d3/d7e/TrackPool_8cxx_source.html

#include "VertexFit/TrackPool.h"

#include "VertexFit/WTrackParameter.h"

#include "VertexFit/GammaShape.h"

#include <string>


TrackPool::TrackPool() {

    clearWTrackOrigin();

    clearWTrackInfit();

    clearWTrackList();

    clearGammaShape();

    clearGammaShapeList();

    clearMapkinematic();

    clearMappositionA();

    clearMappositionB();

    setBeamPosition(HepPoint3D(0.0,0.0,0.0));

    setVBeamPosition(HepSymMatrix(3,0));

    m_numberone = 0;

    m_numbertwo = 0;

}


void TrackPool::AddTrack(const int number, const double mass,

        const RecMdcTrack *trk) {

    HepVector helix(5,0);

    double error[15];

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

        helix[i] = trk->helix(i);

    for(int i = 0; i < 15; i++)

        error[i] = trk->err(i);

    WTrackParameter wtrk(mass, helix, error);

    setWTrackOrigin(wtrk);

    setWTrackInfit(wtrk);

    setWTrackList(number);

    if(number != numberWTrack()-1) {

        std::cout << "TrackPool: wrong track index" <<" "

            <<number<<" , " <<numberWTrack()<< std::endl;

    }

    setMapkinematic(0);

    setMappositionA(m_numberone);

    setMappositionB(m_numbertwo);

    m_numberone = m_numberone + 4;

}


void TrackPool::AddTrack(const int number, const double mass,

        const RecEmcShower *trk) {

    //

    //parameters: phi lambda mass energy

    //

    double ptrk = trk->energy();

    double e = sqrt(ptrk*ptrk + mass * mass);

    double the = trk->theta();

    double phi = trk->phi();

    HepLorentzVector p4(ptrk * sin(the) * cos(phi),

            ptrk * sin(the) * sin(phi),

            ptrk * cos(the),

            e);

    double dphi = trk->dphi();

    double dthe = trk->dtheta();

    double de   = trk->dE();

    double x = trk->x();

    double y = trk->y();

    double z = trk->z();

    HepPoint3D x3 (x, y ,z);

    WTrackParameter wtrk(x3, p4 ,dphi ,dthe, de);

    HepSymMatrix Vpl = HepSymMatrix(2,0);

    //=== get Vclus===

    HepSymMatrix Vclus = HepSymMatrix (3,0);

    Vclus = (wtrk.Ew()).sub(5,7);

    double xpr = x - m_BeamPosition[0];

    double ypr = y - m_BeamPosition[1];

    double zpr = z - m_BeamPosition[2];

    double Rpr = sqrt(xpr*xpr + ypr*ypr);

    // === get jacobi ===

    HepMatrix J(2,3,0);

    J[0][0] = -ypr/(Rpr*Rpr);

    J[0][1] = xpr/(Rpr*Rpr);

    J[1][0] = -xpr * zpr/(Rpr*Rpr*Rpr);

    J[1][1] = -ypr * zpr/(Rpr*Rpr*Rpr);

    J[1][2] = 1/Rpr;

    Vpl = Vclus.similarity(J) + m_VBeamPosition.similarity(J);

    Vpl[0][1]=0;

    // === get phipre, lambda===


    double phipre = atan(ypr/xpr);


    if(xpr<0){

        phipre = atan(ypr/xpr) + 3.1415926;

    }

    double lambdapre = zpr/Rpr;


    // === set p4 ===

    double p0x = ptrk*cos(phipre)/sqrt(1 + lambdapre*lambdapre);

    double p0y = ptrk*sin(phipre)/sqrt(1 + lambdapre*lambdapre);

    double p0z = ptrk*lambdapre/sqrt(1 + lambdapre*lambdapre);

    double p0e = e;


    double p0ver = sqrt(p0x*p0x + p0y*p0y);


    HepMatrix B(4,3,0);

    B[0][0] = -p0y;

