the ANA FEC controller. If this
	// value is not set, it indicates that the ANA FEC controller is not active.
	rtc::Optional<float> uplink_packet_loss_fraction;
	};

	// This is the interface class for encoders in AudioCoding module. Each codec
	// type must have an implementation of this class.
	class AudioEncoder {
	public:
	// Used for UMA logging of codec usage. The same codecs, with the
	// same values, must be listed in
	// src/tools/metrics/histograms/histograms.xml in chromium to log
	// correct values.
	enum class CodecType {
	kOther = 0, // Codec not specified, and/or not listed in this enum
	kOpus = 1,
	kIsac = 2,
	kPcmA = 3,
	kPcmU = 4,
	kG722 = 5,
	kIlbc = 6,

	// Number of histogram bins in the UMA logging of codec types. The
	// total number of different codecs that are logged cannot exceed this
	// number.
	kMaxLoggedAudioCodecTypes
	};

	struct EncodedInfoLeaf {
	size_t encoded_bytes = 0;
	uint32_t encoded_timestamp = 0;
	int payload_type = 0;
	bool send_even_if_empty = false;
	bool speech = true;
	CodecType encoder_type = CodecType::kOther;
	};

	// This is the main struct for auxiliary encoding information. Each encoded
	// packet should be accompanied by one EncodedInfo struct, containing the
	// total number of \|encoded_bytes\|, the \|encoded_timestamp\| and the
	// \|payload_type\|. If the packet contains redundant encodings, the \|redundant\|
	// vector will be populated with EncodedInfoLeaf structs. Each struct in the
	// vector represents one encoding; the order of structs in the vector is the
	// same as the order in which the actual payloads are written to the byte
	// stream. When EncoderInfoLeaf structs are present in the vector, the main
	// struct's \|encoded_bytes\| will be the sum of all the \|encoded_bytes\| in the
	// vector.
	struct EncodedInfo : public EncodedInfoLeaf {
	EncodedInfo();
	EncodedInfo(const EncodedInfo&);
	EncodedInfo(EncodedInfo&&);
	~EncodedInfo();
	EncodedInfo& operator=(const EncodedInfo&);
	EncodedInfo& operator=(EncodedInfo&&);

	std::vector<EncodedInfoLeaf> redundant;
	};

	virtual ~AudioEncoder() = default;

	// Returns the input sample rate in Hz and the number of input channels.
	// These are constants set at instantiation time.
	virtual int SampleRateHz() const = 0;
	virtual size_t NumChannels() const = 0;

	// Returns the rate at which the RTP timestamps are updated. The default
	// implementation returns SampleRateHz().
	virtual int RtpTimestampRateHz() const;

	// Returns the number of 10 ms frames the encoder will put in the next
	// packet. This value may only change when Encode() outputs a packet; i.e.,
	// the encoder may vary the number of 10 ms frames from packet to packet, but
	// it must decide the length of the next packet no later than when outputting
	// the preceding packet.
	virtual size_t Num10MsFramesInNextPacket() const = 0;

	// Returns the maximum value that can be returned by
	// Num10MsFramesInNextPacket().
	virtual size_t Max10MsFramesInAPacket() const = 0;

	// Returns the current target bitrate in bits/s. The value -1 means that the
	// codec adapts the target automatically, and a current target cannot be
	// provided.
	virtual int GetTargetBitrate() const = 0;

	// Accepts one 10 ms block of input audio (i.e., SampleRateHz() / 100 *
	// NumChannels() samples). Multi-channel audio must be sample-interleaved.
	// The encoder appends zero or more bytes of output to \|encoded\| and returns
	// additional encoding information. Encode() checks some preconditions, calls
	// EncodeImpl() which does the actual work, and then checks some
	// postconditions.
	EncodedInfo Encode(uint32_t rtp_timestamp,
	rtc::ArrayView<const int16_t> audio,
	rtc::Buffer* encoded);

	// Resets the encoder to its starting state, discarding any input that has
	// been fed to the encoder but not yet emitted in a packet.
	virtual void Reset() = 0;

