BOSS 7.0.2
BESIII Offline Software System
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RecMdcKalTrackCnv Class Reference

#include <RecMdcKalTrackCnv.h>

+ Inheritance diagram for RecMdcKalTrackCnv:

Public Member Functions

virtual ~RecMdcKalTrackCnv ()
 
virtual ~RecMdcKalTrackCnv ()
 
- Public Member Functions inherited from RootEventBaseCnv
 RootEventBaseCnv (const CLID &clid, ISvcLocator *svc)
 
virtual ~RootEventBaseCnv ()
 
virtual long repSvcType () const
 
virtual StatusCode initialize ()
 
virtual StatusCode finalize ()
 
void declareObject (const std::string &fullPath, const CLID &clid, const std::string &treename, const std::string &branchname)
 Store TDS path to link a particular converter to an object on the TDS.
 
virtual StatusCode createObj (IOpaqueAddress *addr, DataObject *&dat)
 Convert the persistent object to transient.
 
virtual StatusCode createRep (DataObject *pObject, IOpaqueAddress *&refpAddress)
 Convert the transient object to the requested representation.
 
virtual StatusCode fillRepRefs (IOpaqueAddress *pAddress, DataObject *pObject)
 Resolve the references of the converted object.
 
virtual StatusCode fillObjRefs (IOpaqueAddress *pAddress, DataObject *pObject)
 Resolve the references of the converted object.
 
virtual StatusCode DataObjectToTObject (DataObject *dat, RootAddress *addr)=0
 Do the concrete conversion from TDS to ROOT.
 
virtual StatusCode TObjectToDataObject (DataObject *&dat)=0
 Do the concrete conversion from ROOT to TDS.
 
TObject * getReadObject () const
 get the object to be read
 
 RootEventBaseCnv (const CLID &clid, ISvcLocator *svc)
 
virtual ~RootEventBaseCnv ()
 
virtual long repSvcType () const
 
virtual StatusCode initialize ()
 
virtual StatusCode finalize ()
 
void declareObject (const std::string &fullPath, const CLID &clid, const std::string &treename, const std::string &branchname)
 Store TDS path to link a particular converter to an object on the TDS.
 
virtual StatusCode createObj (IOpaqueAddress *addr, DataObject *&dat)
 Convert the persistent object to transient.
 
virtual StatusCode createRep (DataObject *pObject, IOpaqueAddress *&refpAddress)
 Convert the transient object to the requested representation.
 
virtual StatusCode fillRepRefs (IOpaqueAddress *pAddress, DataObject *pObject)
 Resolve the references of the converted object.
 
virtual StatusCode fillObjRefs (IOpaqueAddress *pAddress, DataObject *pObject)
 Resolve the references of the converted object.
 
virtual StatusCode DataObjectToTObject (DataObject *dat, RootAddress *addr)=0
 Do the concrete conversion from TDS to ROOT.
 
virtual StatusCode TObjectToDataObject (DataObject *&dat)=0
 Do the concrete conversion from ROOT to TDS.
 
TObject * getReadObject () const
 get the object to be read
 
- Public Member Functions inherited from Converter< Ty1, Ty2 >
destinationoperator (const source &) const
 
destinationoperator (const source &) const
 

Static Public Member Functions

static const CLID & classID ()
 
static const CLID & classID ()
 
- Static Public Member Functions inherited from RootEventBaseCnv
static const unsigned char storageType ()
 Storage type and class ID.
 
static const unsigned char storageType ()
 Storage type and class ID.
 

Protected Member Functions

 RecMdcKalTrackCnv (ISvcLocator *svc)
 
virtual StatusCode DataObjectToTObject (DataObject *obj, RootAddress *addr)
 transformation to root
 
virtual StatusCode TObjectToDataObject (DataObject *&obj)
 transformation from root
 
 RecMdcKalTrackCnv (ISvcLocator *svc)
 
virtual StatusCode DataObjectToTObject (DataObject *obj, RootAddress *addr)
 transformation to root
 
virtual StatusCode TObjectToDataObject (DataObject *&obj)
 transformation from root
 
- Protected Member Functions inherited from Converter< Ty1, Ty2 >
virtual destinationconvert (const source &) const =0
 
virtual destinationconvert (const source &) const =0
 

Friends

class CnvFactory< RecMdcKalTrackCnv >
 

Additional Inherited Members

- Public Types inherited from Converter< Ty1, Ty2 >
typedef Ty1 source
 
typedef Ty2 destination
 
typedef Ty1 source
 
typedef Ty2 destination
 
- Protected Attributes inherited from RootEventBaseCnv
RootCnvSvcm_cnvSvc
 
std::vector< RootCnvSvc::Leafm_leaves
 
RootInterfacem_rootInterface
 pointer to the RootInterface
 
IDataProviderSvc * m_eds
 pointer to eventdataservice
 
int m_branchNr
 the branchNr of this converter for writing
 
int m_branchNrDst
 
int m_branchNrMc
 
int m_branchNrRecon
 
int m_branchNrEvtRec
 
int m_branchNrEvtHeader
 
int m_branchNrEvtNavigator
 
TObject * m_objRead
 the object that was read
 
CLID CLID_top
 the CLID of the upper converter if any
 
TArrayS * m_branchNumbers
 array with number of branches for reading
 
std::string m_rootBranchname
 root branchname (may be concatenated of severals)
 
std::string m_rootTreename
 each converter knows it's treename
 
std::string m_currentFileName
 
std::vector< void * > m_adresses
 each converter knows the corresponding adresses
 
RootEvtSelectorm_evtsel
 

Detailed Description

Constructor & Destructor Documentation

◆ ~RecMdcKalTrackCnv() [1/2]

virtual RecMdcKalTrackCnv::~RecMdcKalTrackCnv ( )
inlinevirtual

◆ RecMdcKalTrackCnv() [1/2]

RecMdcKalTrackCnv::RecMdcKalTrackCnv ( ISvcLocator *  svc)
protected

Definition at line 33 of file RecMdcKalTrackCnv.cxx.