    B[0][1] = -p0z * p0x * p0ver/(p0e * p0e);

    B[0][2] = p0x/p0e;

    B[1][0] = p0x;

    B[1][1] = -p0z * p0y * p0ver/(p0e * p0e);

    B[1][2] = p0y/p0e;

    B[2][1] = p0ver * p0ver * p0ver/(p0e * p0e);

    B[2][2] = p0z/p0e;

    B[3][2] = 1;


    HepSymMatrix Vple(3,0);

    Vple[0][0] = Vpl[0][0];

    Vple[1][1] = Vpl[1][1];

    Vple[2][2] = de * de;


    HepSymMatrix Vpxyze(4,0);

    Vpxyze = Vple.similarity(B);


    wtrk.setW(0,p0x);

    wtrk.setW(1,p0y);

    wtrk.setW(2,p0z);

    wtrk.setW(3,p0e);


    wtrk.setEw(Vpxyze);


    HepSymMatrix Vplme(4,0);

    Vplme[0][0] = Vpl[0][0];

    Vplme[1][1] = Vpl[1][1];

    Vplme[3][3] = de * de;

    wtrk.setVplm(Vplme);


    HepVector plmp(4 , 0);

    plmp[0] = phipre;

    plmp[1] = lambdapre;

    plmp[2] = mass;

    plmp[3] = e;

    wtrk.setPlmp(plmp);


    setWTrackOrigin(wtrk);

    setWTrackInfit(wtrk);

    setWTrackList(number);

    if(number != numberWTrack()-1) {

        std::cout << "TrackPool: wrong track index" <<" "

            <<number<<" , " <<numberWTrack()<< std::endl;

    }

    GammaShape gtrk(p4,dphi,dthe,de);

    setGammaShape(gtrk);

    setGammaShapeList(number);

    setMapkinematic(1);

    setMappositionA(m_numberone);

    setMappositionB(m_numbertwo);

    m_numberone = m_numberone + 4;

}


void TrackPool::AddMissTrack(const int number, const double mass,

        const RecEmcShower *trk) {

    //

    //parameters: phi lambda mass ptrk

    //

    double ptrk = trk->energy();

    double e = sqrt(ptrk*ptrk + mass * mass);

    double the = trk->theta();

    double phi = trk->phi();

    HepLorentzVector p4( e* sin(the) * cos(phi),

            e * sin(the) * sin(phi),

            e * cos(the),

            e);

    double dphi = trk->dphi();

    double dthe = trk->dtheta();

    double de   = 1E+6;

    double x = trk->x();

    double y = trk->y();

    double z = trk->z();


    HepPoint3D x3 (x, y ,z);

    WTrackParameter wtrk(x3, p4 ,dphi ,dthe, de);

    HepSymMatrix Vpe = HepSymMatrix(2,0);

    //=== get Vclus===

    HepSymMatrix Vclus = HepSymMatrix (3,0);

    Vclus = (wtrk.Ew()).sub(5,7);

    double xpr = x - m_BeamPosition[0];

    double ypr = y - m_BeamPosition[1];

    double zpr = z - m_BeamPosition[2];

    double Rpr = sqrt(xpr*xpr + ypr*ypr);

    // === get jacobi ===

    HepMatrix J(2,3,0);

    J[0][0] = -ypr/(Rpr*Rpr);

    J[0][1] = xpr/(Rpr*Rpr);

    J[1][0] = -xpr * zpr/(Rpr*Rpr*Rpr);

    J[1][1] = -ypr * zpr/(Rpr*Rpr*Rpr);

    J[1][2] = 1/Rpr;

    Vpe = Vclus.similarity(J) + m_VBeamPosition.similarity(J);

    Vpe[0][1]=0;


    double phipre = atan(ypr/xpr);


    if(xpr<0){

        phipre = atan(ypr/xpr) + 3.1415926;

    }

    double lambdapre = zpr/Rpr;


