d2/dd0/DstMdcKalTrack_8h_source.html

/*

 * @class : DstMdcKalTrack

 *

 *  this class models "Kalman Track" from Mdc

 *

 * ********************************************************/


#ifndef DSTMDCKALTRACK_H

#define DSTMDCKALTRACK_H

#include "GaudiKernel/ContainedObject.h"

#include "GaudiKernel/SmartRef.h"

#include "GaudiKernel/ObjectVector.h"

#include "EventModel/EventModel.h"

#include "CLHEP/Matrix/Vector.h"

#include "CLHEP/Matrix/SymMatrix.h"

#include "CLHEP/Vector/ThreeVector.h"

#include "CLHEP/Geometry/Point3D.h"

#include "CLHEP/Vector/LorentzVector.h"

#include <vector>


#ifndef ENABLE_BACKWARDS_COMPATIBILITY

//  backwards compatibility will be enabled ONLY in CLHEP 1.9

typedef HepGeom::Point3D<double> HepPoint3D;

#endif

using namespace CLHEP;


using namespace EventModel;

using CLHEP::HepVector;

using CLHEP::HepSymMatrix;

extern const CLID& CLID_DstMdcKalTrack;


class DstMdcKalTrack : virtual public ContainedObject {


 public:


   virtual const CLID& clID() const   {

      return DstMdcKalTrack::classID();

   }


   static const CLID& classID()       {

      return CLID_DstMdcKalTrack;

   }


   //cconstructor and destructor

   DstMdcKalTrack();

   DstMdcKalTrack(const DstMdcKalTrack& track);

   DstMdcKalTrack& operator=(const DstMdcKalTrack&);

   ~DstMdcKalTrack();


   enum PidType

   {

     null = -1,

     electron = 0,

     muon = 1,

     pion = 2,

     kaon = 3,

     proton = 4

   };


   static void setPidType(PidType pidType) {m_pidType = pidType; }

   static PidType getPidType() {return m_pidType; }


   //extractors

   const int trackId()  const { return m_trackId;          }

   const double mass()  const { return m_mass[m_pidType];  }

   const int charge()   const { return m_charge[m_pidType];}

   const double pxy()   const { return m_pxy[m_pidType];   }

   const double px()    const { return m_px[m_pidType];    }

   const double py()    const { return m_py[m_pidType];    }

   const double pz()    const { return m_pz[m_pidType];    }

   const double theta() const { return m_theta[m_pidType]; }

   const double phi()   const { return m_phi[m_pidType];   }


   const double x()     const { return m_x[m_pidType];     }

   const double y()     const { return m_y[m_pidType];     }

   const double z()     const { return m_z[m_pidType];     }


   const double x(const int i)  const {return m_x[i];}

   const double y(const int i)  const {return m_y[i];}

   const double z(const int i)  const {return m_z[i];}


   const double r()           const {return m_r[m_pidType];}

   const double p()           const {return m_p[m_pidType];}

   const int    stat()        const {return m_stat[0][m_pidType];}

   const double chi2()        const {return m_chisq[0][m_pidType];}

   const int    ndof()        const {return m_ndf[0][m_pidType];}

   const int    nster()       const {return m_nster[0][m_pidType];}

   const int    firstLayer()  const {return m_firstLayer[0][m_pidType];}

   const int    lastLayer()   const {return m_lastLayer[0][m_pidType];}

   const int    nlayer()      const {return m_nlayer[m_pidType];}

   const int    nCgemXCluster()      const {return m_nCgemXCluster[0][m_pidType];}

   const int    nCgemVCluster()      const {return m_nCgemVCluster[0][m_pidType];}


   const double  dr( void )   const { return m_zhelixs[m_pidType][0];   }

   const double fi0( void )   const { return m_zhelixs[m_pidType][1];   }

   const double kappa( void ) const { return m_zhelixs[m_pidType][2];   }

   const double dz( void )    const { return m_zhelixs[m_pidType][3];   }

   const double tanl( void )  const { return m_zhelixs[m_pidType][4];   }


   const HepVector& helix()    const { return m_zhelixs[m_pidType];     }

   const HepSymMatrix& err()   const { return m_zerrors[m_pidType];     }

   const HepVector& fhelix()    const { return m_fhelixs[m_pidType];     }

   const HepSymMatrix& ferr()   const { return m_ferrors[m_pidType];     }

   const HepPoint3D poca()     const { return m_pocas[m_pidType];       }

   const Hep3Vector p3()       const;

   const HepPoint3D x3()       const;

   const HepLorentzVector p4() const;

   const HepLorentzVector p4(double mass) const;