35{
36
37 // Here we associate this converter with the /Event path on the TDS.
38 MsgStream log(msgSvc(), "RecMdcKalTrackCnv");
39 //log << MSG::DEBUG << "Constructor called for " << objType() << endreq;
40 //m_rootTreename ="Rec";
41 m_rootBranchname ="m_recMdcKalTrackCol";
42 // declareObject(EventModel::Recon::MdcKalTrackCol, objType(), m_rootTreename, m_rootBranchname);
43 m_adresses.push_back(&m_recMdcKalTrackCol);
44 m_recMdcKalTrackCol = 0;
45}
std::vector< void * > m_adresses
each converter knows the corresponding adresses
std::string m_rootBranchname
root branchname (may be concatenated of severals)

◆ ~RecMdcKalTrackCnv() [2/2]

virtual RecMdcKalTrackCnv::~RecMdcKalTrackCnv ( )
inlinevirtual

◆ RecMdcKalTrackCnv() [2/2]

RecMdcKalTrackCnv::RecMdcKalTrackCnv ( ISvcLocator *  svc)
protected

Member Function Documentation

◆ classID() [1/2]

static const CLID & RecMdcKalTrackCnv::classID ( )
inlinestatic

Definition at line 20 of file Event/RootCnvSvc/RootCnvSvc-02-01-12/RootCnvSvc/Rec/RecMdcKalTrackCnv.h.

21 {
23 }
const CLID & CLID_RecMdcKalTrackCol
Definition: EventModel.cxx:312

◆ classID() [2/2]

static const CLID & RecMdcKalTrackCnv::classID ( )
inlinestatic

◆ DataObjectToTObject() [1/2]

StatusCode RecMdcKalTrackCnv::DataObjectToTObject ( DataObject *  obj,
RootAddress addr 
)
protectedvirtual

transformation to root

Implements RootEventBaseCnv.

Definition at line 468 of file RecMdcKalTrackCnv.cxx.

