[u/mrichter/AliRoot.git] / JETAN / AliJetESDFillUnitArrayTracks.cxx

/**************************************************************************
 * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
 *                                                                        *
 * Author: The ALICE Off-line Project.                                    *
 * Contributors are mentioned in the code where appropriate.              *
 *                                                                        *
 * Permission to use, copy, modify and distribute this software and its   *
 * documentation strictly for non-commercial purposes is hereby granted   *
 * without fee, provided that the above copyright notice appears in all   *
 * copies and that both the copyright notice and this permission notice   *
 * appear in the supporting documentation. The authors make no claims     *
 * about the suitability of this software for any purpose. It is          *
 * provided "as is" without express or implied warranty.                  *
 **************************************************************************/


//======================================================================
// ***July 2006
// Fill Unit Array class 
// Class used by AliJetESDReader to fill a UnitArray from the information extracted 
// from the particle tracks
// Author: magali.estienne@ires.in2p3.fr
//======================================================================


// --- ROOT system ---
#include <TVector3.h>
#include <TProcessID.h>

// --- AliRoot header files ---
#include "AliJetUnitArray.h"
#include "AliJetHadronCorrectionv1.h"
#include "AliJetESDFillUnitArrayTracks.h"

// --- ROOT system ---
class TSystem;
class TLorentzVector;
class TGeoManager;

// --- AliRoot header files ---
class AliJetFinder;
class AliJetReader;
class AliJetESDReader;

using std::cout;
using std::endl;
ClassImp(AliJetESDFillUnitArrayTracks)

//_____________________________________________________________________________
AliJetESDFillUnitArrayTracks::AliJetESDFillUnitArrayTracks()
  : AliJetFillUnitArray(),
    fNumUnits(0),
    fHadCorr(0),
    fApplyMIPCorrection(kTRUE),
    fESD(0x0),
    fGrid0(0x0),
    fGrid1(0x0),
    fGrid2(0x0),
    fGrid3(0x0),
    fGrid4(0x0)
{
  // constructor
}

//_____________________________________________________________________________
AliJetESDFillUnitArrayTracks::AliJetESDFillUnitArrayTracks(AliESDEvent* esd)
  : AliJetFillUnitArray(),
    fNumUnits(0),
    fHadCorr(0),
    fApplyMIPCorrection(kTRUE),
    fESD(esd),
    fGrid0(0x0),
    fGrid1(0x0),
    fGrid2(0x0),
    fGrid3(0x0),
    fGrid4(0x0)
{
  // constructor
}

//_____________________________________________________________________________
AliJetESDFillUnitArrayTracks::AliJetESDFillUnitArrayTracks(const AliJetESDFillUnitArrayTracks &det)
  : AliJetFillUnitArray(det),
    fNumUnits(det.fNumUnits),
    fHadCorr(det.fHadCorr),
    fApplyMIPCorrection(det.fApplyMIPCorrection),
    fESD(det.fESD),
    fGrid0(det.fGrid0),
    fGrid1(det.fGrid1),
    fGrid2(det.fGrid2),
    fGrid3(det.fGrid3),
    fGrid4(det.fGrid4)
{
  // Copy constructor
}

//------------------------------------------------------------------
AliJetESDFillUnitArrayTracks& AliJetESDFillUnitArrayTracks::operator=(const AliJetESDFillUnitArrayTracks& other)
{
  // Assignment

    fNumUnits = other.fNumUnits;
    fHadCorr = other.fHadCorr;
    fApplyMIPCorrection = other.fApplyMIPCorrection;
    fESD = other.fESD;
    fGrid0 = other.fGrid0;
    fGrid1 = other.fGrid1;
    fGrid2 = other.fGrid2;
    fGrid3 = other.fGrid3;
    fGrid4 = other.fGrid4;

    return (*this);
}

//____________________________________________________________________________
void AliJetESDFillUnitArrayTracks::InitParameters()
{
  //  fHadCorr        = 0;                 // For hadron correction
  fNumUnits = fGeom->GetEMCGeometry()->GetNCells();      // Number of towers in EMCAL
  cout << "In AliJetESDFillUnitArrayTracks:InitParameters(), Ncells : " << fNumUnits << endl;

  fTPCGrid->GetAccParam(fNphi,fNeta,fPhiMin, 
			fPhiMax,fEtaMin,fEtaMax);
  fTPCGrid->GetBinParam(fPhiBinInTPCAcc,fEtaBinInTPCAcc, 
			fPhiBinInEMCalAcc,fEtaBinInEMCalAcc,fNbinPhi);

  fIndex = fTPCGrid->GetIndexObject();

  if(fDebug>20){
    for(Int_t i=0; i<fNphi+1; i++)
      for(Int_t j=0; j<fNeta+1; j++) {cout << "fIndex[" << i << "," << j << "] : " <<
	  (*fIndex)(i,j) << endl; }
  } 
  if(fDebug>1) printf("\n Parameters initiated ! \n");
}