//modifiers

   void setTrackId(int trackId)                    { m_trackId = trackId;   }

   void setMass(double mass, int pid)               { m_mass[pid] = mass;    }

   void setCharge(const int charge, const int pid) { m_charge[pid] = charge;}

   void setPxy(const double pxy, const int pid)    { m_pxy[pid] = pxy;      }

   void setPx(const double px, const int pid)      { m_px[pid] = px;        }

   void setPy(const double py, const int pid)      { m_py[pid] = py;        }

   void setPz(const double pz, const int pid)      { m_pz[pid] = pz;        }

   void setP(const double p, const int pid)        { m_p[pid] = p;          }

   void setTheta(const double theta,const int pid) { m_theta[pid] = theta;  }

   void setPhi(const double phi, const int pid)    { m_phi[pid] = phi;      }

   void setX(const double x, const int pid)        { m_x[pid] = x;          }

   void setY(const double y,const int pid)         { m_y[pid] = y;          }

   void setZ(const double z, const int pid)        { m_z[pid] = z;          }

   void setR(const double r, const int pid)        { m_r[pid] = r;          }

   void setNlayer(int nlayer, int pid)             { m_nlayer[pid] = nlayer;    }

   void setNster(int ns,  int i, int pid)          { m_nster[i][pid] = ns;     }

   void setStat(int stat, int i, int pid)          { m_stat[i][pid] = stat;    }

   void setChisq(double chisq, int i, int pid)      { m_chisq[i][pid] = chisq;  }

   void setFirstLayer(int fL, int i, int pid)      { m_firstLayer[i][pid] = fL; }

   void setLastLayer(int lL, int i, int pid)       { m_lastLayer[i][pid] = lL;  }

   void setNhits(int nhits,  int pid)              { m_nhits[pid] = nhits;   }

   void setNdf(int ndf, int i, int pid)            { m_ndf[i][pid] = ndf;    }

   void setNCgemXCluster(int n, int i, int pid)    {m_nCgemXCluster[i][pid]=n;}

   void setNCgemVCluster(int n, int i, int pid)    {m_nCgemVCluster[i][pid]=n;}


   void setPoca(const HepPoint3D& poca, const int pid){

     m_pocas[pid] = poca;

   }


   void setPoca(double*  poca, const int pid){

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

       m_pocas[pid][i] = poca[i];

     }

   }


   void setZHelix(const HepVector& helix, const int pid)  {

     m_zhelixs[pid] = helix;

   }


   void setZError(const HepSymMatrix& error, const int pid) {

      m_zerrors[pid] = error;

   }


   void setZHelix(double* helix, const int pid)  {

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

        m_zhelixs[pid][i] = helix[i];

      }

   }


   void setZError(double* error, const int pid) {

      int k=0;

      HepSymMatrix mat(5);

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

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

         mat[i][j] = error[k];

         mat[j][i] = error[k];

        }

      }

      m_zerrors[pid] = mat;

   }


   void setFHelix(const HepVector& fhelix, const int pid)  {

     m_fhelixs[pid] = fhelix;

   }


   void setFError(const HepSymMatrix& ferror, const int pid) {

      m_ferrors[pid] = ferror;

   }


   void setFHelix(double* fhelix, const int pid)  {

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

        m_fhelixs[pid][i] = fhelix[i];

      }

   }


   void setFError(double* ferror, const int pid) {

      int k=0;

      HepSymMatrix mat(5);

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

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

         mat[i][j] = ferror[k];

         mat[j][i] = ferror[k];

        }

      }

      m_ferrors[pid] = mat;

   }


  const int getTrackId()                 const { return m_trackId;        }

  const int getCharge(const int pid)     const { return m_charge[pid];    }

  const int getStat( const int pid)      const { return m_stat[0][pid];      }

  const int  getNster(const int pid)     const { return m_nster[0][pid];     }

  const double getChisq(const int pid)   const { return m_chisq[0][pid];     }

  const int getNdf(const int pid)        const { return m_ndf[0][pid];       }

  const int getFirstLayer(const int pid) const { return m_firstLayer[0][pid];}

  const int getLastLayer(const int pid)  const { return m_lastLayer[0][pid]; }

  const int getNlayer(const int pid)  const { return m_nlayer[pid]; }


  const HepPoint3D& getPoca(const int pid) const{

    return m_pocas[pid];