468 {
469
470
471 MsgStream log(msgSvc(), "RecMdcKalTrackCnv");
472 log << MSG::DEBUG << "RecMdcKalTrackCnv::DataObjectToTObject" << endreq;
473 StatusCode sc=StatusCode::SUCCESS;
474
475 RecMdcKalTrackCol * mdcKalTrackColTds=dynamic_cast<RecMdcKalTrackCol *> (obj);
476 if (!mdcKalTrackColTds) {
477 log << MSG::ERROR << "Could not downcast to RecMdcKalTrackCol" << endreq;
478 return StatusCode::FAILURE;
479 }
480
481 DataObject *evt;
482 m_eds->findObject(EventModel::Recon::Event,evt);
483 if (evt==NULL) {
484 log << MSG::ERROR << "Could not get ReconEvent in TDS " << endreq;
485 return StatusCode::FAILURE;
486 }
487
488 ReconEvent * devtTds=dynamic_cast<ReconEvent *> (evt);
489 if (!devtTds) {
490 log << MSG::ERROR << "MdcKalTrackCnv:Could not downcast to TDS Recon Event" << endreq;
491 }
492 IOpaqueAddress *addr;
493
494 m_cnvSvc->getRecTrackCnv()->createRep(evt,addr);
496
497 const TObjArray *m_recMdcKalTrackCol = recEvt->getRecMdcKalTrackCol();
498
499 if (!m_recMdcKalTrackCol) return sc;
500
501 recEvt->clearRecMdcKalTrackCol(); //necessary in case there is I/O at the same time since array is static
502 RecMdcKalTrackCol::const_iterator mdcKalTrackTds;
503
504 for (mdcKalTrackTds = mdcKalTrackColTds->begin(); mdcKalTrackTds != mdcKalTrackColTds->end(); mdcKalTrackTds++) {
505
506 // Get Data from TDS
507 // root data
508 Int_t trackId;
509 Double_t mass[5];
510 Double_t length[5];
511 Double_t tof[5];
512 Int_t nhits[5];
513 Int_t nlayer[5];
514 Int_t stat[2][5];
515 Double_t chisq[2][5];
516 Int_t ndf[2][5];
517 Int_t nSeg[5];
518 Double_t fiTerm[5];
519 Double_t pathSM[5];
520
521 Double_t poca_e[3];
522 Double_t poca_mu[3];
523 Double_t poca[3];
524 Double_t poca_k[3];
525 Double_t poca_p[3];
526
527 Double_t zhelix[5];
528 Double_t zerror[5][5];
529 Double_t zhelix_e[5];
530 Double_t zerror_e[5][5];
531 Double_t zhelix_mu[5];
532 Double_t zerror_mu[5][5];
533 Double_t zhelix_k[5];
534 Double_t zerror_k[5][5];
535 Double_t zhelix_p[5];
536 Double_t zerror_p[5][5];
537
538 Double_t fhelix[5];
539 Double_t ferror[5][5];
540 Double_t fhelix_e[5];
541 Double_t ferror_e[5][5];
542 Double_t fhelix_mu[5];
543 Double_t ferror_mu[5][5];
544 Double_t fhelix_k[5];
545 Double_t ferror_k[5][5];
546 Double_t fhelix_p[5];
547 Double_t ferror_p[5][5];
548
549 Double_t lhelix[5];
550 Double_t lerror[5][5];
551 Double_t lhelix_e[5];
552 Double_t lerror_e[5][5];
553 Double_t lhelix_mu[5];
554 Double_t lerror_mu[5][5];
555 Double_t lhelix_k[5];
556 Double_t lerror_k[5][5];
557 Double_t lhelix_p[5];
558 Double_t lerror_p[5][5];
559
560 Double_t thelix[5];
561 Double_t terror[15];
562
563 Double_t lpoint_e[3];
564 Double_t lpoint_mu[3];
565 Double_t lpoint[3];
566 Double_t lpoint_k[3];
567 Double_t lpoint_p[3];
568
569 Double_t lpivot_e[3];
570 Double_t lpivot_mu[3];
571 Double_t lpivot[3];
572 Double_t lpivot_k[3];
573 Double_t lpivot_p[3];
574
575 TRecMdcKalTrack *mdcKalTrackRoot = new TRecMdcKalTrack();
576
577 trackId = (*mdcKalTrackTds)->getTrackId();
578 for (Int_t i = 0 ; i < 5 ; i++){
579 mass[i] = (*mdcKalTrackTds)->getMass(i);
580 length[i] = (*mdcKalTrackTds)->getLength(i);
581 tof[i] = (*mdcKalTrackTds)->getTof(i);
582 nhits[i] = (*mdcKalTrackTds)->getNhits(i);
583 nlayer[i] = (*mdcKalTrackTds)->getNlayer(i);
584 fiTerm[i]=(*mdcKalTrackTds)->getFiTerm(i);
585 pathSM[i]=(*mdcKalTrackTds)->getPathSM(i);
586 //stat[i] = (*mdcKalTrackTds)->getStat(i);
587 nSeg[i]=((*mdcKalTrackTds)->getVecHelixSegs(i)).size();
588 mdcKalTrackRoot->setNseg(nSeg[i],i);
589 mdcKalTrackRoot->setNlayer(nlayer[i],i);
590 for (Int_t j = 0 ; j< 2 ; j++){
591 stat[j][i] = (*mdcKalTrackTds)->getStat(j,i);
592 chisq[j][i] = (*mdcKalTrackTds)->getChisq(j,i);
593 ndf[j][i] = (*mdcKalTrackTds)->getNdf(j,i);
594 mdcKalTrackRoot->setStat(stat[j][i],j,i);
595 mdcKalTrackRoot->setChisq(chisq[j][i],j,i);
596 mdcKalTrackRoot->setNdf(ndf[j][i],j,i);
597 }
598 }
599 for(Int_t i=0;i<5;i++){
600 log<<MSG::INFO<<" recMdcKalTrack.helix("<<i<<"): "<<(*mdcKalTrackTds)->getTHelix(i)<<endreq;
601 thelix[i] = (*mdcKalTrackTds)->getTHelix(i);
602 }
603 for(Int_t i=0; i<15; i++){
604 terror[i] = (*mdcKalTrackTds)->getTError(i);
605 }
