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Adam Wieckowski authoredAdam Wieckowski authored
UnitPartitioner.h 7.09 KiB
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/** \file UnitPartitioner.h
* \brief Provides a class for partitioning management
*/
#ifndef __UNITPARTITIONER__
#define __UNITPARTITIONER__
#include "Unit.h"
#include "CommonDef.h"
static_assert( MAX_CU_TILING_PARTITIONS >= 4, "Minimum required number of partitions for the Partitioning type is 4!" );
typedef static_vector<UnitArea, MAX_CU_TILING_PARTITIONS> Partitioning;
//////////////////////////////////////////////////////////////////////////
// PartManager class - manages the partitioning tree
//
// contains the currently processed partitioning area (currArea)
// as well as the all partitioning decisions that led to this area
// being processed (in m_partStack).
//////////////////////////////////////////////////////////////////////////
enum PartSplit
{
CTU_LEVEL = 0,
CU_QUAD_SPLIT,
CU_HORZ_SPLIT,
CU_VERT_SPLIT,
CU_TRIH_SPLIT,
CU_TRIV_SPLIT,
TU_MAX_TR_SPLIT,
NUM_PART_SPLIT,
CU_MT_SPLIT = 1000, ///< dummy element to indicate the MT (multi-type-tree) split
CU_BT_SPLIT = 1001, ///< dummy element to indicate the BT split
CU_DONT_SPLIT = 2000 ///< dummy element to indicate no splitting
};
struct PartLevel
{
PartSplit split;
Partitioning parts;
unsigned idx;
bool checkdIfImplicit;
bool isImplicit;
PartSplit implicitSplit;
PartSplit firstSubPartSplit;
bool canQtSplit;
PartLevel();
PartLevel( const PartSplit _split, const Partitioning& _parts );
PartLevel( const PartSplit _split, Partitioning&& _parts );
};
// set depending on max QT / BT possibilities
typedef static_vector<PartLevel, 2 * MAX_CU_DEPTH + 1> PartitioningStack;
class Partitioner
{
protected:
PartitioningStack m_partStack;
#if _DEBUG
UnitArea m_currArea;
#endif
public:
unsigned currDepth;
unsigned currQtDepth;
unsigned currTrDepth;
unsigned currBtDepth;
unsigned currMtDepth;
unsigned currImplicitBtDepth;
ChannelType chType;
virtual ~Partitioner () { }
const PartLevel& currPartLevel () const { return m_partStack.back(); }
const UnitArea& currArea () const { return currPartLevel().parts[currPartIdx()]; }
const unsigned currPartIdx () const { return currPartLevel().idx; }
const PartitioningStack& getPartStack () const { return m_partStack; }
SplitSeries getSplitSeries () const;
virtual void initCtu ( const UnitArea& ctuArea, const ChannelType _chType, const Slice& slice ) = 0;
virtual void splitCurrArea ( const PartSplit split, const CodingStructure &cs ) = 0;
virtual void exitCurrSplit () = 0;
virtual bool nextPart ( const CodingStructure &cs, bool autoPop = false ) = 0;
virtual bool hasNextPart () = 0;
virtual void setCUData ( CodingUnit& cu );
virtual void copyState ( const Partitioner& other );
public:
#if JVET_M0421_SPLIT_SIG
virtual void canSplit ( const CodingStructure &cs, bool& canNo, bool& canQt, bool& canBh, bool& canBv, bool& canTh, bool& canTv ) = 0;
#endif
virtual bool canSplit ( const PartSplit split, const CodingStructure &cs ) = 0;
virtual bool isSplitImplicit ( const PartSplit split, const CodingStructure &cs ) = 0;
virtual PartSplit getImplicitSplit ( const CodingStructure &cs ) = 0;
};
class AdaptiveDepthPartitioner : public Partitioner
{public:
void setMaxMinDepth( unsigned& minDepth, unsigned& maxDepth, const CodingStructure& cs ) const;
};
class QTBTPartitioner : public AdaptiveDepthPartitioner
{
public:
void initCtu ( const UnitArea& ctuArea, const ChannelType _chType, const Slice& slice );
void splitCurrArea ( const PartSplit split, const CodingStructure &cs );
void exitCurrSplit ();
bool nextPart ( const CodingStructure &cs, bool autoPop = false );
bool hasNextPart ();
#if JVET_M0421_SPLIT_SIG
void canSplit ( const CodingStructure &cs, bool& canNo, bool& canQt, bool& canBh, bool& canBv, bool& canTh, bool& canTv );
#endif
bool canSplit ( const PartSplit split, const CodingStructure &cs );
bool isSplitImplicit ( const PartSplit split, const CodingStructure &cs );
PartSplit getImplicitSplit ( const CodingStructure &cs );
};
namespace PartitionerFactory
{
Partitioner* get( const Slice& slice );
};
//////////////////////////////////////////////////////////////////////////
// Partitioner namespace - contains methods calculating the actual splits
//////////////////////////////////////////////////////////////////////////
namespace PartitionerImpl
{
Partitioning getCUSubPartitions( const UnitArea &cuArea, const CodingStructure &cs, const PartSplit splitType = CU_QUAD_SPLIT );
Partitioning getMaxTuTiling ( const UnitArea& curArea, const CodingStructure &cs );
};
#endif