trunk/src/modules/video_coding/main/source/decoding_state.cc - vendor/opensource/webrtc - Git at Google

 /*
  *  Copyright (c) 2011 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/main/source/decoding_state.h"

 #include "modules/video_coding/main/source/frame_buffer.h"
 #include "modules/video_coding/main/source/jitter_buffer_common.h"
 #include "modules/video_coding/main/source/packet.h"
 #include "modules/interface/module_common_types.h"

 namespace webrtc {

 VCMDecodingState::VCMDecodingState()
     : sequence_num_(0),
       time_stamp_(0),
       picture_id_(kNoPictureId),
       temporal_id_(kNoTemporalIdx),
       tl0_pic_id_(kNoTl0PicIdx),
       full_sync_(true),
       init_(true) {}

 VCMDecodingState::~VCMDecodingState() {}

 void VCMDecodingState::Reset() {
   // TODO(mikhal): Verify - not always would want to reset the sync
   sequence_num_ = 0;
   time_stamp_ = 0;
   picture_id_ = kNoPictureId;
   temporal_id_ = kNoTemporalIdx;
   tl0_pic_id_ = kNoTl0PicIdx;
   full_sync_ = true;
   init_ = true;
 }

 uint32_t VCMDecodingState::time_stamp() const {
   return time_stamp_;
 }

 uint16_t VCMDecodingState::sequence_num() const {
   return sequence_num_;
 }

 bool VCMDecodingState::IsOldFrame(const VCMFrameBuffer* frame) const {
   assert(frame != NULL);
   if (init_)
     return false;
   return (LatestTimestamp(time_stamp_, frame->TimeStamp(), NULL)
           == time_stamp_);
 }

 bool VCMDecodingState::IsOldPacket(const VCMPacket* packet) const {
   assert(packet != NULL);
   if (init_)
     return false;
   return (LatestTimestamp(time_stamp_, packet->timestamp, NULL)
            == time_stamp_);
 }

 void VCMDecodingState::SetState(const VCMFrameBuffer* frame) {
   assert(frame != NULL && frame->GetHighSeqNum() >= 0);
   UpdateSyncState(frame);
   sequence_num_ = static_cast<uint16_t>(frame->GetHighSeqNum());
   time_stamp_ = frame->TimeStamp();
   picture_id_ = frame->PictureId();
   temporal_id_ = frame->TemporalId();
   tl0_pic_id_ = frame->Tl0PicId();
   init_ = false;
 }

 void VCMDecodingState::SetStateOneBack(const VCMFrameBuffer* frame) {
   assert(frame != NULL && frame->GetHighSeqNum() >= 0);
   sequence_num_ = static_cast<uint16_t>(frame->GetHighSeqNum()) - 1u;
   time_stamp_ = frame->TimeStamp() - 1u;
   temporal_id_ = frame->TemporalId();
   if (frame->PictureId() != kNoPictureId) {
     if (frame->PictureId() == 0)
       picture_id_ = 0x7FFF;
     else
       picture_id_ =  frame->PictureId() - 1;
   }
   if (frame->Tl0PicId() != kNoTl0PicIdx) {
     if (frame->Tl0PicId() == 0)
       tl0_pic_id_ = 0x00FF;
     else
       tl0_pic_id_ = frame->Tl0PicId() - 1;
   }
   init_ = false;
 }

 void VCMDecodingState::UpdateOldPacket(const VCMPacket* packet) {
   assert(packet != NULL);
   if (packet->timestamp == time_stamp_) {
     // Late packet belonging to the last decoded frame - make sure we update the
     // last decoded sequence number.
     sequence_num_ = LatestSequenceNumber(packet->seqNum, sequence_num_, NULL);
   }
 }

 void VCMDecodingState::SetSeqNum(uint16_t new_seq_num) {
   sequence_num_ = new_seq_num;
 }

 bool VCMDecodingState::init() const {
   return init_;
 }

 bool VCMDecodingState::full_sync() const {
   return full_sync_;
 }

 void VCMDecodingState::UpdateSyncState(const VCMFrameBuffer* frame) {
   if (init_)
     return;
   if (frame->TemporalId() == kNoTemporalIdx ||
       frame->Tl0PicId() == kNoTl0PicIdx) {
     full_sync_ = true;
   } else if (frame->FrameType() == kVideoFrameKey || frame->LayerSync()) {
     full_sync_ = true;
   } else if (full_sync_) {
     // Verify that we are still in sync.
     // Sync will be broken if continuity is true for layers but not for the
     // other methods (PictureId and SeqNum).
     if (!ContinuousPictureId(frame->PictureId()) &&
         !ContinuousSeqNum(static_cast<uint16_t>(frame->GetLowSeqNum()))) {
       // Non-layered methods have failed.
       full_sync_ = false;
     }
   }
 }