    HepVector plmp(4 , 0);

    plmp[0] = phipre;

    plmp[1] = lambdapre;

    plmp[2] = mass;

    plmp[3] = ptrk;

    wtrk.setPlmp(plmp);


    HepSymMatrix Vplm(3,0);

    Vplm[0][0] = Vpe[0][0];

    Vplm[1][1] = Vpe[1][1];

    wtrk.setVplm(Vplm);


    // === set p4 ===

    double p0x = ptrk*cos(phipre)/sqrt(1 + lambdapre*lambdapre);

    double p0y = ptrk*sin(phipre)/sqrt(1 + lambdapre*lambdapre);

    double p0z = ptrk*lambdapre/sqrt(1 + lambdapre*lambdapre);

    double p0e = e;


    wtrk.setW(0,p0x);

    wtrk.setW(1,p0y);

    wtrk.setW(2,p0z);

    wtrk.setW(3,p0e);


    wtrk.setType(1);

    setWTrackOrigin(wtrk);

    setWTrackInfit(wtrk);

    setWTrackList(number);

    GammaShape gtrk(p4,dphi,dthe,de);

    setGammaShape(gtrk);

    setGammaShapeList(number);

    setMapkinematic(5);

    setMappositionA(m_numberone);

    setMappositionB(m_numbertwo);


    m_numberone = m_numberone + 3;

    m_numbertwo = m_numbertwo + 1;

}


void TrackPool::AddMissTrack(const int number, const RecEmcShower *trk) {

    //

    //parameters: phi lambda mass E

    //


    double mass = 0;

    double ptrk = trk->energy();

    double e = sqrt(ptrk*ptrk + mass * mass);

    double the = trk->theta();

    double phi = trk->phi();

    HepLorentzVector p4( e* sin(the) * cos(phi),

            e * sin(the) * sin(phi),

            e * cos(the),

            e);

    double dphi = trk->dphi();

    double dthe = trk->dtheta();

    double de   = 1E+6;

    double x = trk->x();

    double y = trk->y();

    double z = trk->z();


    HepPoint3D x3 (x, y ,z);

    WTrackParameter wtrk(x3, p4 ,dphi ,dthe, de);

    HepSymMatrix Vpe = HepSymMatrix(2,0);

    //=== get Vclus===

    HepSymMatrix Vclus = HepSymMatrix (3,0);

    Vclus = (wtrk.Ew()).sub(5,7);

    double xpr = x - m_BeamPosition[0];

    double ypr = y - m_BeamPosition[1];

    double zpr = z - m_BeamPosition[2];

    double Rpr = sqrt(xpr*xpr + ypr*ypr);

    // === get jacobi ===

    HepMatrix J(2,3,0);

    J[0][0] = -ypr/(Rpr*Rpr);

    J[0][1] = xpr/(Rpr*Rpr);

    J[1][0] = -xpr * zpr/(Rpr*Rpr*Rpr);

    J[1][1] = -ypr * zpr/(Rpr*Rpr*Rpr);

    J[1][2] = 1/Rpr;

    Vpe = Vclus.similarity(J) + m_VBeamPosition.similarity(J);

    Vpe[0][1]=0;

    double phipre = atan(ypr/xpr);


    if(xpr<0){

        phipre = atan(ypr/xpr) + 3.1415926;

    }

    double lambdapre = zpr/Rpr;


    HepVector plmp(4 , 0);

    plmp[0] = phipre;

    plmp[1] = lambdapre;

    plmp[2] = mass;

    plmp[3] = e;

    wtrk.setPlmp(plmp);


    HepSymMatrix Vplm(2,0);

    Vplm[0][0] = Vpe[0][0];

    Vplm[1][1] = Vpe[1][1];

    wtrk.setVplm(Vplm);


