db/ddb/RecCgemKalTrackCnv_8cxx_source.html

#ifndef RecCgemKalTrackCnv_CXX

#define RecCgemKalTrackCnv_CXX  1


#include "GaudiKernel/MsgStream.h"

#include "GaudiKernel/DataObject.h"

#include "GaudiKernel/ObjectVector.h"

#include "TClonesArray.h"

#include "TClonesArray.h"

#include "Identifier/CgemID.h"

#include "Identifier/Identifier.h"


#include "EventModel/EventModel.h"

#include "CgemRecEvent/RecCgemKalTrack.h"

#include "CgemRecEvent/RecCgemKalHelixSeg.h"

#include "ReconEvent/ReconEvent.h"

//#include "RootEventData/TDstEvent.h"

#include "RootEventData/TRecTrackEvent.h"

#include "RootEventData/TRecCgemKalTrack.h"


#include "RootCnvSvc/Rec/RecTrackCnv.h"

#include "RootCnvSvc/Rec/RecCgemKalTrackCnv.h"

#include "RootCnvSvc/RootAddress.h"


#include <vector>


using namespace std;


// Instantiation of a static factory class used by clients to create

// instances of this service

//static CnvFactory<RecCgemKalTrackCnv> s_factory;

//const ICnvFactory& RecCgemKalTrackCnvFactory = s_factory;


RecCgemKalTrackCnv::RecCgemKalTrackCnv(ISvcLocator* svc)

: RootEventBaseCnv(classID(), svc)

{


    // Here we associate this converter with the /Event path on the TDS.

    MsgStream log(msgSvc(), "RecCgemKalTrackCnv");

    //log << MSG::DEBUG << "Constructor called for " << objType() << endreq;

    //m_rootTreename ="Rec";

    m_rootBranchname ="m_recCgemKalTrackCol";

    // declareObject(EventModel::Recon::CgemKalTrackCol, objType(), m_rootTreename, m_rootBranchname);

    m_adresses.push_back(&m_recCgemKalTrackCol);

    m_recCgemKalTrackCol = 0;

}


StatusCode RecCgemKalTrackCnv::TObjectToDataObject(DataObject*& refpObject) {

  // creation of TDS object from root object

    MsgStream log(msgSvc(), "RecCgemKalTrackCnv");

    log << MSG::DEBUG << "RecCgemKalTrackCnv::TObjectToDataObject" << endreq;

    StatusCode sc = StatusCode::SUCCESS;


    // create the TDS location for the CgemKalTrack Collection

    RecCgemKalTrackCol* recCgemKalTrackCol = new RecCgemKalTrackCol;

    refpObject = recCgemKalTrackCol;


    // now convert

    if (!m_recCgemKalTrackCol) return sc;

    TIter recCgemKalTrackIter(m_recCgemKalTrackCol);


    IDataProviderSvc* dataSvc = 0;

    sc = serviceLocator()->getService ("EventDataSvc",

       IDataProviderSvc::interfaceID(), (IInterface*&)dataSvc);

    if (!sc.isSuccess()) {

        log << MSG::FATAL << "Could not get EventDataSvc in RecCgemTrackCnv" << endreq;

        return( StatusCode::FAILURE);

    }

    SmartDataPtr<RecCgemKalHelixSegCol> recCgemKalHelixSegCol(dataSvc,"/Event/Recon/RecCgemKalHelixSegCol");

    if (!recCgemKalHelixSegCol) {

        log << MSG::FATAL << "Could not find RecCgemKalHelixSegCol" << endreq;

        return( StatusCode::FAILURE);

    }


    TRecCgemKalTrack *recCgemKalTrackRoot = 0;

    while ((recCgemKalTrackRoot = (TRecCgemKalTrack*)recCgemKalTrackIter.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     trackId;

      double  pathSM[5];

      double  fiTerm[5];

      //std::cout<<" step 0: "<<std::endl;


     RecCgemKalTrack *recCgemKalTrackTds = new RecCgemKalTrack();


     //std::cout<<" step 1: "<<std::endl;


     trackId = recCgemKalTrackRoot->getTrackId();

     // std::cout<<"track id: "<<trackId<<std::endl;

     recCgemKalTrackTds->setTrackId(trackId);


     for (int u=0; u<5; u++){

       mass[u]   = recCgemKalTrackRoot->getMass(u);

       length[u] = recCgemKalTrackRoot->getLength(u);

       tof[u]    = recCgemKalTrackRoot->getTof(u);

       nhits[u]  = recCgemKalTrackRoot->getNhits(u);

       fiTerm[u]=recCgemKalTrackRoot->getfiTerm(u);

       pathSM[u]=recCgemKalTrackRoot->getPathSM(u);


       recCgemKalTrackTds->setMass(mass[u],u);

       recCgemKalTrackTds->setLength(length[u],u);

       recCgemKalTrackTds->setTof(tof[u],u);

       recCgemKalTrackTds->setNhits(nhits[u],u);

       recCgemKalTrackTds->setFiTerm(fiTerm[u],u);

       recCgemKalTrackTds->setPathSM(pathSM[u],u);

     }


     for(int v=0; v<3; v++){

       poca_e[v]  = recCgemKalTrackRoot->getPocaE(v);

       poca_mu[v] = recCgemKalTrackRoot->getPocaMu(v);

       poca[v]    = recCgemKalTrackRoot->getPoca(v);

       poca_k[v]  = recCgemKalTrackRoot->getPocaK(v);

       poca_p[v]  = recCgemKalTrackRoot->getPocaP(v);

       lpivot_e[v]  = recCgemKalTrackRoot->getLPivotE(v);

       lpivot_mu[v] = recCgemKalTrackRoot->getLPivotMu(v);

       lpivot[v]    = recCgemKalTrackRoot->getLPivot(v);

       lpivot_k[v]  = recCgemKalTrackRoot->getLPivotK(v);

       lpivot_p[v]  = recCgemKalTrackRoot->getLPivotP(v);

       lpoint_e[v]  = recCgemKalTrackRoot->getLPointE(v);

       lpoint_mu[v] = recCgemKalTrackRoot->getLPointMu(v);

       lpoint[v]    = recCgemKalTrackRoot->getLPoint(v);

       lpoint_k[v]  = recCgemKalTrackRoot->getLPointK(v);

