helensLaPTrackCut.cxx

/***************************************************************************
 *
 *  
 *
 * Author: Frank Laue, Ohio State, laue@mps.ohio-state.edu
 ***************************************************************************
 *
 * Description: part of STAR HBT Framework: StHbtMaker package
 *    a simple particle cut that selects on phasespace, #hits, DCA, and PID          
 *
 ***************************************************************************
 *
 * 
 **************************************************************************/

#include "StHbtMaker/Cut/helensLaPTrackCut.h"
#include "StHbtMaker/Cut/helensEventCut.h"
#include "StHbtMaker/Infrastructure/StHbtAnalysis.h"
#include <cstdio>

#ifdef __ROOT__
  ClassImp(helensLaPTrackCut)
#endif

helensLaPTrackCut::helensLaPTrackCut(){
  mNTracksPassed = mNTracksFailed = 0;
  mNSigmaElectron[0] = -1e9;  mNSigmaElectron[1] = +1e9;
  mNSigmaPion[0]     = -1e9;  mNSigmaPion[1]     = +1e9;
  mNSigmaKaon[0]     = -1e9;  mNSigmaKaon[1]     = +1e9;
  mNSigmaProton[0]   = -1e9;  mNSigmaProton[1]   = +1e9;
  mNSigmaAntiElectron[0] = 0.;  mNSigmaAntiElectron[1] = 0.;
  mNSigmaAntiPion[0]     = 0.;  mNSigmaAntiPion[1]     = 0.;
  mNSigmaAntiKaon[0]     = 0.;  mNSigmaAntiKaon[1]     = 0.;
  mNSigmaAntiProton[0]   = 0.;  mNSigmaAntiProton[1]   = 0.;
  mPt[0] = -1e9;  mPt[1] = +1e9;
  mPx[0] = -1e9;  mPx[1] = +1e9;
  mPy[0] = -1e9;  mPy[1] = +1e9;
  mPz[0] = -1e9;  mPz[1] = +1e9;
}
//------------------------------
helensLaPTrackCut::helensLaPTrackCut(helensLaPTrackCut& c) : StHbtTrackCut(c) {
  mNTracksPassed = mNTracksFailed = 0;
  mCharge = c.mCharge;
  mNSigmaElectron[0] = c.mNSigmaElectron[0];
  mNSigmaElectron[1] = c.mNSigmaElectron[1];
  mNSigmaPion[0] = c.mNSigmaPion[0];
  mNSigmaPion[1] = c.mNSigmaPion[1];
  mNSigmaKaon[0] = c.mNSigmaKaon[0];
  mNSigmaKaon[1] = c.mNSigmaKaon[1];
  mNSigmaProton[0] = c.mNSigmaProton[0];
  mNSigmaProton[1] = c.mNSigmaProton[1];
  mNSigmaAntiElectron[0] = c.mNSigmaAntiElectron[0];
  mNSigmaAntiElectron[1] = c.mNSigmaAntiElectron[1];
  mNSigmaAntiPion[0] = c.mNSigmaAntiPion[0];
  mNSigmaAntiPion[1] = c.mNSigmaAntiPion[1];
  mNSigmaAntiKaon[0] = c.mNSigmaAntiKaon[0];
  mNSigmaAntiKaon[1] = c.mNSigmaAntiKaon[1];
  mNSigmaAntiProton[0] = c.mNSigmaAntiProton[0];
  mNSigmaAntiProton[1] = c.mNSigmaAntiProton[1];
  mNHits[0] = c.mNHits[0];
  mNHits[1] = c.mNHits[1];
  mP[0] = c.mP[0]; mP[1] = c.mP[1];
  mPt[0] = c.mPt[0]; mPt[1] = c.mPt[1];
  mPx[0] = c.mPx[0]; mPx[1] = c.mPx[1];
  mPy[0] = c.mPy[0]; mPy[1] = c.mPy[1];
  mPz[0] = c.mPz[0]; mPz[1] = c.mPz[1];
  mRapidity[0] = c.mRapidity[0];
  mRapidity[1] = c.mRapidity[1];
  mDCA[0] = c.mDCA[0];
  mDCA[1] = c.mDCA[1];
  mNTracksPassed=0;
  mNTracksFailed=0;
#ifdef STHBTDEBUG
  cout << " helensLaPTrackCut::helensLaPTrackCut(helensLaPTrackCut& c) " << endl;
#endif
}

//------------------------------
helensLaPTrackCut::~helensLaPTrackCut(){
}

//------------------------------
bool helensLaPTrackCut::Pass(const StHbtTrack* track){
  //   cout << " *** helensLaPTrackCut::Pass(const StHbtTrack* track) " << endl;

  float TEnergy = ::sqrt(track->P().mag2()+mMass*mMass);
  float TRapidity = 0.5*::log((TEnergy+track->P().z())/
                            (TEnergy-track->P().z()));

