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Public Types | Public Member Functions | Protected Attributes | List of all members
TRT_HitCollectionCnv_p5 Class Referenceabstract

#include <TRT_HitCollectionCnv_p5.h>

Inheritance diagram for TRT_HitCollectionCnv_p5:
Collaboration diagram for TRT_HitCollectionCnv_p5:

Public Types

typedef TRANS Trans_t
 
typedef PERS Pers_t
 
typedef PERS PersBase_t
 
typedef TRANS TransBase_t
 
typedef ITPConverterFor< TRANS > PolyCnvBase_t
 
typedef Gaudi::PluginService::Factory< ITPCnvBase *()> Factory
 

Public Member Functions

 TRT_HitCollectionCnv_p5 ()
 
virtual TRTUncompressedHitCollectioncreateTransient (const TRT_HitCollection_p5 *persObj, MsgStream &log)
 
virtual void persToTrans (const TRT_HitCollection_p5 *persCont, TRTUncompressedHitCollection *transCont, MsgStream &log)
 
virtual void transToPers (const TRTUncompressedHitCollection *transCont, TRT_HitCollection_p5 *persCont, MsgStream &log)
 
virtual TPObjRef virt_toPersistent (const TRANS *trans, MsgStream &log)
 Internal interface method that is used to invoke the real conversion method (toPersistent_impl) in the derived converter. More...
 
virtual TPObjRef virt_toPersistentWithKey (const TRANS *trans, const std::string &key, MsgStream &log)
 Internal interface method that is used to invoke the real conversion method (toPersistent_impl) in the derived converter. More...
 
virtual void pstoreToTrans (unsigned index, TRANS *trans, MsgStream &log)
 Convert persistent representation stored in the storage vector of the top-level object to transient. More...
 
virtual TRANS * createTransient (const PERS *persObj, MsgStream &log)
 Create transient representation of a persistent object. More...
 
virtual TRANS * createTransientWithKey (const PERS *persObj, const std::string &key, MsgStream &log)
 Create transient representation of a persistent object, with SG key. More...
 
virtual TRANS * virt_createTransFromPStore (unsigned index, MsgStream &log)
 Internal interface method that is used to invoke the real conversion method (createTransient) More...
 
virtual TRANS * virt_createTransFromPStoreWithKey (unsigned index, const std::string &key, MsgStream &log)
 Internal interface method that is used to invoke the real conversion method (createTransient) More...
 
virtual void persToTrans (const PERS *persObj, TRANS *transObj, MsgStream &log)=0
 Convert persistent representation to transient one. More...
 
virtual void transToPers (const TRANS *transObj, PERS *persObj, MsgStream &log)=0
 Convert transient representation to persistent one. More...
 
virtual void persToTransWithKey (const PERS *persObj, TRANS *transObj, const std::string &, MsgStream &log)
 Convert persistent representation to transient one. More...
 
virtual void transToPersWithKey (const TRANS *transObj, PERS *persObj, const std::string &, MsgStream &log)
 Convert transient representation to persistent one. More...
 
virtual void persToTransUntyped (const void *pers, void *trans, MsgStream &log)
 Convert persistent object representation to transient. More...
 
virtual void transToPersUntyped (const void *trans, void *pers, MsgStream &log)
 Convert transient object representation to persistent. More...
 
virtual void persToTransWithKeyUntyped (const void *pers, void *trans, const std::string &key, MsgStream &log)
 Convert persistent object representation to transient. More...
 
virtual void transToPersWithKeyUntyped (const void *trans, void *pers, const std::string &key, MsgStream &log)
 Convert transient object representation to persistent. More...
 
virtual PERScreatePersistent (const TRANS *transObj, MsgStream &log)
 Create persistent representation of a transient object. More...
 
virtual PERScreatePersistentWithKey (const TRANS *transObj, const std::string &key, MsgStream &log)
 Create persistent representation of a transient object, with SG key. More...
 
TPObjRef toPersistentWithKey_impl (const TRANS *trans, const std::string &key, MsgStream &log)
 Convert transient object to persistent representation. More...
 
virtual const std::type_info & transientTInfo () const
 return C++ type id of the transient class this converter is for More...
 
virtual const std::type_info & transientTInfo () const
 return C++ type id of the transient class this converter is for More...
 
virtual const std::type_info & persistentTInfo () const
 return C++ type id of the persistent class this converter is for More...
 
virtual const std::type_info & persistentTInfo () const =0
 return C++ type id of the persistent class this converter is for More...
 
void setPStorage (std::vector< PERS > *storage)
 Tell this converter which storage vector it should use to store or retrieve persistent representations. More...
 
void setRecursive (bool flag=true)
 Tell the converter if it should work in recursive mode slower but it can safely handle recursion. More...
 
void ignoreRecursion (bool flag=false)
 Tell the converter to ignore recursion (do not throw errors) even when recurion is detected. More...
 
virtual void reservePStorage (size_t size)
 Reserve 'size' elements for persistent storage. More...
 
template<class CNV >
CNV * converterForType (CNV *cnv, const std::type_info &t_info, MsgStream &log) const
 Find converter for a given C++ type ID, that is or ihnerits from CNV type. More...
 
template<class CNV >
CNV * converterForRef (CNV *cnv, const TPObjRef &ref, MsgStream &log) const
 Find converter for a TP type ID (passed in a TP Ref), that is or ihnerits from CNV type. More...
 
template<class CNV >
TPObjRef baseToPersistent (CNV **cnv, const typename CNV::Trans_t *transObj, MsgStream &log) const
 Persistify bass class of a given object and store the persistent represenation in the storage vector of the top-level persistent object. More...
 
template<class CNV >
TPObjRef toPersistent (CNV **cnv, const typename CNV::TransBase_t *transObj, MsgStream &log) const
 Persistify an object and store the persistent represenation in the storage vector of the top-level persistent object. More...
 
template<class CNV , class TRANS_T >
void fillTransFromPStore (CNV **cnv, const TPObjRef &ref, TRANS_T *trans, MsgStream &log) const
 Convert persistent object, stored in the the top-level persistent object and referenced by the TP Ref, to transient representation. More...
 
template<class CNV >
CNV::Trans_t * createTransFromPStore (CNV **cnv, const TPObjRef &ref, MsgStream &log) const
 Create transient representation of a persistent object, stored in the the top-level persistent object and referenced by the TP Ref. More...
 
virtual void initPrivateConverters (TopLevelTPCnvBase *)
 
virtual TopLevelTPCnvBasetopConverter ()
 return the top-level converter for this elemental TP converter More...
 
virtual const TopLevelTPCnvBasetopConverter () const
 return the top-level converter for this elemental TP converter More...
 
const std::type_info & transBaseTInfo () const
 return C++ type id of the common base transient type for all converters for a group of polymorphic types More...
 
virtual const TPObjRef::typeID_ttypeID () const
 Return TP typeID for persistent objects produced by this converter. More...
 
unsigned typeIDvalue () const
 inlined non-virtual version to get the typeID value fast More...
 
virtual void setRuntimeTopConverter (TopLevelTPCnvBase *topConverter)
 Set runtime top-level converter - usually it is the owning TL converter, but in case of extended objects it will be the TL converter of the extended object. More...
 
virtual void setTopConverter (TopLevelTPCnvBase *topConverter, const TPObjRef::typeID_t &TPtypeID)
 Set which top-level converter owns this elemental converter, and what TPtypeID was assigned to the persistent objects it produces. More...
 
void setReadingFlag ()
 
void clearReadingFlag ()
 
bool wasUsedForReading ()
 
virtual void converterNotFound (const std::type_info &converterType, ITPConverter *c, const std::string &typeName, MsgStream &log) const
 method called when the right TP converter was not found during writing More...
 
virtual void converterNotFound (unsigned typeID, ITPConverter *c, const std::string &typeName, MsgStream &log) const
 method called when the right TP converter was not found during reading More...
 

Protected Attributes

std::vector< PERS > * m_pStorage
 the address of the storage vector for persistent representations More...
 
int m_curRecLevel
 count recursive invocations, to detect recursion More...
 
bool m_recursive
 if true, work in recursion-safe way (slower) More...
 
bool m_ignoreRecursion
 if true, do not throw errors in case of recursion. More...
 
TPObjRef::typeID_t m_pStorageTID
 TP Ref typeID for the persistent objects this converter is creating. More...
 
unsigned m_pStorageTIDvalue
 m_pStorageTID converted to integer value More...
 
TopLevelTPCnvBasem_topConverter
 top level converter that owns this elemental TP converter it also holds the storage object More...
 
TopLevelTPCnvBasem_topConverterRuntime
 top level converter "owning" this TP converter at runtime (different from m_topConverter in case the top-level converter and object have extensions) More...
 
bool m_wasUsedForReading
 flag set when using this converter for reading triggers search for a new converter before writing, to prevent possible use of old version More...
 

Detailed Description

Definition at line 13 of file TRT_HitCollectionCnv_p5.h.

Member Typedef Documentation

◆ Factory

typedef Gaudi::PluginService::Factory<ITPCnvBase*()> ITPCnvBase::Factory
inherited

Definition at line 26 of file ITPCnvBase.h.

◆ Pers_t

typedef PERS TPAbstractPolyCnvBase< TRANS , TRANS, PERS >::Pers_t
inherited

Definition at line 335 of file TPConverter.h.

◆ PersBase_t

typedef PERS TPAbstractPolyCnvBase< TRANS , TRANS, PERS >::PersBase_t
inherited

Definition at line 336 of file TPConverter.h.

◆ PolyCnvBase_t

template<class TRANS >
typedef ITPConverterFor< TRANS > ITPConverterFor< TRANS >::PolyCnvBase_t
inherited

Definition at line 41 of file TPConverter.h.

◆ Trans_t

typedef TRANS TPAbstractPolyCnvBase< TRANS , TRANS, PERS >::Trans_t
inherited

Definition at line 334 of file TPConverter.h.

◆ TransBase_t

template<class TRANS >
typedef TRANS ITPConverterFor< TRANS >::TransBase_t
inherited

Definition at line 39 of file TPConverter.h.

Constructor & Destructor Documentation

◆ TRT_HitCollectionCnv_p5()

TRT_HitCollectionCnv_p5::TRT_HitCollectionCnv_p5 ( )
inline

Definition at line 17 of file TRT_HitCollectionCnv_p5.h.

17 {};

Member Function Documentation

◆ baseToPersistent()

template<class TRANS >
template<class CNV >
TPObjRef ITPConverterFor< TRANS >::baseToPersistent ( CNV **  cnv,
const typename CNV::Trans_t *  transObj,
MsgStream &  log 
) const
inlineinherited

Persistify bass class of a given object and store the persistent represenation in the storage vector of the top-level persistent object.