 bool VCMDecodingState::ContinuousFrame(const VCMFrameBuffer* frame) const {
   // Check continuity based on the following hierarchy:
   // - Temporal layers (stop here if out of sync).
   // - Picture Id when available.
   // - Sequence numbers.
   // Return true when in initial state.
   // Note that when a method is not applicable it will return false.
   assert(frame != NULL);
   if (init_)
     return true;

   if (!ContinuousLayer(frame->TemporalId(), frame->Tl0PicId())) {
     // Base layers are not continuous or temporal layers are inactive.
     // In the presence of temporal layers, check for Picture ID/sequence number
     // continuity if sync can be restored by this frame.
     if (!full_sync_ && !frame->LayerSync())
       return false;
     else if (!ContinuousPictureId(frame->PictureId()))
       return ContinuousSeqNum(static_cast<uint16_t>(frame->GetLowSeqNum()));
   }
   return true;
 }

 bool VCMDecodingState::ContinuousPictureId(int picture_id) const {
   // First, check if applicable.
   if (picture_id == kNoPictureId || picture_id_ == kNoPictureId)
     return false;

   int next_picture_id = picture_id_ + 1;
   if (picture_id < picture_id_) {
     // Wrap
     if (picture_id_ >= 0x80) {
       // 15 bits used for picture id
       return ((next_picture_id & 0x7FFF) == picture_id);
     } else {
       // 7 bits used for picture id
       return ((next_picture_id & 0x7F) == picture_id);
     }
   }
   // No wrap
   return (next_picture_id == picture_id);
 }

 bool VCMDecodingState::ContinuousSeqNum(uint16_t seq_num) const {
   return (seq_num == static_cast<uint16_t>(sequence_num_ + 1));
 }

 bool VCMDecodingState::ContinuousLayer(int temporal_id,
                                        int tl0_pic_id) const {
   // First, check if applicable.
   if (temporal_id == kNoTemporalIdx || tl0_pic_id == kNoTl0PicIdx)
     return false;
   // If this is the first frame to use temporal layers, make sure we start
   // from base.
   else if (tl0_pic_id_ == kNoTl0PicIdx && temporal_id_ == kNoTemporalIdx &&
            temporal_id == 0)
     return true;

   // Current implementation: Look for base layer continuity.
   if (temporal_id != 0)
     return false;
   return (static_cast<uint8_t>(tl0_pic_id_ + 1) == tl0_pic_id);
 }

 }  // namespace webrtc
	/*
	* Copyright (c) 2011 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/main/source/decoding_state.h"

	#include "modules/video_coding/main/source/frame_buffer.h"
	#include "modules/video_coding/main/source/jitter_buffer_common.h"
	#include "modules/video_coding/main/source/packet.h"
	#include "modules/interface/module_common_types.h"

	namespace webrtc {

	VCMDecodingState::VCMDecodingState()
	: sequence_num_(0),
	time_stamp_(0),
	picture_id_(kNoPictureId),
	temporal_id_(kNoTemporalIdx),
	tl0_pic_id_(kNoTl0PicIdx),
	full_sync_(true),
	init_(true) {}

	VCMDecodingState::~VCMDecodingState() {}

	void VCMDecodingState::Reset() {
	// TODO(mikhal): Verify - not always would want to reset the sync
	sequence_num_ = 0;
	time_stamp_ = 0;
	picture_id_ = kNoPictureId;
	temporal_id_ = kNoTemporalIdx;
	tl0_pic_id_ = kNoTl0PicIdx;
	full_sync_ = true;
	init_ = true;
	}

	uint32_t VCMDecodingState::time_stamp() const {
	return time_stamp_;
	}

	uint16_t VCMDecodingState::sequence_num() const {
	return sequence_num_;
	}

	bool VCMDecodingState::IsOldFrame(const VCMFrameBuffer* frame) const {
	assert(frame != NULL);
	if (init_)
	return false;
	return (LatestTimestamp(time_stamp_, frame->TimeStamp(), NULL)
	== time_stamp_);
	}

	bool VCMDecodingState::IsOldPacket(const VCMPacket* packet) const {
	assert(packet != NULL);
	if (init_)
	return false;
	return (LatestTimestamp(time_stamp_, packet->timestamp, NULL)
	== time_stamp_);
	}

	void VCMDecodingState::SetState(const VCMFrameBuffer* frame) {
	assert(frame != NULL && frame->GetHighSeqNum() >= 0);
	UpdateSyncState(frame);
	sequence_num_ = static_cast<uint16_t>(frame->GetHighSeqNum());
	time_stamp_ = frame->TimeStamp();
	picture_id_ = frame->PictureId();
	temporal_id_ = frame->TemporalId();
	tl0_pic_id_ = frame->Tl0PicId();
	init_ = false;
	}