//_____________________________________________________________________________
AliJetESDFillUnitArrayTracks::~AliJetESDFillUnitArrayTracks()
{
  // destructor
}

//_____________________________________________________________________________
void AliJetESDFillUnitArrayTracks::Exec(Option_t* const /*option*/)
{
  //
  // Main method.
  // Fill the unit array with the charged particle information in ESD
  //

  fDebug = fReaderHeader->GetDebug();
  
  // Set parameters
  InitParameters();
  //  fRef->Clear();

  // get number of tracks in event (for the loop)
  Int_t goodTrack = 0;
  Int_t nt = 0;
//(not used ?)  Int_t nt2 = 0;
  Int_t nmax = 0;
  Float_t pt,eta,phi;
  //  Int_t sflag = 0;
  TVector3 p3;

  if(fDebug>1) cout << "fESD in Fill array : " << fESD << endl;

  nt = fESD->GetNumberOfTracks();
  if(fDebug>1) cout << "Number of Tracks in ESD : " << nt << endl;
 
  // temporary storage of signal and pt cut flag
  Int_t* sflag  = new Int_t[nt];
  Int_t* cflag  = new Int_t[nt];

  // get cuts set by user
  Float_t ptMin  = fReaderHeader->GetPtCut();
  Float_t etaMin = fReaderHeader->GetFiducialEtaMin();
  Float_t etaMax = fReaderHeader->GetFiducialEtaMax();  
  fOpt = fReaderHeader->GetDetector();
  fDZ  = fReaderHeader->GetDZ();

  Int_t nTracksEmcal      = 0;
  Int_t nTracksEmcalDZ    = 0;
  Int_t nTracksTpc        = 0;
  Int_t nTracksTpcOnly    = 0;
  Int_t nTracksEmcalCut   = 0;
  Int_t nTracksEmcalDZCut = 0;
  Int_t nTracksTpcCut     = 0;
  Int_t nTracksTpcOnlyCut = 0;

//(not used ?)  Int_t nElements  = fTPCGrid->GetNEntries();
//(not used ?)  Int_t nElements2 = fEMCalGrid->GetNEntries();
  fGrid = fTPCGrid->GetGridType();

//(not used ?)  Int_t nEntries = fUnitArray->GetEntries();

//(not used ?)  Int_t nRefEnt = fRefArray->GetEntries();

  //loop over tracks
    nmax = nt;  
    for (Int_t it = 0; it < nmax; it++) {
      AliESDtrack *track;
      track = fESD->GetTrack(it);
      UInt_t status = track->GetStatus();
    
      Double_t mom[3];
      track->GetPxPyPz(mom);

      p3.SetXYZ(mom[0],mom[1],mom[2]);
      pt = p3.Pt();

      Float_t mass = 0.;
      mass = track->GetMass();

      if ((status & AliESDtrack::kTPCrefit) == 0)    continue;      // quality check
      if ((status & AliESDtrack::kITSrefit) == 0)    continue;      // quality check
      if (((AliJetESDReaderHeader*) fReaderHeader)->ReadSignalOnly() 
	  && TMath::Abs(track->GetLabel()) > 10000)  continue;   // quality check
      if (((AliJetESDReaderHeader*) fReaderHeader)->ReadBkgdOnly() 
	  && TMath::Abs(track->GetLabel()) < 10000)  continue;   // quality check
       eta = p3.Eta();
       phi = ( (p3.Phi()) < 0) ? (p3.Phi()) + 2. * TMath::Pi() : (p3.Phi());
   
      if ( (eta > etaMax) || (eta < etaMin)) continue;           // checking eta cut

      sflag[goodTrack]=0;
      if (TMath::Abs(track->GetLabel()) < 10000) sflag[goodTrack]=1;
      cflag[goodTrack]=0;
      if (pt > ptMin) cflag[goodTrack]=1;                       // pt cut
      //      fRef->Add(track);

      if(fGrid==0)
	{
	  // Only TPC filled from its grid in its total acceptance
	  
	  Int_t idTPC = fTPCGrid->GetIndex(phi,eta);
	  Bool_t ok = kFALSE;
	  Bool_t ref = kFALSE;