       lpoint_p[v]  = recCgemKalTrackRoot->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]    = recCgemKalTrackRoot->getZHelix(i);

       zhelix_e[i]  = recCgemKalTrackRoot->getZHelixE(i);

       zhelix_mu[i] = recCgemKalTrackRoot->getZHelixMu(i);

       zhelix_k[i]  = recCgemKalTrackRoot->getZHelixK(i);

       zhelix_p[i]  = recCgemKalTrackRoot->getZHelixP(i);


       fhelix[i]    = recCgemKalTrackRoot->getFHelix(i);

       fhelix_e[i]  = recCgemKalTrackRoot->getFHelixE(i);

       fhelix_mu[i] = recCgemKalTrackRoot->getFHelixMu(i);

       fhelix_k[i]  = recCgemKalTrackRoot->getFHelixK(i);

       fhelix_p[i]  = recCgemKalTrackRoot->getFHelixP(i);


       lhelix[i]    = recCgemKalTrackRoot->getLHelix(i);

       lhelix_e[i]  = recCgemKalTrackRoot->getLHelixE(i);

       lhelix_mu[i] = recCgemKalTrackRoot->getLHelixMu(i);

       lhelix_k[i]  = recCgemKalTrackRoot->getLHelixK(i);

       lhelix_p[i]  = recCgemKalTrackRoot->getLHelixP(i);


       thelix[i]    = recCgemKalTrackRoot->getTHelix(i);


       for (int j=0; j<=i; j++){


     zerror[i][j]    = recCgemKalTrackRoot->getZError(i,j);

     zerror_e[i][j]  = recCgemKalTrackRoot->getZErrorE(i,j);

     zerror_mu[i][j] = recCgemKalTrackRoot->getZErrorMu(i,j);

     zerror_k[i][j]  = recCgemKalTrackRoot->getZErrorK(i,j);

     zerror_p[i][j]  = recCgemKalTrackRoot->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]    = recCgemKalTrackRoot->getFError(i,j);

     ferror_e[i][j]  = recCgemKalTrackRoot->getFErrorE(i,j);

     ferror_mu[i][j] = recCgemKalTrackRoot->getFErrorMu(i,j);

     ferror_k[i][j]  = recCgemKalTrackRoot->getFErrorK(i,j);

     ferror_p[i][j]  = recCgemKalTrackRoot->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]    = recCgemKalTrackRoot->getLError(i,j);

     lerror_e[i][j]  = recCgemKalTrackRoot->getLErrorE(i,j);

     lerror_mu[i][j] = recCgemKalTrackRoot->getLErrorMu(i,j);

     lerror_k[i][j]  = recCgemKalTrackRoot->getLErrorK(i,j);

     lerror_p[i][j]  = recCgemKalTrackRoot->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] = recCgemKalTrackRoot->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;

   recCgemKalTrackTds->setCharge(charge,m);

   recCgemKalTrackTds->setPxy(pxy,m);

   recCgemKalTrackTds->setPx(px,m);

   recCgemKalTrackTds->setPy(py,m);

   recCgemKalTrackTds->setPz(pz,m);

   recCgemKalTrackTds->setP(ptot,m);

   recCgemKalTrackTds->setTheta(acos(pz/ptot),m);

   recCgemKalTrackTds->setPhi(atan2(py,px),m);

   recCgemKalTrackTds->setX(x,m);

   recCgemKalTrackTds->setY(y,m);

   recCgemKalTrackTds->setZ(z,m);

   recCgemKalTrackTds->setR(sqrt(x*x+y*y),m);

   /// the next three function need more consideration, temporarily


   for(int n=0; n<2; n++){

   int stat  = recCgemKalTrackRoot->getStat(n,m);

   int chisq = recCgemKalTrackRoot->getChisq(n,m);

   int ndf   = recCgemKalTrackRoot->getNdf(n,m);

   recCgemKalTrackTds->setStat(stat,n,m);

   recCgemKalTrackTds->setChisq(chisq,n,m);

   recCgemKalTrackTds->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;


   recCgemKalTrackTds->setZHelix(zhelixs[jj],jj);

   //std::cout<<" step 3.1: "<<std::endl;


   recCgemKalTrackTds->setZError(zerrors[jj],jj);

   recCgemKalTrackTds->setFHelix(fhelixs[jj],jj);

   recCgemKalTrackTds->setFError(ferrors[jj],jj);

   //std::cout<<" step 3.5: "<<std::endl;


   recCgemKalTrackTds->setLHelix(lhelixs[jj],jj);

   recCgemKalTrackTds->setLError(lerrors[jj],jj);

   recCgemKalTrackTds->setPoca(pocas[jj],jj);


   recCgemKalTrackTds->setLPoint(lpoints[jj],jj);

   recCgemKalTrackTds->setLPivot(lpivots[jj],jj);

 }

   recCgemKalTrackTds->setTHelix(thelix);

   recCgemKalTrackTds->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_rootRecCgemKalTrackMap[recCgemKalTrackRoot] = recCgemKalTrackTds;


    RecCgemHelixSegRefVec theKalHelixSegRefVec;


    RecCgemKalHelixSegCol::iterator iter = recCgemKalHelixSegCol->begin();

    for (;iter != recCgemKalHelixSegCol->end(); iter++){


      //cout<<" (*iter)->getTrkId(): "<<(*iter)->getTrkId()<<endl;

      if((*iter)->getTrackId() == trackId){

    SmartRef<RecCgemKalHelixSeg> refhit(*iter);

    theKalHelixSegRefVec.push_back(refhit);

      }

    }


    recCgemKalTrackTds->setVecHelixSegs(theKalHelixSegRefVec);


    int nhelixsegs = recCgemKalTrackTds->getVecHelixSegs().size();


    //std::cout<<" cgem hits: "<<nhelixsegs<< std::endl;


    for(int ii=0; ii <nhelixsegs ; ii++)

    {

      //cout<<"ddl: "<<(recCgemTrack->getVecKalHelixSegs()[ii])->getDriftDistLeft()<<endl;

      //cout<<"erddl: "<<(recCgemTrack->getVecKalHelixSegs()[ii])->getErrDriftDistLeft()<<endl;

      Identifier id(recCgemKalTrackTds->getVecHelixSegs()[ii]->getCgemId());

      int layer = CgemID::layer(id);

      int sheet = CgemID::sheet(id);

      int strip = CgemID::strip(id);

      //cout<<"layer: "<<layer<<" wire: "<<wire<<endl;

    }


    recCgemKalTrackCol->push_back(recCgemKalTrackTds);


    }


    delete m_recCgemKalTrackCol;


    m_recCgemKalTrackCol = 0;


    return StatusCode::SUCCESS;

}


StatusCode RecCgemKalTrackCnv::DataObjectToTObject(DataObject* obj,RootAddress* rootaddr) {


  MsgStream log(msgSvc(), "RecCgemKalTrackCnv");

  log << MSG::DEBUG << "RecCgemKalTrackCnv::DataObjectToTObject" << endreq;

  StatusCode sc=StatusCode::SUCCESS;


  RecCgemKalTrackCol * cgemKalTrackColTds=dynamic_cast<RecCgemKalTrackCol *> (obj);

  if (!cgemKalTrackColTds) {

    log << MSG::ERROR << "Could not downcast to RecCgemKalTrackCol" << 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 << "CgemKalTrackCnv: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_recCgemKalTrackCol = recEvt->getRecCgemKalTrackCol();


  if (!m_recCgemKalTrackCol) return sc;


  recEvt->clearRecCgemKalTrackCol(); //necessary in case there is I/O at the same time since array is static

  RecCgemKalTrackCol::const_iterator cgemKalTrackTds;


  for (cgemKalTrackTds = cgemKalTrackColTds->begin(); cgemKalTrackTds != cgemKalTrackColTds->end(); cgemKalTrackTds++) {


    // 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 stat[2][5];

       Double_t chisq[2][5];

       Int_t ndf[2][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];


       TRecCgemKalTrack *cgemKalTrackRoot = new TRecCgemKalTrack();


       trackId = (*cgemKalTrackTds)->getTrackId();

       for (Int_t i = 0 ; i < 5 ; i++){

        mass[i] = (*cgemKalTrackTds)->getMass(i);

        length[i] = (*cgemKalTrackTds)->getLength(i);

        tof[i] = (*cgemKalTrackTds)->getTof(i);

        nhits[i] = (*cgemKalTrackTds)->getNhits(i);

        fiTerm[i]=(*cgemKalTrackTds)->getFiTerm(i);

        pathSM[i]=(*cgemKalTrackTds)->getPathSM(i);

    //stat[i] = (*cgemKalTrackTds)->getStat(i);

        for (Int_t j = 0 ; j< 2 ; j++){

    stat[j][i] = (*cgemKalTrackTds)->getStat(j,i);

    chisq[j][i] = (*cgemKalTrackTds)->getChisq(j,i);

    ndf[j][i] = (*cgemKalTrackTds)->getNdf(j,i);

    cgemKalTrackRoot->setStat(stat[j][i],j,i);

    cgemKalTrackRoot->setChisq(chisq[j][i],j,i);

    cgemKalTrackRoot->setNdf(ndf[j][i],j,i);

        }

       }

       for(Int_t i=0;i<5;i++){

           log<<MSG::INFO<<" recCgemKalTrack.helix("<<i<<"): "<<(*cgemKalTrackTds)->getTHelix(i)<<endreq;

           thelix[i] = (*cgemKalTrackTds)->getTHelix(i);

       }

       for(Int_t i=0; i<15; i++){

           terror[i] = (*cgemKalTrackTds)->getTError(i);

       }

       HepPoint3D h_poca_e     = (*cgemKalTrackTds)->getPocaE();

       HepPoint3D h_poca_mu    = (*cgemKalTrackTds)->getPocaMu();

       HepPoint3D h_poca       = (*cgemKalTrackTds)->getPoca();

       HepPoint3D h_poca_k     = (*cgemKalTrackTds)->getPocaK();

       HepPoint3D h_poca_p     = (*cgemKalTrackTds)->getPocaP();

       HepPoint3D h_lpoint_e   = (*cgemKalTrackTds)->getLPointE();

       HepPoint3D h_lpoint_mu  = (*cgemKalTrackTds)->getLPointMu();

       HepPoint3D h_lpoint     = (*cgemKalTrackTds)->getLPoint();

       HepPoint3D h_lpoint_k   = (*cgemKalTrackTds)->getLPointK();

       HepPoint3D h_lpoint_p   = (*cgemKalTrackTds)->getLPointP();

       HepPoint3D h_lpivot_e   = (*cgemKalTrackTds)->getLPivotE();

       HepPoint3D h_lpivot_mu  = (*cgemKalTrackTds)->getLPivotMu();

       HepPoint3D h_lpivot     = (*cgemKalTrackTds)->getLPivot();

       HepPoint3D h_lpivot_k   = (*cgemKalTrackTds)->getLPivotK();

       HepPoint3D h_lpivot_p   = (*cgemKalTrackTds)->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      = (*cgemKalTrackTds)->getZHelix();

       HepSymMatrix h_zerror   = (*cgemKalTrackTds)->getZError();

       HepVector h_zhelix_e    = (*cgemKalTrackTds)->getZHelixE();

       HepSymMatrix h_zerror_e = (*cgemKalTrackTds)->getZErrorE();

       HepVector h_zhelix_mu   = (*cgemKalTrackTds)->getZHelixMu();

       HepSymMatrix h_zerror_mu= (*cgemKalTrackTds)->getZErrorMu();

       HepVector h_zhelix_k    = (*cgemKalTrackTds)->getZHelixK();

       HepSymMatrix h_zerror_k = (*cgemKalTrackTds)->getZErrorK();

       HepVector h_zhelix_p    = (*cgemKalTrackTds)->getZHelixP();

       HepSymMatrix h_zerror_p = (*cgemKalTrackTds)->getZErrorP();


       HepVector h_fhelix      = (*cgemKalTrackTds)->getFHelix();

       HepSymMatrix h_ferror   = (*cgemKalTrackTds)->getFError();

       HepVector h_fhelix_e    = (*cgemKalTrackTds)->getFHelixE();

       HepSymMatrix h_ferror_e = (*cgemKalTrackTds)->getFErrorE();

       HepVector h_fhelix_mu   = (*cgemKalTrackTds)->getFHelixMu();

       HepSymMatrix h_ferror_mu= (*cgemKalTrackTds)->getFErrorMu();

       HepVector h_fhelix_k    = (*cgemKalTrackTds)->getFHelixK();

       HepSymMatrix h_ferror_k = (*cgemKalTrackTds)->getFErrorK();

       HepVector h_fhelix_p    = (*cgemKalTrackTds)->getFHelixP();

       HepSymMatrix h_ferror_p = (*cgemKalTrackTds)->getFErrorP();


       HepVector h_lhelix      = (*cgemKalTrackTds)->getLHelix();

       HepSymMatrix h_lerror   = (*cgemKalTrackTds)->getLError();

       HepVector h_lhelix_e    = (*cgemKalTrackTds)->getLHelixE();

       HepSymMatrix h_lerror_e = (*cgemKalTrackTds)->getLErrorE();

       HepVector h_lhelix_mu   = (*cgemKalTrackTds)->getLHelixMu();

       HepSymMatrix h_lerror_mu= (*cgemKalTrackTds)->getLErrorMu();

       HepVector h_lhelix_k    = (*cgemKalTrackTds)->getLHelixK();

       HepSymMatrix h_lerror_k = (*cgemKalTrackTds)->getLErrorK();

       HepVector h_lhelix_p    = (*cgemKalTrackTds)->getLHelixP();

       HepSymMatrix h_lerror_p = (*cgemKalTrackTds)->getLErrorP();


       cgemKalTrackRoot->setTrackId(trackId);

       cgemKalTrackRoot->setMass(mass);

       cgemKalTrackRoot->setLength(length);

       cgemKalTrackRoot->setTof(tof);

       cgemKalTrackRoot->setNhits(nhits);

       cgemKalTrackRoot->setFiTerm(fiTerm);

       cgemKalTrackRoot->setPathSM(pathSM);

       // cgemKalTrackRoot->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];


    }

       }


       cgemKalTrackRoot->setZHelix(zhelix);

       cgemKalTrackRoot->setZError(zerror);

       for(int k=0; k<5; k++){

     log<<MSG::INFO<<" RecCgemKalTrackRoot.ZHelix "<<"["<<k<<"]"

                   <<cgemKalTrackRoot->getZHelix(k)<<endreq;

       }

       cgemKalTrackRoot->setZHelixE(zhelix_e);

       cgemKalTrackRoot->setZErrorE(zerror_e);

       cgemKalTrackRoot->setZHelixMu(zhelix_mu);

       cgemKalTrackRoot->setZErrorMu(zerror_mu);

       cgemKalTrackRoot->setZHelixK(zhelix_k);

       cgemKalTrackRoot->setZErrorK(zerror_k);

       cgemKalTrackRoot->setZHelixP(zhelix_p);

       cgemKalTrackRoot->setZErrorP(zerror_p);

       cgemKalTrackRoot->setFHelix(fhelix);

       cgemKalTrackRoot->setFError(ferror);

       cgemKalTrackRoot->setFHelixE(fhelix_e);

       cgemKalTrackRoot->setFErrorE(ferror_e);

       cgemKalTrackRoot->setFHelixMu(fhelix_mu);

       cgemKalTrackRoot->setFErrorMu(ferror_mu);

       cgemKalTrackRoot->setFHelixK(fhelix_k);

       cgemKalTrackRoot->setFErrorK(ferror_k);

       cgemKalTrackRoot->setFHelixP(fhelix_p);

       cgemKalTrackRoot->setFErrorP(ferror_p);


       cgemKalTrackRoot->setLHelix(lhelix);

       cgemKalTrackRoot->setLError(lerror);

       cgemKalTrackRoot->setLHelixE(lhelix_e);

       cgemKalTrackRoot->setLErrorE(lerror_e);

       cgemKalTrackRoot->setLHelixMu(lhelix_mu);

       cgemKalTrackRoot->setLErrorMu(lerror_mu);

       cgemKalTrackRoot->setLHelixK(lhelix_k);

       cgemKalTrackRoot->setLErrorK(lerror_k);

       cgemKalTrackRoot->setLHelixP(lhelix_p);

       cgemKalTrackRoot->setLErrorP(lerror_p);


       cgemKalTrackRoot->setTHelix(thelix);

       cgemKalTrackRoot->setTError(terror);


       cgemKalTrackRoot->setPocaE(poca_e);

       cgemKalTrackRoot->setPocaMu(poca_mu);

       cgemKalTrackRoot->setPoca(poca);

       cgemKalTrackRoot->setPocaK(poca_k);

       cgemKalTrackRoot->setPocaP(poca_p);


       cgemKalTrackRoot->setLPointE(lpoint_e);

       cgemKalTrackRoot->setLPointMu(lpoint_mu);

       cgemKalTrackRoot->setLPoint(lpoint);

       cgemKalTrackRoot->setLPointK(lpoint_k);

       cgemKalTrackRoot->setLPointP(lpoint_p);


       cgemKalTrackRoot->setLPivotE(lpivot_e);

       cgemKalTrackRoot->setLPivotMu(lpivot_mu);

       cgemKalTrackRoot->setLPivot(lpivot);

       cgemKalTrackRoot->setLPivotK(lpivot_k);

       cgemKalTrackRoot->setLPivotP(lpivot_p);

       //std::cout<<" cgemKalTrackRoot->getPivotE(1): "<<cgemKalTrackRoot->getLPivotE(1)<<std::endl;


       recEvt->addRecCgemKalTrack(cgemKalTrackRoot);

  }


  return StatusCode::SUCCESS;

}


#endif

sin
double sin(const BesAngle a)
Definition BesAngle.h:210

cos
double cos(const BesAngle a)
Definition BesAngle.h:213

CgemID.h

length
double length
Definition CgemLineFit.cxx:106

mass
double mass
Definition CosmicGenerator.cxx:138

n
const Int_t n
Definition DataBase/tau_mode.c:65

x
Double_t x[10]
Definition DataBase/tau_mode.c:57

EventModel.h

iter
EvtStreamInputIterator< typename Generator::result_type > iter(Generator gen, int N=0)
Definition EvtStreamInputIterator.hh:101

s
XmlRpcServer s
Definition HelloServer.cpp:11

Identifier.h

v
**********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

RecCgemKalHelixSeg.h

RecCgemKalTrackCnv.h

RecCgemKalTrack.h

RecCgemHelixSegRefVec
SmartRefVector< RecCgemKalHelixSeg > RecCgemHelixSegRefVec
Definition RecCgemKalTrack.h:27