#ifdef STHBTDEBUG
  cout << 
    track->NSigmaElectron() << " " <<
    track->NSigmaPion() << " " <<
    track->NSigmaKaon() << " " <<
    track->NSigmaProton() << " " << 
    track->DCAxy() << " " << 
    track->NHits() << " " <<  
    track->P().mag() << " " << 
    track->Pt() << " " <<  
    TRapidity << " " << 
    track->Charge() << " ";
#endif

   bool goodPID = (
                   (track->NSigmaElectron() >= mNSigmaElectron[0]) &&
                   (track->NSigmaElectron() <= mNSigmaElectron[1]) &&
                   (track->NSigmaPion()  >= mNSigmaPion[0]) &&
                   (track->NSigmaPion()   <= mNSigmaPion[1]) &&
                   (track->NSigmaKaon()   >= mNSigmaKaon[0]) &&
                   (track->NSigmaKaon()   <= mNSigmaKaon[1]) &&
                   (track->NSigmaProton() >= mNSigmaProton[0]) &&
                   (track->NSigmaProton() <= mNSigmaProton[1]) &&
                   !( (track->NSigmaElectron() >= mNSigmaAntiElectron[0]) &&
                      (track->NSigmaElectron() <= mNSigmaAntiElectron[1]) ) &&
                   !( (track->NSigmaPion()  >= mNSigmaAntiPion[0]) &&
                      (track->NSigmaPion()   <= mNSigmaAntiPion[1]) ) &&
                   !( (track->NSigmaKaon()   >= mNSigmaAntiKaon[0]) &&
                      (track->NSigmaKaon()   <= mNSigmaAntiKaon[1]) ) &&
                   !( (track->NSigmaProton() >= mNSigmaAntiProton[0]) &&
                      (track->NSigmaProton() <= mNSigmaAntiProton[1]) ) &&
                   (track->Charge() == mCharge || mCharge==0 )
                   );



#ifdef STHBTDEBUG
   cout  << mNSigmaElectron[0] << " << " << track->NSigmaElectron() << " << " << mNSigmaElectron[1] << " ";
   cout << (track->NSigmaElectron() >= mNSigmaElectron[0]) << (track->NSigmaElectron() <= mNSigmaElectron[1]) << endl;
#endif

   bool goodTrack=( true &&
     (track->DCAxy()  >= mDCA[0]) &&
     (track->DCAxy()  <= mDCA[1]) &&
     (track->NHits() >= mNHits[0]) &&
     (track->NHits() <= mNHits[1]) &&
      (track->P().mag() >= mP[0]) &&
      (track->P().mag() <= mP[1]) &&
      (track->Pt()    >= mPt[0]) &&
      (track->Pt()    <= mPt[1]) &&
      (track->P().x() >= mPx[0]) &&
      (track->P().x() <= mPx[1]) &&
      (track->P().y() >= mPy[0]) &&
      (track->P().y() <= mPy[1]) &&
      (track->P().z() >= mPz[0]) &&
      (track->P().z() <= mPz[1]) &&
      (TRapidity      >= mRapidity[0]) &&
      (TRapidity      <= mRapidity[1])
);
  
    
#ifdef STHBTDEBUG
  cout << " goodPID=" << goodPID << " ";
  cout << " goodTrack=" << goodTrack << " ";
  cout << endl;
#endif


  if( goodTrack){
    
   // Go get event cut to get my list

    StHbtAnalysis* Anal = (StHbtAnalysis*) myAnalysis;
    helensEventCut* EventCut = (helensEventCut*)Anal->EventCut();
    StHbtTrkV0Iterator pIter;
    StHbtTrkV0Match* TheMatch;


   for( pIter= EventCut->TrkV0MatchCollection()->begin(); pIter!= EventCut->TrkV0MatchCollection()->end(); pIter++){
      
      TheMatch = *pIter; 
      if( TheMatch->TrkId() == track->TrackId()){
        goodTrack = !(TheMatch->Used());
        break;
      }
          
   }

  }

  (goodTrack && goodPID) ? mNTracksPassed++ : mNTracksFailed++;

    return (goodPID && goodTrack);
}
//------------------------------
StHbtString helensLaPTrackCut::Report(){
  string Stemp;
  char Ctemp[100];
  sprintf(Ctemp,"\nParticle mass:\t%E",mMass);
  Stemp+=Ctemp;
  sprintf(Ctemp,"\nParticle charge:\t%d",mCharge);
  Stemp+=Ctemp;
  sprintf(Ctemp,"\nParticle Nsigma from pion:\t%E - %E",mNSigmaPion[0],mNSigmaPion[1]);
  Stemp+=Ctemp;
  sprintf(Ctemp,"\nParticle Nsigma from kaon:\t%E - %E",mNSigmaKaon[0],mNSigmaKaon[1]);
  Stemp+=Ctemp;
  sprintf(Ctemp,"\nParticle Nsigma from proton:\t%E - %E",mNSigmaProton[0],mNSigmaProton[1]);
  Stemp+=Ctemp;
  sprintf(Ctemp,"\nParticle Nsigma from electron:\t%E - %E",mNSigmaElectron[0],mNSigmaElectron[1]);
  Stemp+=Ctemp;
  sprintf(Ctemp,"\nParticle #hits:\t%d - %d",mNHits[0],mNHits[1]);
  Stemp+=Ctemp;
  sprintf(Ctemp,"\nParticle p:\t%E - %E",mP[0],mP[1]);
  Stemp+=Ctemp;
  sprintf(Ctemp,"\nParticle pT:\t%E - %E",mPt[0],mPt[1]);
  Stemp+=Ctemp;
  sprintf(Ctemp,"\nParticle rapidity:\t%E - %E",mRapidity[0],mRapidity[1]);
  Stemp+=Ctemp;
  sprintf(Ctemp,"\nParticle DCA:\t%E - %E",mDCA[0],mDCA[1]);
  Stemp+=Ctemp;
  sprintf(Ctemp,"\nNumber of tracks which passed:\t%ld  Number which failed:\t%ld",mNTracksPassed,mNTracksFailed);
  Stemp += Ctemp;
  StHbtString returnThis = Stemp;
  return returnThis;
}