modules/video_coding/svc/scalability_structure_l2t2_key_shift.cc - src - Git at Google

 /*
  *  Copyright (c) 2020 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.
  */
 #include "modules/video_coding/svc/scalability_structure_l2t2_key_shift.h"

 #include <utility>
 #include <vector>

 #include "absl/base/macros.h"
 #include "api/transport/rtp/dependency_descriptor.h"
 #include "rtc_base/checks.h"
 #include "rtc_base/logging.h"

 namespace webrtc {
 namespace {

 DecodeTargetIndication
 Dti(int sid, int tid, const ScalableVideoController::LayerFrameConfig& config) {
   if (config.IsKeyframe()) {
     RTC_DCHECK_EQ(config.TemporalId(), 0);
     return sid < config.SpatialId() ? DecodeTargetIndication::kNotPresent
                                     : DecodeTargetIndication::kSwitch;
   }

   if (sid != config.SpatialId() || tid < config.TemporalId()) {
     return DecodeTargetIndication::kNotPresent;
   }
   if (tid == config.TemporalId() && tid > 0) {
     return DecodeTargetIndication::kDiscardable;
   }
   return DecodeTargetIndication::kSwitch;
 }

 }  // namespace

 constexpr int ScalabilityStructureL2T2KeyShift::kNumSpatialLayers;
 constexpr int ScalabilityStructureL2T2KeyShift::kNumTemporalLayers;

 ScalabilityStructureL2T2KeyShift::~ScalabilityStructureL2T2KeyShift() = default;

 ScalableVideoController::StreamLayersConfig
 ScalabilityStructureL2T2KeyShift::StreamConfig() const {
   StreamLayersConfig result;
   result.num_spatial_layers = 2;
   result.num_temporal_layers = 2;
   result.scaling_factor_num[0] = 1;
   result.scaling_factor_den[0] = 2;
   result.uses_reference_scaling = true;
   return result;
 }

 FrameDependencyStructure ScalabilityStructureL2T2KeyShift::DependencyStructure()
     const {
   FrameDependencyStructure structure;
   structure.num_decode_targets = 4;
   structure.num_chains = 2;
   structure.decode_target_protected_by_chain = {0, 0, 1, 1};
   structure.templates.resize(7);
   auto& templates = structure.templates;
   templates[0].S(0).T(0).Dtis("SSSS").ChainDiffs({0, 0});
   templates[1].S(0).T(0).Dtis("SS--").ChainDiffs({2, 1}).FrameDiffs({2});
   templates[2].S(0).T(0).Dtis("SS--").ChainDiffs({4, 1}).FrameDiffs({4});
   templates[3].S(0).T(1).Dtis("-D--").ChainDiffs({2, 3}).FrameDiffs({2});
   templates[4].S(1).T(0).Dtis("--SS").ChainDiffs({1, 1}).FrameDiffs({1});
   templates[5].S(1).T(0).Dtis("--SS").ChainDiffs({3, 4}).FrameDiffs({4});
   templates[6].S(1).T(1).Dtis("---D").ChainDiffs({1, 2}).FrameDiffs({2});
   return structure;
 }

 std::vector<ScalableVideoController::LayerFrameConfig>
 ScalabilityStructureL2T2KeyShift::NextFrameConfig(bool restart) {
   std::vector<LayerFrameConfig> configs;
   configs.reserve(2);
   if (restart) {
     next_pattern_ = kKey;
   }

   // Buffer0 keeps latest S0T0 frame,
   // Buffer1 keeps latest S1T0 frame.
   switch (next_pattern_) {
     case kKey:
       if (DecodeTargetIsActive(/*sid=*/0, /*tid=*/0)) {
         configs.emplace_back();
         configs.back().S(0).T(0).Update(0).Keyframe();
       }
       if (DecodeTargetIsActive(/*sid=*/1, /*tid=*/0)) {
         configs.emplace_back();
         configs.back().S(1).T(0).Update(1);
         if (DecodeTargetIsActive(/*sid=*/0, /*tid=*/0)) {
           configs.back().Reference(0);
         } else {
           configs.back().Keyframe();
         }
       }
       next_pattern_ = kDelta0;
       break;
     case kDelta0:
       if (DecodeTargetIsActive(/*sid=*/0, /*tid=*/0)) {
         configs.emplace_back();
         configs.back().S(0).T(0).ReferenceAndUpdate(0);
       }
       if (DecodeTargetIsActive(/*sid=*/1, /*tid=*/1)) {
         configs.emplace_back();
         configs.back().S(1).T(1).Reference(1);
       }
       if (configs.empty() && DecodeTargetIsActive(/*sid=*/1, /*tid=*/0)) {
         configs.emplace_back();
         configs.back().S(1).T(0).ReferenceAndUpdate(1);
       }
       next_pattern_ = kDelta1;
       break;
     case kDelta1:
       if (DecodeTargetIsActive(/*sid=*/0, /*tid=*/1)) {
         configs.emplace_back();
         configs.back().S(0).T(1).Reference(0);
       }
       if (DecodeTargetIsActive(/*sid=*/1, /*tid=*/0)) {
         configs.emplace_back();
         configs.back().S(1).T(0).ReferenceAndUpdate(1);
       }
       if (configs.empty() && DecodeTargetIsActive(/*sid=*/0, /*tid=*/0)) {
         configs.emplace_back();
         configs.back().S(0).T(0).ReferenceAndUpdate(0);
       }
       next_pattern_ = kDelta0;
       break;
   }