    // === set p4 ===

    double p0x = ptrk*cos(phipre)/sqrt(1 + lambdapre*lambdapre);

    double p0y = ptrk*sin(phipre)/sqrt(1 + lambdapre*lambdapre);

    double p0z = ptrk*lambdapre/sqrt(1 + lambdapre*lambdapre);

    double p0e = e;


    wtrk.setW(0,p0x);

    wtrk.setW(1,p0y);

    wtrk.setW(2,p0z);

    wtrk.setW(3,p0e);


    wtrk.setType(1);

    setWTrackOrigin(wtrk);

    setWTrackInfit(wtrk);

    setWTrackList(number);

    GammaShape gtrk(p4,dphi,dthe,de);

    setGammaShape(gtrk);

    setGammaShapeList(number);

    setMapkinematic(4);

    setMappositionA(m_numberone);

    setMappositionB(m_numbertwo);


    m_numberone = m_numberone + 2;

    m_numbertwo = m_numbertwo + 2;

}


void TrackPool::AddMissTrack(const int number, const double mass, const HepLorentzVector p4) {

    //

    //parameters: mass px py pz

    //


    double dphi = 1E+6;

    double dthe = 1E+6;

    double dE = 1E+6;

    WTrackParameter wtrk(p4, dphi, dthe, dE);

    HepVector plmp(4, 0);

    double phipre = atan(p4[1]/p4[0]);


    if(p4[0]<0){

        phipre = atan(p4[1]/p4[0]) + 3.1415926;

    }

    plmp[0] = phipre;

    plmp[1] = wtrk.Lambda();

    plmp[2] = mass;

    plmp[3] = p4[3];

    HepSymMatrix Vplm(3, 0);

    wtrk.setPlmp(plmp);

    wtrk.setVplm(Vplm);

    wtrk.setType(1);

    setWTrackOrigin(wtrk);

    setWTrackInfit(wtrk);

    setWTrackList(number);

    setMapkinematic(3);

    setMappositionA(m_numberone);

    setMappositionB(m_numbertwo);

    m_numberone = m_numberone + 1;

    m_numbertwo = m_numbertwo + 3;

}


void TrackPool::AddMissTrack(const int number, const double mass) {

    //

    //parameters: mass px py pz, but px,py,pz 's error matrix is set as 10e^6

    //

    WTrackParameter wtrk;

    wtrk.setMass(mass);

    HepVector w(7,0);

    HepSymMatrix Ew(7,0);

    w[0] = 0.2;

    w[1] = 0.2;

    w[2] = 0.2;

    w[3] = sqrt(0.2*0.2*3 + mass*mass);

    Ew[0][0] = 1E+6;

    Ew[1][1] = 1E+6;

    Ew[2][2] = 1E+6;

    wtrk.setW(w);

    wtrk.setEw(Ew);

    setWTrackOrigin(wtrk);

    setWTrackInfit(wtrk);

    setWTrackList(number);

    setMapkinematic(7);

    setMappositionA(m_numberone);

    setMappositionB(m_numbertwo);

    m_numberone = m_numberone + 4;


}


void TrackPool::AddMissTrack(const int number, HepLorentzVector p4) {

    double dphi = 1E+3;

    double dthe = 1E+3;

    double dE = 1E+3;

    WTrackParameter wtrk(p4, dphi, dthe, dE);

    HepSymMatrix Ew = HepSymMatrix(7,0);

    for (int i = 0; i < 7; i++) {

        for (int j = 0; j < 7; j++) {

            if(i==j)    Ew[i][j] = 1E+6;

        }

    }

    wtrk.setType(1);

    wtrk.setEw(Ew);

    setWTrackOrigin(wtrk);

    setWTrackInfit(wtrk);

    setWTrackList(number);

    setMapkinematic(2);

    setMappositionA(m_numberone);

    setMappositionB(m_numbertwo);

    m_numbertwo = m_numbertwo + 4;

}


void TrackPool::AddTrack(const int number, WTrackParameter wtrk) {

    setWTrackOrigin(wtrk);

    setWTrackInfit(wtrk);

    setWTrackList(number);

    if(number != numberWTrack()-1) {

        std::cout << "TrackPool: wrong track index" <<" "

