dox/html/franksTrackCut_8cxx_source.html

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

  *

  *

  *

  * 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/franksTrackCut.h"

 #include <cstdio>


 #ifdef __ROOT__

   ClassImp(franksTrackCut)

 #endif


   //#define STHBTDEBUG


 franksTrackCut::franksTrackCut(){

   mNTracksPassed = mNTracksFailed = 0;

   mPidProbElectron[0] = -1e9;  mPidProbElectron[1] = +1e9;

   mPidProbPion[0]     = -1e9;  mPidProbPion[1]     = +1e9;

   mPidProbKaon[0]     = -1e9;  mPidProbKaon[1]     = +1e9;

   mPidProbProton[0]   = -1e9;  mPidProbProton[1]   = +1e9;

   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.;

   mEta[0]      = -1e9;   mEta[1]      = +1e9;

   mRapidity[0] = -1e9;   mRapidity[1] = +1e9;

   mP[0] = -1e9;  mP[1] = +1e9;

   mPt[0] = -1e9;  mPt[1] = +1e9;

   mPx[0] = -1e9;  mPx[1] = +1e9;

   mPy[0] = -1e9;  mPy[1] = +1e9;

   mPz[0] = -1e9;  mPz[1] = +1e9;

   mDCA[0] = -1e9;  mDCA[1] = +1e9;

   mDCAGlobal[0] = -1e9;  mDCAGlobal[1] = +1e9;

   mNHits[0] = 0; mNHits[1] = 60;

   mNdEdxHits[0] = 0; mNdEdxHits[1] = 60;

 }

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

 franksTrackCut::franksTrackCut(franksTrackCut& c) : StHbtTrackCut(c) {

   mNTracksPassed = mNTracksFailed = 0;

   mCharge = c.mCharge;

   mPidProbElectron[0] = c.mPidProbElectron[0];

   mPidProbElectron[1] = c.mPidProbElectron[1];

   mPidProbPion[0] = c.mPidProbPion[0];

   mPidProbPion[1] = c.mPidProbPion[1];

   mPidProbKaon[0] = c.mPidProbKaon[0];

   mPidProbKaon[1] = c.mPidProbKaon[1];

   mPidProbProton[0] = c.mPidProbProton[0];

   mPidProbProton[1] = c.mPidProbProton[1];

   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];

   mNdEdxHits[0] = c.mNdEdxHits[0];

   mNdEdxHits[1] = c.mNdEdxHits[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];

   mEta[0] = c.mEta[0];

   mEta[1] = c.mEta[1];

   mDCA[0] = c.mDCA[0];

   mDCA[1] = c.mDCA[1];

   mDCAGlobal[0] = c.mDCAGlobal[0];

   mDCAGlobal[1] = c.mDCAGlobal[1];

   mNTracksPassed=0;

   mNTracksFailed=0;

 #ifdef STHBTDEBUG

   cout << " franksTrackCut::franksTrackCut(franksTrackCut& c) " << endl;

 #endif

 }


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

 franksTrackCut::~franksTrackCut(){

 }


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

 bool franksTrackCut::Pass(const StHbtTrack* track){

   //   cout << " *** franksTrackCut::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->DCAxyGlobal() << " " <<

     track->NHits() << " " <<

     track->NHitsDedx() << " " <<

     track->P().mag() << " " <<

     track->Pt() << " " <<

     TRapidity << " " <<

     track->Charge() << " ";

 #endif


    bool goodPID = (

                    (track->PidProbElectron() >= mPidProbElectron[0]) &&

                    (track->PidProbElectron() <= mPidProbElectron[1]) &&

                    (track->PidProbPion()   >= mPidProbPion[0]) &&

                    (track->PidProbPion()   <= mPidProbPion[1]) &&

                    (track->PidProbKaon()   >= mPidProbKaon[0]) &&

                    (track->PidProbKaon()   <= mPidProbKaon[1]) &&

                    (track->PidProbProton() >= mPidProbProton[0]) &&

                    (track->PidProbProton() <= mPidProbProton[1]) &&

                    (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->DCAxyGlobal()  >= mDCAGlobal[0]) &&

