#include <RecMdcKalTrackCnv.h>

Inheritance diagram for RecMdcKalTrackCnv:

Public Member Functions
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

Public Member Functions inherited from Converter< Ty1, Ty2 >
destination *	operator (const source &) const

Static Public Member Functions
static const CLID &	classID ()

Static Public Member Functions inherited from RootEventBaseCnv
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

Protected Member Functions inherited from Converter< Ty1, Ty2 >
virtual destination *	convert (const source &) const =0

Friends
class	CnvFactory< RecMdcKalTrackCnv >

Additional Inherited Members
Public Types inherited from Converter< Ty1, Ty2 >
typedef Ty1	source

typedef Ty2	destination

Protected Attributes inherited from RootEventBaseCnv
RootCnvSvc *	m_cnvSvc

std::vector< RootCnvSvc::Leaf >	m_leaves

RootInterface *	m_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

RootEvtSelector *	m_evtsel

Detailed Description

Definition at line 15 of file RecMdcKalTrackCnv.h.

Constructor & Destructor Documentation

◆ ~RecMdcKalTrackCnv()

virtual RecMdcKalTrackCnv::~RecMdcKalTrackCnv ( )

inlinevirtual

Definition at line 25 of file RecMdcKalTrackCnv.h.

25{ };

◆ RecMdcKalTrackCnv()

RecMdcKalTrackCnv::RecMdcKalTrackCnv ( ISvcLocator * svc )

protected

Definition at line 33 of file RecMdcKalTrackCnv.cxx.

: RootEventBaseCnv(classID(), svc)
{
 
    // Here we associate this converter with the /Event path on the TDS.
    MsgStream log(msgSvc(), "RecMdcKalTrackCnv");
    //log << MSG::DEBUG << "Constructor called for " << objType() << endreq;
    //m_rootTreename ="Rec";
    m_rootBranchname ="m_recMdcKalTrackCol";
    // declareObject(EventModel::Recon::MdcKalTrackCol, objType(), m_rootTreename, m_rootBranchname);
    m_adresses.push_back(&m_recMdcKalTrackCol);
    m_recMdcKalTrackCol = 0;
}

Member Function Documentation

◆ classID()

static const CLID & RecMdcKalTrackCnv::classID ( )

inlinestatic

Definition at line 20 of file RecMdcKalTrackCnv.h.

  {
       return CLID_RecMdcKalTrackCol; 
  }

◆ DataObjectToTObject()

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

protectedvirtual

transformation to root

Implements RootEventBaseCnv.

Definition at line 468 of file RecMdcKalTrackCnv.cxx.

                                                                                       {
 
 
    MsgStream log(msgSvc(), "RecMdcKalTrackCnv");
    log << MSG::DEBUG << "RecMdcKalTrackCnv::DataObjectToTObject" << endreq;
    StatusCode sc=StatusCode::SUCCESS;
 
    RecMdcKalTrackCol * mdcKalTrackColTds=dynamic_cast<RecMdcKalTrackCol *> (obj);
    if (!mdcKalTrackColTds) {
        log << MSG::ERROR << "Could not downcast to RecMdcKalTrackCol" << endreq;
        return StatusCode::FAILURE;
    }
 
    DataObject *evt;
    m_eds->findObject(EventModel::Recon::Event,evt);
    if (evt==NULL) {
        log << MSG::ERROR << "Could not get ReconEvent in TDS "  << endreq;
        return StatusCode::FAILURE;
    }
 
    ReconEvent * devtTds=dynamic_cast<ReconEvent *> (evt);
    if (!devtTds) {
        log << MSG::ERROR << "MdcKalTrackCnv:Could not downcast to TDS Recon Event" << endreq;
    }
    IOpaqueAddress *addr;
 
    m_cnvSvc->getRecTrackCnv()->createRep(evt,addr); 
    TRecTrackEvent *recEvt=m_cnvSvc->getRecTrackCnv()->getWriteObject();
 
    const TObjArray *m_recMdcKalTrackCol = recEvt->getRecMdcKalTrackCol();
 
    if (!m_recMdcKalTrackCol) return sc;
 
    recEvt->clearRecMdcKalTrackCol(); //necessary in case there is I/O at the same time since array is static
    RecMdcKalTrackCol::const_iterator mdcKalTrackTds;
 
    for (mdcKalTrackTds = mdcKalTrackColTds->begin(); mdcKalTrackTds != mdcKalTrackColTds->end(); mdcKalTrackTds++) {
 
        // Get Data from TDS
        // root data
        Int_t trackId;
        Double_t mass[5];          
        Double_t length[5];        
        Double_t tof[5];           
        Int_t nhits[5];           
        Int_t nlayer[5];        
        Int_t stat[2][5];            
        Double_t chisq[2][5];      
        Int_t ndf[2][5];        
        Int_t nSeg[5];
        Double_t fiTerm[5];
        Double_t pathSM[5];
 
        Double_t poca_e[3];
        Double_t poca_mu[3];
        Double_t poca[3];
        Double_t poca_k[3];
        Double_t poca_p[3];
 
        Double_t zhelix[5];        
        Double_t zerror[5][5];     
        Double_t zhelix_e[5];      
        Double_t zerror_e[5][5];   
        Double_t zhelix_mu[5];     
        Double_t zerror_mu[5][5];  
        Double_t zhelix_k[5];      
        Double_t zerror_k[5][5];   
        Double_t zhelix_p[5];      
        Double_t zerror_p[5][5];   
 