   RTC_DCHECK(!configs.empty() || active_decode_targets_.none());
   return configs;
 }

 GenericFrameInfo ScalabilityStructureL2T2KeyShift::OnEncodeDone(
     const LayerFrameConfig& config) {
   GenericFrameInfo frame_info;
   frame_info.spatial_id = config.SpatialId();
   frame_info.temporal_id = config.TemporalId();
   frame_info.encoder_buffers = config.Buffers();
   for (int sid = 0; sid < kNumSpatialLayers; ++sid) {
     for (int tid = 0; tid < kNumTemporalLayers; ++tid) {
       frame_info.decode_target_indications.push_back(Dti(sid, tid, config));
     }
   }
   if (config.IsKeyframe()) {
     frame_info.part_of_chain = {true, true};
   } else if (config.TemporalId() == 0) {
     frame_info.part_of_chain = {config.SpatialId() == 0,
                                 config.SpatialId() == 1};
   } else {
     frame_info.part_of_chain = {false, false};
   }
   return frame_info;
 }

 void ScalabilityStructureL2T2KeyShift::OnRatesUpdated(
     const VideoBitrateAllocation& bitrates) {
   for (int sid = 0; sid < kNumSpatialLayers; ++sid) {
     // Enable/disable spatial layers independetely.
     bool active = bitrates.GetBitrate(sid, /*tid=*/0) > 0;
     if (!DecodeTargetIsActive(sid, /*tid=*/0) && active) {
       // Key frame is required to reenable any spatial layer.
       next_pattern_ = kKey;
     }

     SetDecodeTargetIsActive(sid, /*tid=*/0, active);
     SetDecodeTargetIsActive(sid, /*tid=*/1,
                             active && bitrates.GetBitrate(sid, /*tid=*/1) > 0);
   }
 }

 }  // namespace webrtc
	/*
	* Copyright (c) 2020 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.
	*/
	#include "modules/video_coding/svc/scalability_structure_l2t2_key_shift.h"

	#include <utility>
	#include <vector>

	#include "absl/base/macros.h"
	#include "api/transport/rtp/dependency_descriptor.h"
	#include "rtc_base/checks.h"
	#include "rtc_base/logging.h"

	namespace webrtc {
	namespace {

	DecodeTargetIndication
	Dti(int sid, int tid, const ScalableVideoController::LayerFrameConfig& config) {
	if (config.IsKeyframe()) {
	RTC_DCHECK_EQ(config.TemporalId(), 0);
	return sid < config.SpatialId() ? DecodeTargetIndication::kNotPresent
	: DecodeTargetIndication::kSwitch;
	}

	if (sid != config.SpatialId() \|\| tid < config.TemporalId()) {
	return DecodeTargetIndication::kNotPresent;
	}
	if (tid == config.TemporalId() && tid > 0) {
	return DecodeTargetIndication::kDiscardable;
	}
	return DecodeTargetIndication::kSwitch;
	}

	} // namespace

	constexpr int ScalabilityStructureL2T2KeyShift::kNumSpatialLayers;
	constexpr int ScalabilityStructureL2T2KeyShift::kNumTemporalLayers;

	ScalabilityStructureL2T2KeyShift::~ScalabilityStructureL2T2KeyShift() = default;

	ScalableVideoController::StreamLayersConfig
	ScalabilityStructureL2T2KeyShift::StreamConfig() const {
	StreamLayersConfig result;
	result.num_spatial_layers = 2;
	result.num_temporal_layers = 2;
	result.scaling_factor_num[0] = 1;
	result.scaling_factor_den[0] = 2;
	result.uses_reference_scaling = true;
	return result;
	}