606 HepPoint3D h_poca_e = (*mdcKalTrackTds)->getPocaE();
607 HepPoint3D h_poca_mu = (*mdcKalTrackTds)->getPocaMu();
608 HepPoint3D h_poca = (*mdcKalTrackTds)->getPoca();
609 HepPoint3D h_poca_k = (*mdcKalTrackTds)->getPocaK();
610 HepPoint3D h_poca_p = (*mdcKalTrackTds)->getPocaP();
611 HepPoint3D h_lpoint_e = (*mdcKalTrackTds)->getLPointE();
612 HepPoint3D h_lpoint_mu = (*mdcKalTrackTds)->getLPointMu();
613 HepPoint3D h_lpoint = (*mdcKalTrackTds)->getLPoint();
614 HepPoint3D h_lpoint_k = (*mdcKalTrackTds)->getLPointK();
615 HepPoint3D h_lpoint_p = (*mdcKalTrackTds)->getLPointP();
616 HepPoint3D h_lpivot_e = (*mdcKalTrackTds)->getLPivotE();
617 HepPoint3D h_lpivot_mu = (*mdcKalTrackTds)->getLPivotMu();
618 HepPoint3D h_lpivot = (*mdcKalTrackTds)->getLPivot();
619 HepPoint3D h_lpivot_k = (*mdcKalTrackTds)->getLPivotK();
620 HepPoint3D h_lpivot_p = (*mdcKalTrackTds)->getLPivotP();
621
622 //std::cout<<" h_poca_mu: "<<h_poca_mu<<std::endl;
623 //std::cout<<" h_poca: "<<h_poca<<std::endl;
624 //std::cout<<" h_poca_k: "<<h_poca_k<<std::endl;
625 //std::cout<<" h_poca_p: "<<h_poca_p<<std::endl;
626
627
628 HepVector h_zhelix = (*mdcKalTrackTds)->getZHelix();
629 HepSymMatrix h_zerror = (*mdcKalTrackTds)->getZError();
630 HepVector h_zhelix_e = (*mdcKalTrackTds)->getZHelixE();
631 HepSymMatrix h_zerror_e = (*mdcKalTrackTds)->getZErrorE();
632 HepVector h_zhelix_mu = (*mdcKalTrackTds)->getZHelixMu();
633 HepSymMatrix h_zerror_mu= (*mdcKalTrackTds)->getZErrorMu();
634 HepVector h_zhelix_k = (*mdcKalTrackTds)->getZHelixK();
635 HepSymMatrix h_zerror_k = (*mdcKalTrackTds)->getZErrorK();
636 HepVector h_zhelix_p = (*mdcKalTrackTds)->getZHelixP();
637 HepSymMatrix h_zerror_p = (*mdcKalTrackTds)->getZErrorP();
638
639 HepVector h_fhelix = (*mdcKalTrackTds)->getFHelix();
640 HepSymMatrix h_ferror = (*mdcKalTrackTds)->getFError();
641 HepVector h_fhelix_e = (*mdcKalTrackTds)->getFHelixE();
642 HepSymMatrix h_ferror_e = (*mdcKalTrackTds)->getFErrorE();
643 HepVector h_fhelix_mu = (*mdcKalTrackTds)->getFHelixMu();
644 HepSymMatrix h_ferror_mu= (*mdcKalTrackTds)->getFErrorMu();
645 HepVector h_fhelix_k = (*mdcKalTrackTds)->getFHelixK();
646 HepSymMatrix h_ferror_k = (*mdcKalTrackTds)->getFErrorK();
647 HepVector h_fhelix_p = (*mdcKalTrackTds)->getFHelixP();
648 HepSymMatrix h_ferror_p = (*mdcKalTrackTds)->getFErrorP();
649
650 HepVector h_lhelix = (*mdcKalTrackTds)->getLHelix();
651 HepSymMatrix h_lerror = (*mdcKalTrackTds)->getLError();
652 HepVector h_lhelix_e = (*mdcKalTrackTds)->getLHelixE();
653 HepSymMatrix h_lerror_e = (*mdcKalTrackTds)->getLErrorE();
654 HepVector h_lhelix_mu = (*mdcKalTrackTds)->getLHelixMu();
655 HepSymMatrix h_lerror_mu= (*mdcKalTrackTds)->getLErrorMu();
656 HepVector h_lhelix_k = (*mdcKalTrackTds)->getLHelixK();
657 HepSymMatrix h_lerror_k = (*mdcKalTrackTds)->getLErrorK();
658 HepVector h_lhelix_p = (*mdcKalTrackTds)->getLHelixP();
659 HepSymMatrix h_lerror_p = (*mdcKalTrackTds)->getLErrorP();
660
661 mdcKalTrackRoot->setTrackId(trackId);
662 mdcKalTrackRoot->setMass(mass);
663 mdcKalTrackRoot->setLength(length);
664 mdcKalTrackRoot->setTof(tof);
665 mdcKalTrackRoot->setNhits(nhits);
666 mdcKalTrackRoot->setFiTerm(fiTerm);
667 mdcKalTrackRoot->setPathSM(pathSM);
668 // mdcKalTrackRoot->setStat(stat);
669
670 for(int s=0; s<3; s++){
671 poca_e[s] = h_poca_e[s];
672 poca_mu[s] = h_poca_mu[s];
673 poca[s] = h_poca[s];
674 poca_k[s] = h_poca_k[s];
675 poca_p[s] = h_poca_p[s];
676 lpoint_e[s] = h_lpoint_e[s];
677 lpoint_mu[s] = h_lpoint_mu[s];
678 lpoint[s] = h_lpoint[s];
679 lpoint_k[s] = h_lpoint_k[s];
680 lpoint_p[s] = h_lpoint_p[s];
681 lpivot_e[s] = h_lpivot_e[s];
682 lpivot_mu[s] = h_lpivot_mu[s];
683 lpivot[s] = h_lpivot[s];
684 lpivot_k[s] = h_lpivot_k[s];
685 lpivot_p[s] = h_lpivot_p[s];
686 }
687
688 for (int i=0; i<5; i++){
689 zhelix[i] = h_zhelix[i];
690 zhelix_e[i] = h_zhelix_e[i];
691 zhelix_mu[i] = h_zhelix_mu[i];
692 zhelix_p[i] = h_zhelix_p[i];
693 zhelix_k[i] = h_zhelix_k[i];
694
695 fhelix[i] = h_fhelix[i];
696 fhelix_e[i] = h_fhelix_e[i];
697 fhelix_mu[i] = h_fhelix_mu[i];
698 fhelix_p[i] = h_fhelix_p[i];
699 fhelix_k[i] = h_fhelix_k[i];
700
701 lhelix[i] = h_lhelix[i];
702 lhelix_e[i] = h_lhelix_e[i];