The converter is located using the transient type from the CNV parameter, not from the object itself (because we need the base type, not the actual type)

Parameters
cnv[IN/OUT] type of this parameter decides which converter will be used. Once the converter is found, this pointer will be set so the search is done only once
transObj[IN] transient object
log[IN] output message stream
Returns
TPObjRef TP reference to the persistent representation stored in the storage vector of the top-level persistent object

Definition at line 97 of file TPConverter.h.

97  {
98  if( !*cnv || (*cnv)->wasUsedForReading() ) {
99  // don't trust the converter if it was used for reading, find again
100  *cnv = converterForType( *cnv, typeid(typename CNV::Trans_t), log );
101  if( !*cnv ) return TPObjRef();
102  (*cnv)->clearReadingFlag();
103  }
104 // return (**cnv).toPersistent_impl(transObj, log);
105  return (**cnv).virt_toPersistent(transObj, log);
106  }

◆ clearReadingFlag()

template<class TRANS >
void ITPConverterFor< TRANS >::clearReadingFlag ( )
inlineinherited

Definition at line 235 of file TPConverter.h.

235 { m_wasUsedForReading = false; }

◆ converterForRef()

template<class TRANS >
template<class CNV >
CNV* ITPConverterFor< TRANS >::converterForRef ( CNV *  cnv,
const TPObjRef ref,
MsgStream &  log 
) const
inlineinherited

Find converter for a TP type ID (passed in a TP Ref), that is or ihnerits from CNV type.

Parameters
cnv[IN] parameter specifying the converter type
ref[IN] TP Ref to an object for which a converter is sought
log[IN] output message stream
Returns
CNV* pointer to the converter, if found

Definition at line 74 of file TPConverter.h.

74  {
76  cnv = dynamic_cast<CNV*>(c);
77  if( !cnv )
78  this->converterNotFound( ref.typeID(), c, typeid(CNV).name(), log );
79  return cnv;
80  }

◆ converterForType()

template<class TRANS >
template<class CNV >
CNV* ITPConverterFor< TRANS >::converterForType ( CNV *  cnv,
const std::type_info &  t_info,
MsgStream &  log 
) const
inlineinherited

Find converter for a given C++ type ID, that is or ihnerits from CNV type.

Parameters
cnv[IN] parameter specifying the converter type
t_info[IN] C++ type id for which a converter is sought
log[IN] output message stream
Returns
CNV* pointer to the converter, if found

Definition at line 58 of file TPConverter.h.

58  {
60  cnv = dynamic_cast< CNV* >( c );
61  if( !cnv )
62  this->converterNotFound( typeid(CNV), c, t_info.name(), log );
63  return cnv;
64  }

◆ converterNotFound() [1/2]

void ITPConverter::converterNotFound ( const std::type_info &  converterType,
ITPConverter c,
const std::string &  typeName,
MsgStream &  log 
) const
virtualinherited

method called when the right TP converter was not found during writing

  • useful as a debugging hook, prints a detailed error message
Parameters
converterType[IN] converterType that was requested
c[IN] converter that was actually found (0 if not)
typeName[IN] the C++ type name of the type for which converter was searched for
log[IN] output message stream

Definition at line 22 of file ITPConverter.cxx.

26 {
27  log << MSG::ERROR << ">>>>>> in parent TP converter " << typeid(*this).name()
28  << ": could not find matching TP converter for type " << typeName << endmsg;
29  if( c ) {
30  log << MSG::ERROR << " - found incompatible converter of type "
31  << typeid(*c).name() << endmsg;
32  }
33  log << MSG::ERROR << " Converter handle type was " << converterType.name() << endmsg;
34  errorHandler();
35 }

◆ converterNotFound() [2/2]

void ITPConverter::converterNotFound ( unsigned  typeID,
ITPConverter c,
const std::string &  typeName,
MsgStream &  log 
) const
virtualinherited

method called when the right TP converter was not found during reading

  • useful as a debugging hook, prints a detailed error message
Parameters
typeID[IN] converter ID that was requested
c[IN] converter that was actually found (0 if not)
typeName[IN] the C++ type name of the type for which converter was searched for
log[IN] output message stream

Definition at line 40 of file ITPConverter.cxx.

44 {
45  log << MSG::ERROR << ">>>>>> in parent TP converter " << typeid(*this).name()
46  << " requested TP converter for TP type ID " << typeID << " not found " << endmsg;
47  if( c ) {
48  log << MSG::ERROR << " - found converter " << typeid(*c).name()
49  << " for " << c->transientTInfo().name()
50  << " with an incompatible base type " << c->transBaseTInfo().name()
51  << endmsg;
52  }
53  log << MSG::ERROR << " Converter handle type was " << reqCnvTypeName << endmsg;
54  errorHandler();
55 }

◆ createPersistent()

virtual PERS* TPAbstractPolyCnvBase< TRANS , TRANS, PERS >::createPersistent ( const TRANS *  transObj,
MsgStream &  log 
)
virtualinherited

Create persistent representation of a transient object.

Simply creates a new persistent object and calls transToPers()

Parameters
transObj[IN] transient object
log[IN] output message stream
Returns
the created persistent representation

◆ createPersistentWithKey()

virtual PERS* TPAbstractPolyCnvBase< TRANS , TRANS, PERS >::createPersistentWithKey ( const TRANS *  transObj,
const std::string &  key,
MsgStream &  log 
)
virtualinherited

Create persistent representation of a transient object, with SG key.

Simply creates a new persistent object and calls transToPersWithKey()

Parameters
transObj[IN] transient object
key[IN] SG key of object being written
log[IN] output message stream
Returns
the created persistent representation

◆ createTransFromPStore()

template<class TRANS >
template<class CNV >
CNV::Trans_t* ITPConverterFor< TRANS >::createTransFromPStore ( CNV **  cnv,
const TPObjRef ref,
MsgStream &  log 
) const
inlineinherited

Create transient representation of a persistent object, stored in the the top-level persistent object and referenced by the TP Ref.

If a TP converter is not specified, it will be found based on the Ref type.

Parameters
cnv[IN][OUT] pointer to the converter, usually 0 at the start. Once the right converter is found, this pointer will be set so the search is done only once
ref[IN] TP Ref to the persistent object to be converted
log[IN] output message stream
Returns
pointer to the created transient represention

Definition at line 172 of file TPConverter.h.

172  {
173  if( ref.isNull() ) return 0;
174  CNV *temp_cnv_p = 0;
175  if( !cnv ) cnv = &temp_cnv_p;
176  // see if we already have a converter and if it is the right one
177  if( !*cnv || (*cnv)->typeID().value() != ref.typeID() ) {
178  // we don't - find the right converter for ref.typeID()
179  *cnv = converterForRef( *cnv, ref, log );
180  if( !*cnv ) return 0;
181  (*cnv)->setReadingFlag();
182  }
183  return (**cnv).virt_createTransFromPStore( ref.index(), log );
184  }

◆ createTransient() [1/2]

virtual TRANS* TPPolyCnvBase< TRANS , TRANS, PERS >::createTransient ( const PERS persObj,
MsgStream &  log 
)
virtualinherited

Create transient representation of a persistent object.

Simply creates a new transient object and calls persToTrans()

Parameters
persObj[IN] persistent object
log[IN] output message stream
Returns
the created transient object

◆ createTransient() [2/2]

TRTUncompressedHitCollection * TRT_HitCollectionCnv_p5::createTransient ( const TRT_HitCollection_p5 persObj,
MsgStream &  log 
)
virtual

Definition at line 301 of file TRT_HitCollectionCnv_p5.cxx.

301  {
302  std::unique_ptr<TRTUncompressedHitCollection> trans(std::make_unique<TRTUncompressedHitCollection>("DefaultCollectionName",persObj->m_nHits.size()));
303  persToTrans(persObj, trans.get(), log);
304  return(trans.release());
305 } //createTransient

◆ createTransientWithKey()

virtual TRANS* TPPolyCnvBase< TRANS , TRANS, PERS >::createTransientWithKey ( const PERS persObj,
const std::string &  key,
MsgStream &  log 
)
virtualinherited

Create transient representation of a persistent object, with SG key.

Simply creates a new transient object and calls persToTransWithKey()

Parameters
persObj[IN] persistent object
key[IN] SG key of object being read
log[IN] output message stream
Returns
the created transient object

◆ fillTransFromPStore()

template<class TRANS >
template<class CNV , class TRANS_T >
void ITPConverterFor< TRANS >::fillTransFromPStore ( CNV **  cnv,
const TPObjRef ref,
TRANS_T *  trans,
MsgStream &  log 
) const
inlineinherited

Convert persistent object, stored in the the top-level persistent object and referenced by the TP Ref, to transient representation.

An empty transient object to be filled in is provided. If converter is not given, it will be found based on the Ref type.

Parameters
cnv[IN][OUT] pointer to the converter, usually 0 at the start. Once the right converter is found, this pointer will be set so the search is done only once
ref[IN] TP Ref to the persistent object to be converted
trans[IN] pointer to the empty transient object
log[IN] output message stream

Definition at line 145 of file TPConverter.h.

145  {
146  if( ref.isNull() ) return;
147  CNV *temp_cnv_p = 0;
148  if( !cnv ) cnv = &temp_cnv_p;
149  // see if we already have a converter and if it is the right one
150  if( !*cnv || (*cnv)->typeID().value() != ref.typeID() ) {
151  // we don't - find the right converter for ref.typeID()
152  *cnv = converterForRef( *cnv, ref, log );
153  if( !*cnv ) return;
154  (*cnv)->setReadingFlag();
155  }
156  (**cnv).pstoreToTrans( ref.index(), trans, log );
157  }

◆ ignoreRecursion()

void TPAbstractPolyCnvBase< TRANS , TRANS, PERS >::ignoreRecursion ( bool  flag = false)
inlineinherited

Tell the converter to ignore recursion (do not throw errors) even when recurion is detected.

UNSAFE! use only if you are sure you preallocated enough persistent storage

Definition at line 568 of file TPConverter.h.

568  {
570  }

◆ initPrivateConverters()

template<class TRANS >
virtual void ITPConverterFor< TRANS >::initPrivateConverters ( TopLevelTPCnvBase )
inlinevirtualinherited

◆ persistentTInfo() [1/2]

virtual const std::type_info& TPAbstractPolyCnvBase< TRANS , TRANS, PERS >::persistentTInfo ( ) const
inlinevirtualinherited

return C++ type id of the persistent class this converter is for

Returns
std::type_info&

Definition at line 482 of file TPConverter.h.

482 { return typeid(PERS); }

◆ persistentTInfo() [2/2]

virtual const std::type_info& ITPCnvBase::persistentTInfo ( ) const
pure virtualinherited

return C++ type id of the persistent class this converter is for

Returns
std::type_info&

Implemented in TopLevelTPConverter< MAIN_CNV, TL_PERS >, TPAbstractPolyCnvBase< TRANS_BASE, TRANS, PERS >, and DummyDetElementSurfaceCnv_p1.