        Double_t fhelix[5];        
        Double_t ferror[5][5];        
        Double_t fhelix_e[5];         
        Double_t ferror_e[5][5];      
        Double_t fhelix_mu[5];        
        Double_t ferror_mu[5][5];     
        Double_t fhelix_k[5];         
        Double_t ferror_k[5][5];      
        Double_t fhelix_p[5];         
        Double_t ferror_p[5][5];      
 
        Double_t lhelix[5];           
        Double_t lerror[5][5];              
        Double_t lhelix_e[5];            
        Double_t lerror_e[5][5];          
        Double_t lhelix_mu[5];           
        Double_t lerror_mu[5][5];  
        Double_t lhelix_k[5];      
        Double_t lerror_k[5][5];   
        Double_t lhelix_p[5];      
        Double_t lerror_p[5][5];  
 
        Double_t thelix[5];        
        Double_t terror[15];        
 
        Double_t lpoint_e[3];
        Double_t lpoint_mu[3];
        Double_t lpoint[3];
        Double_t lpoint_k[3];
        Double_t lpoint_p[3];
 
        Double_t lpivot_e[3];
        Double_t lpivot_mu[3];
        Double_t lpivot[3];
        Double_t lpivot_k[3];
        Double_t lpivot_p[3];
 
        TRecMdcKalTrack *mdcKalTrackRoot = new TRecMdcKalTrack();             
 
        trackId = (*mdcKalTrackTds)->getTrackId();
        for (Int_t i = 0 ; i < 5 ; i++){                     
            mass[i] = (*mdcKalTrackTds)->getMass(i);          
            length[i] = (*mdcKalTrackTds)->getLength(i);      
            tof[i] = (*mdcKalTrackTds)->getTof(i);            
            nhits[i] = (*mdcKalTrackTds)->getNhits(i);         
            nlayer[i] = (*mdcKalTrackTds)->getNlayer(i);         
            fiTerm[i]=(*mdcKalTrackTds)->getFiTerm(i); 
            pathSM[i]=(*mdcKalTrackTds)->getPathSM(i); 
            //stat[i] = (*mdcKalTrackTds)->getStat(i);                
            nSeg[i]=((*mdcKalTrackTds)->getVecHelixSegs(i)).size();
            mdcKalTrackRoot->setNseg(nSeg[i],i);
            mdcKalTrackRoot->setNlayer(nlayer[i],i);         
            for (Int_t j = 0 ; j< 2 ; j++){                    
                stat[j][i] = (*mdcKalTrackTds)->getStat(j,i);
                chisq[j][i] = (*mdcKalTrackTds)->getChisq(j,i);
                ndf[j][i] = (*mdcKalTrackTds)->getNdf(j,i);
                mdcKalTrackRoot->setStat(stat[j][i],j,i);
                mdcKalTrackRoot->setChisq(chisq[j][i],j,i);     
                mdcKalTrackRoot->setNdf(ndf[j][i],j,i);         
            }                                                 
        }    
        for(Int_t i=0;i<5;i++){
            log<<MSG::INFO<<" recMdcKalTrack.helix("<<i<<"): "<<(*mdcKalTrackTds)->getTHelix(i)<<endreq;
            thelix[i] = (*mdcKalTrackTds)->getTHelix(i);
        }
        for(Int_t i=0; i<15; i++){
            terror[i] = (*mdcKalTrackTds)->getTError(i);
        }
        HepPoint3D h_poca_e     = (*mdcKalTrackTds)->getPocaE();
        HepPoint3D h_poca_mu    = (*mdcKalTrackTds)->getPocaMu();
        HepPoint3D h_poca       = (*mdcKalTrackTds)->getPoca();
        HepPoint3D h_poca_k     = (*mdcKalTrackTds)->getPocaK();
        HepPoint3D h_poca_p     = (*mdcKalTrackTds)->getPocaP();
        HepPoint3D h_lpoint_e   = (*mdcKalTrackTds)->getLPointE();
        HepPoint3D h_lpoint_mu  = (*mdcKalTrackTds)->getLPointMu();
        HepPoint3D h_lpoint     = (*mdcKalTrackTds)->getLPoint();
        HepPoint3D h_lpoint_k   = (*mdcKalTrackTds)->getLPointK();
        HepPoint3D h_lpoint_p   = (*mdcKalTrackTds)->getLPointP();
        HepPoint3D h_lpivot_e   = (*mdcKalTrackTds)->getLPivotE();
        HepPoint3D h_lpivot_mu  = (*mdcKalTrackTds)->getLPivotMu();
        HepPoint3D h_lpivot     = (*mdcKalTrackTds)->getLPivot();
        HepPoint3D h_lpivot_k   = (*mdcKalTrackTds)->getLPivotK();
        HepPoint3D h_lpivot_p   = (*mdcKalTrackTds)->getLPivotP();
 
        //std::cout<<" h_poca_mu: "<<h_poca_mu<<std::endl;
        //std::cout<<" h_poca: "<<h_poca<<std::endl;
        //std::cout<<" h_poca_k: "<<h_poca_k<<std::endl;
        //std::cout<<" h_poca_p: "<<h_poca_p<<std::endl;
 