703 lhelix_mu[i] = h_lhelix_mu[i];
704 lhelix_p[i] = h_lhelix_p[i];
705 lhelix_k[i] = h_lhelix_k[i];
706
707 for (int j=0; j<=i; j++){
708 zerror[i][j] = h_zerror[i][j];
709 zerror_e[i][j] = h_zerror_e[i][j];
710 zerror_mu[i][j] = h_zerror_mu[i][j];
711 zerror_p[i][j] = h_zerror_p[i][j];
712 zerror_k[i][j] = h_zerror_k[i][j];
713
714
715 ferror[i][j] = h_ferror[i][j];
716 ferror_e[i][j] = h_ferror_e[i][j];
717 ferror_mu[i][j] = h_ferror_mu[i][j];
718 ferror_p[i][j] = h_ferror_p[i][j];
719 ferror_k[i][j] = h_ferror_k[i][j];
720
721
722 lerror[i][j] = h_lerror[i][j];
723 lerror_e[i][j] = h_lerror_e[i][j];
724 lerror_mu[i][j] = h_lerror_mu[i][j];
725 lerror_p[i][j] = h_lerror_p[i][j];
726 lerror_k[i][j] = h_lerror_k[i][j];
727
728 zerror[j][i] = h_zerror[i][j];
729 zerror_e[j][i] = h_zerror_e[i][j];
730 zerror_mu[j][i] = h_zerror_mu[i][j];
731 zerror_p[j][i] = h_zerror_p[i][j];
732 zerror_k[j][i] = h_zerror_k[i][j];
733
734
735 ferror[j][i] = h_ferror[i][j];
736 ferror_e[j][i] = h_ferror_e[i][j];
737 ferror_mu[j][i] = h_ferror_mu[i][j];
738 ferror_p[j][i] = h_ferror_p[i][j];
739 ferror_k[j][i] = h_ferror_k[i][j];
740
741
742 lerror[j][i] = h_lerror[i][j];
743 lerror_e[j][i] = h_lerror_e[i][j];
744 lerror_mu[j][i] = h_lerror_mu[i][j];
745 lerror_p[j][i] = h_lerror_p[i][j];
746 lerror_k[j][i] = h_lerror_k[i][j];
747
748 }
749 }
750
751 mdcKalTrackRoot->setZHelix(zhelix);
752 mdcKalTrackRoot->setZError(zerror);
753 for(int k=0; k<5; k++){
754 log<<MSG::INFO<<" RecMdcKalTrackRoot.ZHelix "<<"["<<k<<"]"
755 <<mdcKalTrackRoot->getZHelix(k)<<endreq;
756 }
757 mdcKalTrackRoot->setZHelixE(zhelix_e);
758 mdcKalTrackRoot->setZErrorE(zerror_e);
759 mdcKalTrackRoot->setZHelixMu(zhelix_mu);
760 mdcKalTrackRoot->setZErrorMu(zerror_mu);
761 mdcKalTrackRoot->setZHelixK(zhelix_k);
762 mdcKalTrackRoot->setZErrorK(zerror_k);
763 mdcKalTrackRoot->setZHelixP(zhelix_p);
764 mdcKalTrackRoot->setZErrorP(zerror_p);
765 mdcKalTrackRoot->setFHelix(fhelix);
766 mdcKalTrackRoot->setFError(ferror);
767 mdcKalTrackRoot->setFHelixE(fhelix_e);
768 mdcKalTrackRoot->setFErrorE(ferror_e);
769 mdcKalTrackRoot->setFHelixMu(fhelix_mu);
770 mdcKalTrackRoot->setFErrorMu(ferror_mu);
771 mdcKalTrackRoot->setFHelixK(fhelix_k);
772 mdcKalTrackRoot->setFErrorK(ferror_k);
773 mdcKalTrackRoot->setFHelixP(fhelix_p);
774 mdcKalTrackRoot->setFErrorP(ferror_p);
775
776 mdcKalTrackRoot->setLHelix(lhelix);
777 mdcKalTrackRoot->setLError(lerror);
778 mdcKalTrackRoot->setLHelixE(lhelix_e);
779 mdcKalTrackRoot->setLErrorE(lerror_e);
780 mdcKalTrackRoot->setLHelixMu(lhelix_mu);
781 mdcKalTrackRoot->setLErrorMu(lerror_mu);
782 mdcKalTrackRoot->setLHelixK(lhelix_k);
783 mdcKalTrackRoot->setLErrorK(lerror_k);
784 mdcKalTrackRoot->setLHelixP(lhelix_p);
785 mdcKalTrackRoot->setLErrorP(lerror_p);
786
787 mdcKalTrackRoot->setTHelix(thelix);
788 mdcKalTrackRoot->setTError(terror);
789
790 mdcKalTrackRoot->setPocaE(poca_e);
791 mdcKalTrackRoot->setPocaMu(poca_mu);
792 mdcKalTrackRoot->setPoca(poca);
793 mdcKalTrackRoot->setPocaK(poca_k);
794 mdcKalTrackRoot->setPocaP(poca_p);
795
796 mdcKalTrackRoot->setLPointE(lpoint_e);
797 mdcKalTrackRoot->setLPointMu(lpoint_mu);
798 mdcKalTrackRoot->setLPoint(lpoint);
799 mdcKalTrackRoot->setLPointK(lpoint_k);
800 mdcKalTrackRoot->setLPointP(lpoint_p);
801
802 mdcKalTrackRoot->setLPivotE(lpivot_e);
803 mdcKalTrackRoot->setLPivotMu(lpivot_mu);
804 mdcKalTrackRoot->setLPivot(lpivot);
805 mdcKalTrackRoot->setLPivotK(lpivot_k);
806 mdcKalTrackRoot->setLPivotP(lpivot_p);
807 //std::cout<<" mdcKalTrackRoot->getPivotE(1): "<<mdcKalTrackRoot->getLPivotE(1)<<std::endl;
808
809 recEvt->addRecMdcKalTrack(mdcKalTrackRoot);
810 }
811
812
813 return StatusCode::SUCCESS;
814}
double mass
XmlRpcServer s
Definition: HelloServer.cpp:11
ObjectVector< RecMdcKalTrack > RecMdcKalTrackCol
static TRecTrackEvent * getWriteObject()
returns object to be written (maintained here for all DIGI-converters)
IDataProviderSvc * m_eds
pointer to eventdataservice
virtual StatusCode createRep(DataObject *pObject, IOpaqueAddress *&refpAddress)
Convert the transient object to the requested representation.
void addRecMdcKalTrack(TRecMdcKalTrack *Track)

