modules/audio_mixer/source/new_audio_conference_mixer_impl.h - src/webrtc - Git at Google

 /*
  *  Copyright (c) 2012 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_MODULES_AUDIO_MIXER_SOURCE_NEW_AUDIO_CONFERENCE_MIXER_IMPL_H_
 #define WEBRTC_MODULES_AUDIO_MIXER_SOURCE_NEW_AUDIO_CONFERENCE_MIXER_IMPL_H_

 #include <list>
 #include <map>
 #include <memory>

 #include "webrtc/base/thread_checker.h"
 #include "webrtc/engine_configurations.h"
 #include "webrtc/modules/audio_mixer/include/new_audio_conference_mixer.h"
 #include "webrtc/modules/audio_conference_mixer/source/memory_pool.h"
 #include "webrtc/modules/include/module_common_types.h"

 namespace webrtc {
 class AudioProcessing;
 class CriticalSectionWrapper;

 struct FrameAndMuteInfo {
   FrameAndMuteInfo(AudioFrame* f, bool m) : frame(f), muted(m) {}
   AudioFrame* frame;
   bool muted;
 };

 typedef std::list<FrameAndMuteInfo> AudioFrameList;
 typedef std::list<MixerAudioSource*> MixerAudioSourceList;

 // Cheshire cat implementation of MixerAudioSource's non virtual functions.
 class NewMixHistory {
  public:
   NewMixHistory();
   ~NewMixHistory();

   // Returns true if the audio source is being mixed.
   bool IsMixed() const;

   // Returns true if the audio source was mixed previous mix
   // iteration.
   bool WasMixed() const;

   // Updates the mixed status.
   int32_t SetIsMixed(bool mixed);

   void ResetMixedStatus();

  private:
   bool _isMixed;
 };

 class NewAudioConferenceMixerImpl : public NewAudioConferenceMixer {
  public:
   // AudioProcessing only accepts 10 ms frames.
   enum { kProcessPeriodicityInMs = 10 };

   explicit NewAudioConferenceMixerImpl(int id);
   // The dtor not needed, because this class does no longer manage
   // memory.

   // Must be called after ctor.
   bool Init();

   // NewAudioConferenceMixer functions
   int32_t SetMixabilityStatus(MixerAudioSource* audio_source,
                               bool mixable) override;
   bool MixabilityStatus(const MixerAudioSource& audio_source) const override;
   int32_t SetAnonymousMixabilityStatus(MixerAudioSource* audio_source,
                                        bool mixable) override;
   void Mix(AudioFrame* audio_frame_for_mixing) override;
   int32_t SetMinimumMixingFrequency(Frequency freq) override;
   bool AnonymousMixabilityStatus(
       const MixerAudioSource& audio_source) const override;

  private:
   // Set/get mix frequency
   int32_t SetOutputFrequency(const Frequency& frequency);
   Frequency OutputFrequency() const;

   // Fills mixList with the AudioFrames pointers that should be used when
   // mixing.
   // maxAudioFrameCounter both input and output specifies how many more
   // AudioFrames that are allowed to be mixed.
   // rampOutList contain AudioFrames corresponding to an audio stream that
   // used to be mixed but shouldn't be mixed any longer. These AudioFrames
   // should be ramped out over this AudioFrame to avoid audio discontinuities.
   void UpdateToMix(AudioFrameList* mixList,
                    AudioFrameList* rampOutList,
                    std::map<int, MixerAudioSource*>* mixAudioSourceList,
                    size_t* maxAudioFrameCounter) const;

   // Return the lowest mixing frequency that can be used without having to
   // downsample any audio.
   int32_t GetLowestMixingFrequency() const;
   int32_t GetLowestMixingFrequencyFromList(
       const MixerAudioSourceList& mixList) const;

   // Return the AudioFrames that should be mixed anonymously.
   void GetAdditionalAudio(AudioFrameList* additionalFramesList) const;

   // Update the NewMixHistory of all MixerAudioSources. mixedAudioSourcesList
   // should contain a map of MixerAudioSources that have been mixed.
   void UpdateMixedStatus(
       const std::map<int, MixerAudioSource*>& mixedAudioSourcesList) const;

   // Clears audioFrameList and reclaims all memory associated with it.
   void ClearAudioFrameList(AudioFrameList* audioFrameList) const;

   // This function returns true if it finds the MixerAudioSource in the
   // specified list of MixerAudioSources.
   bool IsAudioSourceInList(const MixerAudioSource& audio_source,
                            const MixerAudioSourceList& audioSourceList) const;

   // Add/remove the MixerAudioSource to the specified
   // MixerAudioSource list.
   bool AddAudioSourceToList(MixerAudioSource* audio_source,
                             MixerAudioSourceList* audioSourceList) const;
   bool RemoveAudioSourceFromList(MixerAudioSource* removeAudioSource,
                                  MixerAudioSourceList* audioSourceList) const;

   // Mix the AudioFrames stored in audioFrameList into mixedAudio.
   static int32_t MixFromList(AudioFrame* mixedAudio,
                              const AudioFrameList& audioFrameList,
                              int32_t id,
                              bool use_limiter);

   // Mix the AudioFrames stored in audioFrameList into mixedAudio. No
   // record will be kept of this mix (e.g. the corresponding MixerAudioSources
   // will not be marked as IsMixed()
   int32_t MixAnonomouslyFromList(AudioFrame* mixedAudio,
                                  const AudioFrameList& audioFrameList) const;

   bool LimitMixedAudio(AudioFrame* mixedAudio) const;

   std::unique_ptr<CriticalSectionWrapper> _crit;
   std::unique_ptr<CriticalSectionWrapper> _cbCrit;

   int32_t _id;

   Frequency _minimumMixingFreq;

   // The current sample frequency and sample size when mixing.
   Frequency _outputFrequency;
   size_t _sampleSize;

   // List of all audio sources. Note all lists are disjunct
   MixerAudioSourceList audio_source_list_;  // May be mixed.

   // Always mixed, anonomously.
   MixerAudioSourceList additional_audio_source_list_;

   size_t num_mixed_audio_sources_;
   // Determines if we will use a limiter for clipping protection during
   // mixing.
   bool use_limiter_;

   uint32_t _timeStamp;

   // Ensures that Mix is called from the same thread.
   rtc::ThreadChecker thread_checker_;

   // Used for inhibiting saturation in mixing.
   std::unique_ptr<AudioProcessing> _limiter;
 };
 }  // namespace webrtc

 #endif  // WEBRTC_MODULES_AUDIO_MIXER_SOURCE_NEW_AUDIO_CONFERENCE_MIXER_IMPL_H_
	/*
	* Copyright (c) 2012 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_MODULES_AUDIO_MIXER_SOURCE_NEW_AUDIO_CONFERENCE_MIXER_IMPL_H_
	#define WEBRTC_MODULES_AUDIO_MIXER_SOURCE_NEW_AUDIO_CONFERENCE_MIXER_IMPL_H_

	#include <list>
	#include <map>
	#include <memory>

	#include "webrtc/base/thread_checker.h"
	#include "webrtc/engine_configurations.h"
	#include "webrtc/modules/audio_mixer/include/new_audio_conference_mixer.h"
	#include "webrtc/modules/audio_conference_mixer/source/memory_pool.h"
	#include "webrtc/modules/include/module_common_types.h"

	namespace webrtc {
	class AudioProcessing;
	class CriticalSectionWrapper;

	struct FrameAndMuteInfo {
	FrameAndMuteInfo(AudioFrame* f, bool m) : frame(f), muted(m) {}
	AudioFrame* frame;
	bool muted;
	};

	typedef std::list<FrameAndMuteInfo> AudioFrameList;
	typedef std::list<MixerAudioSource*> MixerAudioSourceList;

	// Cheshire cat implementation of MixerAudioSource's non virtual functions.
	class NewMixHistory {
	public:
	NewMixHistory();
	~NewMixHistory();

	// Returns true if the audio source is being mixed.
	bool IsMixed() const;

	// Returns true if the audio source was mixed previous mix
	// iteration.
	bool WasMixed() const;

	// Updates the mixed status.
	int32_t SetIsMixed(bool mixed);

	void ResetMixedStatus();

	private:
	bool _isMixed;
	};

	class NewAudioConferenceMixerImpl : public NewAudioConferenceMixer {
	public:
	// AudioProcessing only accepts 10 ms frames.
	enum { kProcessPeriodicityInMs = 10 };

	explicit NewAudioConferenceMixerImpl(int id);
	// The dtor not needed, because this class does no longer manage
	// memory.