      (track->DCAxyGlobal()  <= mDCAGlobal[1]) &&

      (track->NHits() >= mNHits[0]) &&

      (track->NHits() <= mNHits[1]) &&

      (track->NHitsDedx() >= mNdEdxHits[0]) &&

      (track->NHitsDedx() <= mNdEdxHits[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]) &&

       (track->P().pseudoRapidity() >= mEta[0]) &&

       (track->P().pseudoRapidity() <= mEta[1]) &&

       (TRapidity      >= mRapidity[0]) &&

       (TRapidity      <= mRapidity[1])

 );


 #ifdef STHBTDEBUG

   cout << " goodPID=" << goodPID << " ";

   cout << " goodTrack=" << goodTrack << " ";

   cout << endl;

 #endif


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


     return (goodPID && goodTrack);

 }

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

 StHbtString franksTrackCut::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 PidProb from electron:\t%E - %E",mPidProbElectron[0],mPidProbElectron[1]);

   Stemp+=Ctemp;

   sprintf(Ctemp,"\nParticle PidProb from pion:\t%E - %E",mPidProbPion[0],mPidProbPion[1]);

   Stemp+=Ctemp;

   sprintf(Ctemp,"\nParticle PidProb from kaon:\t%E - %E",mPidProbKaon[0],mPidProbKaon[1]);

   Stemp+=Ctemp;

   sprintf(Ctemp,"\nParticle PidProb from proton:\t%E - %E",mPidProbProton[0],mPidProbProton[1]);

   Stemp+=Ctemp;

   sprintf(Ctemp,"\nParticle PidProb from electron:\t%E - %E",mPidProbElectron[0],mPidProbElectron[1]);

   Stemp+=Ctemp;

   sprintf(Ctemp,"\nParticle #hits:\t%d - %d",mNHits[0],mNHits[1]);

   Stemp+=Ctemp;

   sprintf(Ctemp,"\nParticle dEdx #hits:\t%d - %d",mNdEdxHits[0],mNdEdxHits[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 mEta:\t%E - %E",mEta[0],mEta[1]);

   Stemp+=Ctemp;

   sprintf(Ctemp,"\nParticle DCA:\t%E - %E",mDCA[0],mDCA[1]);

   Stemp+=Ctemp;

   sprintf(Ctemp,"\nParticle DCAGlobal:\t%E - %E",mDCAGlobal[0],mDCAGlobal[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;

 }


 std::ostringstream* franksTrackCut::finalReport() const{

   std::ostringstream* tFinalReport = new std::ostringstream;

   (*tFinalReport) <<  "_____ Track Cut _____ " << endl

                   << "Charge = " << mCharge << endl

                   << mNSigmaPion[0] << " < Sigma pion < "

                   << mNSigmaPion[1] << endl

                   << mNSigmaKaon[0] << " < Sigma Kaon < "

                   << mNSigmaKaon[1] << endl

                   << mNSigmaProton[0] << " < Sigma proton < "

                   << mNSigmaProton[1] << endl

                   << mNHits[0] << " < NHits < " << mNHits[1] << endl

                   << mNdEdxHits[0] << " < NHits < " << mNdEdxHits[1] << endl

                   << mPt[0] << " < pT < " << mPt[1] << endl

                   << mP[0] << " < p < " << mP[1] << endl

                   << mRapidity[0] << " < Y < " << mRapidity[1] << endl

                   << mDCA[0] << " < dca < " << mDCA[1] << endl

                   << " >>> N Tracks passed " << mNTracksPassed << endl

                   << " >>> N Tracks failed " << mNTracksFailed << endl

                   << ends;

   return tFinalReport;

 }


track
Definition: MapTableTest.C:38

StHbtTrackCut
Definition: StHbtTrackCut.h:26

StHbtTrack
Definition: StHbtTrack.hh:136

franksTrackCut
Definition: franksTrackCut.h:28