 
        HepVector h_zhelix      = (*mdcKalTrackTds)->getZHelix();           
        HepSymMatrix h_zerror   = (*mdcKalTrackTds)->getZError();           
        HepVector h_zhelix_e    = (*mdcKalTrackTds)->getZHelixE();          
        HepSymMatrix h_zerror_e = (*mdcKalTrackTds)->getZErrorE();          
        HepVector h_zhelix_mu   = (*mdcKalTrackTds)->getZHelixMu();         
        HepSymMatrix h_zerror_mu= (*mdcKalTrackTds)->getZErrorMu();         
        HepVector h_zhelix_k    = (*mdcKalTrackTds)->getZHelixK();          
        HepSymMatrix h_zerror_k = (*mdcKalTrackTds)->getZErrorK();          
        HepVector h_zhelix_p    = (*mdcKalTrackTds)->getZHelixP();          
        HepSymMatrix h_zerror_p = (*mdcKalTrackTds)->getZErrorP();          
 
        HepVector h_fhelix      = (*mdcKalTrackTds)->getFHelix();    
        HepSymMatrix h_ferror   = (*mdcKalTrackTds)->getFError();    
        HepVector h_fhelix_e    = (*mdcKalTrackTds)->getFHelixE();   
        HepSymMatrix h_ferror_e = (*mdcKalTrackTds)->getFErrorE();   
        HepVector h_fhelix_mu   = (*mdcKalTrackTds)->getFHelixMu();  
        HepSymMatrix h_ferror_mu= (*mdcKalTrackTds)->getFErrorMu();  
        HepVector h_fhelix_k    = (*mdcKalTrackTds)->getFHelixK();   
        HepSymMatrix h_ferror_k = (*mdcKalTrackTds)->getFErrorK();   
        HepVector h_fhelix_p    = (*mdcKalTrackTds)->getFHelixP();   
        HepSymMatrix h_ferror_p = (*mdcKalTrackTds)->getFErrorP();   
 
        HepVector h_lhelix      = (*mdcKalTrackTds)->getLHelix();    
        HepSymMatrix h_lerror   = (*mdcKalTrackTds)->getLError();    
        HepVector h_lhelix_e    = (*mdcKalTrackTds)->getLHelixE();   
        HepSymMatrix h_lerror_e = (*mdcKalTrackTds)->getLErrorE();   
        HepVector h_lhelix_mu   = (*mdcKalTrackTds)->getLHelixMu();  
        HepSymMatrix h_lerror_mu= (*mdcKalTrackTds)->getLErrorMu();  
        HepVector h_lhelix_k    = (*mdcKalTrackTds)->getLHelixK();   
        HepSymMatrix h_lerror_k = (*mdcKalTrackTds)->getLErrorK();   
        HepVector h_lhelix_p    = (*mdcKalTrackTds)->getLHelixP();   
        HepSymMatrix h_lerror_p = (*mdcKalTrackTds)->getLErrorP();   
 
        mdcKalTrackRoot->setTrackId(trackId);
        mdcKalTrackRoot->setMass(mass);     
        mdcKalTrackRoot->setLength(length); 
        mdcKalTrackRoot->setTof(tof);       
        mdcKalTrackRoot->setNhits(nhits);     
        mdcKalTrackRoot->setFiTerm(fiTerm);     
        mdcKalTrackRoot->setPathSM(pathSM);     
        // mdcKalTrackRoot->setStat(stat);     
 
        for(int s=0; s<3; s++){
            poca_e[s]  = h_poca_e[s];
            poca_mu[s] = h_poca_mu[s];
            poca[s]    = h_poca[s];
            poca_k[s]  = h_poca_k[s];
            poca_p[s]  = h_poca_p[s];
            lpoint_e[s]  = h_lpoint_e[s];
            lpoint_mu[s] = h_lpoint_mu[s];
            lpoint[s]    = h_lpoint[s];
            lpoint_k[s]  = h_lpoint_k[s];
            lpoint_p[s]  = h_lpoint_p[s];
            lpivot_e[s]  = h_lpivot_e[s];
            lpivot_mu[s] = h_lpivot_mu[s];
            lpivot[s]    = h_lpivot[s];
            lpivot_k[s]  = h_lpivot_k[s];
            lpivot_p[s]  = h_lpivot_p[s];
        }
 
        for (int i=0; i<5; i++){
            zhelix[i]    = h_zhelix[i];
            zhelix_e[i]  = h_zhelix_e[i];
            zhelix_mu[i] = h_zhelix_mu[i];
            zhelix_p[i]  = h_zhelix_p[i];
            zhelix_k[i]  = h_zhelix_k[i];
 
            fhelix[i]    = h_fhelix[i];        
            fhelix_e[i]  = h_fhelix_e[i];    
            fhelix_mu[i] = h_fhelix_mu[i];  
            fhelix_p[i]  = h_fhelix_p[i];    
            fhelix_k[i]  = h_fhelix_k[i]; 
 
            lhelix[i]    = h_lhelix[i];      
            lhelix_e[i]  = h_lhelix_e[i];  
            lhelix_mu[i] = h_lhelix_mu[i];
            lhelix_p[i]  = h_lhelix_p[i];  
            lhelix_k[i]  = h_lhelix_k[i];  
 