◆ DataObjectToTObject() [2/2]

virtual StatusCode RecMdcKalTrackCnv::DataObjectToTObject ( DataObject *  obj,
RootAddress addr 
)
protectedvirtual

transformation to root

Implements RootEventBaseCnv.

◆ TObjectToDataObject() [1/2]

StatusCode RecMdcKalTrackCnv::TObjectToDataObject ( DataObject *&  obj)
protectedvirtual

transformation from root

for zero point

first hit point

last hit point

track finding helix for dE/dx usage

the next three function need more consideration, temporarily

Implements RootEventBaseCnv.

Definition at line 47 of file RecMdcKalTrackCnv.cxx.

47 {
48 // creation of TDS object from root object
49 MsgStream log(msgSvc(), "RecMdcKalTrackCnv");
50 log << MSG::DEBUG << "RecMdcKalTrackCnv::TObjectToDataObject" << endreq;
51 StatusCode sc = StatusCode::SUCCESS;
52
53 // create the TDS location for the MdcKalTrack Collection
54 RecMdcKalTrackCol* recMdcKalTrackCol = new RecMdcKalTrackCol;
55 refpObject = recMdcKalTrackCol;
56
57 // now convert
58 if (!m_recMdcKalTrackCol) return sc;
59 TIter recMdcKalTrackIter(m_recMdcKalTrackCol);
60
61 IDataProviderSvc* dataSvc = 0;
62 sc = serviceLocator()->getService ("EventDataSvc",
63 IDataProviderSvc::interfaceID(), (IInterface*&)dataSvc);
64 if (!sc.isSuccess()) {
65 log << MSG::FATAL << "Could not get EventDataSvc in RecMdcTrackCnv" << endreq;
66 return( StatusCode::FAILURE);
67 }
68 SmartDataPtr<RecMdcKalHelixSegCol> recMdcKalHelixSegCol(dataSvc,"/Event/Recon/RecMdcKalHelixSegCol");
69 if (!recMdcKalHelixSegCol) {
70 log << MSG::FATAL << "Could not find RecMdcKalHelixSegCol" << endreq;
71 return( StatusCode::FAILURE);
72 }
73
74 TRecMdcKalTrack *recMdcKalTrackRoot = 0;
75 while ((recMdcKalTrackRoot = (TRecMdcKalTrack*)recMdcKalTrackIter.Next())) {
76
77 std::vector<HepVector> zhelixs;
78 std::vector<HepSymMatrix> zerrors;
79 std::vector<HepVector> fhelixs;
80 std::vector<HepSymMatrix> ferrors;
81 std::vector<HepVector> lhelixs;
82 std::vector<HepSymMatrix> lerrors;
83 std::vector<HepPoint3D> pocas;
84 std::vector<HepPoint3D> lpivots;
85 std::vector<HepPoint3D> lpoints;
86
87
88 HepVector zhelix(5);
89 HepSymMatrix zerror(5);
90 HepVector fhelix(5);
91 HepSymMatrix ferror(5);
92 HepVector lhelix(5);
93 HepSymMatrix lerror(5);
94 HepVector thelix(5);
95 HepSymMatrix terror(5);
96 HepPoint3D poca(0,0,0);
97 HepPoint3D lpivot(0,0,0);
98 HepPoint3D lpoint(0,0,0);
99
100
101 HepVector zhelix_e(5);
102 HepSymMatrix zerror_e(5);
103 HepVector fhelix_e(5);
104 HepSymMatrix ferror_e(5);
105 HepVector lhelix_e(5);
106 HepSymMatrix lerror_e(5);
107 HepPoint3D poca_e(0,0,0);
108 HepPoint3D lpivot_e(0,0,0);
109 HepPoint3D lpoint_e(0,0,0);
110
111
112 HepVector zhelix_mu(5);
113 HepSymMatrix zerror_mu(5);
114 HepVector fhelix_mu(5);
115 HepSymMatrix ferror_mu(5);
116 HepVector lhelix_mu(5);
117 HepSymMatrix lerror_mu(5);
118 HepPoint3D poca_mu(0,0,0);
119 HepPoint3D lpivot_mu(0,0,0);
120 HepPoint3D lpoint_mu(0,0,0);
121
122
123 HepVector zhelix_k(5);
124 HepSymMatrix zerror_k(5);
125 HepVector fhelix_k(5);
126 HepSymMatrix ferror_k(5);
127 HepVector lhelix_k(5);
128 HepSymMatrix lerror_k(5);
129 HepPoint3D poca_k(0,0,0);
130 HepPoint3D lpivot_k(0,0,0);
131 HepPoint3D lpoint_k(0,0,0);
132
133
134 HepVector zhelix_p(5);
135 HepSymMatrix zerror_p(5);
136 HepVector fhelix_p(5);
137 HepSymMatrix ferror_p(5);
138 HepVector lhelix_p(5);
139 HepSymMatrix lerror_p(5);
140 HepPoint3D poca_p(0,0,0);
141 HepPoint3D lpivot_p(0,0,0);
142 HepPoint3D lpoint_p(0,0,0);
143
144
145 int stat[2][5];
146 double chisq[2][5];
147 int ndf[2][5];
148
149 double mass[5];
150 double length[5];
151 double tof[5];
152 int nhits[5];
153 int nlayer[5];
154 int trackId;
155 double pathSM[5];
156 double fiTerm[5];
157 //std::cout<<" step 0: "<<std::endl;
158
159
160 RecMdcKalTrack *recMdcKalTrackTds = new RecMdcKalTrack();
161
162 //std::cout<<" step 1: "<<std::endl;
163
164 trackId = recMdcKalTrackRoot->getTrackId();
165 // std::cout<<"track id: "<<trackId<<std::endl;
166 recMdcKalTrackTds->setTrackId(trackId);
167
168 for (int u=0; u<5; u++){
169 mass[u] = recMdcKalTrackRoot->getMass(u);
170 length[u] = recMdcKalTrackRoot->getLength(u);
171 tof[u] = recMdcKalTrackRoot->getTof(u);
172 nhits[u] = recMdcKalTrackRoot->getNhits(u);
173 fiTerm[u]=recMdcKalTrackRoot->getfiTerm(u);
174 pathSM[u]=recMdcKalTrackRoot->getPathSM(u);
175 nlayer[u]=recMdcKalTrackRoot->getNlayer(u);
176
177 recMdcKalTrackTds->setMass(mass[u],u);
178 recMdcKalTrackTds->setLength(length[u],u);
179 recMdcKalTrackTds->setTof(tof[u],u);
180 recMdcKalTrackTds->setNhits(nhits[u],u);
181 recMdcKalTrackTds->setFiTerm(fiTerm[u],u);
182 recMdcKalTrackTds->setPathSM(pathSM[u],u);
183 recMdcKalTrackTds->setNlayer(nlayer[u],u);
184 }
185
186
187 for(int v=0; v<3; v++){
188 poca_e[v] = recMdcKalTrackRoot->getPocaE(v);
189 poca_mu[v] = recMdcKalTrackRoot->getPocaMu(v);
190 poca[v] = recMdcKalTrackRoot->getPoca(v);
191 poca_k[v] = recMdcKalTrackRoot->getPocaK(v);
192 poca_p[v] = recMdcKalTrackRoot->getPocaP(v);
193 lpivot_e[v] = recMdcKalTrackRoot->getLPivotE(v);
194 lpivot_mu[v] = recMdcKalTrackRoot->getLPivotMu(v);
195 lpivot[v] = recMdcKalTrackRoot->getLPivot(v);
196 lpivot_k[v] = recMdcKalTrackRoot->getLPivotK(v);
197 lpivot_p[v] = recMdcKalTrackRoot->getLPivotP(v);
198 lpoint_e[v] = recMdcKalTrackRoot->getLPointE(v);
199 lpoint_mu[v] = recMdcKalTrackRoot->getLPointMu(v);
200 lpoint[v] = recMdcKalTrackRoot->getLPoint(v);
201 lpoint_k[v] = recMdcKalTrackRoot->getLPointK(v);