RecCgemKalTrackCol
ObjectVector< RecCgemKalTrack > RecCgemKalTrackCol
Definition RecCgemKalTrack.h:346

RecTrackCnv.h

ReconEvent.h

RootAddress.h

msgSvc
IMessageSvc * msgSvc()
Definition ServiceAccessor.h:13

TRecCgemKalTrack.h

TRecTrackEvent.h

CgemID::strip
static int strip(const Identifier &id)
Definition CgemID.cxx:83

CgemID::sheet
static int sheet(const Identifier &id)
Definition CgemID.cxx:77

CgemID::layer
static int layer(const Identifier &id)
Definition CgemID.cxx:71

DstCgemKalTrack::setStat
void setStat(int stat, int i, int pid)
Definition DstCgemKalTrack.h:120

DstCgemKalTrack::setCharge
void setCharge(const int charge, const int pid)
Definition DstCgemKalTrack.h:108

DstCgemKalTrack::setChisq
void setChisq(double chisq, int i, int pid)
Definition DstCgemKalTrack.h:121

DstCgemKalTrack::setZ
void setZ(const double z, const int pid)
Definition DstCgemKalTrack.h:118

DstCgemKalTrack::setX
void setX(const double x, const int pid)
Definition DstCgemKalTrack.h:116

DstCgemKalTrack::setPy
void setPy(const double py, const int pid)
Definition DstCgemKalTrack.h:111

DstCgemKalTrack::setR
void setR(const double r, const int pid)
Definition DstCgemKalTrack.h:119

DstCgemKalTrack::setPoca
void setPoca(const HepPoint3D &poca, const int pid)
Definition DstCgemKalTrack.h:127

DstCgemKalTrack::setP
void setP(const double p, const int pid)
Definition DstCgemKalTrack.h:113

DstCgemKalTrack::setTrackId
void setTrackId(int trackId)
Definition DstCgemKalTrack.h:106

DstCgemKalTrack::setPz
void setPz(const double pz, const int pid)
Definition DstCgemKalTrack.h:112

DstCgemKalTrack::setZHelix
void setZHelix(const HepVector &helix, const int pid)
Definition DstCgemKalTrack.h:137

DstCgemKalTrack::setY
void setY(const double y, const int pid)
Definition DstCgemKalTrack.h:117

DstCgemKalTrack::setTheta
void setTheta(const double theta, const int pid)
Definition DstCgemKalTrack.h:114

DstCgemKalTrack::setPhi
void setPhi(const double phi, const int pid)
Definition DstCgemKalTrack.h:115

DstCgemKalTrack::setNdf
void setNdf(int ndf, int i, int pid)
Definition DstCgemKalTrack.h:125

DstCgemKalTrack::setZError
void setZError(const HepSymMatrix &error, const int pid)
Definition DstCgemKalTrack.h:141

DstCgemKalTrack::setPxy
void setPxy(const double pxy, const int pid)
Definition DstCgemKalTrack.h:109

DstCgemKalTrack::setFError
void setFError(const HepSymMatrix &ferror, const int pid)
Definition DstCgemKalTrack.h:166

DstCgemKalTrack::setPx
void setPx(const double px, const int pid)
Definition DstCgemKalTrack.h:110

DstCgemKalTrack::setFHelix
void setFHelix(const HepVector &fhelix, const int pid)
Definition DstCgemKalTrack.h:162

HepGeom::Point3D< double >

Identifier
Definition Identifier.h:20

RecCgemKalTrackCnv::TObjectToDataObject
virtual StatusCode TObjectToDataObject(DataObject *&obj)
transformation from root
Definition RecCgemKalTrackCnv.cxx:47

RecCgemKalTrackCnv::RecCgemKalTrackCnv
RecCgemKalTrackCnv(ISvcLocator *svc)
Definition RecCgemKalTrackCnv.cxx:33

RecCgemKalTrackCnv::DataObjectToTObject
virtual StatusCode DataObjectToTObject(DataObject *obj, RootAddress *addr)
transformation to root
Definition RecCgemKalTrackCnv.cxx:457

RecCgemKalTrack
Definition RecCgemKalTrack.h:30

RecCgemKalTrack::setFiTerm
void setFiTerm(double fi, const int pid)
Definition RecCgemKalTrack.h:288

RecCgemKalTrack::getVecHelixSegs
RecCgemHelixSegRefVec getVecHelixSegs(void) const
Definition RecCgemKalTrack.cxx:169

RecCgemKalTrack::setPathSM
void setPathSM(double length, int pid)
Definition RecCgemKalTrack.h:169

RecCgemKalTrack::setLPoint
void setLPoint(const HepPoint3D &point, const int pid)
Definition RecCgemKalTrack.h:283

RecCgemKalTrack::setTof
void setTof(double tof, int pid)
Definition RecCgemKalTrack.h:160

RecCgemKalTrack::setMass
void setMass(double mass, int pid)
Definition RecCgemKalTrack.h:158

RecCgemKalTrack::setTError
void setTError(const HepSymMatrix &error)
Definition RecCgemKalTrack.h:249

RecCgemKalTrack::setLPivot
void setLPivot(const HepPoint3D &pivot, const int pid)
Definition RecCgemKalTrack.h:293

RecCgemKalTrack::setLength
void setLength(double length, int pid)
Definition RecCgemKalTrack.h:159

RecCgemKalTrack::setLError
void setLError(const HepSymMatrix &error, const int pid)
Definition RecCgemKalTrack.h:223

RecCgemKalTrack::setLHelix
void setLHelix(const HepVector &helix, const int pid)
Definition RecCgemKalTrack.h:220

RecCgemKalTrack::setTHelix
void setTHelix(const HepVector &helix)
Definition RecCgemKalTrack.h:243

RecCgemKalTrack::setVecHelixSegs
void setVecHelixSegs(const RecCgemHelixSegRefVec &vechelixsegs)
Definition RecCgemKalTrack.cxx:173

RecCgemKalTrack::setNhits
void setNhits(int nhits, int pid)
Definition RecCgemKalTrack.h:161

RecTrackCnv::getWriteObject
static TRecTrackEvent * getWriteObject()
returns object to be written (maintained here for all DIGI-converters)
Definition RecTrackCnv.h:36