◆ persToTrans() [1/2]

virtual void TPAbstractPolyCnvBase< TRANS , TRANS, PERS >::persToTrans ( const PERS persObj,
TRANS *  transObj,
MsgStream &  log 
)
pure virtualinherited

Convert persistent representation to transient one.

Copies data members from persistent object to an existing transient one. Needs to be implemented by the developer on the actual converter.

Parameters
persObj[IN] persistent object
transObj[IN] transient object
log[IN] output message stream

Implemented in TPCnvIDContFromIdentifier< TRANS, PERS, CONV >, TPCnvIDCont< TRANS, PERS, CONV >, TPCnvStdVector< TRANS, PERS, CONV >, TPCnvVector< TRANS, PERS, CONV >, TPValVectorCnv< TRANS, PERS, CONV >, TPPtrVectorCnv< TRANS, PERS, CONV >, TPConverterConstBase< TRANS, PERS >, T_AtlasHitsVectorCnv< TRANS, PERS, CONV >, and T_AthenaHitsVectorCnv< TRANS, PERS, CONV >.

◆ persToTrans() [2/2]

void TRT_HitCollectionCnv_p5::persToTrans ( const TRT_HitCollection_p5 persCont,
TRTUncompressedHitCollection transCont,
MsgStream &  log 
)
virtual

Definition at line 309 of file TRT_HitCollectionCnv_p5.cxx.

310 {
311  const EventContext& ctx = Gaudi::Hive::currentContext();
312 
313  // if (log.level() <= MSG::DEBUG) log << MSG::DEBUG << "In TRT_HitCollectionCnv_p5::persToTrans()" << endmsg;
314 
315  // some values are read less than once per hit, these need counters.
316  unsigned int meanTimeofCount=0, startRCount=0, endRCount=0, hitEneCount=0;
317  unsigned int idxTruthID=0, idxId=0, endHit=0, endTruthID=0, endId=0;
318 
319  //
320  // loop over strings - index [i]
321  //
322 
323  for ( unsigned int i = 0; i < persCont->m_nHits.size(); i++ ) {
324 
325  if ( persCont->m_nHits[i] ) { // at least one hit in the string
326 
327  const unsigned int startHit = endHit;
328  endHit += persCont->m_nHits[i];
329 
330  //
331  // string strawId
332  //
333  const unsigned int i1 = persCont->m_strawId1b[i]; // 8 bits
334  const unsigned int i2 = persCont->m_strawId2b[i]; // 16 bits
335  const unsigned int strawId = i2*256+i1; // => 24 bits (0 to 16,777,215)
336 
337  //
338  // string startPhi
339  //
340  const unsigned int istartPhi = persCont->m_startPhi[i]; // 8 bits
341  const double startPhi = -M_PI + (istartPhi+0.5)*2.0*M_PI/256.0; // rad (min = -pi, max = +pi)
342 
343  //
344  // string startZ
345  //
346  const unsigned int istartZ = persCont->m_startZ[i] >> 1; // 4 bits
347  double startZ = -365.0*CLHEP::mm + (istartZ+0.5)*730.0*CLHEP::mm/16.0; // (min = -365 mm, max = +365 mm)
348 
349  //
350  // start Rflag
351  //
352  const unsigned int istartRflag = persCont->m_startZ[i] & 1; // 1 bit
353 
354  //
355  // string startR
356  //
357  double startR;
358  if ( istartRflag == 1 ) {
359  startR = 2.0*CLHEP::mm; // 1 bit
360  }
361  else {
362  const unsigned int istartR = persCont->m_startR[startRCount++]; // 8 bits
363  startR = (istartR+0.5)*2.0*CLHEP::mm/256.0; // (range 0 - 2 mm)
364  if ( startR < 0.0155*CLHEP::mm ) startR = 0.0155*CLHEP::mm; // The wire radius
365  }
366 
367  //
368  // string startX, startY (derived from R,Phi)
369  //
370  double startX = startR*cos(startPhi);
371  double startY = startR*sin(startPhi);
372  /*
373  // Validation output
374  std::cout.precision(15);
375  std::cout << "AJBPtoTstrawId " << strawId << std::endl;
376  std::cout << "AJBPtoTstartR " << startR << std::endl;
377  std::cout << "AJBPtoTstartPhi " << startPhi << std::endl;
378  std::cout << "AJBPtoTstartX " << startX << std::endl;
379  std::cout << "AJBPtoTstartY " << startY << std::endl;
380  std::cout << "AJBPtoTstartZ " << startZ << std::endl;
381  std::cout << "AJBPtoTnHits " << persCont->m_nHits[i] << std::endl;
382  */
383  //
384  // loop over end hits in the string - index [j]
385  //
386 
387  for ( unsigned int j = startHit; j < endHit; j++ ) {
388 
389  if ( j >= endTruthID + persCont->m_nTruthID[idxTruthID] ) endTruthID += persCont->m_nTruthID[idxTruthID++];
390  if ( j >= endId + persCont->m_nId[idxId] ) endId += persCont->m_nId[idxId++];
391 
392  //
393  // hit meanTime
394  //
395  const unsigned int imeanTime = persCont->m_meanTime[j] >> 2; // 10 bits
396  double meanTime = (imeanTime+0.5)*75.0*CLHEP::ns/1024.0; // (min = 0.0 ns, max = 75.0 ns)
397  if ( imeanTime == 1023 ) meanTime = (double)persCont->m_meanTimeof[meanTimeofCount++]; // ns, 32-bit float overflow
398 
399  //
400  // dZ sign
401  //
402  const unsigned int idZsign = (persCont->m_meanTime[j] >> 1 ) & 1; // 1 bit
403 
404  //
405  // endR flag
406  //
407  const unsigned int iendRflag = persCont->m_meanTime[j] & 1; // 1 bit
408 
409  //
410  // hit energy deposited in keV (only relevant for photons) 32-bit float
411  //
412  const double hitEne = ( persCont->m_id[idxId] == 22 ||
413  (int)(abs(persCont->m_id[idxId])/100000) == 41 ||
414  (int)(abs(persCont->m_id[idxId])/10000000) == 1
415  ) ? (double)persCont->m_hitEne[hitEneCount++] : 0.0;
416 
417  //
418  // hit endPhi (can be modified later during "steplength preservation")
419  //
420  const unsigned int iendPhi = persCont->m_endPhi[j]; // 8 bits
421  double endPhi = -M_PI + (iendPhi+0.5)*2.0*M_PI/256.0; // rad (min = -pi, max = +pi)
422 
423  //
424  // string endR (can be modified later during "steplength preservation")
425  //
426  double endR;
427  if ( iendRflag==1 ) {
428  endR = 2.0*CLHEP::mm; // 1 bit
429  }
430  else {
431  const unsigned int iendR = persCont->m_endR[endRCount++];
432  endR = (iendR+0.5)*2.0*CLHEP::mm/256.0; // 8 bits
433  if ( endR < 0.0155*CLHEP::mm ) endR = 0.0155*CLHEP::mm; // the wire radius
434  }
435 
436  //
437  // hit endX, endY (derived from R,Phi)
438  //
439  double endX = endR*cos(endPhi); // can be modified later during "steplength preservation"
440  double endY = endR*sin(endPhi); // can be modified later during "steplength preservation"
441 
442  // Save the (o)riginal endX, endY values for the next hit start because
443  // they might get shrunk to fit the g4 steplength of the current hit.
444  double endXo = endX;
445  double endYo = endY;
446 
447  //
448  // g4 step length of the hit, m_steplength, and
449  // kinetic energy of the hit, m_kinEne, are both 15-bit short floats.
450  // Note: a rare condition causes a 16-bit short float (mantissa=512).
451  //
452  const int kmantissa = persCont->m_kinEne[j] >> 6; // 9 bits (expected)
453  const int smantissa = persCont->m_steplength[j] >> 6;
454  const int kexponent = persCont->m_kinEne[j] & 0x3F; // 6 bits
455  const int sexponent = persCont->m_steplength[j] & 0x3F;
456  const double kinEne = (kmantissa+512.5)/1024 * pow(2.0,kexponent) / 1.0e9; // MeV
457  double g4steplength = (smantissa+512.5)/1024 * pow(2.0,sexponent) / 1.0e9; // mm
458  if ( idZsign==0 ) g4steplength = -g4steplength;
459 
460  //
461  // Preserving the steplength of the hit by setting endZ or shrinking dX,dY.
462  //
463  double dX = endX-startX;
464  double dY = endY-startY;
465  double dZ;
466  double dXY2 = dX*dX+dY*dY;
467  double dL2 = g4steplength*g4steplength;
468  if ( dL2 > dXY2 ) { // define dZ such that steplength = g4steplength
469  dZ = sqrt(dL2-dXY2);
470  if (g4steplength<0.0) dZ=-dZ;
471  }
472  else { // dL2 < dXY2 // shrink dX,dY such that dXY = g4steplength
473  dX = dX * sqrt(dL2/dXY2); // this includes the cases where dL2=0!
474  dY = dY * sqrt(dL2/dXY2);
475  dZ = 0.0*CLHEP::mm;
476  endX = startX + dX;
477  endY = startY + dY;
478  //endR = sqrt( endX*endX + endY*endY ); // for validation information
479  //endPhi = atan2(endY,endX); // for validation information
480  }
481  double endZ = startZ + dZ;
482  //dX = endX-startX; // for validation information
483  //dY = endY-startY; // for validation information
484  /*
485  // Validation output
486  std::cout.precision(15);
487  std::cout << "AJBPtoTendR " << endR << std::endl;
488  std::cout << "AJBPtoTendPhi " << endPhi << std::endl;
489  std::cout << "AJBPtoTendX " << endX << std::endl;
490  std::cout << "AJBPtoTendY " << endY << std::endl;
491  std::cout << "AJBPtoTendZ " << endZ << std::endl;
492  std::cout << "AJBPtoTmeanTime " << meanTime << std::endl;
493  std::cout << "AJBPtoTkinEne " << kinEne << std::endl;
494  std::cout << "AJBPtoThitEne " << hitEne << std::endl;
495  std::cout << "AJBPtoTsteplength " << sqrt(dX*dX+dY*dY+dZ*dZ) << std::endl;
496  */
497  //
498  // Notes:
499  // - All units are CLHEP, except hitEne which is in keV.
500  // - For charged particles kinEne is *zero*!
501  //
502 
504  if (persCont->m_mcEvtIndex[idxTruthID] == 0) {
506  }
507  HepMcParticleLink partLink( persCont->m_truthID[idxTruthID], persCont->m_mcEvtIndex[idxTruthID], flag, HepMcParticleLink::IS_ID, ctx );
508  partLink.setTruthSuppressionType(HepMcParticleLink::ExtendedBarCode::truthSuppressionTypeFromChar (persCont->m_truthSupp[idxTruthID]));
509  transCont->Emplace( strawId, partLink, persCont->m_id[idxId],
510  kinEne, hitEne, startX, startY, startZ,
511  endX, endY, endZ, meanTime );
512  //
513  // End of this hit becomes the start of the next;
514  // use the original (uncorrected) values for X,Y
515  // but the derived value for Z.
516  //
517  startX = endXo; startY = endYo; startZ = endZ;
518 
519  }
520  } // nhits>0
521  } // straw loop
522 } // persToTrans

◆ persToTransUntyped()

virtual void TPAbstractPolyCnvBase< TRANS , TRANS, PERS >::persToTransUntyped ( const void *  pers,
void *  trans,
MsgStream &  log 
)
inlinevirtualinherited

Convert persistent object representation to transient.