202 lpoint_p[v] = recMdcKalTrackRoot->getLPointP(v);
203 //std::cout<<"poca_e[v]: "<<setprecision(6)<<poca_e[v]<<std::endl;
204 //std::cout<<"lpoint_e[v]: "<<setprecision(6)<<lpoint_e[v]<<std::endl;
205 //std::cout<<"lpivot_e[v]: "<<setprecision(6)<<lpivot_e[v]<<std::endl;
206
207 }
208
209 for (int i=0, k=0; i<5; i++){
210 zhelix[i] = recMdcKalTrackRoot->getZHelix(i);
211 zhelix_e[i] = recMdcKalTrackRoot->getZHelixE(i);
212 zhelix_mu[i] = recMdcKalTrackRoot->getZHelixMu(i);
213 zhelix_k[i] = recMdcKalTrackRoot->getZHelixK(i);
214 zhelix_p[i] = recMdcKalTrackRoot->getZHelixP(i);
215
216
217 fhelix[i] = recMdcKalTrackRoot->getFHelix(i);
218 fhelix_e[i] = recMdcKalTrackRoot->getFHelixE(i);
219 fhelix_mu[i] = recMdcKalTrackRoot->getFHelixMu(i);
220 fhelix_k[i] = recMdcKalTrackRoot->getFHelixK(i);
221 fhelix_p[i] = recMdcKalTrackRoot->getFHelixP(i);
222
223 lhelix[i] = recMdcKalTrackRoot->getLHelix(i);
224 lhelix_e[i] = recMdcKalTrackRoot->getLHelixE(i);
225 lhelix_mu[i] = recMdcKalTrackRoot->getLHelixMu(i);
226 lhelix_k[i] = recMdcKalTrackRoot->getLHelixK(i);
227 lhelix_p[i] = recMdcKalTrackRoot->getLHelixP(i);
228
229 thelix[i] = recMdcKalTrackRoot->getTHelix(i);
230
231 for (int j=0; j<=i; j++){
232
233 zerror[i][j] = recMdcKalTrackRoot->getZError(i,j);
234 zerror_e[i][j] = recMdcKalTrackRoot->getZErrorE(i,j);
235 zerror_mu[i][j] = recMdcKalTrackRoot->getZErrorMu(i,j);
236 zerror_k[i][j] = recMdcKalTrackRoot->getZErrorK(i,j);
237 zerror_p[i][j] = recMdcKalTrackRoot->getZErrorP(i,j);
238 zerror[j][i] = zerror[i][j];
239 zerror_e[j][i] = zerror_e[i][j];
240 zerror_mu[j][i] = zerror_mu[i][j];
241 zerror_k[j][i] = zerror_k[i][j];
242 zerror_p[j][i] = zerror_p[i][j];
243
244 ferror[i][j] = recMdcKalTrackRoot->getFError(i,j);
245 ferror_e[i][j] = recMdcKalTrackRoot->getFErrorE(i,j);
246 ferror_mu[i][j] = recMdcKalTrackRoot->getFErrorMu(i,j);
247 ferror_k[i][j] = recMdcKalTrackRoot->getFErrorK(i,j);
248 ferror_p[i][j] = recMdcKalTrackRoot->getFErrorP(i,j);
249 ferror[j][i] = ferror[i][j];
250 ferror_e[j][i] = ferror_e[i][j];
251 ferror_mu[j][i] = ferror_mu[i][j];
252 ferror_k[j][i] = ferror_k[i][j];
253 ferror_p[j][i] = ferror_p[i][j];
254
255 lerror[i][j] = recMdcKalTrackRoot->getLError(i,j);
256 lerror_e[i][j] = recMdcKalTrackRoot->getLErrorE(i,j);
257 lerror_mu[i][j] = recMdcKalTrackRoot->getLErrorMu(i,j);
258 lerror_k[i][j] = recMdcKalTrackRoot->getLErrorK(i,j);
259 lerror_p[i][j] = recMdcKalTrackRoot->getLErrorP(i,j);
260 lerror[j][i] = lerror[i][j];
261 lerror_e[j][i] = lerror_e[i][j];
262 lerror_mu[j][i] = lerror_mu[i][j];
263 lerror_k[j][i] = lerror_k[i][j];
264 lerror_p[j][i] = lerror_p[i][j];
265
266 terror[i][j] = recMdcKalTrackRoot->getTError(k++);
267 terror[j][i] = terror[i][j];
268
269 }
270 }
271
272 //std::cout<<" step 2: "<<std::endl;
273
274 //std::cout<<"T to rec tds: "<<endl;
275 //std::cout<<"lpoint_e: "<<lpoint_e<<std::endl;
276 //std::cout<<"lpivot_e: "<<lpivot_e<<std::endl;
277 /// for zero point
278 zhelixs.push_back(zhelix_e);
279 zhelixs.push_back(zhelix_mu);
280 zhelixs.push_back(zhelix);
281 zhelixs.push_back(zhelix_k);
282 zhelixs.push_back(zhelix_p);
283 zerrors.push_back(zerror_e);
284 zerrors.push_back(zerror_mu);
285 zerrors.push_back(zerror);
286 zerrors.push_back(zerror_k);
287 zerrors.push_back(zerror_p);
288 /// first hit point
289 fhelixs.push_back(fhelix_e);
290 fhelixs.push_back(fhelix_mu);
291 fhelixs.push_back(fhelix);
292 fhelixs.push_back(fhelix_k);
293 fhelixs.push_back(fhelix_p);
294 ferrors.push_back(ferror_e);
295 ferrors.push_back(ferror_mu);
296 ferrors.push_back(ferror);
297 ferrors.push_back(ferror_k);
298 ferrors.push_back(ferror_p);
299 /// last hit point
300 lhelixs.push_back(lhelix_e);
301 lhelixs.push_back(lhelix_mu);
302 lhelixs.push_back(lhelix);
303 lhelixs.push_back(lhelix_k);
304 lhelixs.push_back(lhelix_p);
305 lerrors.push_back(lerror_e);
306 lerrors.push_back(lerror_mu);
307 lerrors.push_back(lerror);
308 lerrors.push_back(lerror_k);
309 lerrors.push_back(lerror_p);
310 /// track finding helix for dE/dx usage
311
312 pocas.push_back(poca_e);
313 pocas.push_back(poca_mu);
314 pocas.push_back(poca);
315 pocas.push_back(poca_k);
316 pocas.push_back(poca_p);
317 lpivots.push_back(lpivot_e);
318 lpivots.push_back(lpivot_mu);
319 lpivots.push_back(lpivot);
320 lpivots.push_back(lpivot_k);
321 lpivots.push_back(lpivot_p);
322 lpoints.push_back(lpoint_e);
323 lpoints.push_back(lpoint_mu);
324 lpoints.push_back(lpoint);
325 lpoints.push_back(lpoint_k);
326 lpoints.push_back(lpoint_p);
327
328 for(int m=0; m<5; m++){
329 int charge;
330 double pxy(0.),px(0.),py(0.),pz(0.),ptot(0.),dr(0.),phi0(0.),kappa(0.),dz(0.),tanl(0.),x(0.),y(0.),z(0.),vx0(0.),vy0(0.),vz0(0.);
331 dr = zhelixs[m][0];
332 phi0 = zhelixs[m][1];
333 kappa = zhelixs[m][2];
334 dz = zhelixs[m][3];
335 tanl = zhelixs[m][4];
336
337 // x = pocas[m][0];
338 // y = pocas[m][1];
339 // z = pocas[m][2];
340 x = dr * cos(phi0);
341 y = dr * sin(phi0);
342 z = dz;
343 // std::cout<<"x: "<<x<<"y: "<<y<<"z: "<<z<<std::endl;
344
345 if (kappa > 0.0000000001)
346 charge = 1;
347 else if (kappa < -0.0000000001)
348 charge = -1;
349 else
350 charge = 0;
351
352 if(kappa!=0) pxy = 1.0/fabs(kappa);
353 else pxy = 0;
354
355 px = pxy * (-sin(phi0));
356 py = pxy * cos(phi0);
357 pz = pxy * tanl;
358 ptot = sqrt(px*px+py*py+pz*pz);
359 // cout<<"x, y, z, charge, px, py, pz, ptot: "<<x<<" , "<<y<<" , "<<z<<" , "<<charge<<" , "<<px<<" , "<<py<<" , "<<pz<<" , "<<ptot<<endl;