  }


  const HepVector& getZHelix(const int pid) const{

     return m_zhelixs[pid];

   }


  const HepSymMatrix& getZError(const int pid) const{

     return m_zerrors[pid];

   }


  const HepVector& getFHelix(const int pid) const{

     return m_fhelixs[pid];

   }


  const HepSymMatrix& getFError(const int pid) const{

     return m_ferrors[pid];

   }


 protected:

   static PidType m_pidType;

   int    m_trackId;   // Track ID wensp add 2005-10-18

   int    m_charge[5];

   int    m_stat[2][5];

   int    m_nster[2][5];

   int    m_firstLayer[2][5];

   int    m_lastLayer[2][5];

   double m_mass[5];

   double m_chisq[2][5];

   double m_pxy[5];

   double m_px[5];

   double m_py[5];

   double m_pz[5];

   double m_p[5];

   double m_theta[5];

   double m_phi[5];

   double m_x[5];

   double m_y[5];

   double m_z[5];

   double m_r[5];

   //double m_chi2[2][5];  // chi square of forward filter

   int    m_ndf[2][5];    // degree of freedom of forward filter

   int    m_nhits[5];

   int    m_nlayer[5];

   int    m_nCgemXCluster[2][5]; // number of  Cgem X-clusters

   int    m_nCgemVCluster[2][5]; // number of  Cgem V-clusters


   std::vector<HepPoint3D>   m_pocas;   //

   std::vector<HepVector>    m_zhelixs; //

   std::vector<HepSymMatrix> m_zerrors; //

   std::vector<HepVector>    m_fhelixs; //

   std::vector<HepSymMatrix> m_ferrors; //

};


typedef ObjectVector<DstMdcKalTrack> DstMdcKalTrackCol;


#endif


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

HepPoint3D
HepGeom::Point3D< double > HepPoint3D
Definition DstMdcKalTrack.h:23

DstMdcKalTrackCol
ObjectVector< DstMdcKalTrack > DstMdcKalTrackCol
Definition DstMdcKalTrack.h:257

CLID_DstMdcKalTrack
const CLID & CLID_DstMdcKalTrack
Definition EventModel.cxx:286

EventModel.h

DstMdcKalTrack
Definition DstMdcKalTrack.h:33

DstMdcKalTrack::setLastLayer
void setLastLayer(int lL, int i, int pid)
Definition DstMdcKalTrack.h:129

DstMdcKalTrack::nCgemVCluster
const int nCgemVCluster() const
Definition DstMdcKalTrack.h:91

DstMdcKalTrack::m_pxy
double m_pxy[5]
Definition DstMdcKalTrack.h:232

DstMdcKalTrack::m_ferrors
std::vector< HepSymMatrix > m_ferrors
Definition DstMdcKalTrack.h:254

DstMdcKalTrack::setFHelix
void setFHelix(const HepVector &fhelix, const int pid)
Definition DstMdcKalTrack.h:170

DstMdcKalTrack::nlayer
const int nlayer() const
Definition DstMdcKalTrack.h:89

DstMdcKalTrack::classID
static const CLID & classID()
Definition DstMdcKalTrack.h:40

DstMdcKalTrack::y
const double y() const
Definition DstMdcKalTrack.h:74

DstMdcKalTrack::getFirstLayer
const int getFirstLayer(const int pid) const
Definition DstMdcKalTrack.h:200

DstMdcKalTrack::lastLayer
const int lastLayer() const
Definition DstMdcKalTrack.h:88

DstMdcKalTrack::m_charge
int m_charge[5]
Definition DstMdcKalTrack.h:225

DstMdcKalTrack::setMass
void setMass(double mass, int pid)
Definition DstMdcKalTrack.h:111

DstMdcKalTrack::getNster
const int getNster(const int pid) const
Definition DstMdcKalTrack.h:197

DstMdcKalTrack::z
const double z(const int i) const
Definition DstMdcKalTrack.h:79

DstMdcKalTrack::setPhi
void setPhi(const double phi, const int pid)
Definition DstMdcKalTrack.h:119

DstMdcKalTrack::setStat
void setStat(int stat, int i, int pid)
Definition DstMdcKalTrack.h:126

DstMdcKalTrack::getStat
const int getStat(const int pid) const
Definition DstMdcKalTrack.h:196

DstMdcKalTrack::setY
void setY(const double y, const int pid)
Definition DstMdcKalTrack.h:121