	  AliJetUnitArray *uArray = (AliJetUnitArray*)fUnitArray->At(idTPC-1);
	  TRefArray *reference = uArray->GetUnitTrackRef();
	  if (reference->GetEntries() == 0)  {
	      new(reference) TRefArray(TProcessID::GetProcessWithUID(track));
	  }

	  reference->Add(track);

	  Float_t unitEnergy = 0.;
	  unitEnergy = uArray->GetUnitEnergy();
	  // nTracksTpcOnly is necessary to count the number of candidate cells
	  // but it doesn't give the real multiplicity -> it will be extracted 
	  // in the jet finder through the reference to tracks
	  if(unitEnergy==0.){
	    nTracksTpcOnly++;
	    ok = kTRUE;
            ref = kTRUE;
	  }

	  // Fill energy in TPC acceptance
	  uArray->SetUnitEnergy(unitEnergy + pt);
	  uArray->SetUnitMass(mass);

	  // Pt cut flag
	  if(uArray->GetUnitEnergy()<ptMin){
	    uArray->SetUnitCutFlag(kPtSmaller);
	  }
	  else {
	    uArray->SetUnitCutFlag(kPtHigher);
	    if(ok) nTracksTpcOnlyCut++;
	  }

	  // Signal flag
	  if(sflag[goodTrack] == 1) { 
	    uArray->SetUnitSignalFlag(kGood);
            uArray->SetUnitSignalFlagC(kFALSE,kGood);
          } else uArray->SetUnitSignalFlagC(kFALSE,kBad);

	  if(uArray->GetUnitEnergy()>0 && ref){
	    if(!fProcId) {
	      fProcId = kTRUE;
	      new(fRefArray) TRefArray(TProcessID::GetProcessWithUID(uArray));
	    }
	    fRefArray->Add(uArray);
	  }
	}
    
      if(fGrid==1)
	{
	  Int_t nElements = fTPCGrid->GetNEntries();
	  // Fill track information in EMCAL acceptance
	    if((eta >= fEtaMin && eta <= fEtaMax) &&
	     (phi >= fPhiMin && phi <= fPhiMax))// &&
	    {

	      // Include dead-zones
	      if(fDZ)
		{
		  Double_t phimin0 = 0., phimin1 = 0., phimin2 = 0., phimin3 = 0., phimin4 = 0.;
		  Double_t phimax0 = 0., phimax1 = 0., phimax2 = 0., phimax3 = 0., phimax4 = 0.;
		  fGeom->GetEMCGeometry()->GetPhiBoundariesOfSMGap(0,phimin0,phimax0);
		  fGeom->GetEMCGeometry()->GetPhiBoundariesOfSMGap(1,phimin1,phimax1);
		  fGeom->GetEMCGeometry()->GetPhiBoundariesOfSMGap(2,phimin2,phimax2);
		  fGeom->GetEMCGeometry()->GetPhiBoundariesOfSMGap(3,phimin3,phimax3);
		  fGeom->GetEMCGeometry()->GetPhiBoundariesOfSMGap(4,phimin4,phimax4);
		  Int_t n0 = fGrid0->GetNEntries();
		  Int_t n1 = fGrid1->GetNEntries();
		  Int_t n2 = fGrid2->GetNEntries();
		  Int_t n3 = fGrid3->GetNEntries();
//(not used ?)		  Int_t n4 = fGrid4->GetNEntries();
		  
		  if(phi >= phimin0 && phi <= phimax0){
		    Int_t id0 = fGrid0->GetIndex(phi,eta)-1;
		    AliJetUnitArray *uArray0 = (AliJetUnitArray*)fUnitArray->At(id0+fNumUnits+nElements);
		    TRefArray *reference0 = uArray0->GetUnitTrackRef();
		    if (reference0->GetEntries() == 0)  {
			new(reference0) TRefArray(TProcessID::GetProcessWithUID(track));
		    }

		    reference0->Add(track);