ReconEvent
Definition ReconEvent.h:8

RootAddress
Definition of a Root address, derived from IOpaqueAddress.
Definition RootAddress.h:21

RootCnvSvc::getRecTrackCnv
RecTrackCnv * getRecTrackCnv()
Definition RootCnvSvc.h:166

RootEventBaseCnv
Base class for all Root Converters.
Definition RootEventBaseCnv.h:36

RootEventBaseCnv::m_adresses
std::vector< void * > m_adresses
each converter knows the corresponding adresses
Definition RootEventBaseCnv.h:73

RootEventBaseCnv::m_cnvSvc
RootCnvSvc * m_cnvSvc
Definition RootEventBaseCnv.h:39

RootEventBaseCnv::m_eds
IDataProviderSvc * m_eds
pointer to eventdataservice
Definition RootEventBaseCnv.h:46

RootEventBaseCnv::m_rootBranchname
std::string m_rootBranchname
root branchname (may be concatenated of severals)
Definition RootEventBaseCnv.h:67

RootEventBaseCnv::createRep
virtual StatusCode createRep(DataObject *pObject, IOpaqueAddress *&refpAddress)
Convert the transient object to the requested representation.
Definition RootEventBaseCnv.cxx:78

TRecCgemKalTrack
Definition TRecCgemKalTrack.h:7

TRecCgemKalTrack::setTrackId
void setTrackId(const Int_t trackId)
Definition TRecCgemKalTrack.h:82

TRecCgemKalTrack::getChisq
const Double_t getChisq(Int_t i, Int_t pid) const
Definition TRecCgemKalTrack.h:23

TRecCgemKalTrack::getZErrorMu
const Double_t getZErrorMu(Int_t i, Int_t j) const
Definition TRecCgemKalTrack.h:30

TRecCgemKalTrack::setLError
void setLError(const Double_t lerror[5][5])
Definition TRecCgemKalTrack.h:238

TRecCgemKalTrack::getLPointMu
const Double_t getLPointMu(Int_t i) const
Definition TRecCgemKalTrack.h:69

TRecCgemKalTrack::getLHelixE
const Double_t getLHelixE(Int_t i) const
Definition TRecCgemKalTrack.h:47

TRecCgemKalTrack::setLHelixMu
void setLHelixMu(const Double_t lhelix_mu[5])
Definition TRecCgemKalTrack.h:258

TRecCgemKalTrack::setFHelixMu
void setFHelixMu(const Double_t fhelix_mu[5])
Definition TRecCgemKalTrack.h:199

TRecCgemKalTrack::getPocaMu
const Double_t getPocaMu(Int_t i) const
Definition TRecCgemKalTrack.h:60

TRecCgemKalTrack::setLPointK
void setLPointK(const Double_t lpoint_k[3])
Definition TRecCgemKalTrack.h:339

TRecCgemKalTrack::getLPivot
const Double_t getLPivot(Int_t i) const
Definition TRecCgemKalTrack.h:76

TRecCgemKalTrack::getLErrorMu
const Double_t getLErrorMu(Int_t i, Int_t j) const
Definition TRecCgemKalTrack.h:50

TRecCgemKalTrack::setLPointP
void setLPointP(const Double_t lpoint_p[3])
Definition TRecCgemKalTrack.h:343

TRecCgemKalTrack::getLHelixP
const Double_t getLHelixP(Int_t i) const
Definition TRecCgemKalTrack.h:53

TRecCgemKalTrack::getLPivotK
const Double_t getLPivotK(Int_t i) const
Definition TRecCgemKalTrack.h:77

TRecCgemKalTrack::getMass
const Double_t getMass(Int_t pid) const
Definition TRecCgemKalTrack.h:16

TRecCgemKalTrack::setLHelix
void setLHelix(const Double_t lhelix[5])
Definition TRecCgemKalTrack.h:234

TRecCgemKalTrack::setTof
void setTof(const Double_t tof[5])
Definition TRecCgemKalTrack.h:103

TRecCgemKalTrack::setLPivot
void setLPivot(const Double_t lpivot[3])
Definition TRecCgemKalTrack.h:355

TRecCgemKalTrack::getFErrorK
const Double_t getFErrorK(Int_t i, Int_t j) const
Definition TRecCgemKalTrack.h:42

TRecCgemKalTrack::setFHelix
void setFHelix(const Double_t fhelix[5])
Definition TRecCgemKalTrack.h:176

TRecCgemKalTrack::setLPointE
void setLPointE(const Double_t lpoint_e[3])
Definition TRecCgemKalTrack.h:327

TRecCgemKalTrack::setZHelixE
void setZHelixE(const Double_t zhelix_e[5])
Definition TRecCgemKalTrack.h:128

TRecCgemKalTrack::setNhits
void setNhits(const Int_t nhits[5])
Definition TRecCgemKalTrack.h:108

TRecCgemKalTrack::getFErrorP
const Double_t getFErrorP(Int_t i, Int_t j) const
Definition TRecCgemKalTrack.h:44

TRecCgemKalTrack::getTrackId
const Int_t getTrackId() const
Definition TRecCgemKalTrack.h:15

TRecCgemKalTrack::setTError
void setTError(const Double_t terror[15])
Definition TRecCgemKalTrack.h:301

TRecCgemKalTrack::getZErrorE
const Double_t getZErrorE(Int_t i, Int_t j) const
Definition TRecCgemKalTrack.h:28

TRecCgemKalTrack::getLPivotP
const Double_t getLPivotP(Int_t i) const
Definition TRecCgemKalTrack.h:78

TRecCgemKalTrack::setPathSM
void setPathSM(const Double_t pathSM[5])
Definition TRecCgemKalTrack.h:98

TRecCgemKalTrack::getLPivotE
const Double_t getLPivotE(Int_t i) const
Definition TRecCgemKalTrack.h:74

TRecCgemKalTrack::setMass
void setMass(const Double_t mass[5])
Definition TRecCgemKalTrack.h:83

TRecCgemKalTrack::getPocaK
const Double_t getPocaK(Int_t i) const
Definition TRecCgemKalTrack.h:64

TRecCgemKalTrack::getStat
const Int_t getStat(Int_t i, Int_t pid) const
Definition TRecCgemKalTrack.h:22

TRecCgemKalTrack::setLPoint
void setLPoint(const Double_t lpoint[3])
Definition TRecCgemKalTrack.h:335