            for (int j=0; j<=i; j++){
                zerror[i][j]    = h_zerror[i][j];       
                zerror_e[i][j]  = h_zerror_e[i][j];   
                zerror_mu[i][j] = h_zerror_mu[i][j]; 
                zerror_p[i][j]  = h_zerror_p[i][j];   
                zerror_k[i][j]  = h_zerror_k[i][j];   
 
 
                ferror[i][j]    = h_ferror[i][j];       
                ferror_e[i][j]  = h_ferror_e[i][j];   
                ferror_mu[i][j] = h_ferror_mu[i][j]; 
                ferror_p[i][j]  = h_ferror_p[i][j];   
                ferror_k[i][j]  = h_ferror_k[i][j];   
 
 
                lerror[i][j]    = h_lerror[i][j];       
                lerror_e[i][j]  = h_lerror_e[i][j];   
                lerror_mu[i][j] = h_lerror_mu[i][j]; 
                lerror_p[i][j]  = h_lerror_p[i][j];   
                lerror_k[i][j]  = h_lerror_k[i][j]; 
 
                zerror[j][i]    = h_zerror[i][j];        
                zerror_e[j][i]  = h_zerror_e[i][j];  
                zerror_mu[j][i] = h_zerror_mu[i][j];
                zerror_p[j][i]  = h_zerror_p[i][j];  
                zerror_k[j][i]  = h_zerror_k[i][j];  
 
 
                ferror[j][i]    = h_ferror[i][j];      
                ferror_e[j][i]  = h_ferror_e[i][j];  
                ferror_mu[j][i] = h_ferror_mu[i][j];
                ferror_p[j][i]  = h_ferror_p[i][j];  
                ferror_k[j][i]  = h_ferror_k[i][j];  
 
 
                lerror[j][i]    = h_lerror[i][j];      
                lerror_e[j][i]  = h_lerror_e[i][j];  
                lerror_mu[j][i] = h_lerror_mu[i][j];
                lerror_p[j][i]  = h_lerror_p[i][j];  
                lerror_k[j][i]  = h_lerror_k[i][j];  
 
            }      
        }
 
        mdcKalTrackRoot->setZHelix(zhelix);     
        mdcKalTrackRoot->setZError(zerror);   
        for(int k=0; k<5; k++){
            log<<MSG::INFO<<" RecMdcKalTrackRoot.ZHelix "<<"["<<k<<"]"
                <<mdcKalTrackRoot->getZHelix(k)<<endreq;
        }
        mdcKalTrackRoot->setZHelixE(zhelix_e);   
        mdcKalTrackRoot->setZErrorE(zerror_e);   
        mdcKalTrackRoot->setZHelixMu(zhelix_mu);  
        mdcKalTrackRoot->setZErrorMu(zerror_mu);  
        mdcKalTrackRoot->setZHelixK(zhelix_k);          
        mdcKalTrackRoot->setZErrorK(zerror_k);   
        mdcKalTrackRoot->setZHelixP(zhelix_p);   
        mdcKalTrackRoot->setZErrorP(zerror_p);
        mdcKalTrackRoot->setFHelix(fhelix);          
        mdcKalTrackRoot->setFError(ferror);       
        mdcKalTrackRoot->setFHelixE(fhelix_e);    
        mdcKalTrackRoot->setFErrorE(ferror_e);    
        mdcKalTrackRoot->setFHelixMu(fhelix_mu);  
        mdcKalTrackRoot->setFErrorMu(ferror_mu);  
        mdcKalTrackRoot->setFHelixK(fhelix_k);    
        mdcKalTrackRoot->setFErrorK(ferror_k);    
        mdcKalTrackRoot->setFHelixP(fhelix_p);    
        mdcKalTrackRoot->setFErrorP(ferror_p);   
 
        mdcKalTrackRoot->setLHelix(lhelix);         
        mdcKalTrackRoot->setLError(lerror);        
        mdcKalTrackRoot->setLHelixE(lhelix_e);     
        mdcKalTrackRoot->setLErrorE(lerror_e);     
        mdcKalTrackRoot->setLHelixMu(lhelix_mu);   
        mdcKalTrackRoot->setLErrorMu(lerror_mu);   
        mdcKalTrackRoot->setLHelixK(lhelix_k);     
        mdcKalTrackRoot->setLErrorK(lerror_k);     
        mdcKalTrackRoot->setLHelixP(lhelix_p);     
        mdcKalTrackRoot->setLErrorP(lerror_p);    
 
        mdcKalTrackRoot->setTHelix(thelix);         
        mdcKalTrackRoot->setTError(terror);        
 
        mdcKalTrackRoot->setPocaE(poca_e);
        mdcKalTrackRoot->setPocaMu(poca_mu);
        mdcKalTrackRoot->setPoca(poca);
        mdcKalTrackRoot->setPocaK(poca_k);
        mdcKalTrackRoot->setPocaP(poca_p);
 
        mdcKalTrackRoot->setLPointE(lpoint_e);
        mdcKalTrackRoot->setLPointMu(lpoint_mu);
        mdcKalTrackRoot->setLPoint(lpoint);
        mdcKalTrackRoot->setLPointK(lpoint_k);
        mdcKalTrackRoot->setLPointP(lpoint_p);
 
        mdcKalTrackRoot->setLPivotE(lpivot_e);
        mdcKalTrackRoot->setLPivotMu(lpivot_mu);
        mdcKalTrackRoot->setLPivot(lpivot);
        mdcKalTrackRoot->setLPivotK(lpivot_k);
        mdcKalTrackRoot->setLPivotP(lpivot_p);
        //std::cout<<" mdcKalTrackRoot->getPivotE(1): "<<mdcKalTrackRoot->getLPivotE(1)<<std::endl;
 
        recEvt->addRecMdcKalTrack(mdcKalTrackRoot);
    }
 
 
    return StatusCode::SUCCESS;
}

◆ TObjectToDataObject()

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.