		    Float_t uEnergy0 = uArray0->GetUnitEnergy();
		    Bool_t ok0 = kFALSE;
		    Bool_t ref0 = kFALSE;
		    if(uEnergy0==0.){
		      nTracksEmcalDZ++;
		      ok0 = kTRUE;
		      ref0 = kTRUE;
		    }
		    uArray0->SetUnitEnergy(uEnergy0+pt);

		    if(uArray0->GetUnitEnergy()<ptMin)
		      uArray0->SetUnitCutFlag(kPtSmaller);
		    else {
		      uArray0->SetUnitCutFlag(kPtHigher);
		      if(ok0) nTracksEmcalDZCut++;
		    }
		    if(sflag[goodTrack] == 1) {
		      uArray0->SetUnitSignalFlag(kGood);
                      uArray0->SetUnitSignalFlagC(kFALSE,kGood);
                    } else uArray0->SetUnitSignalFlagC(kFALSE,kBad);

		    if(uArray0->GetUnitEnergy()>0 && ref0){
		      if(!fProcId){
			new(fRefArray) TRefArray(TProcessID::GetProcessWithUID(uArray0));
			fProcId = kTRUE;
		      }
		      fRefArray->Add(uArray0);
		    }
		  }

		  if(phi >= phimin1 && phi <= phimax1){
		    Int_t id1 = fGrid1->GetIndex(phi,eta)-1+n0;
		    AliJetUnitArray *uArray1 = (AliJetUnitArray*)fUnitArray->At(id1+fNumUnits+nElements);
		    TRefArray *reference1 = uArray1->GetUnitTrackRef();
		    if (reference1->GetEntries() == 0)  {
			new(reference1) TRefArray(TProcessID::GetProcessWithUID(track));
		    }

		    reference1->Add(track);

		    Float_t uEnergy1 = uArray1->GetUnitEnergy();
		    Bool_t ok1 = kFALSE;
		    Bool_t ref1 = kFALSE;
		    if(uEnergy1==0.){
		      nTracksEmcalDZ++;
		      ok1 = kTRUE;
		      ref1 = kTRUE;
		    }
		    uArray1->SetUnitEnergy(uEnergy1+pt);

		    if(uArray1->GetUnitEnergy()<ptMin)
		      uArray1->SetUnitCutFlag(kPtSmaller);
		    else {
		      uArray1->SetUnitCutFlag(kPtHigher);
		      if(ok1) nTracksEmcalDZCut++;
		    }
		    if(sflag[goodTrack] == 1) {
		      uArray1->SetUnitSignalFlag(kGood);
                      uArray1->SetUnitSignalFlagC(kFALSE,kGood);
                    } else uArray1->SetUnitSignalFlagC(kFALSE,kBad);

		    if(uArray1->GetUnitEnergy()>0 && ref1){
		      if(!fProcId){
			new(fRefArray) TRefArray(TProcessID::GetProcessWithUID(uArray1));
			fProcId = kTRUE;
		      }
		      fRefArray->Add(uArray1);
		    }
		  }

		  if(phi >= phimin2 && phi <= phimax2){
		    Int_t id2 = fGrid2->GetIndex(phi,eta)-1+n0+n1;
		    AliJetUnitArray *uArray2 = (AliJetUnitArray*)fUnitArray->At(id2+fNumUnits+nElements);
		    TRefArray *reference2 = uArray2->GetUnitTrackRef();
		    if (reference2->GetEntries() == 0)  {
			new(reference2) TRefArray(TProcessID::GetProcessWithUID(track));
		    }

		    reference2->Add(track);

		    Float_t uEnergy2 = uArray2->GetUnitEnergy();
		    Bool_t ok2 = kFALSE;
		    Bool_t ref2 = kFALSE;
		    if(uEnergy2==0.){
		      nTracksEmcalDZ++;
		      ok2 = kTRUE;
		      ref2 = kTRUE;
		    }
		    uArray2->SetUnitEnergy(uEnergy2+pt);

	      	    if(uArray2->GetUnitEnergy()<ptMin)
		      uArray2->SetUnitCutFlag(kPtSmaller);
		    else {
		      uArray2->SetUnitCutFlag(kPtHigher);
		      if(ok2) nTracksEmcalDZCut++;
		    }
		    if(sflag[goodTrack] == 1) {
		      uArray2->SetUnitSignalFlag(kGood);
                      uArray2->SetUnitSignalFlagC(kFALSE,kGood);
                    } else uArray2->SetUnitSignalFlagC(kFALSE,kBad);

		    if(uArray2->GetUnitEnergy()>0 && ref2){
		      if(!fProcId){
			new(fRefArray) TRefArray(TProcessID::GetProcessWithUID(uArray2));
			fProcId = kTRUE;
		      }
		      fRefArray->Add(uArray2);
		    }
		  }

		  if(phi >= phimin3 && phi <= phimax3){
		    Int_t id3 = fGrid3->GetIndex(phi,eta)-1+n0+n1+n2;
		    AliJetUnitArray *uArray3 = (AliJetUnitArray*)fUnitArray->At(id3+fNumUnits+nElements);
		    TRefArray *reference3 = uArray3->GetUnitTrackRef();
		    if (reference3->GetEntries() == 0)  {
			new(reference3) TRefArray(TProcessID::GetProcessWithUID(track));
		    }

		    reference3->Add(track);