DstMdcKalTrack::PidType
PidType
Definition DstMdcKalTrack.h:50

DstMdcKalTrack::electron
@ electron
Definition DstMdcKalTrack.h:52

DstMdcKalTrack::pion
@ pion
Definition DstMdcKalTrack.h:54

DstMdcKalTrack::kaon
@ kaon
Definition DstMdcKalTrack.h:55

DstMdcKalTrack::proton
@ proton
Definition DstMdcKalTrack.h:56

DstMdcKalTrack::muon
@ muon
Definition DstMdcKalTrack.h:53

DstMdcKalTrack::null
@ null
Definition DstMdcKalTrack.h:51

DstMdcKalTrack::ferr
const HepSymMatrix & ferr() const
Definition DstMdcKalTrack.h:102

DstMdcKalTrack::m_trackId
int m_trackId
Definition DstMdcKalTrack.h:224

DstMdcKalTrack::setPz
void setPz(const double pz, const int pid)
Definition DstMdcKalTrack.h:116

DstMdcKalTrack::getLastLayer
const int getLastLayer(const int pid) const
Definition DstMdcKalTrack.h:201

DstMdcKalTrack::fhelix
const HepVector & fhelix() const
Definition DstMdcKalTrack.h:101

DstMdcKalTrack::trackId
const int trackId() const
Definition DstMdcKalTrack.h:63

DstMdcKalTrack::m_py
double m_py[5]
Definition DstMdcKalTrack.h:234

DstMdcKalTrack::setNster
void setNster(int ns, int i, int pid)
Definition DstMdcKalTrack.h:125

DstMdcKalTrack::helix
const HepVector & helix() const
Definition DstMdcKalTrack.h:99

DstMdcKalTrack::setChisq
void setChisq(double chisq, int i, int pid)
Definition DstMdcKalTrack.h:127

DstMdcKalTrack::setZError
void setZError(const HepSymMatrix &error, const int pid)
Definition DstMdcKalTrack.h:149

DstMdcKalTrack::setX
void setX(const double x, const int pid)
Definition DstMdcKalTrack.h:120

DstMdcKalTrack::m_pz
double m_pz[5]
Definition DstMdcKalTrack.h:235

DstMdcKalTrack::setP
void setP(const double p, const int pid)
Definition DstMdcKalTrack.h:117

DstMdcKalTrack::getNdf
const int getNdf(const int pid) const
Definition DstMdcKalTrack.h:199

DstMdcKalTrack::setPoca
void setPoca(const HepPoint3D &poca, const int pid)
Definition DstMdcKalTrack.h:135

DstMdcKalTrack::getZHelix
const HepVector & getZHelix(const int pid) const
Definition DstMdcKalTrack.h:208

DstMdcKalTrack::theta
const double theta() const
Definition DstMdcKalTrack.h:70

DstMdcKalTrack::getTrackId
const int getTrackId() const
Definition DstMdcKalTrack.h:194

DstMdcKalTrack::phi
const double phi() const
Definition DstMdcKalTrack.h:71

DstMdcKalTrack::getFError
const HepSymMatrix & getFError(const int pid) const
Definition DstMdcKalTrack.h:217

DstMdcKalTrack::m_y
double m_y[5]
Definition DstMdcKalTrack.h:240

DstMdcKalTrack::setPx
void setPx(const double px, const int pid)
Definition DstMdcKalTrack.h:114

DstMdcKalTrack::setZ
void setZ(const double z, const int pid)
Definition DstMdcKalTrack.h:122

DstMdcKalTrack::m_x
double m_x[5]
Definition DstMdcKalTrack.h:239

DstMdcKalTrack::dz
const double dz(void) const
Definition DstMdcKalTrack.h:96

DstMdcKalTrack::setTheta
void setTheta(const double theta, const int pid)
Definition DstMdcKalTrack.h:118

DstMdcKalTrack::setR
void setR(const double r, const int pid)
Definition DstMdcKalTrack.h:123

DstMdcKalTrack::m_lastLayer
int m_lastLayer[2][5]
Definition DstMdcKalTrack.h:229

DstMdcKalTrack::px
const double px() const
Definition DstMdcKalTrack.h:67

DstMdcKalTrack::setNhits
void setNhits(int nhits, int pid)
Definition DstMdcKalTrack.h:130

DstMdcKalTrack::setZHelix
void setZHelix(double *helix, const int pid)
Definition DstMdcKalTrack.h:152

DstMdcKalTrack::m_firstLayer
int m_firstLayer[2][5]
Definition DstMdcKalTrack.h:228