                                                                         {
    // creation of TDS object from root object
    MsgStream log(msgSvc(), "RecMdcKalTrackCnv");
    log << MSG::DEBUG << "RecMdcKalTrackCnv::TObjectToDataObject" << endreq;
    StatusCode sc = StatusCode::SUCCESS;
 
    // create the TDS location for the MdcKalTrack Collection
    RecMdcKalTrackCol* recMdcKalTrackCol = new RecMdcKalTrackCol;
    refpObject = recMdcKalTrackCol;
 
    // now convert
    if (!m_recMdcKalTrackCol) return sc;
    TIter recMdcKalTrackIter(m_recMdcKalTrackCol);
 
    IDataProviderSvc* dataSvc = 0;
    sc = serviceLocator()->getService ("EventDataSvc",  
            IDataProviderSvc::interfaceID(), (IInterface*&)dataSvc);
    if (!sc.isSuccess()) {
        log << MSG::FATAL << "Could not get EventDataSvc in RecMdcTrackCnv" << endreq;
        return( StatusCode::FAILURE);
    }
    SmartDataPtr<RecMdcKalHelixSegCol> recMdcKalHelixSegCol(dataSvc,"/Event/Recon/RecMdcKalHelixSegCol");
    if (!recMdcKalHelixSegCol) {
        log << MSG::FATAL << "Could not find RecMdcKalHelixSegCol" << endreq;
        return( StatusCode::FAILURE);
    }
 
    TRecMdcKalTrack *recMdcKalTrackRoot = 0;
    while ((recMdcKalTrackRoot = (TRecMdcKalTrack*)recMdcKalTrackIter.Next())) {
 
        std::vector<HepVector> zhelixs;
        std::vector<HepSymMatrix> zerrors;
        std::vector<HepVector> fhelixs;
        std::vector<HepSymMatrix> ferrors;
        std::vector<HepVector> lhelixs;
        std::vector<HepSymMatrix> lerrors;
        std::vector<HepPoint3D> pocas;
        std::vector<HepPoint3D> lpivots;
        std::vector<HepPoint3D> lpoints;
 
 
        HepVector zhelix(5); 
        HepSymMatrix zerror(5); 
        HepVector fhelix(5);
        HepSymMatrix ferror(5);
        HepVector lhelix(5);
        HepSymMatrix lerror(5);
        HepVector thelix(5);
        HepSymMatrix terror(5);
        HepPoint3D poca(0,0,0);
        HepPoint3D lpivot(0,0,0); 
        HepPoint3D lpoint(0,0,0); 
 
 
        HepVector zhelix_e(5); 
        HepSymMatrix zerror_e(5); 
        HepVector fhelix_e(5);
        HepSymMatrix ferror_e(5); 
        HepVector lhelix_e(5);
        HepSymMatrix lerror_e(5);
        HepPoint3D poca_e(0,0,0);
        HepPoint3D lpivot_e(0,0,0); 
        HepPoint3D lpoint_e(0,0,0); 
 
 
        HepVector zhelix_mu(5); 
        HepSymMatrix zerror_mu(5); 
        HepVector fhelix_mu(5);
        HepSymMatrix ferror_mu(5);
        HepVector lhelix_mu(5);
        HepSymMatrix lerror_mu(5);
        HepPoint3D poca_mu(0,0,0);
        HepPoint3D lpivot_mu(0,0,0); 
        HepPoint3D lpoint_mu(0,0,0); 
 
 
        HepVector zhelix_k(5); 
        HepSymMatrix zerror_k(5);  
        HepVector fhelix_k(5);
        HepSymMatrix ferror_k(5);
        HepVector lhelix_k(5);
        HepSymMatrix lerror_k(5);
        HepPoint3D poca_k(0,0,0);
        HepPoint3D lpivot_k(0,0,0); 
        HepPoint3D lpoint_k(0,0,0); 
 
 
        HepVector zhelix_p(5);  
        HepSymMatrix zerror_p(5);
        HepVector fhelix_p(5);
        HepSymMatrix ferror_p(5);
        HepVector lhelix_p(5);
        HepSymMatrix lerror_p(5);
        HepPoint3D poca_p(0,0,0);
        HepPoint3D lpivot_p(0,0,0); 
        HepPoint3D lpoint_p(0,0,0); 
 
 
        int stat[2][5];
        double chisq[2][5];
        int ndf[2][5];
 
        double  mass[5];
        double  length[5];
        double  tof[5]; 
        int     nhits[5];
        int     nlayer[5];
        int     trackId;
        double  pathSM[5];
        double  fiTerm[5]; 
        //std::cout<<" step 0: "<<std::endl;
 
 
        RecMdcKalTrack *recMdcKalTrackTds = new RecMdcKalTrack();
 