		    Float_t uEnergy3 = uArray3->GetUnitEnergy();
		    Bool_t ok3 = kFALSE;
		    Bool_t ref3 = kFALSE;
		    if(uEnergy3==0.){
		      nTracksEmcalDZ++;
		      ok3 = kTRUE;
		      ref3 = kTRUE;
		    }
		    uArray3->SetUnitEnergy(uEnergy3+pt);

		    if(uArray3->GetUnitEnergy()<ptMin)
		      uArray3->SetUnitCutFlag(kPtSmaller);
		    else {
		      uArray3->SetUnitCutFlag(kPtHigher);
		      if(ok3) nTracksEmcalDZCut++;
		    }
		    if(sflag[goodTrack] == 1) {
		      uArray3->SetUnitSignalFlag(kGood);
                      uArray3->SetUnitSignalFlagC(kFALSE,kGood);
                    } else uArray3->SetUnitSignalFlagC(kFALSE,kBad);

		    if(uArray3->GetUnitEnergy()>0 && ref3){
		      if(!fProcId){
			new(fRefArray) TRefArray(TProcessID::GetProcessWithUID(uArray3));
			fProcId = kTRUE;
		      }
		      fRefArray->Add(uArray3);
		    }
		  }

		  if(phi >= phimin4 && phi <= phimax4){
		    Int_t id4 = fGrid4->GetIndex(phi,eta)-1+n0+n1+n2+n3;
		    AliJetUnitArray *uArray4 = (AliJetUnitArray*)fUnitArray->At(id4+fNumUnits+nElements);
		    TRefArray *reference4 = uArray4->GetUnitTrackRef();
		    if (reference4->GetEntries() == 0)  {
			new(reference4) TRefArray(TProcessID::GetProcessWithUID(track));
		    }

		    reference4->Add(track);

		    Float_t uEnergy4 = uArray4->GetUnitEnergy();
		    Bool_t ok4 = kFALSE;
		    Bool_t ref4 = kFALSE;
		    if(uEnergy4==0.){
		      nTracksEmcalDZ++;
		      ok4 = kTRUE;
		      ref4 = kTRUE;
		    }
		    uArray4->SetUnitEnergy(uEnergy4+pt);

		    if(uArray4->GetUnitEnergy()<ptMin)
		      uArray4->SetUnitCutFlag(kPtSmaller);
		    else {
		      uArray4->SetUnitCutFlag(kPtHigher);
		      if(ok4) nTracksEmcalDZCut++;
		    }
		    if(sflag[goodTrack] == 1) {
		      uArray4->SetUnitSignalFlag(kGood);
                      uArray4->SetUnitSignalFlagC(kFALSE,kGood);
                    } else uArray4->SetUnitSignalFlagC(kFALSE,kBad);

		    if(uArray4->GetUnitEnergy()>0 && ref4){
		      if(!fProcId){
			new(fRefArray) TRefArray(TProcessID::GetProcessWithUID(uArray4));
			fProcId = kTRUE;
		      }
		      fRefArray->Add(uArray4);
		    }
		  }
		} // end fDZ
	    
	      Int_t towerID = 0;
	      fGeom->GetAbsCellIdFromEtaPhi(eta,phi,towerID);
	      if(towerID==-1) continue;
	      
	      AliJetUnitArray *uArray = (AliJetUnitArray*)fUnitArray->At(towerID);
	      TRefArray *reference = uArray->GetUnitTrackRef();
	      if (reference->GetEntries() == 0)  {
		  new(reference) TRefArray(TProcessID::GetProcessWithUID(track));
	      }

	      reference->Add(track);

	      Float_t unitEnergy = uArray->GetUnitEnergy(); 
	      Bool_t ok = kFALSE;
	      Bool_t ref = kFALSE;
	      if(unitEnergy==0.){
		nTracksEmcal++;
		ok=kTRUE;
		ref=kTRUE;
	      }