Parameters
pers[IN] void* pointer to the persistent object
trans[OUT] void* pointer to the empty transient object
log[IN] output message stream

Implements ITPCnvBase.

Definition at line 400 of file TPConverter.h.

403  {
404  persToTrans (reinterpret_cast<const PERS*> (pers),
405  reinterpret_cast<TRANS*> (trans),
406  log);
407  }

◆ persToTransWithKey()

virtual void TPAbstractPolyCnvBase< TRANS , TRANS, PERS >::persToTransWithKey ( const PERS persObj,
TRANS *  transObj,
const std::string &  ,
MsgStream &  log 
)
inlinevirtualinherited

Convert persistent representation to transient one.

Copies data members from persistent object to an existing transient one. Needs to be implemented by the developer on the actual converter.

Parameters
persObj[IN] persistent object
transObj[IN] transient object
log[IN] output message stream

Reimplemented in TPConverterWithKeyBase< TRANS, PERS >.

Definition at line 376 of file TPConverter.h.

379  {
380  return persToTrans (persObj, transObj, log);
381  }

◆ persToTransWithKeyUntyped()

virtual void TPAbstractPolyCnvBase< TRANS , TRANS, PERS >::persToTransWithKeyUntyped ( const void *  pers,
void *  trans,
const std::string &  key,
MsgStream &  log 
)
inlinevirtualinherited

Convert persistent object representation to transient.

Parameters
pers[IN] void* pointer to the persistent object
trans[OUT] void* pointer to the empty transient object
key[IN] SG key of object being read.
log[IN] output message stream

Reimplemented from ITPCnvBase.

Definition at line 420 of file TPConverter.h.

424  {
425  persToTransWithKey (reinterpret_cast<const PERS*> (pers),
426  reinterpret_cast<TRANS*> (trans),
427  key,
428  log);
429  }

◆ pstoreToTrans()

template<class TRANS , class PERS >
virtual void TPConverterBase< TRANS, PERS >::pstoreToTrans ( unsigned  index,
TRANS *  trans,
MsgStream &  log 
)
inlinevirtualinherited

Convert persistent representation stored in the storage vector of the top-level object to transient.

Internal.

Parameters
index[IN] index of the persistent representation in the storage vector
trans[IN] empty transient object
log[IN] output message stream

Reimplemented from TPAbstractPolyCnvBase< TRANS, TRANS, PERS >.

Definition at line 760 of file TPConverter.h.

760  {
761  assert (index < this->m_pStorage->size());
762  this->persToTrans( &(*this->m_pStorage)[index], trans, log );
763  }

◆ reservePStorage()

virtual void TPAbstractPolyCnvBase< TRANS , TRANS, PERS >::reservePStorage ( size_t  size)
inlinevirtualinherited

Reserve 'size' elements for persistent storage.

Implements ITPConverter.

Definition at line 573 of file TPConverter.h.

573  {
574  m_pStorage->reserve( size );
575  }

◆ setPStorage()

void TPAbstractPolyCnvBase< TRANS , TRANS, PERS >::setPStorage ( std::vector< PERS > *  storage)
inlineinherited

Tell this converter which storage vector it should use to store or retrieve persistent representations.

Parameters
storage[IN] the address of the storage vector

Definition at line 551 of file TPConverter.h.

551  {
552  m_pStorage = storage;
553  m_curRecLevel = 0;
554  }

◆ setReadingFlag()

template<class TRANS >
void ITPConverterFor< TRANS >::setReadingFlag ( )
inlineinherited

Definition at line 234 of file TPConverter.h.

234 { m_wasUsedForReading = true; }

◆ setRecursive()

void TPAbstractPolyCnvBase< TRANS , TRANS, PERS >::setRecursive ( bool  flag = true)
inlineinherited

Tell the converter if it should work in recursive mode slower but it can safely handle recursion.

Definition at line 559 of file TPConverter.h.

559  {
560  m_recursive = flag;
561  }

◆ setRuntimeTopConverter()

template<class TRANS >
virtual void ITPConverterFor< TRANS >::setRuntimeTopConverter ( TopLevelTPCnvBase topConverter)
inlinevirtualinherited

Set runtime top-level converter - usually it is the owning TL converter, but in case of extended objects it will be the TL converter of the extended object.

Parameters
topConverter[IN] runtime top-level converter for this converter

Implements ITPConverter.

Definition at line 215 of file TPConverter.h.

◆ setTopConverter()

template<class TRANS >
virtual void ITPConverterFor< TRANS >::setTopConverter ( TopLevelTPCnvBase topConverter,
const TPObjRef::typeID_t TPtypeID 
)
inlinevirtualinherited

Set which top-level converter owns this elemental converter, and what TPtypeID was assigned to the persistent objects it produces.

Parameters
topConverter[IN] the top-level converter owning this converter
TPtypeID[IN] TP type id for persistent objects (used in TP refs)

Implements ITPConverter.

Definition at line 221 of file TPConverter.h.

223  {
225  m_pStorageTID = TPtypeID;
226  m_pStorageTIDvalue = TPtypeID.value();
228  }

◆ topConverter() [1/2]

template<class TRANS >
virtual TopLevelTPCnvBase* ITPConverterFor< TRANS >::topConverter ( )
inlinevirtualinherited

return the top-level converter for this elemental TP converter

Returns
TopLevelTPCnvBas

Reimplemented from ITPConverter.

Definition at line 191 of file TPConverter.h.

191  {
192  return m_topConverter;
193  }

◆ topConverter() [2/2]

template<class TRANS >
virtual const TopLevelTPCnvBase* ITPConverterFor< TRANS >::topConverter ( ) const
inlinevirtualinherited

return the top-level converter for this elemental TP converter

Returns
TopLevelTPCnvBas

Reimplemented from ITPConverter.

Definition at line 196 of file TPConverter.h.

196  {
197  return m_topConverter;
198  }

◆ toPersistent()

template<class TRANS >
template<class CNV >
TPObjRef ITPConverterFor< TRANS >::toPersistent ( CNV **  cnv,
const typename CNV::TransBase_t *  transObj,
MsgStream &  log 
) const
inlineinherited

Persistify an object and store the persistent represenation in the storage vector of the top-level persistent object.

The correct converter is located using the actual object type.

Parameters
cnv[IN/OUT] pointer to the converter, usually 0 at the start. Once the right converter is found, this pointer will be set so the search is done only once
transObj[IN] transient object
log[IN] output message stream
Returns
TPObjRef TP reference to the persistent representation stored in the storage vector of the top-level persistent object

Definition at line 119 of file TPConverter.h.

119  {
120  if( !transObj ) return TPObjRef();
121  CNV *temp_cnv_p = 0;
122  if( !cnv ) cnv = &temp_cnv_p;
123  if( !*cnv || (*cnv)->wasUsedForReading() ) {
124  // don't trust the converter if it was used for reading, find again
125  *cnv = converterForType( *cnv, typeid(*transObj), log );
126  if( !*cnv ) return TPObjRef();
127  (*cnv)->clearReadingFlag();
128  }
129  return (**cnv).virt_toPersistent(transObj, log);
130  }

◆ toPersistentWithKey_impl()

TPObjRef TPAbstractPolyCnvBase< TRANS , TRANS, PERS >::toPersistentWithKey_impl ( const TRANS *  trans,
const std::string &  key,
MsgStream &  log 
)
inherited

Convert transient object to persistent representation.

Stores the result in the storage vector of the top-level object and returns a TP Ref to it.

Parameters
trans[IN] transient object
key[IN] SG key of object being converted
log[IN] output message stream
Returns
TP reference to the persistent representation

◆ transBaseTInfo()

template<class TRANS >
const std::type_info& ITPConverterFor< TRANS >::transBaseTInfo ( ) const
inlinevirtualinherited

return C++ type id of the common base transient type for all converters for a group of polymorphic types

Returns
std::type_info& this method is not overwritten in the subclasses like transientTInfo()

Implements ITPConverter.

Definition at line 205 of file TPConverter.h.

205 { return typeid(TRANS); }

◆ transientTInfo() [1/2]

template<class TRANS >
virtual const std::type_info& ITPConverterFor< TRANS >::transientTInfo ( ) const
inlinevirtualinherited

return C++ type id of the transient class this converter is for

Returns
std::type_info&

Implements ITPCnvBase.