        //std::cout<<" step 1: "<<std::endl;
 
        trackId = recMdcKalTrackRoot->getTrackId();
        // std::cout<<"track id: "<<trackId<<std::endl;
        recMdcKalTrackTds->setTrackId(trackId);
 
        for (int u=0; u<5; u++){                     
            mass[u]   = recMdcKalTrackRoot->getMass(u);          
            length[u] = recMdcKalTrackRoot->getLength(u);      
            tof[u]    = recMdcKalTrackRoot->getTof(u);            
            nhits[u]  = recMdcKalTrackRoot->getNhits(u);          
            fiTerm[u]=recMdcKalTrackRoot->getfiTerm(u);
            pathSM[u]=recMdcKalTrackRoot->getPathSM(u); 
            nlayer[u]=recMdcKalTrackRoot->getNlayer(u); 
 
            recMdcKalTrackTds->setMass(mass[u],u);     
            recMdcKalTrackTds->setLength(length[u],u); 
            recMdcKalTrackTds->setTof(tof[u],u);       
            recMdcKalTrackTds->setNhits(nhits[u],u);     
            recMdcKalTrackTds->setFiTerm(fiTerm[u],u);     
            recMdcKalTrackTds->setPathSM(pathSM[u],u);     
            recMdcKalTrackTds->setNlayer(nlayer[u],u);     
        }    
 
 
        for(int v=0; v<3; v++){
            poca_e[v]  = recMdcKalTrackRoot->getPocaE(v);   
            poca_mu[v] = recMdcKalTrackRoot->getPocaMu(v);
            poca[v]    = recMdcKalTrackRoot->getPoca(v);
            poca_k[v]  = recMdcKalTrackRoot->getPocaK(v);
            poca_p[v]  = recMdcKalTrackRoot->getPocaP(v);
            lpivot_e[v]  = recMdcKalTrackRoot->getLPivotE(v);
            lpivot_mu[v] = recMdcKalTrackRoot->getLPivotMu(v);
            lpivot[v]    = recMdcKalTrackRoot->getLPivot(v);
            lpivot_k[v]  = recMdcKalTrackRoot->getLPivotK(v);
            lpivot_p[v]  = recMdcKalTrackRoot->getLPivotP(v);
            lpoint_e[v]  = recMdcKalTrackRoot->getLPointE(v);
            lpoint_mu[v] = recMdcKalTrackRoot->getLPointMu(v);
            lpoint[v]    = recMdcKalTrackRoot->getLPoint(v);
            lpoint_k[v]  = recMdcKalTrackRoot->getLPointK(v);
            lpoint_p[v]  = recMdcKalTrackRoot->getLPointP(v);
            //std::cout<<"poca_e[v]: "<<setprecision(6)<<poca_e[v]<<std::endl;
            //std::cout<<"lpoint_e[v]: "<<setprecision(6)<<lpoint_e[v]<<std::endl;
            //std::cout<<"lpivot_e[v]: "<<setprecision(6)<<lpivot_e[v]<<std::endl;
 
        }
 
        for (int i=0, k=0; i<5; i++){
            zhelix[i]    = recMdcKalTrackRoot->getZHelix(i);
            zhelix_e[i]  = recMdcKalTrackRoot->getZHelixE(i);
            zhelix_mu[i] = recMdcKalTrackRoot->getZHelixMu(i);
            zhelix_k[i]  = recMdcKalTrackRoot->getZHelixK(i);
            zhelix_p[i]  = recMdcKalTrackRoot->getZHelixP(i);
 
 
            fhelix[i]    = recMdcKalTrackRoot->getFHelix(i);
            fhelix_e[i]  = recMdcKalTrackRoot->getFHelixE(i);
            fhelix_mu[i] = recMdcKalTrackRoot->getFHelixMu(i);
            fhelix_k[i]  = recMdcKalTrackRoot->getFHelixK(i);
            fhelix_p[i]  = recMdcKalTrackRoot->getFHelixP(i);
 
            lhelix[i]    = recMdcKalTrackRoot->getLHelix(i);
            lhelix_e[i]  = recMdcKalTrackRoot->getLHelixE(i);
            lhelix_mu[i] = recMdcKalTrackRoot->getLHelixMu(i);
            lhelix_k[i]  = recMdcKalTrackRoot->getLHelixK(i);
            lhelix_p[i]  = recMdcKalTrackRoot->getLHelixP(i);
 
            thelix[i]    = recMdcKalTrackRoot->getTHelix(i);
 
            for (int j=0; j<=i; j++){
 
                zerror[i][j]    = recMdcKalTrackRoot->getZError(i,j);
                zerror_e[i][j]  = recMdcKalTrackRoot->getZErrorE(i,j);
                zerror_mu[i][j] = recMdcKalTrackRoot->getZErrorMu(i,j);
                zerror_k[i][j]  = recMdcKalTrackRoot->getZErrorK(i,j);
                zerror_p[i][j]  = recMdcKalTrackRoot->getZErrorP(i,j);
                zerror[j][i]    = zerror[i][j];    
                zerror_e[j][i]  = zerror_e[i][j];  
                zerror_mu[j][i] = zerror_mu[i][j]; 
                zerror_k[j][i]  = zerror_k[i][j];  
                zerror_p[j][i]  = zerror_p[i][j];  
 