	      // Do Hadron Correction
	      // This is under construction !!!!!!!!!!!!!!!!!!!!!!!
	      // For the moment I apply MIP correction if p >= 0.5 GeV/c
	      if (fApplyMIPCorrection != 0 && p3.Mag() >= 0.5) 
		{ 
		  ((AliJetHadronCorrectionv1*)fHadCorr)->SetGeometry("EMCAL_COMPLETEV1",1.);

		  // Get track position at the outer part of the reconstruction ~ TRD
		  Double_t phiOut = track->GetOuterParam()->Phi();
		  Double_t etaOut = track->GetOuterParam()->Eta();

		  // If the track in the outer part of the TPC/TDR ? is inside 
		  // the calorimeter, it can deposit part of its energy
		  // We can then correct on average for these particles
		  if((etaOut >= fEtaMin && etaOut <= fEtaMax) &&
		     (phiOut >= fPhiMin && phiOut <= fPhiMax))// &&
		    {
		      Double_t   hCEnergy = (Double_t)fHadCorr->GetEnergy(p3.Mag(), (Double_t)eta,0);
		      unitEnergy -= hCEnergy*TMath::Sin(2.0*TMath::ATan(TMath::Exp(-eta)));
		    }
		} //end Hadron Correction loop

	      cout << "unitEnergy + pt = " << unitEnergy << " + " << pt << " = " << unitEnergy + pt << endl;

	      if((unitEnergy + pt) > 0.) uArray->SetUnitEnergy(unitEnergy + pt);
	      else uArray->SetUnitEnergy(0.);

	      // Put a pt cut flag
	      if(uArray->GetUnitEnergy()<ptMin){
		uArray->SetUnitCutFlag(kPtSmaller);
	      }
	      else {
		uArray->SetUnitCutFlag(kPtHigher);
		if(ok) nTracksEmcalCut++;
	      }

	      // Signal flag
	      if(sflag[goodTrack] == 1) { 
		uArray->SetUnitSignalFlag(kGood);
                uArray->SetUnitSignalFlagC(kFALSE,kGood);
              } else uArray->SetUnitSignalFlagC(kFALSE,kBad);

	    
	      if(uArray->GetUnitEnergy()>0 && ref){
		if(!fProcId){
		  new(fRefArray) TRefArray(TProcessID::GetProcessWithUID(uArray));
		  fProcId = kTRUE;
		}
		fRefArray->Add(uArray);
	      }
	    } // end loop on EMCal acceptance cut + tracks quality
	  else{ 
	    // Outside EMCal acceptance
	  
	    Int_t idTPC = fTPCGrid->GetIndex(phi,eta);

	    AliJetUnitArray *uArray = (AliJetUnitArray*)fUnitArray->At(fNumUnits-1+idTPC);
	    TRefArray *reference = uArray->GetUnitTrackRef();
	    if (reference->GetEntries() == 0)  {
		new(reference) TRefArray(TProcessID::GetProcessWithUID(track));
	    }

	    reference->Add(track);

	    Float_t unitEnergy2 = uArray->GetUnitEnergy(); 
	    Bool_t okout = kFALSE;
	    Bool_t refout = kFALSE;
	    if(unitEnergy2==0.){
	      nTracksTpc++;
	      okout=kTRUE;
	      refout=kTRUE;
	    }
	    // Fill energy outside emcal acceptance
	    uArray->SetUnitEnergy(unitEnergy2 + pt);
	  
	    // Pt cut flag
	    if(uArray->GetUnitEnergy()<ptMin){
	      uArray->SetUnitCutFlag(kPtSmaller);
	    }
	    else {
	      uArray->SetUnitCutFlag(kPtHigher);
	      if(okout) nTracksTpcCut++;
	    }
	    // Signal flag
	    if(sflag[goodTrack] == 1) {
	      uArray->SetUnitSignalFlag(kGood);
              uArray->SetUnitSignalFlagC(kFALSE,kGood);
            } else uArray->SetUnitSignalFlagC(kFALSE,kBad);


	    if(uArray->GetUnitEnergy()>0 && refout){
	      if(!fProcId){
		new(fRefArray) TRefArray(TProcessID::GetProcessWithUID(uArray));
		fProcId = kTRUE;
	      }
	      fRefArray->Add(uArray);
	    }
	  }
	} // end fGrid==1

      goodTrack++;

    } // end loop on entries (tpc tracks)

  if(fDebug>0)
    {
      cout << "End of Tracks %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%" << endl;
      cout << "goodTracks: " << goodTrack << endl;
    }

  //  fSignalFlag.Set(goodTrack,sflag);
  //  fCutFlag.Set(goodTrack,cflag);

  delete[] sflag;
  delete[] cflag;
      
  if(fGrid==0) {
    fNTracks = nTracksTpcOnly;
    fNTracksCut = nTracksTpcOnlyCut;
    if(fDebug>10){
      cout << "fNTracks : " << fNTracks << endl;
      cout << "fNTracksCut : " << fNTracksCut << endl;
    }
  }
  if(fGrid==1) {
    fNTracks = nTracksEmcal+nTracksEmcalDZ+nTracksTpc;
    fNTracksCut = nTracksEmcalCut+nTracksEmcalDZCut+nTracksTpcCut;
    if(fDebug>10){
      cout << "fNTracks : " << fNTracks << endl;
      cout << "fNTracksCut : " << fNTracksCut << endl;
    }
  }  
  
}
Commit	Line	Data
be6e5811	1	/**************************************************************************
	2	* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
	3	* *
	4	* Author: The ALICE Off-line Project. *
	5	* Contributors are mentioned in the code where appropriate. *
	6	* *
	7	* Permission to use, copy, modify and distribute this software and its *
	8	* documentation strictly for non-commercial purposes is hereby granted *
	9	* without fee, provided that the above copyright notice appears in all *
	10	* copies and that both the copyright notice and this permission notice *
	11	* appear in the supporting documentation. The authors make no claims *
	12	* about the suitability of this software for any purpose. It is *
	13	* provided "as is" without express or implied warranty. *
	14	**************************************************************************/
	15
	16
	17	//======================================================================
	18	// ***July 2006
	19	// Fill Unit Array class
	20	// Class used by AliJetESDReader to fill a UnitArray from the information extracted
	21	// from the particle tracks
	22	// Author: magali.estienne@ires.in2p3.fr
	23	//======================================================================
	24
	25
	26	// --- ROOT system ---
	27	#include <TVector3.h>
	28	#include <TProcessID.h>
	29
	30	// --- AliRoot header files ---
	31	#include "AliJetUnitArray.h"
e36a3f22	32	#include "AliJetHadronCorrectionv1.h"
be6e5811	33	#include "AliJetESDFillUnitArrayTracks.h"
	34
	35	// --- ROOT system ---
	36	class TSystem;
	37	class TLorentzVector;
	38	class TGeoManager;
	39
	40	// --- AliRoot header files ---
	41	class AliJetFinder;
	42	class AliJetReader;
	43	class AliJetESDReader;
	44
3a7af7bd	45	using std::cout;
3a7af7bd	46	using std::endl;
be6e5811	47	ClassImp(AliJetESDFillUnitArrayTracks)
	48
	49	//_____________________________________________________________________________
	50	AliJetESDFillUnitArrayTracks::AliJetESDFillUnitArrayTracks()
	51	: AliJetFillUnitArray(),
	52	fNumUnits(0),
	53	fHadCorr(0),
	54	fApplyMIPCorrection(kTRUE),
	55	fESD(0x0),
	56	fGrid0(0x0),
	57	fGrid1(0x0),
	58	fGrid2(0x0),
	59	fGrid3(0x0),
	60	fGrid4(0x0)
	61	{
	62	// constructor
	63	}
	64
	65	//_____________________________________________________________________________
	66	AliJetESDFillUnitArrayTracks::AliJetESDFillUnitArrayTracks(AliESDEvent* esd)
	67	: AliJetFillUnitArray(),
	68	fNumUnits(0),
	69	fHadCorr(0),
	70	fApplyMIPCorrection(kTRUE),
	71	fESD(esd),
	72	fGrid0(0x0),
	73	fGrid1(0x0),
	74	fGrid2(0x0),
	75	fGrid3(0x0),
	76	fGrid4(0x0)
	77	{
	78	// constructor
	79	}
	80
	81	//_____________________________________________________________________________
	82	AliJetESDFillUnitArrayTracks::AliJetESDFillUnitArrayTracks(const AliJetESDFillUnitArrayTracks &det)
	83	: AliJetFillUnitArray(det),
	84	fNumUnits(det.fNumUnits),
	85	fHadCorr(det.fHadCorr),