	void VCMDecodingState::SetStateOneBack(const VCMFrameBuffer* frame) {
	assert(frame != NULL && frame->GetHighSeqNum() >= 0);
	sequence_num_ = static_cast<uint16_t>(frame->GetHighSeqNum()) - 1u;
	time_stamp_ = frame->TimeStamp() - 1u;
	temporal_id_ = frame->TemporalId();
	if (frame->PictureId() != kNoPictureId) {
	if (frame->PictureId() == 0)
	picture_id_ = 0x7FFF;
	else
	picture_id_ = frame->PictureId() - 1;
	}
	if (frame->Tl0PicId() != kNoTl0PicIdx) {
	if (frame->Tl0PicId() == 0)
	tl0_pic_id_ = 0x00FF;
	else
	tl0_pic_id_ = frame->Tl0PicId() - 1;
	}
	init_ = false;
	}

	void VCMDecodingState::UpdateOldPacket(const VCMPacket* packet) {
	assert(packet != NULL);
	if (packet->timestamp == time_stamp_) {
	// Late packet belonging to the last decoded frame - make sure we update the
	// last decoded sequence number.
	sequence_num_ = LatestSequenceNumber(packet->seqNum, sequence_num_, NULL);
	}
	}

	void VCMDecodingState::SetSeqNum(uint16_t new_seq_num) {
	sequence_num_ = new_seq_num;
	}

	bool VCMDecodingState::init() const {
	return init_;
	}

	bool VCMDecodingState::full_sync() const {
	return full_sync_;
	}

	void VCMDecodingState::UpdateSyncState(const VCMFrameBuffer* frame) {
	if (init_)
	return;
	if (frame->TemporalId() == kNoTemporalIdx \|\|
	frame->Tl0PicId() == kNoTl0PicIdx) {
	full_sync_ = true;
	} else if (frame->FrameType() == kVideoFrameKey \|\| frame->LayerSync()) {
	full_sync_ = true;
	} else if (full_sync_) {
	// Verify that we are still in sync.
	// Sync will be broken if continuity is true for layers but not for the
	// other methods (PictureId and SeqNum).
	if (!ContinuousPictureId(frame->PictureId()) &&
	!ContinuousSeqNum(static_cast<uint16_t>(frame->GetLowSeqNum()))) {
	// Non-layered methods have failed.
	full_sync_ = false;
	}
	}
	}

	bool VCMDecodingState::ContinuousFrame(const VCMFrameBuffer* frame) const {
	// Check continuity based on the following hierarchy:
	// - Temporal layers (stop here if out of sync).
	// - Picture Id when available.
	// - Sequence numbers.
	// Return true when in initial state.
	// Note that when a method is not applicable it will return false.
	assert(frame != NULL);
	if (init_)
	return true;

	if (!ContinuousLayer(frame->TemporalId(), frame->Tl0PicId())) {
	// Base layers are not continuous or temporal layers are inactive.
	// In the presence of temporal layers, check for Picture ID/sequence number
	// continuity if sync can be restored by this frame.
	if (!full_sync_ && !frame->LayerSync())
	return false;
	else if (!ContinuousPictureId(frame->PictureId()))
	return ContinuousSeqNum(static_cast<uint16_t>(frame->GetLowSeqNum()));
	}
	return true;
	}

	bool VCMDecodingState::ContinuousPictureId(int picture_id) const {
	// First, check if applicable.
	if (picture_id == kNoPictureId \|\| picture_id_ == kNoPictureId)
	return false;

	int next_picture_id = picture_id_ + 1;
	if (picture_id < picture_id_) {
	// Wrap
	if (picture_id_ >= 0x80) {
	// 15 bits used for picture id
	return ((next_picture_id & 0x7FFF) == picture_id);
	} else {
	// 7 bits used for picture id
	return ((next_picture_id & 0x7F) == picture_id);
	}
	}
	// No wrap
	return (next_picture_id == picture_id);
	}

	bool VCMDecodingState::ContinuousSeqNum(uint16_t seq_num) const {
	return (seq_num == static_cast<uint16_t>(sequence_num_ + 1));
	}

	bool VCMDecodingState::ContinuousLayer(int temporal_id,
	int tl0_pic_id) const {
	// First, check if applicable.
	if (temporal_id == kNoTemporalIdx \|\| tl0_pic_id == kNoTl0PicIdx)
	return false;
	// If this is the first frame to use temporal layers, make sure we start
	// from base.
	else if (tl0_pic_id_ == kNoTl0PicIdx && temporal_id_ == kNoTemporalIdx &&
	temporal_id == 0)
	return true;

	// Current implementation: Look for base layer continuity.
	if (temporal_id != 0)
	return false;
	return (static_cast<uint8_t>(tl0_pic_id_ + 1) == tl0_pic_id);
	}

	} // namespace webrtc