                ferror[i][j]    = recMdcKalTrackRoot->getFError(i,j);
                ferror_e[i][j]  = recMdcKalTrackRoot->getFErrorE(i,j);
                ferror_mu[i][j] = recMdcKalTrackRoot->getFErrorMu(i,j);
                ferror_k[i][j]  = recMdcKalTrackRoot->getFErrorK(i,j);
                ferror_p[i][j]  = recMdcKalTrackRoot->getFErrorP(i,j);
                ferror[j][i]    = ferror[i][j];
                ferror_e[j][i]  = ferror_e[i][j];
                ferror_mu[j][i] = ferror_mu[i][j];
                ferror_k[j][i]  = ferror_k[i][j];
                ferror_p[j][i]  = ferror_p[i][j];
 
                lerror[i][j]    = recMdcKalTrackRoot->getLError(i,j);
                lerror_e[i][j]  = recMdcKalTrackRoot->getLErrorE(i,j);
                lerror_mu[i][j] = recMdcKalTrackRoot->getLErrorMu(i,j);
                lerror_k[i][j]  = recMdcKalTrackRoot->getLErrorK(i,j);
                lerror_p[i][j]  = recMdcKalTrackRoot->getLErrorP(i,j);
                lerror[j][i]    = lerror[i][j];
                lerror_e[j][i]  = lerror_e[i][j];
                lerror_mu[j][i] = lerror_mu[i][j];
                lerror_k[j][i]  = lerror_k[i][j];
                lerror_p[j][i]  = lerror_p[i][j];
 
                terror[i][j] = recMdcKalTrackRoot->getTError(k++);
                terror[j][i] = terror[i][j];
 
            }   
        }
 
        //std::cout<<" step 2: "<<std::endl;
 
        //std::cout<<"T to rec tds: "<<endl;
        //std::cout<<"lpoint_e: "<<lpoint_e<<std::endl;
        //std::cout<<"lpivot_e: "<<lpivot_e<<std::endl;
        /// for zero point
        zhelixs.push_back(zhelix_e);
        zhelixs.push_back(zhelix_mu);
        zhelixs.push_back(zhelix);
        zhelixs.push_back(zhelix_k);
        zhelixs.push_back(zhelix_p);    
        zerrors.push_back(zerror_e);
        zerrors.push_back(zerror_mu);
        zerrors.push_back(zerror);
        zerrors.push_back(zerror_k);
        zerrors.push_back(zerror_p);
        /// first hit point
        fhelixs.push_back(fhelix_e);
        fhelixs.push_back(fhelix_mu);
        fhelixs.push_back(fhelix);
        fhelixs.push_back(fhelix_k);
        fhelixs.push_back(fhelix_p);
        ferrors.push_back(ferror_e);
        ferrors.push_back(ferror_mu);
        ferrors.push_back(ferror);
        ferrors.push_back(ferror_k);
        ferrors.push_back(ferror_p);
        /// last hit point
        lhelixs.push_back(lhelix_e);
        lhelixs.push_back(lhelix_mu);
        lhelixs.push_back(lhelix);
        lhelixs.push_back(lhelix_k);
        lhelixs.push_back(lhelix_p); 
        lerrors.push_back(lerror_e);
        lerrors.push_back(lerror_mu);
        lerrors.push_back(lerror);
        lerrors.push_back(lerror_k);
        lerrors.push_back(lerror_p);
        /// track finding helix for dE/dx usage
 
        pocas.push_back(poca_e);
        pocas.push_back(poca_mu);
        pocas.push_back(poca);
        pocas.push_back(poca_k);
        pocas.push_back(poca_p);
        lpivots.push_back(lpivot_e);
        lpivots.push_back(lpivot_mu);
        lpivots.push_back(lpivot);
        lpivots.push_back(lpivot_k);
        lpivots.push_back(lpivot_p);
        lpoints.push_back(lpoint_e);
        lpoints.push_back(lpoint_mu);
        lpoints.push_back(lpoint);
        lpoints.push_back(lpoint_k);
        lpoints.push_back(lpoint_p);
 
        for(int m=0; m<5; m++){
            int charge;
            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.);
            dr    = zhelixs[m][0];
            phi0  = zhelixs[m][1];
            kappa = zhelixs[m][2];
            dz    = zhelixs[m][3];
            tanl  = zhelixs[m][4];
 
            // x = pocas[m][0];
            // y = pocas[m][1];
            // z = pocas[m][2];
            x = dr * cos(phi0);
            y = dr * sin(phi0);
            z = dz;
            //  std::cout<<"x: "<<x<<"y: "<<y<<"z: "<<z<<std::endl;
 
            if (kappa > 0.0000000001)
                charge = 1;
            else if (kappa < -0.0000000001)
                charge = -1;
            else
                charge = 0;
 
            if(kappa!=0) pxy = 1.0/fabs(kappa);
            else pxy = 0;
 
