modules/video_coding/svc/scalability_structure_simulcast.h - src - Git at Google

 /*
  *  Copyright (c) 2021 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_VIDEO_CODING_SVC_SCALABILITY_STRUCTURE_SIMULCAST_H_
 #define MODULES_VIDEO_CODING_SVC_SCALABILITY_STRUCTURE_SIMULCAST_H_

 #include <vector>

 #include "api/transport/rtp/dependency_descriptor.h"
 #include "api/video/video_bitrate_allocation.h"
 #include "common_video/generic_frame_descriptor/generic_frame_info.h"
 #include "modules/video_coding/svc/scalable_video_controller.h"

 namespace webrtc {

 // Scalability structure with multiple independent spatial layers each with the
 // same temporal layering.
 class ScalabilityStructureSimulcast : public ScalableVideoController {
  public:
   struct ScalingFactor {
     int num = 1;
     int den = 2;
   };
   ScalabilityStructureSimulcast(int num_spatial_layers,
                                 int num_temporal_layers,
                                 ScalingFactor resolution_factor);
   ~ScalabilityStructureSimulcast() override;

   StreamLayersConfig StreamConfig() const override;
   std::vector<LayerFrameConfig> NextFrameConfig(bool restart) override;
   GenericFrameInfo OnEncodeDone(const LayerFrameConfig& config) override;
   void OnRatesUpdated(const VideoBitrateAllocation& bitrates) override;

  private:
   enum FramePattern {
     kNone,
     kDeltaT2A,
     kDeltaT1,
     kDeltaT2B,
     kDeltaT0,
   };
   static constexpr int kMaxNumSpatialLayers = 3;
   static constexpr int kMaxNumTemporalLayers = 3;

   // Index of the buffer to store last frame for layer (`sid`, `tid`)
   int BufferIndex(int sid, int tid) const {
     return tid * num_spatial_layers_ + sid;
   }
   bool DecodeTargetIsActive(int sid, int tid) const {
     return active_decode_targets_[sid * num_temporal_layers_ + tid];
   }
   void SetDecodeTargetIsActive(int sid, int tid, bool value) {
     active_decode_targets_.set(sid * num_temporal_layers_ + tid, value);
   }
   FramePattern NextPattern() const;
   bool TemporalLayerIsActive(int tid) const;

   const int num_spatial_layers_;
   const int num_temporal_layers_;
   const ScalingFactor resolution_factor_;

   FramePattern last_pattern_ = kNone;
   std::bitset<kMaxNumSpatialLayers> can_reference_t0_frame_for_spatial_id_ = 0;
   std::bitset<kMaxNumSpatialLayers> can_reference_t1_frame_for_spatial_id_ = 0;
   std::bitset<32> active_decode_targets_;
 };

 // S1  0--0--0-
 //             ...
 // S0  0--0--0-
 class ScalabilityStructureS2T1 : public ScalabilityStructureSimulcast {
  public:
   explicit ScalabilityStructureS2T1(ScalingFactor resolution_factor = {})
       : ScalabilityStructureSimulcast(2, 1, resolution_factor) {}
   ~ScalabilityStructureS2T1() override = default;

   FrameDependencyStructure DependencyStructure() const override;
 };

 class ScalabilityStructureS2T2 : public ScalabilityStructureSimulcast {
  public:
   explicit ScalabilityStructureS2T2(ScalingFactor resolution_factor = {})
       : ScalabilityStructureSimulcast(2, 2, resolution_factor) {}
   ~ScalabilityStructureS2T2() override = default;

   FrameDependencyStructure DependencyStructure() const override;
 };

 // S1T2       3   7
 //            |  /
 // S1T1       / 5
 //           |_/
 // S1T0     1-------9...
 //
 // S0T2       2   6
 //            |  /
 // S0T1       / 4
 //           |_/
 // S0T0     0-------8...
 // Time->   0 1 2 3 4
 class ScalabilityStructureS2T3 : public ScalabilityStructureSimulcast {
  public:
   explicit ScalabilityStructureS2T3(ScalingFactor resolution_factor = {})
       : ScalabilityStructureSimulcast(2, 3, resolution_factor) {}
   ~ScalabilityStructureS2T3() override = default;

   FrameDependencyStructure DependencyStructure() const override;
 };

 class ScalabilityStructureS3T1 : public ScalabilityStructureSimulcast {
  public:
   explicit ScalabilityStructureS3T1(ScalingFactor resolution_factor = {})
       : ScalabilityStructureSimulcast(3, 1, resolution_factor) {}
   ~ScalabilityStructureS3T1() override = default;

   FrameDependencyStructure DependencyStructure() const override;
 };

 class ScalabilityStructureS3T2 : public ScalabilityStructureSimulcast {
  public:
   explicit ScalabilityStructureS3T2(ScalingFactor resolution_factor = {})
       : ScalabilityStructureSimulcast(3, 2, resolution_factor) {}
   ~ScalabilityStructureS3T2() override = default;

   FrameDependencyStructure DependencyStructure() const override;
 };

 class ScalabilityStructureS3T3 : public ScalabilityStructureSimulcast {
  public:
   explicit ScalabilityStructureS3T3(ScalingFactor resolution_factor = {})
       : ScalabilityStructureSimulcast(3, 3, resolution_factor) {}
   ~ScalabilityStructureS3T3() override = default;

   FrameDependencyStructure DependencyStructure() const override;
 };

 }  // namespace webrtc

 #endif  // MODULES_VIDEO_CODING_SVC_SCALABILITY_STRUCTURE_SIMULCAST_H_
	/*
	* Copyright (c) 2021 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_VIDEO_CODING_SVC_SCALABILITY_STRUCTURE_SIMULCAST_H_
	#define MODULES_VIDEO_CODING_SVC_SCALABILITY_STRUCTURE_SIMULCAST_H_

	#include <vector>

	#include "api/transport/rtp/dependency_descriptor.h"
	#include "api/video/video_bitrate_allocation.h"
	#include "common_video/generic_frame_descriptor/generic_frame_info.h"
	#include "modules/video_coding/svc/scalable_video_controller.h"

	namespace webrtc {

	// Scalability structure with multiple independent spatial layers each with the
	// same temporal layering.
	class ScalabilityStructureSimulcast : public ScalableVideoController {
	public:
	struct ScalingFactor {
	int num = 1;
	int den = 2;
	};
	ScalabilityStructureSimulcast(int num_spatial_layers,
	int num_temporal_layers,
	ScalingFactor resolution_factor);
	~ScalabilityStructureSimulcast() override;

	StreamLayersConfig StreamConfig() const override;
	std::vector<LayerFrameConfig> NextFrameConfig(bool restart) override;
	GenericFrameInfo OnEncodeDone(const LayerFrameConfig& config) override;
	void OnRatesUpdated(const VideoBitrateAllocation& bitrates) override;

	private:
	enum FramePattern {
	kNone,
	kDeltaT2A,
	kDeltaT1,
	kDeltaT2B,
	kDeltaT0,
	};
	static constexpr int kMaxNumSpatialLayers = 3;
	static constexpr int kMaxNumTemporalLayers = 3;

	// Index of the buffer to store last frame for layer (`sid`, `tid`)
	int BufferIndex(int sid, int tid) const {
	return tid * num_spatial_layers_ + sid;
	}
	bool DecodeTargetIsActive(int sid, int tid) const {
	return active_decode_targets_[sid * num_temporal_layers_ + tid];
	}
	void SetDecodeTargetIsActive(int sid, int tid, bool value) {
	active_decode_targets_.set(sid * num_temporal_layers_ + tid, value);
	}
	FramePattern NextPattern() const;
	bool TemporalLayerIsActive(int tid) const;

	const int num_spatial_layers_;
	const int num_temporal_layers_;
	const ScalingFactor resolution_factor_;

	FramePattern last_pattern_ = kNone;
	std::bitset<kMaxNumSpatialLayers> can_reference_t0_frame_for_spatial_id_ = 0;
	std::bitset<kMaxNumSpatialLayers> can_reference_t1_frame_for_spatial_id_ = 0;
	std::bitset<32> active_decode_targets_;
	};

	// S1 0--0--0-
	// ...
	// S0 0--0--0-
	class ScalabilityStructureS2T1 : public ScalabilityStructureSimulcast {
	public:
	explicit ScalabilityStructureS2T1(ScalingFactor resolution_factor = {})
	: ScalabilityStructureSimulcast(2, 1, resolution_factor) {}
	~ScalabilityStructureS2T1() override = default;

	FrameDependencyStructure DependencyStructure() const override;
	};

	class ScalabilityStructureS2T2 : public ScalabilityStructureSimulcast {
	public:
	explicit ScalabilityStructureS2T2(ScalingFactor resolution_factor = {})
	: ScalabilityStructureSimulcast(2, 2, resolution_factor) {}
	~ScalabilityStructureS2T2() override = default;

	FrameDependencyStructure DependencyStructure() const override;
	};

	// S1T2 3 7
	// \| /
	// S1T1 / 5
	// \|_/
	// S1T0 1-------9...
	//
	// S0T2 2 6
	// \| /
	// S0T1 / 4
	// \|_/
	// S0T0 0-------8...
	// Time-> 0 1 2 3 4
	class ScalabilityStructureS2T3 : public ScalabilityStructureSimulcast {
	public:
	explicit ScalabilityStructureS2T3(ScalingFactor resolution_factor = {})
	: ScalabilityStructureSimulcast(2, 3, resolution_factor) {}
	~ScalabilityStructureS2T3() override = default;

	FrameDependencyStructure DependencyStructure() const override;
	};

	class ScalabilityStructureS3T1 : public ScalabilityStructureSimulcast {
	public:
	explicit ScalabilityStructureS3T1(ScalingFactor resolution_factor = {})
	: ScalabilityStructureSimulcast(3, 1, resolution_factor) {}
	~ScalabilityStructureS3T1() override = default;

	FrameDependencyStructure DependencyStructure() const override;
	};

	class ScalabilityStructureS3T2 : public ScalabilityStructureSimulcast {
	public:
	explicit ScalabilityStructureS3T2(ScalingFactor resolution_factor = {})
	: ScalabilityStructureSimulcast(3, 2, resolution_factor) {}
	~ScalabilityStructureS3T2() override = default;

	FrameDependencyStructure DependencyStructure() const override;
	};

	class ScalabilityStructureS3T3 : public ScalabilityStructureSimulcast {
	public:
	explicit ScalabilityStructureS3T3(ScalingFactor resolution_factor = {})
	: ScalabilityStructureSimulcast(3, 3, resolution_factor) {}
	~ScalabilityStructureS3T3() override = default;

	FrameDependencyStructure DependencyStructure() const override;
	};

	} // namespace webrtc

	#endif // MODULES_VIDEO_CODING_SVC_SCALABILITY_STRUCTURE_SIMULCAST_H_