TRecCgemKalTrack::setLErrorE
void setLErrorE(const Double_t lerror_e[5][5])
Definition TRecCgemKalTrack.h:250

TRecCgemKalTrack::getFErrorE
const Double_t getFErrorE(Int_t i, Int_t j) const
Definition TRecCgemKalTrack.h:38

TRecCgemKalTrack::setLErrorK
void setLErrorK(const Double_t lerror_k[5][5])
Definition TRecCgemKalTrack.h:276

TRecCgemKalTrack::setFErrorMu
void setFErrorMu(const Double_t ferror_mu[5][5])
Definition TRecCgemKalTrack.h:203

TRecCgemKalTrack::setPocaE
void setPocaE(const Double_t poca_e[3])
Definition TRecCgemKalTrack.h:307

TRecCgemKalTrack::setPocaMu
void setPocaMu(const Double_t poca_mu[3])
Definition TRecCgemKalTrack.h:311

TRecCgemKalTrack::getLPoint
const Double_t getLPoint(Int_t i) const
Definition TRecCgemKalTrack.h:70

TRecCgemKalTrack::setLength
void setLength(const Double_t length[5])
Definition TRecCgemKalTrack.h:88

TRecCgemKalTrack::setLHelixK
void setLHelixK(const Double_t lhelix_k[5])
Definition TRecCgemKalTrack.h:271

TRecCgemKalTrack::setFHelixK
void setFHelixK(const Double_t fhelix_k[5])
Definition TRecCgemKalTrack.h:210

TRecCgemKalTrack::getLErrorP
const Double_t getLErrorP(Int_t i, Int_t j) const
Definition TRecCgemKalTrack.h:54

TRecCgemKalTrack::getZHelixK
const Double_t getZHelixK(Int_t i) const
Definition TRecCgemKalTrack.h:31

TRecCgemKalTrack::setLPivotP
void setLPivotP(const Double_t lpivot_p[3])
Definition TRecCgemKalTrack.h:363

TRecCgemKalTrack::getLPointK
const Double_t getLPointK(Int_t i) const
Definition TRecCgemKalTrack.h:71

TRecCgemKalTrack::getFHelix
const Double_t getFHelix(Int_t i) const
Definition TRecCgemKalTrack.h:35

TRecCgemKalTrack::getLHelix
const Double_t getLHelix(Int_t i) const
Definition TRecCgemKalTrack.h:45

TRecCgemKalTrack::setZHelixP
void setZHelixP(const Double_t zhelix_p[5])
Definition TRecCgemKalTrack.h:163

TRecCgemKalTrack::getPoca
const Double_t getPoca(Int_t i) const
Definition TRecCgemKalTrack.h:62

TRecCgemKalTrack::setFiTerm
void setFiTerm(const Double_t fiTerm[5])
Definition TRecCgemKalTrack.h:93

TRecCgemKalTrack::setFError
void setFError(const Double_t ferror[5][5])
Definition TRecCgemKalTrack.h:181

TRecCgemKalTrack::setFErrorE
void setFErrorE(const Double_t ferror_e[5][5])
Definition TRecCgemKalTrack.h:192

TRecCgemKalTrack::getTHelix
const Double_t getTHelix(Int_t i) const
Definition TRecCgemKalTrack.h:55

TRecCgemKalTrack::getLError
const Double_t getLError(Int_t i, Int_t j) const
Definition TRecCgemKalTrack.h:46

TRecCgemKalTrack::getZHelixMu
const Double_t getZHelixMu(Int_t i) const
Definition TRecCgemKalTrack.h:29

TRecCgemKalTrack::setStat
void setStat(const Int_t stat, Int_t i, Int_t pid)
Definition TRecCgemKalTrack.h:113

TRecCgemKalTrack::setZError
void setZError(const Double_t zerror[5][5])
Definition TRecCgemKalTrack.h:121

TRecCgemKalTrack::getLHelixMu
const Double_t getLHelixMu(Int_t i) const
Definition TRecCgemKalTrack.h:49

TRecCgemKalTrack::getLErrorK
const Double_t getLErrorK(Int_t i, Int_t j) const
Definition TRecCgemKalTrack.h:52

TRecCgemKalTrack::setLErrorP
void setLErrorP(const Double_t lerror_p[5][5])
Definition TRecCgemKalTrack.h:289

TRecCgemKalTrack::setLPivotK
void setLPivotK(const Double_t lpivot_k[3])
Definition TRecCgemKalTrack.h:359

TRecCgemKalTrack::setPoca
void setPoca(const Double_t poca[3])
Definition TRecCgemKalTrack.h:315

TRecCgemKalTrack::setZErrorP
void setZErrorP(const Double_t zerror_p[5][5])
Definition TRecCgemKalTrack.h:167

TRecCgemKalTrack::getNdf
const Int_t getNdf(Int_t i, Int_t pid) const
Definition TRecCgemKalTrack.h:24

TRecCgemKalTrack::getLPivotMu
const Double_t getLPivotMu(Int_t i) const
Definition TRecCgemKalTrack.h:75

TRecCgemKalTrack::setFHelixP
void setFHelixP(const Double_t fhelix_p[5])
Definition TRecCgemKalTrack.h:221

TRecCgemKalTrack::getFError
const Double_t getFError(Int_t i, Int_t j) const
Definition TRecCgemKalTrack.h:36

TRecCgemKalTrack::setZHelixK
void setZHelixK(const Double_t zhelix_k[5])
Definition TRecCgemKalTrack.h:152

TRecCgemKalTrack::getZErrorK
const Double_t getZErrorK(Int_t i, Int_t j) const
Definition TRecCgemKalTrack.h:32

TRecCgemKalTrack::getFHelixMu
const Double_t getFHelixMu(Int_t i) const
Definition TRecCgemKalTrack.h:39

TRecCgemKalTrack::setZErrorMu
void setZErrorMu(const Double_t zerror_mu[5][5])
Definition TRecCgemKalTrack.h:145

TRecCgemKalTrack::getLErrorE
const Double_t getLErrorE(Int_t i, Int_t j) const
Definition TRecCgemKalTrack.h:48

TRecCgemKalTrack::getZHelixE
const Double_t getZHelixE(Int_t i) const
Definition TRecCgemKalTrack.h:27