Reimplemented in TPAbstractPolyCnvBase< Analysis::MuonContainer, Analysis::MuonContainer, MuonContainer_p3 >, TPAbstractPolyCnvBase< TileTrackMuFeatureContainer, TileTrackMuFeatureContainer, TileTrackMuFeatureContainer_p3 >, TPAbstractPolyCnvBase< std::vector< Analysis::TauPi0Cluster * >, std::vector< Analysis::TauPi0Cluster * >, std::vector< TPObjRef > >, TPAbstractPolyCnvBase< IsoMuonFeatureContainer, IsoMuonFeatureContainer, IsoMuonFeatureContainer_p2 >, TPAbstractPolyCnvBase< MuonFeatureDetailsContainer, MuonFeatureDetailsContainer, MuonFeatureDetailsContainer_p2 >, TPAbstractPolyCnvBase< std::vector< Trk::VxCandidate * >, std::vector< Trk::VxCandidate * >, std::vector< TPObjRef > >, TPAbstractPolyCnvBase< MuonFeatureContainer, MuonFeatureContainer, MuonFeatureContainer_p3 >, TPAbstractPolyCnvBase< std::vector< TrigConfAlg >, std::vector< TrigConfAlg >, std::vector< TrigConfAlg_p1 > >, TPAbstractPolyCnvBase< TrigT2MbtsBitsContainer, TrigT2MbtsBitsContainer, TrigT2MbtsBitsContainer_p3 >, TPAbstractPolyCnvBase< TrigCompositeContainer, TrigCompositeContainer, TrigCompositeContainer_p1 >, TPAbstractPolyCnvBase< LumiBlockCollection, LumiBlockCollection, LumiBlockCollection_p2 >, TPAbstractPolyCnvBase< TrigTauClusterContainer, TrigTauClusterContainer, TrigTauClusterContainer_p5 >, TPAbstractPolyCnvBase< TrigRNNOutputContainer, TrigRNNOutputContainer, TrigRNNOutputContainer_p2 >, TPAbstractPolyCnvBase< TrigRoiDescriptorCollection, TrigRoiDescriptorCollection, TrigRoiDescriptorCollection_p3 >, TPAbstractPolyCnvBase< TrigTauClusterContainer, TrigTauClusterContainer, TrigTauClusterContainer_p4 >, TPAbstractPolyCnvBase< TrigT2JetContainer, TrigT2JetContainer, TrigT2JetContainer_p3 >, TPAbstractPolyCnvBase< TrigPassBitsCollection, TrigPassBitsCollection, TrigPassBitsCollection_p1 >, TPAbstractPolyCnvBase< TrigRoiDescriptorCollection, TrigRoiDescriptorCollection, TrigRoiDescriptorCollection_p2 >, TPAbstractPolyCnvBase< std::vector< const JetTagInfoBase * >, std::vector< const JetTagInfoBase * >, std::vector< TPObjRef > >, TPAbstractPolyCnvBase< TrigMuonEFIsolationContainer, TrigMuonEFIsolationContainer, TrigMuonEFIsolationContainer_p1 >, TPAbstractPolyCnvBase< TrigTauClusterContainer, TrigTauClusterContainer, TrigTauClusterContainer_p3 >, TPAbstractPolyCnvBase< MultiComponentStateOnSurfaceDV, MultiComponentStateOnSurfaceDV, std::vector< TPObjRef > >, TPAbstractPolyCnvBase< RingerRingsContainer, RingerRingsContainer, RingerRingsContainer_p2 >, TPAbstractPolyCnvBase< std::vector< Trk::VxTrackAtVertex * >, std::vector< Trk::VxTrackAtVertex * >, std::vector< TPObjRef > >, TPAbstractPolyCnvBase< std::vector< TrigMonTE >, std::vector< TrigMonTE >, std::vector< TrigMonTE_p1 > >, TPAbstractPolyCnvBase< Analysis::MuonContainer, Analysis::MuonContainer, MuonContainer_p6 >, TPAbstractPolyCnvBase< TrigMissingETContainer, TrigMissingETContainer, TrigMissingETContainer_p3 >, TPAbstractPolyCnvBase< TileHitVector, TileHitVector, TileHitVector_p1 >, TPAbstractPolyCnvBase< DataVector< eflowObject >, DataVector< eflowObject >, std::vector< eflowObject_p2 > >, TPAbstractPolyCnvBase< TrigMuonEFIsolationContainer, TrigMuonEFIsolationContainer, TrigMuonEFIsolationContainer_p2 >, TPAbstractPolyCnvBase< std::vector< TrigConfSeq >, std::vector< TrigConfSeq >, std::vector< TrigConfSeq_p1 > >, TPAbstractPolyCnvBase< TrigTrtHitCountsCollection, TrigTrtHitCountsCollection, TrigTrtHitCountsCollection_p2 >, TPAbstractPolyCnvBase< JetCollection, JetCollection, ParticleJetContainer_p1 >, TPAbstractPolyCnvBase< TrigL2BjetContainer, TrigL2BjetContainer, TrigL2BjetContainer_p3 >, TPAbstractPolyCnvBase< TrigPassFlagsCollection, TrigPassFlagsCollection, TrigPassFlagsCollection_p1 >, TPAbstractPolyCnvBase< DataVector< const Trk::MeasurementBase >, DataVector< const Trk::MeasurementBase >, std::vector< TPObjRef > >, TPAbstractPolyCnvBase< DataVector< eflowObject >, DataVector< eflowObject >, std::vector< eflowObject_p3 > >, TPAbstractPolyCnvBase< TrigTauTracksInfoCollection, TrigTauTracksInfoCollection, TrigTauTracksInfoCollection_p2 >, TPAbstractPolyCnvBase< TrackInVertexVector, TrackInVertexVector, std::vector< TPObjRef > >, TPAbstractPolyCnvBase< TrigTauClusterDetailsContainer, TrigTauClusterDetailsContainer, TrigTauClusterDetailsContainer_p2 >, TPAbstractPolyCnvBase< std::vector< Analysis::TauShot * >, std::vector< Analysis::TauShot * >, std::vector< TPObjRef > >, TPAbstractPolyCnvBase< TrigEMClusterContainer, TrigEMClusterContainer, TrigEMClusterContainer_p4 >, TPAbstractPolyCnvBase< DataVector< eflowObject >, DataVector< eflowObject >, std::vector< eflowObject_p4 > >, TPAbstractPolyCnvBase< std::vector< TrigMonRoi >, std::vector< TrigMonRoi >, std::vector< TrigMonRoi_p1 > >, TPAbstractPolyCnvBase< TrigMuonEFContainer, TrigMuonEFContainer, TrigMuonEFContainer_p2 >, TPAbstractPolyCnvBase< DataVector< eflowObject >, DataVector< eflowObject >, std::vector< eflowObject_p5 > >, TPAbstractPolyCnvBase< TrigTauContainer, TrigTauContainer, TrigTauContainer_p3 >, TPAbstractPolyCnvBase< TrigEMClusterContainer, TrigEMClusterContainer, TrigEMClusterContainer_p3 >, TPAbstractPolyCnvBase< ElectronMuonTopoInfoContainer, ElectronMuonTopoInfoContainer, ElectronMuonTopoInfoContainer_p1 >, TPAbstractPolyCnvBase< TrigInDetTrackCollection, TrigInDetTrackCollection, std::vector< TPObjRef > >, TPAbstractPolyCnvBase< std::vector< const Trk::TrackParameters * >, std::vector< const Trk::TrackParameters * >, std::vector< TPObjRef > >, TPAbstractPolyCnvBase< EventBookkeeperCollection, EventBookkeeperCollection, EventBookkeeperCollection_p2 >, TPAbstractPolyCnvBase< SkimDecisionCollection, SkimDecisionCollection, SkimDecisionCollection_p1 >, TPAbstractPolyCnvBase< std::vector< TrigConfChain >, std::vector< TrigConfChain >, std::vector< TrigConfChain_p1 > >, TPAbstractPolyCnvBase< Trk::TrackStates, Trk::TrackStates, std::vector< TPObjRef > >, TPAbstractPolyCnvBase< CombinedMuonFeatureContainer, CombinedMuonFeatureContainer, CombinedMuonFeatureContainer_p4 >, TPAbstractPolyCnvBase< TrigPhotonContainer, TrigPhotonContainer, TrigPhotonContainer_p3 >, TPAbstractPolyCnvBase< std::vector< TrigMonSeq >, std::vector< TrigMonSeq >, std::vector< TrigMonSeq_p1 > >, TPAbstractPolyCnvBase< EventBookkeeperCollection, EventBookkeeperCollection, EventBookkeeperCollection_p1 >, TPAbstractPolyCnvBase< std::vector< TrigMonAlg >, std::vector< TrigMonAlg >, std::vector< TrigMonAlg_p1 > >, TPAbstractPolyCnvBase< CombinedMuonFeatureContainer, CombinedMuonFeatureContainer, CombinedMuonFeatureContainer_p3 >, TPAbstractPolyCnvBase< DataVector< eflowObject >, DataVector< eflowObject >, std::vector< eflowObject_p1 > >, TPAbstractPolyCnvBase< std::vector< Analysis::TauPi0Candidate * >, std::vector< Analysis::TauPi0Candidate * >, std::vector< TPObjRef > >, TPAbstractPolyCnvBase< CombinedMuonFeatureContainer, CombinedMuonFeatureContainer, CombinedMuonFeatureContainer_p2 >, TPAbstractPolyCnvBase< TrigElectronContainer, TrigElectronContainer, TrigElectronContainer_p3 >, TPAbstractPolyCnvBase< TrigSpacePointCountsCollection, TrigSpacePointCountsCollection, TrigSpacePointCountsCollection_p4 >, TPAbstractPolyCnvBase< Analysis::MuonContainer, Analysis::MuonContainer, MuonContainer_p5 >, TPAbstractPolyCnvBase< TileMuFeatureContainer, TileMuFeatureContainer, TileMuFeatureContainer_p2 >, TPAbstractPolyCnvBase< std::vector< TrigConfSig >, std::vector< TrigConfSig >, std::vector< TrigConfSig_p1 > >, TPAbstractPolyCnvBase< std::vector< TrigMonROBData >, std::vector< TrigMonROBData >, std::vector< TrigMonROBData_p1 > >, TPAbstractPolyCnvBase< Analysis::MuonContainer, Analysis::MuonContainer, MuonContainer_p4 >, TPAbstractPolyCnvBase< LumiBlockCollection, LumiBlockCollection, LumiBlockCollection_p1 >, TPAbstractPolyCnvBase< std::vector< const JetAssociationBase * >, std::vector< const JetAssociationBase * >, std::vector< TPObjRef > >, TPAbstractPolyCnvBase< IsoMuonFeatureContainer, IsoMuonFeatureContainer, IsoMuonFeatureContainer_p3 >, TPAbstractPolyCnvBase< TrigCaloClusterContainer, TrigCaloClusterContainer, TrigCaloClusterContainer_p3 >, and TPAbstractPolyCnvBase< std::vector< TrigMonROB >, std::vector< TrigMonROB >, std::vector< TrigMonROB_p1 > >.

Definition at line 201 of file TPConverter.h.

201 { return typeid(TRANS); }

◆ transientTInfo() [2/2]

virtual const std::type_info& TPAbstractPolyCnvBase< TRANS , TRANS, PERS >::transientTInfo ( ) const
inlinevirtualinherited

return C++ type id of the transient class this converter is for

Returns
std::type_info&

Definition at line 479 of file TPConverter.h.

479 { return typeid(TRANS); }

◆ transToPers() [1/2]

virtual void TPAbstractPolyCnvBase< TRANS , TRANS, PERS >::transToPers ( const TRANS *  transObj,
PERS persObj,
MsgStream &  log 
)
pure virtualinherited

Convert transient representation to persistent one.

Copies data members from transient object to an existing persistent one. Needs to be implemented by the developer on the actual converter.

Parameters
transObj[IN] transient object
persObj[IN] persistent object
log[IN] output message stream

Implemented in TPCnvIDContFromIdentifier< TRANS, PERS, CONV >, TPCnvIDCont< TRANS, PERS, CONV >, TPCnvStdVector< TRANS, PERS, CONV >, TPCnvVector< TRANS, PERS, CONV >, TPValVectorCnv< TRANS, PERS, CONV >, TPPolyVectorCnv< TRANS, PERS, CONV >, TPPtrVectorCnv< TRANS, PERS, CONV >, TPConverterConstBase< TRANS, PERS >, T_AtlasHitsVectorCnv< TRANS, PERS, CONV >, and T_AthenaHitsVectorCnv< TRANS, PERS, CONV >.

◆ transToPers() [2/2]

void TRT_HitCollectionCnv_p5::transToPers ( const TRTUncompressedHitCollection transCont,
TRT_HitCollection_p5 persCont,
MsgStream &  log 
)
virtual

Definition at line 25 of file TRT_HitCollectionCnv_p5.cxx.