	// Must be called after ctor.
	bool Init();

	// NewAudioConferenceMixer functions
	int32_t SetMixabilityStatus(MixerAudioSource* audio_source,
	bool mixable) override;
	bool MixabilityStatus(const MixerAudioSource& audio_source) const override;
	int32_t SetAnonymousMixabilityStatus(MixerAudioSource* audio_source,
	bool mixable) override;
	void Mix(AudioFrame* audio_frame_for_mixing) override;
	int32_t SetMinimumMixingFrequency(Frequency freq) override;
	bool AnonymousMixabilityStatus(
	const MixerAudioSource& audio_source) const override;

	private:
	// Set/get mix frequency
	int32_t SetOutputFrequency(const Frequency& frequency);
	Frequency OutputFrequency() const;

	// Fills mixList with the AudioFrames pointers that should be used when
	// mixing.
	// maxAudioFrameCounter both input and output specifies how many more
	// AudioFrames that are allowed to be mixed.
	// rampOutList contain AudioFrames corresponding to an audio stream that
	// used to be mixed but shouldn't be mixed any longer. These AudioFrames
	// should be ramped out over this AudioFrame to avoid audio discontinuities.
	void UpdateToMix(AudioFrameList* mixList,
	AudioFrameList* rampOutList,
	std::map<int, MixerAudioSource> mixAudioSourceList,
	size_t* maxAudioFrameCounter) const;

	// Return the lowest mixing frequency that can be used without having to
	// downsample any audio.
	int32_t GetLowestMixingFrequency() const;
	int32_t GetLowestMixingFrequencyFromList(
	const MixerAudioSourceList& mixList) const;

	// Return the AudioFrames that should be mixed anonymously.
	void GetAdditionalAudio(AudioFrameList* additionalFramesList) const;

	// Update the NewMixHistory of all MixerAudioSources. mixedAudioSourcesList
	// should contain a map of MixerAudioSources that have been mixed.
	void UpdateMixedStatus(
	const std::map<int, MixerAudioSource*>& mixedAudioSourcesList) const;

	// Clears audioFrameList and reclaims all memory associated with it.
	void ClearAudioFrameList(AudioFrameList* audioFrameList) const;

	// This function returns true if it finds the MixerAudioSource in the
	// specified list of MixerAudioSources.
	bool IsAudioSourceInList(const MixerAudioSource& audio_source,
	const MixerAudioSourceList& audioSourceList) const;

	// Add/remove the MixerAudioSource to the specified
	// MixerAudioSource list.
	bool AddAudioSourceToList(MixerAudioSource* audio_source,
	MixerAudioSourceList* audioSourceList) const;
	bool RemoveAudioSourceFromList(MixerAudioSource* removeAudioSource,
	MixerAudioSourceList* audioSourceList) const;

	// Mix the AudioFrames stored in audioFrameList into mixedAudio.
	static int32_t MixFromList(AudioFrame* mixedAudio,
	const AudioFrameList& audioFrameList,
	int32_t id,
	bool use_limiter);

	// Mix the AudioFrames stored in audioFrameList into mixedAudio. No
	// record will be kept of this mix (e.g. the corresponding MixerAudioSources
	// will not be marked as IsMixed()
	int32_t MixAnonomouslyFromList(AudioFrame* mixedAudio,
	const AudioFrameList& audioFrameList) const;

	bool LimitMixedAudio(AudioFrame* mixedAudio) const;

	std::unique_ptr<CriticalSectionWrapper> _crit;
	std::unique_ptr<CriticalSectionWrapper> _cbCrit;

	int32_t _id;

	Frequency _minimumMixingFreq;

	// The current sample frequency and sample size when mixing.
	Frequency _outputFrequency;
	size_t _sampleSize;

	// List of all audio sources. Note all lists are disjunct
	MixerAudioSourceList audio_source_list_; // May be mixed.

	// Always mixed, anonomously.
	MixerAudioSourceList additional_audio_source_list_;

	size_t num_mixed_audio_sources_;
	// Determines if we will use a limiter for clipping protection during
	// mixing.
	bool use_limiter_;

	uint32_t _timeStamp;

	// Ensures that Mix is called from the same thread.
	rtc::ThreadChecker thread_checker_;

	// Used for inhibiting saturation in mixing.
	std::unique_ptr<AudioProcessing> _limiter;
	};
	} // namespace webrtc

	#endif // WEBRTC_MODULES_AUDIO_MIXER_SOURCE_NEW_AUDIO_CONFERENCE_MIXER_IMPL_H_