360 recMdcKalTrackTds->setCharge(charge,m);
361 recMdcKalTrackTds->setPxy(pxy,m);
362 recMdcKalTrackTds->setPx(px,m);
363 recMdcKalTrackTds->setPy(py,m);
364 recMdcKalTrackTds->setPz(pz,m);
365 recMdcKalTrackTds->setP(ptot,m);
366 recMdcKalTrackTds->setTheta(acos(pz/ptot),m);
367 recMdcKalTrackTds->setPhi(atan2(py,px),m);
368 recMdcKalTrackTds->setX(x,m);
369 recMdcKalTrackTds->setY(y,m);
370 recMdcKalTrackTds->setZ(z,m);
371 recMdcKalTrackTds->setR(sqrt(x*x+y*y),m);
372 /// the next three function need more consideration, temporarily
373
374 for(int n=0; n<2; n++){
375 int stat = recMdcKalTrackRoot->getStat(n,m);
376 int chisq = recMdcKalTrackRoot->getChisq(n,m);
377 int ndf = recMdcKalTrackRoot->getNdf(n,m);
378 recMdcKalTrackTds->setStat(stat,n,m);
379 recMdcKalTrackTds->setChisq(chisq,n,m);
380 recMdcKalTrackTds->setNdf(ndf,n,m);
381 }
382 }
383
384 //std::cout<<" step 3: "<<std::endl;
385
386
387
388 for(int jj=0; jj<5; jj++){
389 //std::cout<<" step 3.0: "<<std::endl;
390 //std::cout<<"zhelixs[jj]: "<<zhelixs[jj]<<std::endl;
391
392 recMdcKalTrackTds->setZHelix(zhelixs[jj],jj);
393 //std::cout<<" step 3.1: "<<std::endl;
394
395 recMdcKalTrackTds->setZError(zerrors[jj],jj);
396 recMdcKalTrackTds->setFHelix(fhelixs[jj],jj);
397 recMdcKalTrackTds->setFError(ferrors[jj],jj);
398 //std::cout<<" step 3.5: "<<std::endl;
399
400 recMdcKalTrackTds->setLHelix(lhelixs[jj],jj);
401 recMdcKalTrackTds->setLError(lerrors[jj],jj);
402 recMdcKalTrackTds->setPoca(pocas[jj],jj);
403
404
405 recMdcKalTrackTds->setLPoint(lpoints[jj],jj);
406 recMdcKalTrackTds->setLPivot(lpivots[jj],jj);
407 }
408 recMdcKalTrackTds->setTHelix(thelix);
409 recMdcKalTrackTds->setTError(terror);
410
411 //std::cout<<" step 4: "<<std::endl;
412
413
414 log<<MSG::DEBUG<<"T to REC TDS, zhelix: "<<zhelix<<endreq;
415 log<<MSG::DEBUG<<"T to REC TDS, zerror: "<<zerror<<endreq;
416
417 m_common.m_rootRecMdcKalTrackMap[recMdcKalTrackRoot] = recMdcKalTrackTds;
418
419 int nSegTot=0;
420 for(int i=0; i<5; i++) {
421 HelixSegRefVec theKalHelixSegRefVec;
422
423 int nSeg=recMdcKalTrackRoot->getNseg(i);
424 int iSeg=0;
425 RecMdcKalHelixSegCol::iterator iter = recMdcKalHelixSegCol->begin();
426 for (;iter != recMdcKalHelixSegCol->end(); iter++){
427
428 //cout<<" (*iter)->getTrkId(): "<<(*iter)->getTrkId()<<endl;
429 if((*iter)->getTrackId() == trackId){
430 if(iSeg>=nSegTot&&iSeg<nSeg+nSegTot) {
431 SmartRef<RecMdcKalHelixSeg> refhit(*iter);
432 theKalHelixSegRefVec.push_back(refhit);
433 }
434 iSeg++;
435 }
436 }
437 nSegTot+=nSeg;
438
439 recMdcKalTrackTds->setVecHelixSegs(theKalHelixSegRefVec,i);
440 }
441
442 int nhelixsegs = recMdcKalTrackTds->getVecHelixSegs().size();
443
444 //std::cout<<" mdc hits: "<<nhelixsegs<< std::endl;
445
446 for(int ii=0; ii <nhelixsegs ; ii++){
447
448 //cout<<"ddl: "<<(recMdcTrack->getVecKalHelixSegs()[ii])->getDriftDistLeft()<<endl;
449 //cout<<"erddl: "<<(recMdcTrack->getVecKalHelixSegs()[ii])->getErrDriftDistLeft()<<endl;
450 Identifier id(recMdcKalTrackTds->getVecHelixSegs()[ii]->getMdcId());
451 int layer = MdcID::layer(id);
452 int wire = MdcID::wire(id);
453 //cout<<"layer: "<<layer<<" wire: "<<wire<<endl;
454 }
455
456 recMdcKalTrackCol->push_back(recMdcKalTrackTds);
457
458 }
459
460 delete m_recMdcKalTrackCol;
461
462 m_recMdcKalTrackCol = 0;
463
464 return StatusCode::SUCCESS;
465}
const Int_t n
Double_t x[10]
EvtStreamInputIterator< typename Generator::result_type > iter(Generator gen, int N=0)
double sin(const BesAngle a)
double cos(const BesAngle a)
SmartRefVector< RecMdcKalHelixSeg > HelixSegRefVec
**********Class see also m_nmax DOUBLE PRECISION m_amel DOUBLE PRECISION m_x2 DOUBLE PRECISION m_alfinv DOUBLE PRECISION m_Xenph INTEGER m_KeyWtm INTEGER m_idyfs DOUBLE PRECISION m_zini DOUBLE PRECISION m_q2 DOUBLE PRECISION m_Wt_KF DOUBLE PRECISION m_WtCut INTEGER m_KFfin *COMMON c_KarLud $ !Input CMS energy[GeV] $ !CMS energy after beam spread beam strahlung[GeV] $ !Beam energy spread[GeV] $ !z boost due to beam spread $ !electron beam mass *ff pair spectrum $ !minimum v
Definition: KarLud.h:35
void setFHelix(const HepVector &fhelix, const int pid)
void setPhi(const double phi, const int pid)
void setZError(const HepSymMatrix &error, const int pid)
void setPoca(const HepPoint3D &poca, const int pid)
void setTheta(const double theta, const int pid)
void setPxy(const double pxy, const int pid)
void setFError(const HepSymMatrix &ferror, const int pid)
void setZHelix(const HepVector &helix, const int pid)
void setCharge(const int charge, const int pid)
static int layer(const Identifier &id)
Values of different levels (failure returns 0)
Definition: MdcID.cxx:49
static int wire(const Identifier &id)
Definition: MdcID.cxx:54
void setLHelix(const HepVector &helix, const int pid)
HelixSegRefVec getVecHelixSegs(int pid=-1) const
void setVecHelixSegs(const HelixSegRefVec &vechelixsegs, int pid=-1)
void setLError(const HepSymMatrix &error, const int pid)
void setLPoint(const HepPoint3D &point, const int pid)
void setLPivot(const HepPoint3D &pivot, const int pid)
static std::map< const TObject *, const RecMdcKalTrack * > m_rootRecMdcKalTrackMap

◆ TObjectToDataObject() [2/2]

virtual StatusCode RecMdcKalTrackCnv::TObjectToDataObject ( DataObject *&  obj)
protectedvirtual

transformation from root

Implements RootEventBaseCnv.

Friends And Related Function Documentation

◆ CnvFactory< RecMdcKalTrackCnv >


The documentation for this class was generated from the following files: