d7/d23/DifFourVector_8cxx_source.html

//--------------------------------------------------------------------------

// File and Version Information:

//  $Id: DifFourVector.cxx,v 1.3 2010/03/25 09:55:57 zhangy Exp $

//

// Description:

//  Class Implementation for |DifFourVector|

//      What do i do ?

// Environment:

//  Software developed for the BaBar Detector at the SLAC B-Factory.

//

// Author List:

//  A. Snyder

//

// Copyright Information:

//  Copyright (C) 1996  SLAC

//

// History:

//  Migration for BESIII MDC

//

//------------------------------------------------------------------------


#include "MdcRecoUtil/DifFourVector.h"

using std::endl;

using std::cout;


DifFourVector::DifFourVector()

  :E(0.0),P(0.0,0.0,0.0)

{}


DifFourVector::DifFourVector

(const DifNumber& m,const DifVector& p)

  :E(sqrt(m*m+p*p)),P(p)

{}

DifFourVector::DifFourVector

(const double& m,const DifVector& p)

  :E(sqrt(m*m+p*p)),P(p)

{}


DifFourVector::DifFourVector(const DifFourVector& v)

  :E(v.E),P(v.P)

{}


HepSymMatrix DifFourVector::errorMatrix(const HepSymMatrix& e)const {

  HepSymMatrix temp(4);

  temp(1,1)=correlation(E,E,e);

  temp(1,2)=correlation(E,P.x,e);

  temp(1,3)=correlation(E,P.y,e);

  temp(1,4)=correlation(E,P.z,e);

  temp(2,2)=correlation(P.x,P.x,e);

  temp(2,3)=correlation(P.x,P.y,e);

  temp(2,4)=correlation(P.x,P.z,e);

  temp(3,3)=correlation(P.y,P.y,e);

  temp(3,4)=correlation(P.y,P.z,e);

  temp(4,4)=correlation(P.z,P.z,e);

  return temp;

}


HepMatrix DifFourVector::jacobian()const{

  int npar=E.nPar();

  HepMatrix temp(4,npar);

  for(int i=1; i<=npar; i++){

    temp(1,i)=E.derivative(i);

    temp(2,i)=P.x.derivative(i);

    temp(3,i)=P.y.derivative(i);

    temp(4,i)=P.z.derivative(i);

  } // (int i=1; i<=npar; i++)

  return temp;

}


void

DifFourVector::boostTo(const DifFourVector& pTo)

{

  const DifVector xHat(1,0,0);

  const DifVector yHat(0,1,0);

  const DifVector zHat(0,1,0);

  DifVector z=pTo.direction();

  DifVector y=zHat-z*(zHat*z);

  if(y.length()<0.01) y=xHat-z*(xHat*z);

  y.normalize();

  DifVector x(cross(y,z));


  DifNumber px=P*x;

  DifNumber py=P*y;

  DifNumber pz=P*z;


  DifNumber gamma=pTo.E/pTo.mass();

  DifNumber beta=pTo.pMag()/pTo.E;


  DifNumber pzP=gamma*(pz-beta*E);

  DifNumber eP=gamma*(E-beta*pz);


  E=eP;

  P=px*x+py*y+pzP*z;


  return;


}


void

DifFourVector::boostToMe(std::vector<DifFourVector*>& list)const{

  const DifVector xHat(1,0,0);

  const DifVector yHat(0,1,0);

  const DifVector zHat(0,0,1);

  DifVector z=P;

  z.normalize();

  DifVector y(zHat-z*(zHat*z));

  if(y.lengthSq()<0.0001) y=xHat-z*(xHat*z);

  y.normalize();

  DifVector x(cross(y,z));


  DifNumber gamma=E/mass();

  DifNumber beta=pMag()/E;


  for(int i=0;i<(int)list.size();i++) {

    DifFourVector& p4i=*list[i];

    DifNumber px=p4i.P*x;

    DifNumber py=p4i.P*y;

    DifNumber pz=p4i.P*z;

    DifNumber e=p4i.E;


    DifNumber pzP=gamma*(pz-beta*e);

    DifNumber eP=gamma*(e-beta*pz);


    p4i.E=eP;

    p4i.P=px*x+py*y+pzP*z;


  }


}


void

DifFourVector::boostFromMe(std::vector<DifFourVector*>& list)const{

  const DifVector xHat(1,0,0);

  const DifVector yHat(0,1,0);

  const DifVector zHat(0,0,1);

  DifVector z=P;

  z.normalize();

  DifVector y(zHat-z*(zHat*z));

  if(y.lengthSq()<0.0001) y=xHat-z*(xHat*z);

  y.normalize();

  DifVector x(cross(y,z));


  DifNumber gamma=E/mass();

  DifNumber beta=pMag()/E;


  for(int i=0;i<(int)list.size();i++) {

    DifFourVector& p4i=*list[i];

    DifNumber px=p4i.P*x;

    DifNumber py=p4i.P*y;

    DifNumber pz=p4i.P*z;

    DifNumber e=p4i.E;


    DifNumber pzP=gamma*(pz+beta*e);

    DifNumber eP=gamma*(e+beta*pz);


    p4i.E=eP;

    p4i.P=px*x+py*y+pzP*z;


  }


}


void

DifFourVector::boostFrom(const DifFourVector& pFrom)

{

 const DifVector xHat(1,0,0);

  const DifVector yHat(0,1,0);

  const DifVector zHat(0,1,0);

  DifVector z=pFrom.direction();

  DifVector y=zHat-z*(zHat*z);

  if(y.length()<0.01) y=xHat-z*(xHat*z);

  y.normalize();

  DifVector x(cross(y,z));


  DifNumber px=P*x;

  DifNumber py=P*y;

  DifNumber pz=P*z;


  DifNumber gamma=pFrom.E/pFrom.mass();

  DifNumber beta=pFrom.pMag()/pFrom.E;


  DifNumber pzP=gamma*(pz+beta*E);

  DifNumber eP=gamma*(E+beta*pz);


  E=eP;

  P=px*x+py*y+pzP*z;

}


void DifFourVector::print(/*ostream& o*/)const {

//SKIP  cout << "E:" << endl << E;

//SKIP  cout << "P:" << endl << P;

  cout << "SKIP of DifFourVector::print()" <<endl;//TEMP

}


P
double P(RecMdcKalTrack *trk)
Definition: CalibEventSelect.cxx:87

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

DifFourVector.h

correlation
double correlation(const DifNumber &a, const DifNumber &b)
Definition: DifNumber.cxx:72

cross
EvtVector3R cross(const EvtVector3R &p1, const EvtVector3R &p2)
Definition: EvtVector3R.cc:84

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

DifFourVector
Definition: DifFourVector.h:34

DifFourVector::boostFromMe
void boostFromMe(std::vector< DifFourVector * > &listToBoost) const
Definition: DifFourVector.cxx:134

DifFourVector::DifFourVector
DifFourVector()
Definition: DifFourVector.cxx:27

DifFourVector::P
DifVector P
Definition: DifFourVector.h:115

DifFourVector::E
DifNumber E
Definition: DifFourVector.h:114

DifFourVector::jacobian
HepMatrix jacobian() const
Definition: DifFourVector.cxx:59

DifFourVector::mass
DifNumber mass() const
Definition: DifFourVector.h:77

DifFourVector::boostFrom
void boostFrom(const DifFourVector &)
Definition: DifFourVector.cxx:166

DifFourVector::pMag
DifNumber pMag() const
Definition: DifFourVector.h:75

DifFourVector::boostTo
void boostTo(const DifFourVector &)
Definition: DifFourVector.cxx:72

DifFourVector::boostToMe
void boostToMe(std::vector< DifFourVector * > &listToBoost) const
Definition: DifFourVector.cxx:101

DifFourVector::errorMatrix
HepSymMatrix errorMatrix(const HepSymMatrix &e) const
Definition: DifFourVector.cxx:44

DifFourVector::direction
DifVector direction() const

DifFourVector::print
void print() const
Definition: DifFourVector.cxx:192

DifNumber
Definition: DifNumber.h:42

DifNumber::derivative
double derivative(int i) const
Definition: DifNumber.h:90

DifNumber::nPar
int nPar() const
Definition: DifNumber.h:92

DifVector
Definition: DifVector.h:32

DifVector::normalize
DifVector & normalize()

DifVector::y
DifNumber y
Definition: DifVector.h:149

DifVector::x
DifNumber x
Definition: DifVector.h:148

DifVector::z
DifNumber z
Definition: DifVector.h:150

DifVector::length
DifNumber length() const

DifVector::lengthSq
DifNumber lengthSq() const