	FrameDependencyStructure ScalabilityStructureL2T2KeyShift::DependencyStructure()
	const {
	FrameDependencyStructure structure;
	structure.num_decode_targets = 4;
	structure.num_chains = 2;
	structure.decode_target_protected_by_chain = {0, 0, 1, 1};
	structure.templates.resize(7);
	auto& templates = structure.templates;
	templates[0].S(0).T(0).Dtis("SSSS").ChainDiffs({0, 0});
	templates[1].S(0).T(0).Dtis("SS--").ChainDiffs({2, 1}).FrameDiffs({2});
	templates[2].S(0).T(0).Dtis("SS--").ChainDiffs({4, 1}).FrameDiffs({4});
	templates[3].S(0).T(1).Dtis("-D--").ChainDiffs({2, 3}).FrameDiffs({2});
	templates[4].S(1).T(0).Dtis("--SS").ChainDiffs({1, 1}).FrameDiffs({1});
	templates[5].S(1).T(0).Dtis("--SS").ChainDiffs({3, 4}).FrameDiffs({4});
	templates[6].S(1).T(1).Dtis("---D").ChainDiffs({1, 2}).FrameDiffs({2});
	return structure;
	}

	std::vector<ScalableVideoController::LayerFrameConfig>
	ScalabilityStructureL2T2KeyShift::NextFrameConfig(bool restart) {
	std::vector<LayerFrameConfig> configs;
	configs.reserve(2);
	if (restart) {
	next_pattern_ = kKey;
	}

	// Buffer0 keeps latest S0T0 frame,
	// Buffer1 keeps latest S1T0 frame.
	switch (next_pattern_) {
	case kKey:
	if (DecodeTargetIsActive(/sid=/0, /tid=/0)) {
	configs.emplace_back();
	configs.back().S(0).T(0).Update(0).Keyframe();
	}
	if (DecodeTargetIsActive(/sid=/1, /tid=/0)) {
	configs.emplace_back();
	configs.back().S(1).T(0).Update(1);
	if (DecodeTargetIsActive(/sid=/0, /tid=/0)) {
	configs.back().Reference(0);
	} else {
	configs.back().Keyframe();
	}
	}
	next_pattern_ = kDelta0;
	break;
	case kDelta0:
	if (DecodeTargetIsActive(/sid=/0, /tid=/0)) {
	configs.emplace_back();
	configs.back().S(0).T(0).ReferenceAndUpdate(0);
	}
	if (DecodeTargetIsActive(/sid=/1, /tid=/1)) {
	configs.emplace_back();
	configs.back().S(1).T(1).Reference(1);
	}
	if (configs.empty() && DecodeTargetIsActive(/sid=/1, /tid=/0)) {
	configs.emplace_back();
	configs.back().S(1).T(0).ReferenceAndUpdate(1);
	}
	next_pattern_ = kDelta1;
	break;
	case kDelta1:
	if (DecodeTargetIsActive(/sid=/0, /tid=/1)) {
	configs.emplace_back();
	configs.back().S(0).T(1).Reference(0);
	}
	if (DecodeTargetIsActive(/sid=/1, /tid=/0)) {
	configs.emplace_back();
	configs.back().S(1).T(0).ReferenceAndUpdate(1);
	}
	if (configs.empty() && DecodeTargetIsActive(/sid=/0, /tid=/0)) {
	configs.emplace_back();
	configs.back().S(0).T(0).ReferenceAndUpdate(0);
	}
	next_pattern_ = kDelta0;
	break;
	}

	RTC_DCHECK(!configs.empty() \|\| active_decode_targets_.none());
	return configs;
	}

	GenericFrameInfo ScalabilityStructureL2T2KeyShift::OnEncodeDone(
	const LayerFrameConfig& config) {
	GenericFrameInfo frame_info;
	frame_info.spatial_id = config.SpatialId();
	frame_info.temporal_id = config.TemporalId();
	frame_info.encoder_buffers = config.Buffers();
	for (int sid = 0; sid < kNumSpatialLayers; ++sid) {
	for (int tid = 0; tid < kNumTemporalLayers; ++tid) {
	frame_info.decode_target_indications.push_back(Dti(sid, tid, config));
	}
	}
	if (config.IsKeyframe()) {
	frame_info.part_of_chain = {true, true};
	} else if (config.TemporalId() == 0) {
	frame_info.part_of_chain = {config.SpatialId() == 0,
	config.SpatialId() == 1};
	} else {
	frame_info.part_of_chain = {false, false};
	}
	return frame_info;
	}

	void ScalabilityStructureL2T2KeyShift::OnRatesUpdated(
	const VideoBitrateAllocation& bitrates) {
	for (int sid = 0; sid < kNumSpatialLayers; ++sid) {
	// Enable/disable spatial layers independetely.
	bool active = bitrates.GetBitrate(sid, /tid=/0) > 0;
	if (!DecodeTargetIsActive(sid, /tid=/0) && active) {
	// Key frame is required to reenable any spatial layer.
	next_pattern_ = kKey;
	}

	SetDecodeTargetIsActive(sid, /tid=/0, active);
	SetDecodeTargetIsActive(sid, /tid=/1,
	active && bitrates.GetBitrate(sid, /tid=/1) > 0);
	}
	}

	} // namespace webrtc