            px = pxy * (-sin(phi0));
            py = pxy * cos(phi0);
            pz = pxy * tanl;
            ptot = sqrt(px*px+py*py+pz*pz);
            // cout<<"x, y, z, charge, px, py, pz, ptot: "<<x<<" , "<<y<<" , "<<z<<" , "<<charge<<" , "<<px<<" , "<<py<<" , "<<pz<<" , "<<ptot<<endl;
            recMdcKalTrackTds->setCharge(charge,m);
            recMdcKalTrackTds->setPxy(pxy,m);
            recMdcKalTrackTds->setPx(px,m);
            recMdcKalTrackTds->setPy(py,m);
            recMdcKalTrackTds->setPz(pz,m);
            recMdcKalTrackTds->setP(ptot,m);
            recMdcKalTrackTds->setTheta(acos(pz/ptot),m);
            recMdcKalTrackTds->setPhi(atan2(py,px),m);
            recMdcKalTrackTds->setX(x,m);
            recMdcKalTrackTds->setY(y,m);
            recMdcKalTrackTds->setZ(z,m);
            recMdcKalTrackTds->setR(sqrt(x*x+y*y),m);
            /// the next three function need more consideration, temporarily
 
            for(int n=0; n<2; n++){
                int stat  = recMdcKalTrackRoot->getStat(n,m);
                int chisq = recMdcKalTrackRoot->getChisq(n,m);
                int ndf   = recMdcKalTrackRoot->getNdf(n,m);
                recMdcKalTrackTds->setStat(stat,n,m);
                recMdcKalTrackTds->setChisq(chisq,n,m);
                recMdcKalTrackTds->setNdf(ndf,n,m);
            }
        }
 
        //std::cout<<" step 3: "<<std::endl;
 
 
 
        for(int jj=0; jj<5; jj++){
            //std::cout<<" step 3.0: "<<std::endl;
            //std::cout<<"zhelixs[jj]: "<<zhelixs[jj]<<std::endl;
 
            recMdcKalTrackTds->setZHelix(zhelixs[jj],jj);
            //std::cout<<" step 3.1: "<<std::endl;
 
            recMdcKalTrackTds->setZError(zerrors[jj],jj);
            recMdcKalTrackTds->setFHelix(fhelixs[jj],jj);
            recMdcKalTrackTds->setFError(ferrors[jj],jj);
            //std::cout<<" step 3.5: "<<std::endl;
 
            recMdcKalTrackTds->setLHelix(lhelixs[jj],jj);
            recMdcKalTrackTds->setLError(lerrors[jj],jj);
            recMdcKalTrackTds->setPoca(pocas[jj],jj);
 
 
            recMdcKalTrackTds->setLPoint(lpoints[jj],jj);
            recMdcKalTrackTds->setLPivot(lpivots[jj],jj);
        }
        recMdcKalTrackTds->setTHelix(thelix);
        recMdcKalTrackTds->setTError(terror);
 
        //std::cout<<" step 4: "<<std::endl;
 
 
        log<<MSG::DEBUG<<"T to REC TDS, zhelix: "<<zhelix<<endreq;
        log<<MSG::DEBUG<<"T to REC TDS, zerror: "<<zerror<<endreq;
 
        m_common.m_rootRecMdcKalTrackMap[recMdcKalTrackRoot] = recMdcKalTrackTds;
 
        int nSegTot=0;
        for(int i=0; i<5; i++) {
            HelixSegRefVec theKalHelixSegRefVec;
 
            int nSeg=recMdcKalTrackRoot->getNseg(i);
            int iSeg=0;
            RecMdcKalHelixSegCol::iterator iter = recMdcKalHelixSegCol->begin();
            for (;iter != recMdcKalHelixSegCol->end(); iter++){
 
                //cout<<" (*iter)->getTrkId(): "<<(*iter)->getTrkId()<<endl;
                if((*iter)->getTrackId() == trackId){
                    if(iSeg>=nSegTot&&iSeg<nSeg+nSegTot) {
                        SmartRef<RecMdcKalHelixSeg> refhit(*iter);
                        theKalHelixSegRefVec.push_back(refhit);
                    }
                    iSeg++;
                }
            }
            nSegTot+=nSeg;
 
            recMdcKalTrackTds->setVecHelixSegs(theKalHelixSegRefVec,i);
        }
 
        int nhelixsegs = recMdcKalTrackTds->getVecHelixSegs().size();
 
        //std::cout<<" mdc hits: "<<nhelixsegs<< std::endl;
 
        for(int ii=0; ii <nhelixsegs ; ii++){
 
            //cout<<"ddl: "<<(recMdcTrack->getVecKalHelixSegs()[ii])->getDriftDistLeft()<<endl;
            //cout<<"erddl: "<<(recMdcTrack->getVecKalHelixSegs()[ii])->getErrDriftDistLeft()<<endl;
            Identifier id(recMdcKalTrackTds->getVecHelixSegs()[ii]->getMdcId());
            int layer = MdcID::layer(id);
            int wire = MdcID::wire(id);
            //cout<<"layer: "<<layer<<" wire: "<<wire<<endl;
        } 
 
        recMdcKalTrackCol->push_back(recMdcKalTrackTds);
 
    }
 
    delete m_recMdcKalTrackCol;
 
    m_recMdcKalTrackCol = 0;  
 
    return StatusCode::SUCCESS;
}

Friends And Related Function Documentation

◆ CnvFactory< RecMdcKalTrackCnv >

friend class CnvFactory< RecMdcKalTrackCnv >

friend

Definition at line 9 of file RecMdcKalTrackCnv.h.

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

Public Member Functions

Static Public Member Functions

Protected Member Functions

Friends

Additional Inherited Members