	// Enables or disables codec-internal FEC (forward error correction). Returns
	// true if the codec was able to comply. The default implementation returns
	// true when asked to disable FEC and false when asked to enable it (meaning
	// that FEC isn't supported).
	virtual bool SetFec(bool enable);

	// Enables or disables codec-internal VAD/DTX. Returns true if the codec was
	// able to comply. The default implementation returns true when asked to
	// disable DTX and false when asked to enable it (meaning that DTX isn't
	// supported).
	virtual bool SetDtx(bool enable);

	// Returns the status of codec-internal DTX. The default implementation always
	// returns false.
	virtual bool GetDtx() const;

	// Sets the application mode. Returns true if the codec was able to comply.
	// The default implementation just returns false.
	enum class Application { kSpeech, kAudio };
	virtual bool SetApplication(Application application);

	// Tells the encoder about the highest sample rate the decoder is expected to
	// use when decoding the bitstream. The encoder would typically use this
	// information to adjust the quality of the encoding. The default
	// implementation does nothing.
	virtual void SetMaxPlaybackRate(int frequency_hz);

	// This is to be deprecated. Please use \|OnReceivedTargetAudioBitrate\|
	// instead.
	// Tells the encoder what average bitrate we'd like it to produce. The
	// encoder is free to adjust or disregard the given bitrate (the default
	// implementation does the latter).
	RTC_DEPRECATED virtual void SetTargetBitrate(int target_bps);

	// Causes this encoder to let go of any other encoders it contains, and
	// returns a pointer to an array where they are stored (which is required to
	// live as long as this encoder). Unless the returned array is empty, you may
	// not call any methods on this encoder afterwards, except for the
	// destructor. The default implementation just returns an empty array.
	// NOTE: This method is subject to change. Do not call or override it.
	virtual rtc::ArrayView<std::unique_ptr<AudioEncoder>>
	ReclaimContainedEncoders();

	// Enables audio network adaptor. Returns true if successful.
	virtual bool EnableAudioNetworkAdaptor(const std::string& config_string,
	RtcEventLog* event_log);

	// Disables audio network adaptor.
	virtual void DisableAudioNetworkAdaptor();

	// Provides uplink packet loss fraction to this encoder to allow it to adapt.
	// \|uplink_packet_loss_fraction\| is in the range [0.0, 1.0].
	virtual void OnReceivedUplinkPacketLossFraction(
	float uplink_packet_loss_fraction);

	// Provides 1st-order-FEC-recoverable uplink packet loss rate to this encoder
	// to allow it to adapt.
	// \|uplink_recoverable_packet_loss_fraction\| is in the range [0.0, 1.0].
	virtual void OnReceivedUplinkRecoverablePacketLossFraction(
	float uplink_recoverable_packet_loss_fraction);

	// Provides target audio bitrate to this encoder to allow it to adapt.
	virtual void OnReceivedTargetAudioBitrate(int target_bps);

	// Provides target audio bitrate and corresponding probing interval of
	// the bandwidth estimator to this encoder to allow it to adapt.
	virtual void OnReceivedUplinkBandwidth(
	int target_audio_bitrate_bps,
	rtc::Optional<int64_t> bwe_period_ms);

	// Provides RTT to this encoder to allow it to adapt.
	virtual void OnReceivedRtt(int rtt_ms);

	// Provides overhead to this encoder to adapt. The overhead is the number of
	// bytes that will be added to each packet the encoder generates.
	virtual void OnReceivedOverhead(size_t overhead_bytes_per_packet);

	// To allow encoder to adapt its frame length, it must be provided the frame
	// length range that receivers can accept.
	virtual void SetReceiverFrameLengthRange(int min_frame_length_ms,
	int max_frame_length_ms);

	// Get statistics related to audio network adaptation.
	virtual ANAStats GetANAStats() const;

	protected:
	// Subclasses implement this to perform the actual encoding. Called by
	// Encode().
	virtual EncodedInfo EncodeImpl(uint32_t rtp_timestamp,
	rtc::ArrayView<const int16_t> audio,
	rtc::Buffer* encoded) = 0;
	};
	} // namespace webrtc
	#endif // WEBRTC_API_AUDIO_CODECS_AUDIO_ENCODER_H_