26 {
27 
28  /*
29  Spring 2009
30  Andrew Beddall - lossy TRT G4hit compression [p3]
31 
32  In p1, p2 versions, GEANT hits are persistified on disk as floats.
33  In the p3 version, floats are compressed to "integers"/"short-floats" before persistifying.
34  In the p5 version, HepMcParticleLink_p2 can identify the event index and collection.
35  The saving is about 75%; see http://cern.ch/beddall/TRThitCompression/
36 
37  Spring 2008
38  Rob Duxfield - lossless TRT G4hit compression [p2]
39 
40  Finds hits belonging to a "string" (in which the end point of one hit is
41  the same as the start point of the next) and persistifies the end point
42  of each hit plus the start point of the first hit in each string.
43  */
44 
45  // The original units from the hit simulation are indicated in comments;
46  // they are all in CLHEP units except for hitEne which is in keV.
47  // I sometimes make use of CLHEP scales *CLHEP::mm and *CLHEP::ns (both=1) for clarity (I hope!).
48  // See also https://twiki.cern.ch/twiki/bin/view/Atlas/TrtSoftware#Production_of_Hits
49 
50  static const double dRcut = 1.0e-7*CLHEP::mm;
51  static const double dTcut = 1.0*CLHEP::ns; // redundant?
52 
53  // if (log.level() <= MSG::DEBUG) log << MSG::DEBUG << "In TRT_HitCollectionCnv_p5::transToPers()" << endmsg;
54 
55  const EventContext& ctx = Gaudi::Hive::currentContext();
56  const IProxyDict* proxy = Atlas::getExtendedEventContext(ctx).proxy();
57  int lastIndex{-1};
58  int lastTruthId{-1};
59  int lastId = -1;
60  double lastT = 0.0*CLHEP::ns;
61  unsigned int idx = 0;
62  unsigned int endTruthID = 0;
63  unsigned int endId = 0;
64  unsigned int endHit = 0;
65  HepGeom::Point3D<double> lastEnd(0.0, 0.0, 0.0); // mm
66 
67  for (TRTUncompressedHitCollection::const_iterator it = transCont->begin(); it != transCont->end(); ++it) {
68 
70  const HepMcParticleLink * currentLink = &(trtHit->particleLink());
71  const int truthId = currentLink->id();
72  const char truthSupp= currentLink->getTruthSuppressionTypeAsChar();
73  int index{0};
75  proxy).at(0) != 0) {
76  index = currentLink->eventIndex();
77  }
78 
79  if ( lastTruthId != truthId || lastIndex != index || (idx - endTruthID > 65500) ) { // max unsigned short = 65535;
80  lastTruthId = truthId;
81  lastIndex = index;
82  const unsigned short persIndex = static_cast<unsigned short>(index);
83  if (static_cast<HepMcParticleLink::index_type>(lastIndex) != static_cast<HepMcParticleLink::index_type>(persIndex)) {
84  log << MSG::WARNING << "Attempting to persistify an eventIndex larger than max unsigned short!" << endmsg;
85  }
86  // store truthId and eventIndex once for set of consecutive hits
87  // with the same truthId and eventIndex.
88  persCont->m_truthID.push_back(static_cast<unsigned int>(lastTruthId));
89  persCont->m_mcEvtIndex.push_back(persIndex);
90  persCont->m_truthSupp.push_back(truthSupp); // TODO include this in the equality check above?
91  if ( idx > 0 ) {
92  persCont->m_nTruthID.push_back(idx - endTruthID);
93  endTruthID = idx;
94  }
95  }
96 
97  if ( (int)trtHit->GetParticleEncoding() != lastId || idx - endId > 65500) { // max unsigned short = 65535;
98  // store id once for set of consecutive hits with same id
99  lastId = trtHit->GetParticleEncoding();
100  persCont->m_id.push_back(lastId);
101  if ( idx > 0 ) {
102  persCont->m_nId.push_back(idx - endId);
103  endId = idx;
104  }
105  }
106 
107  const HepGeom::Point3D<double> hitStart(trtHit->GetPreStepX(), trtHit->GetPreStepY(), trtHit->GetPreStepZ()); // mm
108 
109  const double meanTime = trtHit->GetGlobalTime(); // ns // Time of flight from the I.P. to the center of the hit.
110  const double dTLast = std::abs(meanTime - lastT); // |d(meantime)| between the previous hit and the current one.
111  const double dRLast = lastEnd.distance(hitStart); // Distance between end of previous hit and start of current one;
112  // this is zero if the hit is a continuation of the same particle in the same straw.
113 
114  // Begin a new string if the current and previous hits are disconnected;
115  // it looks like dTcut is redundant (but not sure about this).
116  if ( dRLast >= dRcut || dTLast >= dTcut ) {
117 
118  // if ( dRLast < dRcut) std::cout << "AJBdTLastTriggeredNewString " << dRLast << " " << dTLast << std::endl;
119 
121  // new hit string //
123 
124  //
125  // Persistify string *strawId* using 24 bits.
126  // Assumes 0 <= strawId <= 16,777,215 (strawId appears to be < 4,000,000)
127  //
128  const unsigned int strawId = trtHit->GetHitID();
129  persCont->m_strawId1b.push_back( (unsigned char)(strawId % 256) ); // 8 bits
130  persCont->m_strawId2b.push_back( (unsigned short)(strawId / 256) ); // 16 bits
131  if ( strawId>16777215 )
132  log << MSG::WARNING << "TRT_HitCollectionCnv: strawId > 2^24-1 cannot be persistified correctly! " << endmsg;
133 
134  //
135  // Persistify string start radius using 1 bit (istartRflag) or 8 bits (startR)
136  // Note that the smallest value of R is the wire radius (0.0155 mm)
137  //
138  // R will be flagged as 2 mm if it is within 0.1 um of the straw wall => max error = 0.1 um,
139  // otherwise compress with 8 bits => max error = 3.9 um (0.078 ns), RMS error = 1.1 um (0.022 ns)
140  //
141  const double startR = sqrt( hitStart.x()*hitStart.x() + hitStart.y()*hitStart.y() ); // mm
142  unsigned short istartRflag;
143  if ( startR > 1.9999*CLHEP::mm ) {
144  istartRflag=1; // persistify as a 1-bit flag
145  }
146  else {
147  istartRflag=0; // compress to 8 bits with a span of 2 mm
148  persCont->m_startR.push_back( (unsigned char)(startR/(2.0*CLHEP::mm)*256.0) );
149  }
150 
151  //
152  // Persistify string *startPhi* using 8 bits (min=-pi, max=+pi)
153  // Max. error = 12 mrad (< 24 um, 0.48 ns); RMS error = 7 mrad (< 14 um, 0.28 ns)
154  //
155  const double startPhi = atan2( hitStart.y(), hitStart.x() ); // returns range -pi to +pi rad
156  persCont->m_startPhi.push_back( (unsigned char)( (startPhi+M_PI)/(2.0*M_PI)*256.0 ) );
157 
158  //
159  // Persistify *startZ* using a 4 bits (min = -365 mm, max= +365 mm)
160  // Max. error = 25 mm (25e-3/(0.75c) = 0.111 ns * 2 reflect = 0.222 ns)
161  // RMS error = 14 mm (14e-3/(0.75c) = 0.062 ns * 2 reflect = 0.124 ns)
162  // Also the 1-bit *istartRflag* is packed into this variable.
163  //
164  // Note:
165  // In the digi code we need to allow for something like 22.5 mm outside straw.
166  // Also because we have short straws,
167  // short straws are about < +-180 mm, long straws are about < +-350 mm
168  // The following compressions can give a large "out of straw" value;
169  // *don't* use these: (2.0), 32.0, 128.0, 256.0.
170 
171  unsigned char istartZ = (unsigned char)( (hitStart.z()+365.0*CLHEP::mm)/(730.0*CLHEP::mm)*16.0 );
172  istartZ = (istartZ << 1) | istartRflag;
173  persCont->m_startZ.push_back( istartZ );
174 
175  if ( idx > 0 ) {
176  persCont->m_nHits.push_back( idx - endHit );
177  endHit = idx;
178  }
179  /*
180  // Validation output
181  std::cout.precision(15);
182  std::cout << "AJBTtoPstrawId " << strawId << std::endl;
183  std::cout << "AJBTtoPstartR " << startR << std::endl;
184  std::cout << "AJBTtoPstartPhi " << startPhi << std::endl;
185  std::cout << "AJBTtoPstartX " << hitStart.x() << std::endl;
186  std::cout << "AJBTtoPstartY " << hitStart.y() << std::endl;
187  std::cout << "AJBTtoPstartZ " << hitStart.z() << std::endl;
188  */
189  } // end of "begin new hit string"
190 
192  // Now for the end hits //
194 
195  const HepGeom::Point3D<double> hitEnd(trtHit->GetPostStepX(), trtHit->GetPostStepY(), trtHit->GetPostStepZ()); // mm
196  const HepGeom::Point3D<double> hitLength = (hitEnd - hitStart);
197 
198  //
199  // Here both *kinEne* (kinetic energy of the particle causing the hit) and
200  // *steplength* (g4hit length) are persistified using a 15-bit "short float"
201  // (9 bit unsigned mantissa, 6 bit unsigned exponent).
202  // This stores values in the range 0.51*2^0 = 0.51 to 1.00*2^63 = 9.2e18.
203  // I enforce the limits 1.0 and 9.0e18; see below.
204  // Max relative error = 0.0010, RMS = 0.0004
205  //
206  // Notes:
207  //
208  // - G4 gives kinEne in MeV; I sometimes see values ~ 1e-7 MeV (100 meV) [float round-off?]
209  // So I multiply by 1e9 and store in units of meV => range 1.0 meV to 9.0e18 meV (9000 TeV!)
210  // - About 1 in 10000 hits have steplength ~ 1e-7 mm [float round-off?]
211  // so again I multiply by 1e9 and store in units of pm => range 1.0 pm to 9.0e18 pm (9000 km)
212  // - The mantissa has maximum 9 bits, the exponent has maximum 6 bits,
213  // Note: a rare condition causes an 10-bit mantissa (mantissa=512).
214  //
215  double kinEne = trtHit->GetKineticEnergy() * 1.0e9; // nano Mev = meV.
216  double steplength = hitLength.distance() * 1.0e9; // nano mm = pm.
217  if ( kinEne < 1.0 ) kinEne=1.0; // Keep the value
218  if ( steplength < 1.0 ) steplength=1.0; // well within the
219  if ( kinEne > 9.0e18 ) kinEne=9.0e18; // range of the
220  if ( steplength > 9.0e18 ) steplength=9.0e18; // short float.
221  const unsigned int kexponent = (unsigned int)ceil(log10(kinEne)/0.30102999566398);
222  const unsigned int sexponent = (unsigned int)ceil(log10(steplength)/0.30102999566398);
223  const unsigned int kmantissa = (unsigned int)(kinEne/pow(2.0,kexponent)*1024) - 512;
224  const unsigned int smantissa = (unsigned int)(steplength/pow(2.0,sexponent)*1024) - 512;
225  persCont->m_kinEne.push_back( (kmantissa << 6) | kexponent );
226  persCont->m_steplength.push_back( (smantissa << 6) | sexponent );
227 
228  //
229  // Persistify hit end radius using 1 bit (iendRflag) or 8 bits (endR).
230  // Note that the smallest value of R is the wire radius (0.0155 mm)
231  //
232  // R will be flagged as 2 mm if it is within 0.1 um of the straw wall => max error = 0.1 um,
233  // otherwise compress with 8 bits. The errors are as for startR, but can increased greatly
234  // after steplength preservation in PtoT.
235  //
236  const double endR = sqrt( hitEnd.x()*hitEnd.x() + hitEnd.y()*hitEnd.y() ); // mm
237  unsigned short iendRflag;
238  if ( endR > 1.9999*CLHEP::mm ) {
239  iendRflag=1; // persistify as a 1-bit flag
240  }
241  else {
242  iendRflag=0; // compress to 8 bits with a span of 2 mm
243  persCont->m_endR.push_back( (unsigned char)(endR/(2.0*CLHEP::mm)*256.0) );
244  }
245 
246  //
247  // Persistify string *endPhi* using 8 bits (min=-pi, max=+pi)
248  // The errors are as for startPhi, but are very different after steplength
249  // preservation in PtoT.
250  //
251  const double endPhi = atan2( hitEnd.y(), hitEnd.x() ); // returns range -pi to +pi rad
252  persCont->m_endPhi.push_back( (unsigned char)( (endPhi+M_PI)/(2.0*M_PI)*256.0 ) );
253 
254  //
255  // Persistify hit *meanTime* using 10 bits (min=0.,span=75 ns)
256  // with float overflow for meanTime >= 75ns (the tail of the distribution).
257  // Max. error = 0.037 ns; RMS error = 0.021 ns.
258  // Also the 1-bit *iendRflag* and 1-bit *idZsign* are packed into this variable.
259  //
260  unsigned short idZsign = (hitLength.z()>0.0) ? 1 : 0; // flag the sign of dZ
261  unsigned short imeanTime = ( meanTime < 75.0*CLHEP::ns ) ? (unsigned short)(meanTime/(75.0*CLHEP::ns)*1024.0) : 1023;
262  if ( imeanTime == 1023 ) persCont->m_meanTimeof.push_back( (float)meanTime ); // "overflow flag"
263  imeanTime = (imeanTime << 2) | (idZsign << 1) | iendRflag;
264  persCont->m_meanTime.push_back( imeanTime );
265 
266  //
267  // Persistify hit *hitEne* (the energy deposited by the hit in keV) using a float but only for photons
268  // (relatively very few of these). Digitisation does not use hitEne for charged particles.
269  //
270  if ( lastId == 22 ||
271  (int)(abs(lastId)/100000) == 41 ||
272  (int)(abs(lastId)/10000000) == 1
273  ) persCont->m_hitEne.push_back( (float)(trtHit->GetEnergyDeposit()) ); // keV
274 
275  lastEnd = hitEnd;
276  lastT = meanTime;
277  ++idx;
278  /*
279  // Validation output
280  std::cout.precision(15);
281  std::cout << "AJBTtoPendR " << endR << std::endl;
282  std::cout << "AJBTtoPendPhi " << endPhi << std::endl;
283  std::cout << "AJBTtoPendX " << hitEnd.x() << std::endl;
284  std::cout << "AJBTtoPendY " << hitEnd.y() << std::endl;
285  std::cout << "AJBTtoPendZ " << hitEnd.z() << std::endl;
286  std::cout << "AJBTtoPmeanTime " << meanTime << std::endl;
287  std::cout << "AJBTtoPkinEne " << trtHit->GetKineticEnergy() << std::endl;
288  std::cout << "AJBTtoPhitEne " << trtHit->GetEnergyDeposit() << std::endl;
289  std::cout << "AJBTtoPsteplength " << hitLength.distance() << std::endl;
290  */
291  }
292 
293  persCont->m_nTruthID.push_back(idx - endTruthID);
294  persCont->m_nId.push_back(idx - endId);
295  persCont->m_nHits.push_back( idx - endHit );
296 
297 } // transToPers