DstMdcKalTrack::getFHelix
const HepVector & getFHelix(const int pid) const
Definition DstMdcKalTrack.h:214

DstMdcKalTrack::nCgemXCluster
const int nCgemXCluster() const
Definition DstMdcKalTrack.h:90

DstMdcKalTrack::stat
const int stat() const
Definition DstMdcKalTrack.h:83

DstMdcKalTrack::m_chisq
double m_chisq[2][5]
Definition DstMdcKalTrack.h:231

DstMdcKalTrack::m_p
double m_p[5]
Definition DstMdcKalTrack.h:236

DstMdcKalTrack::z
const double z() const
Definition DstMdcKalTrack.h:75

DstMdcKalTrack::m_stat
int m_stat[2][5]
Definition DstMdcKalTrack.h:226

DstMdcKalTrack::setPxy
void setPxy(const double pxy, const int pid)
Definition DstMdcKalTrack.h:113

DstMdcKalTrack::setPy
void setPy(const double py, const int pid)
Definition DstMdcKalTrack.h:115

DstMdcKalTrack::getZError
const HepSymMatrix & getZError(const int pid) const
Definition DstMdcKalTrack.h:211

DstMdcKalTrack::getPoca
const HepPoint3D & getPoca(const int pid) const
Definition DstMdcKalTrack.h:205

DstMdcKalTrack::setFError
void setFError(const HepSymMatrix &ferror, const int pid)
Definition DstMdcKalTrack.h:174

DstMdcKalTrack::x
const double x(const int i) const
Definition DstMdcKalTrack.h:77

DstMdcKalTrack::dr
const double dr(void) const
Definition DstMdcKalTrack.h:93

DstMdcKalTrack::tanl
const double tanl(void) const
Definition DstMdcKalTrack.h:97

DstMdcKalTrack::setPidType
static void setPidType(PidType pidType)
Definition DstMdcKalTrack.h:59

DstMdcKalTrack::setTrackId
void setTrackId(int trackId)
Definition DstMdcKalTrack.h:110

DstMdcKalTrack::pz
const double pz() const
Definition DstMdcKalTrack.h:69

DstMdcKalTrack::firstLayer
const int firstLayer() const
Definition DstMdcKalTrack.h:87

DstMdcKalTrack::operator=
DstMdcKalTrack & operator=(const DstMdcKalTrack &)
Definition DstMdcKalTrack.cxx:100

DstMdcKalTrack::m_zerrors
std::vector< HepSymMatrix > m_zerrors
Definition DstMdcKalTrack.h:252

DstMdcKalTrack::m_nster
int m_nster[2][5]
Definition DstMdcKalTrack.h:227

DstMdcKalTrack::clID
virtual const CLID & clID() const
Definition DstMdcKalTrack.h:36

DstMdcKalTrack::poca
const HepPoint3D poca() const
Definition DstMdcKalTrack.h:103

DstMdcKalTrack::m_nCgemXCluster
int m_nCgemXCluster[2][5]
Definition DstMdcKalTrack.h:247

DstMdcKalTrack::nster
const int nster() const
Definition DstMdcKalTrack.h:86

DstMdcKalTrack::ndof
const int ndof() const
Definition DstMdcKalTrack.h:85

DstMdcKalTrack::r
const double r() const
Definition DstMdcKalTrack.h:81

DstMdcKalTrack::getPidType
static PidType getPidType()
Definition DstMdcKalTrack.h:60

DstMdcKalTrack::getCharge
const int getCharge(const int pid) const
Definition DstMdcKalTrack.h:195

DstMdcKalTrack::m_phi
double m_phi[5]
Definition DstMdcKalTrack.h:238

DstMdcKalTrack::chi2
const double chi2() const
Definition DstMdcKalTrack.h:84

DstMdcKalTrack::setFHelix
void setFHelix(double *fhelix, const int pid)
Definition DstMdcKalTrack.h:177

DstMdcKalTrack::x3
const HepPoint3D x3() const
Definition DstMdcKalTrack.cxx:164

DstMdcKalTrack::~DstMdcKalTrack
~DstMdcKalTrack()
Definition DstMdcKalTrack.cxx:143

DstMdcKalTrack::m_ndf
int m_ndf[2][5]
Definition DstMdcKalTrack.h:244

DstMdcKalTrack::y
const double y(const int i) const
Definition DstMdcKalTrack.h:78