TRecCgemKalTrack::getZErrorP
const Double_t getZErrorP(Int_t i, Int_t j) const
Definition TRecCgemKalTrack.h:34

TRecCgemKalTrack::setLHelixE
void setLHelixE(const Double_t lhelix_e[5])
Definition TRecCgemKalTrack.h:245

TRecCgemKalTrack::setZHelixMu
void setZHelixMu(const Double_t zhelix_mu[5])
Definition TRecCgemKalTrack.h:140

TRecCgemKalTrack::getPocaE
const Double_t getPocaE(Int_t i) const
Definition TRecCgemKalTrack.h:58

TRecCgemKalTrack::setFHelixE
void setFHelixE(const Double_t fhelix_e[5])
Definition TRecCgemKalTrack.h:188

TRecCgemKalTrack::setChisq
void setChisq(const Double_t chisq, Int_t i, Int_t pid)
Definition TRecCgemKalTrack.h:114

TRecCgemKalTrack::getFHelixE
const Double_t getFHelixE(Int_t i) const
Definition TRecCgemKalTrack.h:37

TRecCgemKalTrack::getPocaP
const Double_t getPocaP(Int_t i) const
Definition TRecCgemKalTrack.h:66

TRecCgemKalTrack::getLPointP
const Double_t getLPointP(Int_t i) const
Definition TRecCgemKalTrack.h:72

TRecCgemKalTrack::setPocaK
void setPocaK(const Double_t poca_k[3])
Definition TRecCgemKalTrack.h:319

TRecCgemKalTrack::getZHelixP
const Double_t getZHelixP(Int_t i) const
Definition TRecCgemKalTrack.h:33

TRecCgemKalTrack::getFHelixK
const Double_t getFHelixK(Int_t i) const
Definition TRecCgemKalTrack.h:41

TRecCgemKalTrack::setLErrorMu
void setLErrorMu(const Double_t lerror_mu[5][5])
Definition TRecCgemKalTrack.h:263

TRecCgemKalTrack::setZHelix
void setZHelix(const Double_t zhelix[5])
Definition TRecCgemKalTrack.h:117

TRecCgemKalTrack::setLPointMu
void setLPointMu(const Double_t lpoint_mu[3])
Definition TRecCgemKalTrack.h:331

TRecCgemKalTrack::getfiTerm
const Double_t getfiTerm(Int_t pid) const
Definition TRecCgemKalTrack.h:19

TRecCgemKalTrack::getFErrorMu
const Double_t getFErrorMu(Int_t i, Int_t j) const
Definition TRecCgemKalTrack.h:40

TRecCgemKalTrack::getTof
const Double_t getTof(Int_t pid) const
Definition TRecCgemKalTrack.h:18

TRecCgemKalTrack::setNdf
void setNdf(const Int_t ndf, Int_t i, Int_t pid)
Definition TRecCgemKalTrack.h:115

TRecCgemKalTrack::setPocaP
void setPocaP(const Double_t poca_p[3])
Definition TRecCgemKalTrack.h:323

TRecCgemKalTrack::setLHelixP
void setLHelixP(const Double_t lhelix_p[5])
Definition TRecCgemKalTrack.h:284

TRecCgemKalTrack::getLHelixK
const Double_t getLHelixK(Int_t i) const
Definition TRecCgemKalTrack.h:51

TRecCgemKalTrack::setTHelix
void setTHelix(const Double_t thelix[5])
Definition TRecCgemKalTrack.h:297

TRecCgemKalTrack::setLPivotE
void setLPivotE(const Double_t lpivot_e[3])
Definition TRecCgemKalTrack.h:347

TRecCgemKalTrack::setFErrorK
void setFErrorK(const Double_t ferror_k[5][5])
Definition TRecCgemKalTrack.h:214

TRecCgemKalTrack::setFErrorP
void setFErrorP(const Double_t ferror_p[5][5])
Definition TRecCgemKalTrack.h:225

TRecCgemKalTrack::getPathSM
const Double_t getPathSM(Int_t pid) const
Definition TRecCgemKalTrack.h:20

TRecCgemKalTrack::getLength
const Double_t getLength(Int_t pid) const
Definition TRecCgemKalTrack.h:17

TRecCgemKalTrack::getZHelix
const Double_t getZHelix(Int_t i) const
Definition TRecCgemKalTrack.h:25

TRecCgemKalTrack::getZError
const Double_t getZError(Int_t i, Int_t j) const
Definition TRecCgemKalTrack.h:26

TRecCgemKalTrack::setZErrorE
void setZErrorE(const Double_t zerror_e[5][5])
Definition TRecCgemKalTrack.h:132

TRecCgemKalTrack::setLPivotMu
void setLPivotMu(const Double_t lpivot_mu[3])
Definition TRecCgemKalTrack.h:351

TRecCgemKalTrack::getLPointE
const Double_t getLPointE(Int_t i) const
Definition TRecCgemKalTrack.h:68

TRecCgemKalTrack::getNhits
const Int_t getNhits(Int_t pid) const
Definition TRecCgemKalTrack.h:21

TRecCgemKalTrack::getFHelixP
const Double_t getFHelixP(Int_t i) const
Definition TRecCgemKalTrack.h:43

TRecCgemKalTrack::getTError
const Double_t getTError(Int_t i) const
Definition TRecCgemKalTrack.h:56

TRecCgemKalTrack::setZErrorK
void setZErrorK(const Double_t zerror_k[5][5])
Definition TRecCgemKalTrack.h:156

TRecTrackEvent
Definition TRecTrackEvent.h:32

TRecTrackEvent::getRecCgemKalTrackCol
const TObjArray * getRecCgemKalTrackCol() const
Definition TRecTrackEvent.h:258

TRecTrackEvent::addRecCgemKalTrack
void addRecCgemKalTrack(TRecCgemKalTrack *Track)
Definition TRecTrackEvent.cxx:481

TRecTrackEvent::clearRecCgemKalTrackCol
void clearRecCgemKalTrackCol()
Definition TRecTrackEvent.h:261

commonData::m_rootRecCgemKalTrackMap
static std::map< const TObject *, const RecCgemKalTrack * > m_rootRecCgemKalTrackMap
Definition commonData.h:302

EventModel::Recon::Event
_EXTERN_ std::string Event
Definition EventModel.h:90

std
Definition RootEventData_rootcint.cxx:16