◆ transToPersUntyped()

virtual void TPAbstractPolyCnvBase< TRANS , TRANS, PERS >::transToPersUntyped ( const void *  trans,
void *  pers,
MsgStream &  log 
)
inlinevirtualinherited

Convert transient object representation to persistent.

Parameters
trans[IN] void* pointer to the transient object
pers[OUT] void* pointer to the empty persistent object
log[IN] output message stream

Implements ITPCnvBase.

Definition at line 410 of file TPConverter.h.

413  {
414  transToPers (reinterpret_cast<const TRANS*> (trans),
415  reinterpret_cast<PERS*> (pers),
416  log);
417  }

◆ transToPersWithKey()

virtual void TPAbstractPolyCnvBase< TRANS , TRANS, PERS >::transToPersWithKey ( const TRANS *  transObj,
PERS persObj,
const std::string &  ,
MsgStream &  log 
)
inlinevirtualinherited

Convert transient representation to persistent one.

Copies data members from transient object to an existing persistent one. Needs to be implemented by the developer on the actual converter.

Parameters
transObj[IN] transient object
persObj[IN] persistent object
key[IN] SG key of object being written.
log[IN] output message stream

Reimplemented in TPConverterWithKeyBase< TRANS, PERS >.

Definition at line 392 of file TPConverter.h.

395  {
396  return transToPers (transObj, persObj, log);
397  }

◆ transToPersWithKeyUntyped()

virtual void TPAbstractPolyCnvBase< TRANS , TRANS, PERS >::transToPersWithKeyUntyped ( const void *  trans,
void *  pers,
const std::string &  key,
MsgStream &  log 
)
inlinevirtualinherited

Convert transient object representation to persistent.

Parameters
trans[IN] void* pointer to the transient object
pers[OUT] void* pointer to the empty persistent object
key[IN] SG key of object being written.
log[IN] output message stream

Reimplemented from ITPCnvBase.

Definition at line 432 of file TPConverter.h.

436  {
437  transToPersWithKey (reinterpret_cast<const TRANS*> (trans),
438  reinterpret_cast<PERS*> (pers),
439  key,
440  log);
441  }

◆ typeID()

template<class TRANS >
virtual const TPObjRef::typeID_t& ITPConverterFor< TRANS >::typeID ( ) const
inlinevirtualinherited

Return TP typeID for persistent objects produced by this converter.

Returns
TPObjRef::typeID_t&

Implements ITPConverter.

Definition at line 208 of file TPConverter.h.

208 { return m_pStorageTID; }

◆ typeIDvalue()

template<class TRANS >
unsigned ITPConverterFor< TRANS >::typeIDvalue ( ) const
inlineinherited

inlined non-virtual version to get the typeID value fast

Definition at line 211 of file TPConverter.h.

211 { return m_pStorageTIDvalue; }

◆ virt_createTransFromPStore()

virtual TRANS* TPPolyCnvBase< TRANS , TRANS, PERS >::virt_createTransFromPStore ( unsigned  index,
MsgStream &  log 
)
inlinevirtualinherited

Internal interface method that is used to invoke the real conversion method (createTransient)

Parameters
index[IN] index of the persistent object in the storage vector
log[IN] output message stream
Returns
Created transient object (by pointer)

Reimplemented from TPAbstractPolyCnvBase< TRANS, TRANS, PERS >.

Definition at line 706 of file TPConverter.h.

706  {
707  assert (index < this->m_pStorage->size());
708  return createTransient( &(*this->m_pStorage)[index], log );
709  }

◆ virt_createTransFromPStoreWithKey()

virtual TRANS* TPPolyCnvBase< TRANS , TRANS, PERS >::virt_createTransFromPStoreWithKey ( unsigned  index,
const std::string &  key,
MsgStream &  log 
)
inlinevirtualinherited

Internal interface method that is used to invoke the real conversion method (createTransient)

Parameters
index[IN] index of the persistent object in the storage vector
key[IN] SG key of the object being converted
log[IN] output message stream
Returns
Created transient object (by pointer)

Reimplemented from TPAbstractPolyCnvBase< TRANS, TRANS, PERS >.

Definition at line 718 of file TPConverter.h.

721  {
722  assert (index < this->m_pStorage->size());
723  return createTransientWithKey( &(*this->m_pStorage)[index], key, log );
724  }

◆ virt_toPersistent()

template<class TRANS , class PERS >
virtual TPObjRef TPConverterBase< TRANS, PERS >::virt_toPersistent ( const TRANS *  trans,
MsgStream &  log 
)
inlinevirtualinherited

Internal interface method that is used to invoke the real conversion method (toPersistent_impl) in the derived converter.

Parameters
trans[IN] transient object
log[IN] output message stream
Returns
TPObjRef TP reference to the persistent representation stored in the storage vector of the top-level persistent object Here toPersistent_impl is invoked with the dynamic cast of the transient type pointer to it's actual type

Reimplemented from TPAbstractPolyCnvBase< TRANS, TRANS, PERS >.

Definition at line 747 of file TPConverter.h.

747  {
748  return this->toPersistentWithKey_impl( trans, "", log);
749  }

◆ virt_toPersistentWithKey()

template<class TRANS , class PERS >
virtual TPObjRef TPConverterBase< TRANS, PERS >::virt_toPersistentWithKey ( const TRANS *  trans,
const std::string &  key,
MsgStream &  log 
)
inlinevirtualinherited

Internal interface method that is used to invoke the real conversion method (toPersistent_impl) in the derived converter.

Parameters
trans[IN] transient object
key[IN] SG key of the object being converted.
log[IN] output message stream
Returns
TPObjRef TP reference to the persistent representation stored in the storage vector of the top-level persistent object Here toPersistentWithKey_impl is invoked with the dynamic cast of the transient type pointer to it's actual type

Reimplemented from TPAbstractPolyCnvBase< TRANS, TRANS, PERS >.

Definition at line 752 of file TPConverter.h.

755  {
756  return this->toPersistentWithKey_impl( trans, key, log);
757  }

◆ wasUsedForReading()

template<class TRANS >
bool ITPConverterFor< TRANS >::wasUsedForReading ( )
inlineinherited

Definition at line 236 of file TPConverter.h.

236 { return m_wasUsedForReading; }

Member Data Documentation

◆ m_curRecLevel

int TPAbstractPolyCnvBase< TRANS , TRANS, PERS >::m_curRecLevel
protectedinherited

count recursive invocations, to detect recursion

Definition at line 582 of file TPConverter.h.