            <<number<<" , " <<numberWTrack()<< std::endl;

    }

    setMapkinematic(0);

    setMappositionA(m_numberone);

    setMappositionB(m_numbertwo);

    m_numberone = m_numberone + 4;

}


void TrackPool::AddTrackVertex(const int number, const double mass, const RecEmcShower *trk) {

    double ptrk = trk->energy();

    double e = sqrt(ptrk*ptrk + mass * mass);

    double the = trk->theta();

    double phi = trk->phi();

    HepLorentzVector p4(ptrk * sin(the) * cos(phi),

            ptrk * sin(the) * sin(phi),

            ptrk * cos(the),

            e);

    double dphi = trk->dphi();

    double dthe = trk->dtheta();

    double de   = trk->dE();

    double x = trk->x();

    double y = trk->y();

    double z = trk->z();

    HepPoint3D x3 (x, y ,z);

    WTrackParameter wtrk(x3, p4 ,dphi ,dthe, de);

    setWTrackOrigin(wtrk);

    setWTrackInfit(wtrk);

    setWTrackList(number);

    if(number != numberWTrack()-1) {

        std::cout << "TrackPool: wrong track index" <<" "

            <<number<<" , " <<numberWTrack()<< std::endl;

    }

    GammaShape gtrk(p4,dphi,dthe,de);

    setGammaShape(gtrk);

    setGammaShapeList(number);

    setMapkinematic(6);

    m_numbertwo = 0;

    setMappositionA(m_numberone);

    setMappositionB(m_numbertwo);


    m_numberone = m_numberone + 4;

    m_numbertwo = m_numbertwo + 3;

}


std::vector<int> TrackPool::AddList(int n1) {

    std::vector<int> lis;

    lis.clear();

    lis.push_back(n1);

    return lis;

}


std::vector<int> TrackPool::AddList(int n1, int n2) {

    std::vector<int> lis;

    lis.clear();

    lis.push_back(n1);

    lis.push_back(n2);

    return lis;

}


std::vector<int> TrackPool::AddList(int n1, int n2, int n3) {

    std::vector<int> lis;

    lis.clear();

    lis.push_back(n1);

    lis.push_back(n2);

    lis.push_back(n3);

    return lis;

}


std::vector<int> TrackPool::AddList(int n1, int n2, int n3, int n4) {

    std::vector<int> lis;

    lis.clear();

    lis.push_back(n1);

    lis.push_back(n2);

    lis.push_back(n3);

    lis.push_back(n4);

    return lis;

}


std::vector<int> TrackPool::AddList(int n1, int n2, int n3, int n4, int n5) {

    std::vector<int> lis;

    lis.clear();

    lis.push_back(n1);

    lis.push_back(n2);

    lis.push_back(n3);

    lis.push_back(n4);

    lis.push_back(n5);

    return lis;

}


std::vector<int> TrackPool::AddList(int n1, int n2, int n3, int n4, int n5, int n6) {

    std::vector<int> lis;

    lis.clear();

    lis.push_back(n1);

    lis.push_back(n2);

    lis.push_back(n3);

    lis.push_back(n4);

    lis.push_back(n5);

    lis.push_back(n6);

    return lis;

}


std::vector<int> TrackPool::AddList(int n1, int n2, int n3, int n4, int n5, int n6, int n7) {

    std::vector<int> lis;

    lis.clear();

    lis.push_back(n1);

    lis.push_back(n2);

    lis.push_back(n3);

    lis.push_back(n4);

    lis.push_back(n5);

    lis.push_back(n6);

    lis.push_back(n7);

    return lis;

}


std::vector<int> TrackPool::AddList(int n1, int n2, int n3, int n4, int n5, int n6, int n7, int n8) {

    std::vector<int> lis;

    lis.clear();

    lis.push_back(n1);

    lis.push_back(n2);

    lis.push_back(n3);

    lis.push_back(n4);

    lis.push_back(n5);

    lis.push_back(n6);

    lis.push_back(n7);

    lis.push_back(n8);

    return lis;

}


std::vector<int> TrackPool::AddList(int n1, int n2, int n3, int n4, int n5, int n6, int n7, int n8,

        int n9) {

    std::vector<int> lis;

    lis.clear();

    lis.push_back(n1);

    lis.push_back(n2);

    lis.push_back(n3);

    lis.push_back(n4);

    lis.push_back(n5);

    lis.push_back(n6);

    lis.push_back(n7);

    lis.push_back(n8);

    lis.push_back(n9);

    return lis;

}


std::vector<int> TrackPool::AddList(int n1, int n2, int n3, int n4, int n5, int n6, int n7, int n8,

        int n9, int n10) {

    std::vector<int> lis;

    lis.clear();

    lis.push_back(n1);

    lis.push_back(n2);

    lis.push_back(n3);

    lis.push_back(n4);

    lis.push_back(n5);

    lis.push_back(n6);

    lis.push_back(n7);

    lis.push_back(n8);

    lis.push_back(n9);

    lis.push_back(n10);

    return lis;

}


std::vector<int> TrackPool::AddList(int n1, int n2, int n3, int n4, int n5, int n6, int n7, int n8,

        int n9, int n10, int n11) {

    std::vector<int> lis;

    lis.clear();

    lis.push_back(n1);

    lis.push_back(n2);

    lis.push_back(n3);

    lis.push_back(n4);

    lis.push_back(n5);

    lis.push_back(n6);

    lis.push_back(n7);

    lis.push_back(n8);

    lis.push_back(n9);

    lis.push_back(n10);

    lis.push_back(n11);

    return lis;

}


std::vector<int> TrackPool::AddList(int n1, int n2, int n3, int n4, int n5, int n6, int n7, int n8,

        int n9, int n10, int n11, int n12) {

    std::vector<int> lis;

    lis.clear();

    lis.push_back(n1);

    lis.push_back(n2);

    lis.push_back(n3);

    lis.push_back(n4);

    lis.push_back(n5);

    lis.push_back(n6);

    lis.push_back(n7);

    lis.push_back(n8);

    lis.push_back(n9);

    lis.push_back(n10);

    lis.push_back(n11);

    lis.push_back(n12);

    return lis;

}


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

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

mass
double mass
Definition: CosmicGenerator.cxx:138

w
double w
Definition: EvtPhokharaDef.hh:26

HepPoint3D
HepGeom::Point3D< double > HepPoint3D
Definition: Gam4pikp.cxx:37

GammaShape.h

n2
int n2
Definition: SD0Tag.cxx:55

n1
int n1
Definition: SD0Tag.cxx:54

TrackPool.h

WTrackParameter.h

DstEmcShower::dphi
double dphi() const
Definition: DstEmcShower.h:44

DstEmcShower::theta
double theta() const
Definition: DstEmcShower.h:38

DstEmcShower::phi
double phi() const
Definition: DstEmcShower.h:39

DstEmcShower::x
double x() const
Definition: DstEmcShower.h:35

DstEmcShower::z
double z() const
Definition: DstEmcShower.h:37

DstEmcShower::energy
double energy() const
Definition: DstEmcShower.h:45

DstEmcShower::dE
double dE() const
Definition: DstEmcShower.h:46

DstEmcShower::dtheta
double dtheta() const
Definition: DstEmcShower.h:43

DstEmcShower::y
double y() const
Definition: DstEmcShower.h:36

DstMdcTrack::err
const HepSymMatrix err() const
Definition: DstMdcTrack.cxx:155

DstMdcTrack::helix
const HepVector helix() const
......
Definition: DstMdcTrack.cxx:151

GammaShape
Definition: GammaShape.h:26

HepGeom::Point3D< double >

RecEmcShower
Definition: RecEmcShower.h:22

RecMdcTrack
Definition: RecMdcTrack.h:23

TrackPool::AddList
std::vector< int > AddList(int n1)
Definition: TrackPool.cxx:483

TrackPool::setMappositionB
void setMappositionB(const int n)
Definition: TrackPool.h:130

TrackPool::setVBeamPosition
void setVBeamPosition(const HepSymMatrix VBeamPosition)
Definition: TrackPool.h:144

TrackPool::numberWTrack
int numberWTrack() const
Definition: TrackPool.h:79

TrackPool::AddTrack
void AddTrack(const int number, const double mass, const RecMdcTrack *trk)
Definition: TrackPool.cxx:22

TrackPool::clearMapkinematic
void clearMapkinematic()
Definition: TrackPool.h:124

TrackPool::clearGammaShapeList
void clearGammaShapeList()
Definition: TrackPool.h:140

TrackPool::clearWTrackOrigin
void clearWTrackOrigin()
Definition: TrackPool.h:111

TrackPool::clearMappositionB
void clearMappositionB()
Definition: TrackPool.h:126

TrackPool::TrackPool
TrackPool()
Definition: TrackPool.cxx:6

TrackPool::clearWTrackList
void clearWTrackList()
Definition: TrackPool.h:113

TrackPool::AddTrackVertex
void AddTrackVertex(const int number, const double mass, const RecEmcShower *trk)
Definition: TrackPool.cxx:444

TrackPool::clearMappositionA
void clearMappositionA()
Definition: TrackPool.h:125

TrackPool::AddMissTrack
void AddMissTrack(const int number, const double mass)
Definition: TrackPool.cxx:375

TrackPool::setGammaShape
void setGammaShape(const int n, const GammaShape gammashape)
Definition: TrackPool.h:135

TrackPool::setWTrackList
void setWTrackList(const int n)
Definition: TrackPool.h:109

TrackPool::setGammaShapeList
void setGammaShapeList(const int n)
Definition: TrackPool.h:137

TrackPool::setMappositionA
void setMappositionA(const int n)
Definition: TrackPool.h:129

TrackPool::clearGammaShape
void clearGammaShape()
Definition: TrackPool.h:139

TrackPool::clearWTrackInfit
void clearWTrackInfit()
Definition: TrackPool.h:112

TrackPool::setBeamPosition
void setBeamPosition(const HepPoint3D BeamPosition)
Definition: TrackPool.h:143

TrackPool::setMapkinematic
void setMapkinematic(const int n)
Definition: TrackPool.h:128

TrackPool::setWTrackOrigin
void setWTrackOrigin(const int n, const WTrackParameter wtrk)
Definition: TrackPool.h:105

TrackPool::setWTrackInfit
void setWTrackInfit(const int n, const WTrackParameter wtrk)
Definition: TrackPool.h:106

WTrackParameter
Definition: WTrackParameter.h:32

WTrackParameter::setEw
void setEw(const HepSymMatrix &Ew)
Definition: WTrackParameter.h:53

WTrackParameter::setMass
void setMass(const double mass)
Definition: WTrackParameter.h:55

WTrackParameter::Lambda
double Lambda() const
Definition: WTrackParameter.h:66

WTrackParameter::setW
void setW(const HepVector &w)
Definition: WTrackParameter.h:51

WTrackParameter::setType
void setType(const int type)
Definition: WTrackParameter.h:56

WTrackParameter::setPlmp
void setPlmp(const HepVector &plmp)
Definition: WTrackParameter.h:58

WTrackParameter::Ew
HepSymMatrix Ew() const
Definition: WTrackParameter.h:68

WTrackParameter::setVplm
void setVplm(const HepSymMatrix &Vplm)
Definition: WTrackParameter.h:57

y
double y[1000]
Definition: draw_charge_space_coarse_II.cxx:8

x
double x[1000]
Definition: draw_charge_space_coarse_II.cxx:8

ptrk
float ptrk
Definition: prepare_data.cxx:28