DstMdcKalTrack::DstMdcKalTrack
DstMdcKalTrack()
Definition DstMdcKalTrack.cxx:12

DstMdcKalTrack::m_theta
double m_theta[5]
Definition DstMdcKalTrack.h:237

DstMdcKalTrack::p3
const Hep3Vector p3() const
Definition DstMdcKalTrack.cxx:159

DstMdcKalTrack::setPoca
void setPoca(double *poca, const int pid)
Definition DstMdcKalTrack.h:139

DstMdcKalTrack::m_mass
double m_mass[5]
Definition DstMdcKalTrack.h:230

DstMdcKalTrack::setZHelix
void setZHelix(const HepVector &helix, const int pid)
Definition DstMdcKalTrack.h:145

DstMdcKalTrack::m_pocas
std::vector< HepPoint3D > m_pocas
Definition DstMdcKalTrack.h:250

DstMdcKalTrack::py
const double py() const
Definition DstMdcKalTrack.h:68

DstMdcKalTrack::p
const double p() const
Definition DstMdcKalTrack.h:82

DstMdcKalTrack::err
const HepSymMatrix & err() const
Definition DstMdcKalTrack.h:100

DstMdcKalTrack::setCharge
void setCharge(const int charge, const int pid)
Definition DstMdcKalTrack.h:112

DstMdcKalTrack::setNCgemXCluster
void setNCgemXCluster(int n, int i, int pid)
Definition DstMdcKalTrack.h:132

DstMdcKalTrack::m_z
double m_z[5]
Definition DstMdcKalTrack.h:241

DstMdcKalTrack::m_px
double m_px[5]
Definition DstMdcKalTrack.h:233

DstMdcKalTrack::setFirstLayer
void setFirstLayer(int fL, int i, int pid)
Definition DstMdcKalTrack.h:128

DstMdcKalTrack::m_fhelixs
std::vector< HepVector > m_fhelixs
Definition DstMdcKalTrack.h:253

DstMdcKalTrack::kappa
const double kappa(void) const
Definition DstMdcKalTrack.h:95

DstMdcKalTrack::setNdf
void setNdf(int ndf, int i, int pid)
Definition DstMdcKalTrack.h:131

DstMdcKalTrack::m_pidType
static PidType m_pidType
Definition DstMdcKalTrack.h:223

DstMdcKalTrack::setNlayer
void setNlayer(int nlayer, int pid)
Definition DstMdcKalTrack.h:124

DstMdcKalTrack::p4
const HepLorentzVector p4() const
Definition DstMdcKalTrack.cxx:148

DstMdcKalTrack::setZError
void setZError(double *error, const int pid)
Definition DstMdcKalTrack.h:158

DstMdcKalTrack::charge
const int charge() const
Definition DstMdcKalTrack.h:65

DstMdcKalTrack::fi0
const double fi0(void) const
Definition DstMdcKalTrack.h:94

DstMdcKalTrack::m_nCgemVCluster
int m_nCgemVCluster[2][5]
Definition DstMdcKalTrack.h:248

DstMdcKalTrack::mass
const double mass() const
Definition DstMdcKalTrack.h:64

DstMdcKalTrack::m_r
double m_r[5]
Definition DstMdcKalTrack.h:242

DstMdcKalTrack::getChisq
const double getChisq(const int pid) const
Definition DstMdcKalTrack.h:198

DstMdcKalTrack::m_nhits
int m_nhits[5]
Definition DstMdcKalTrack.h:245

DstMdcKalTrack::setNCgemVCluster
void setNCgemVCluster(int n, int i, int pid)
Definition DstMdcKalTrack.h:133

DstMdcKalTrack::x
const double x() const
Definition DstMdcKalTrack.h:73

DstMdcKalTrack::getNlayer
const int getNlayer(const int pid) const
Definition DstMdcKalTrack.h:202

DstMdcKalTrack::m_nlayer
int m_nlayer[5]
Definition DstMdcKalTrack.h:246

DstMdcKalTrack::m_zhelixs
std::vector< HepVector > m_zhelixs
Definition DstMdcKalTrack.h:251

DstMdcKalTrack::setFError
void setFError(double *ferror, const int pid)
Definition DstMdcKalTrack.h:183

DstMdcKalTrack::pxy
const double pxy() const
Definition DstMdcKalTrack.h:66

HepGeom::Point3D
Definition IMagneticFieldSvc.h:15

EventModel
Definition EventModel.h:29

ns
#define ns(x)
Definition xmltok.c:1504