◆ m_ignoreRecursion

bool TPAbstractPolyCnvBase< TRANS , TRANS, PERS >::m_ignoreRecursion
protectedinherited

if true, do not throw errors in case of recursion.

Definition at line 588 of file TPConverter.h.

◆ m_pStorage

std::vector< PERS >* TPAbstractPolyCnvBase< TRANS , TRANS, PERS >::m_pStorage
protectedinherited

the address of the storage vector for persistent representations

Definition at line 579 of file TPConverter.h.

◆ m_pStorageTID

template<class TRANS >
TPObjRef::typeID_t ITPConverterFor< TRANS >::m_pStorageTID
protectedinherited

TP Ref typeID for the persistent objects this converter is creating.

Definition at line 292 of file TPConverter.h.

◆ m_pStorageTIDvalue

template<class TRANS >
unsigned ITPConverterFor< TRANS >::m_pStorageTIDvalue
protectedinherited

m_pStorageTID converted to integer value

Definition at line 295 of file TPConverter.h.

◆ m_recursive

bool TPAbstractPolyCnvBase< TRANS , TRANS, PERS >::m_recursive
protectedinherited

if true, work in recursion-safe way (slower)

Definition at line 585 of file TPConverter.h.

◆ m_topConverter

template<class TRANS >
TopLevelTPCnvBase* ITPConverterFor< TRANS >::m_topConverter
protectedinherited

top level converter that owns this elemental TP converter it also holds the storage object

Definition at line 299 of file TPConverter.h.

◆ m_topConverterRuntime

template<class TRANS >
TopLevelTPCnvBase* ITPConverterFor< TRANS >::m_topConverterRuntime
protectedinherited

top level converter "owning" this TP converter at runtime (different from m_topConverter in case the top-level converter and object have extensions)

Definition at line 302 of file TPConverter.h.

◆ m_wasUsedForReading

template<class TRANS >
bool ITPConverterFor< TRANS >::m_wasUsedForReading
protectedinherited

flag set when using this converter for reading triggers search for a new converter before writing, to prevent possible use of old version

Definition at line 306 of file TPConverter.h.


The documentation for this class was generated from the following files:
ITPConverter::typeID
virtual const TPObjRef::typeID_t & typeID() const =0
Return TP typeID for persistent objects produced by this converter.
TRT_HitCollection_p5::m_strawId2b
std::vector< unsigned short > m_strawId2b
Definition: TRT_HitCollection_p5.h:32
TopLevelTPCnvBase::converterForType
ITPConverter * converterForType(const std::type_info &info) const
Find and return a TP converter for a given C++ type info.
Definition: TopLevelTPCnvBase.h:80
TPAbstractPolyCnvBase< TRANS, TRANS, PERS >::m_pStorage
std::vector< PERS > * m_pStorage
the address of the storage vector for persistent representations
Definition: TPConverter.h:579
TRT_HitCollection_p5::m_mcEvtIndex
std::vector< unsigned short > m_mcEvtIndex
Definition: TRT_HitCollection_p5.h:56
StateLessPT_NewConfig.proxy
proxy
Definition: StateLessPT_NewConfig.py:392
ITPConverterFor::m_topConverter
TopLevelTPCnvBase * m_topConverter
top level converter that owns this elemental TP converter it also holds the storage object
Definition: TPConverter.h:299
TPAbstractPolyCnvBase< TRANS, TRANS, PERS >::toPersistentWithKey_impl
TPObjRef toPersistentWithKey_impl(const TRANS *trans, const std::string &key, MsgStream &log)
Convert transient object to persistent representation.
CaloCellPos2Ntuple.int
int
Definition: CaloCellPos2Ntuple.py:24
TRT_HitCollection_p5::m_endR
std::vector< unsigned char > m_endR
Definition: TRT_HitCollection_p5.h:44
TRT_HitCollection_p5::m_startZ
std::vector< unsigned char > m_startZ
Definition: TRT_HitCollection_p5.h:36
TRT_HitCollection_p5::m_startPhi
std::vector< unsigned char > m_startPhi
Definition: TRT_HitCollection_p5.h:35
TRT_HitCollection_p5::m_strawId1b
std::vector< unsigned char > m_strawId1b
Definition: TRT_HitCollection_p5.h:33
TPObjRef::typeID_t::value
unsigned value() const
Returns the type ID as an integer.
Definition: TPObjRef.h:46
index
Definition: index.py:1
TPPolyCnvBase< TRANS, TRANS, PERS >::createTransient
virtual TRANS * createTransient(const PERS *persObj, MsgStream &log)
Create transient representation of a persistent object.
xAOD::char
char
Definition: TrigDecision_v1.cxx:38
conifer::pow
constexpr int pow(int x)
Definition: conifer.h:20
skel.it
it
Definition: skel.GENtoEVGEN.py:396
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#define M_PI
Definition: ActiveFraction.h:11
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ITPConverter * converterForRef(const TPObjRef &ref) const
Find and return a TP converter for persistent type referenced by ref.
Definition: TopLevelTPCnvBase.h:89
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virtual TRANS * createTransientWithKey(const PERS *persObj, const std::string &key, MsgStream &log)
Create transient representation of a persistent object, with SG key.
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Definition: TRT_HitCollection_p5.h:45
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std::vector< unsigned short > m_meanTime
Definition: TRT_HitCollection_p5.h:46
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cos
Definition: drawFromPickle.py:36
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std::vector< float > m_hitEne
Definition: TRT_HitCollection_p5.h:53
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const_iterator begin() const
Definition: AtlasHitsVector.h:131
IProxyDict
A proxy dictionary.
Definition: AthenaKernel/AthenaKernel/IProxyDict.h:47
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if true, do not throw errors in case of recursion.
Definition: TPConverter.h:588
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return the top-level converter for this elemental TP converter
Definition: TPConverter.h:191
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Definition: TPObjRef.h:20
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Definition: AtlasHitsVector.h:43
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std::vector< char > m_truthSupp
Definition: TRT_HitCollection_p5.h:57
TPAbstractPolyCnvBase< TRANS, TRANS, PERS >::transToPers
virtual void transToPers(const TRANS *transObj, PERS *persObj, MsgStream &log)=0
Convert transient representation to persistent one.
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bool m_wasUsedForReading
flag set when using this converter for reading triggers search for a new converter before writing,...
Definition: TPConverter.h:306
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const ExtendedEventContext & getExtendedEventContext(const EventContext &ctx)
Retrieve an extended context from a context object.
Definition: ExtendedEventContext.cxx:32
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void Emplace(Args &&... args)
Definition: AtlasHitsVector.h:81
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int size
Definition: setupRTTAlg.py:39
ITPConverterFor::converterForType
CNV * converterForType(CNV *cnv, const std::type_info &t_info, MsgStream &log) const
Find converter for a given C++ type ID, that is or ihnerits from CNV type.
Definition: TPConverter.h:58
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Definition: lumiFormat.py:85
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virtual void persToTrans(const TRT_HitCollection_p5 *persCont, TRTUncompressedHitCollection *transCont, MsgStream &log)
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ITPConverterFor::m_pStorageTID
TPObjRef::typeID_t m_pStorageTID
TP Ref typeID for the persistent objects this converter is creating.
Definition: TPConverter.h:292
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#define endmsg
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std::vector< unsigned short > m_nTruthID
Definition: TRT_HitCollection_p5.h:58
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std::vector< unsigned int > m_truthID
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Definition: master.py:29
TPAbstractPolyCnvBase< TRANS, TRANS, PERS >::persToTransWithKey
virtual void persToTransWithKey(const PERS *persObj, TRANS *transObj, const std::string &, MsgStream &log)
Convert persistent representation to transient one.
Definition: TPConverter.h:376
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Definition: TRT_HitCollection_p5.h:31
ITPConverterFor::m_topConverterRuntime
TopLevelTPCnvBase * m_topConverterRuntime
top level converter "owning" this TP converter at runtime (different from m_topConverter in case the ...
Definition: TPConverter.h:302
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Definition: CompositeParticle_v1.cxx:159
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Definition: TRT_HitCollection_p5.h:59
ITPConverterFor::converterForRef
CNV * converterForRef(CNV *cnv, const TPObjRef &ref, MsgStream &log) const
Find converter for a TP type ID (passed in a TP Ref), that is or ihnerits from CNV type.
Definition: TPConverter.h:74
PERS
RpcSectorLogicContainer_p1 PERS
Definition: RpcSectorLogicContainerCnv.h:13
RpcSectorLogicContainer_p1
Class to represent.
Definition: RpcSectorLogicContainer_p1.h:19
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std::vector< float > m_meanTimeof
Definition: TRT_HitCollection_p5.h:47
TPAbstractPolyCnvBase< TRANS, TRANS, PERS >::transToPersWithKey
virtual void transToPersWithKey(const TRANS *transObj, PERS *persObj, const std::string &, MsgStream &log)
Convert transient representation to persistent one.
Definition: TPConverter.h:392
ITPConverterFor::initPrivateConverters
virtual void initPrivateConverters(TopLevelTPCnvBase *)
Definition: TPConverter.h:187
TPAbstractPolyCnvBase< TRANS, TRANS, PERS >::m_recursive
bool m_recursive
if true, work in recursion-safe way (slower)
Definition: TPConverter.h:585
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int mm
Definition: SystemOfUnits.py:83
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std::vector< unsigned short > m_kinEne
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string index
Definition: DeMoScan.py:364
ITPConverterFor::m_pStorageTIDvalue
unsigned m_pStorageTIDvalue
m_pStorageTID converted to integer value
Definition: TPConverter.h:295
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const boost::regex ref(r_ef)
AtlasHitsVector::end
const_iterator end() const
Definition: AtlasHitsVector.h:134
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std::vector< unsigned char > m_startR
Definition: TRT_HitCollection_p5.h:34
TPAbstractPolyCnvBase< TRANS, TRANS, PERS >::persToTrans
virtual void persToTrans(const PERS *persObj, TRANS *transObj, MsgStream &log)=0
Convert persistent representation to transient one.
python.CaloCondTools.log
log
Definition: CaloCondTools.py:20
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idx
Definition: LArNewCalib_DelayDump_OFC_Cali.py:69
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Definition: ReadCalibFromCool.py:477
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int ns
Definition: SystemOfUnits.py:130
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Definition: TRT_HitCollection_p5.h:54
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Definition: TPTools/TPTools/ITPConverter.h:32
ITPConverter::converterNotFound
virtual void converterNotFound(const std::type_info &converterType, ITPConverter *c, const std::string &typeName, MsgStream &log) const
method called when the right TP converter was not found during writing
Definition: ITPConverter.cxx:22
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sin
Definition: drawFromPickle.py:36
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unsigned typeID() const
returns the type ID (as integer) of the referenced object
Definition: TPObjRef.h:71
python.compressB64.c
def c
Definition: compressB64.py:93
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int m_curRecLevel
count recursive invocations, to detect recursion
Definition: TPConverter.h:582
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