	86	fApplyMIPCorrection(det.fApplyMIPCorrection),
	87	fESD(det.fESD),
	88	fGrid0(det.fGrid0),
	89	fGrid1(det.fGrid1),
	90	fGrid2(det.fGrid2),
	91	fGrid3(det.fGrid3),
	92	fGrid4(det.fGrid4)
	93	{
	94	// Copy constructor
	95	}
	96
	97	//------------------------------------------------------------------
	98	AliJetESDFillUnitArrayTracks& AliJetESDFillUnitArrayTracks::operator=(const AliJetESDFillUnitArrayTracks& other)
	99	{
	100	// Assignment
	101
	102	fNumUnits = other.fNumUnits;
	103	fHadCorr = other.fHadCorr;
	104	fApplyMIPCorrection = other.fApplyMIPCorrection;
	105	fESD = other.fESD;
	106	fGrid0 = other.fGrid0;
	107	fGrid1 = other.fGrid1;
	108	fGrid2 = other.fGrid2;
	109	fGrid3 = other.fGrid3;
	110	fGrid4 = other.fGrid4;
111
112	return (*this);
113	}
114
115	//____________________________________________________________________________
116	void AliJetESDFillUnitArrayTracks::InitParameters()
117	{
e36a3f22	118	// fHadCorr = 0; // For hadron correction
f45e6f72	119	fNumUnits = fGeom->GetEMCGeometry()->GetNCells(); // Number of towers in EMCAL
be6e5811	120	cout << "In AliJetESDFillUnitArrayTracks:InitParameters(), Ncells : " << fNumUnits << endl;
	121
	122	fTPCGrid->GetAccParam(fNphi,fNeta,fPhiMin,
	123	fPhiMax,fEtaMin,fEtaMax);
	124	fTPCGrid->GetBinParam(fPhiBinInTPCAcc,fEtaBinInTPCAcc,
	125	fPhiBinInEMCalAcc,fEtaBinInEMCalAcc,fNbinPhi);
	126
	127	fIndex = fTPCGrid->GetIndexObject();
	128
	129	if(fDebug>20){
	130	for(Int_t i=0; i<fNphi+1; i++)
	131	for(Int_t j=0; j<fNeta+1; j++) {cout << "fIndex[" << i << "," << j << "] : " <<
	132	(*fIndex)(i,j) << endl; }
	133	}
	134	if(fDebug>1) printf("\n Parameters initiated ! \n");
	135	}
	136
	137	//_____________________________________________________________________________
	138	AliJetESDFillUnitArrayTracks::~AliJetESDFillUnitArrayTracks()
	139	{
	140	// destructor
	141	}
	142
	143	//_____________________________________________________________________________
	144	void AliJetESDFillUnitArrayTracks::Exec(Option_t* const /option/)
	145	{
	146	//
	147	// Main method.
	148	// Fill the unit array with the charged particle information in ESD
	149	//
	150
	151	fDebug = fReaderHeader->GetDebug();
	152
	153	// Set parameters
	154	InitParameters();
e36a3f22	155	// fRef->Clear();
be6e5811	156
	157	// get number of tracks in event (for the loop)
	158	Int_t goodTrack = 0;
	159	Int_t nt = 0;
	160	//(not used ?) Int_t nt2 = 0;
	161	Int_t nmax = 0;
	162	Float_t pt,eta,phi;
	163	// Int_t sflag = 0;
	164	TVector3 p3;
	165
	166	if(fDebug>1) cout << "fESD in Fill array : " << fESD << endl;
	167
	168	nt = fESD->GetNumberOfTracks();
	169	if(fDebug>1) cout << "Number of Tracks in ESD : " << nt << endl;
	170
	171	// temporary storage of signal and pt cut flag
	172	Int_t* sflag = new Int_t[nt];
	173	Int_t* cflag = new Int_t[nt];
	174
	175	// get cuts set by user
	176	Float_t ptMin = fReaderHeader->GetPtCut();
	177	Float_t etaMin = fReaderHeader->GetFiducialEtaMin();
	178	Float_t etaMax = fReaderHeader->GetFiducialEtaMax();
	179	fOpt = fReaderHeader->GetDetector();
	180	fDZ = fReaderHeader->GetDZ();
	181
	182	Int_t nTracksEmcal = 0;
	183	Int_t nTracksEmcalDZ = 0;
	184	Int_t nTracksTpc = 0;
	185	Int_t nTracksTpcOnly = 0;
	186	Int_t nTracksEmcalCut = 0;
	187	Int_t nTracksEmcalDZCut = 0;
	188	Int_t nTracksTpcCut = 0;
	189	Int_t nTracksTpcOnlyCut = 0;
	190
	191	//(not used ?) Int_t nElements = fTPCGrid->GetNEntries();
	192	//(not used ?) Int_t nElements2 = fEMCalGrid->GetNEntries();
	193	fGrid = fTPCGrid->GetGridType();
	194
	195	//(not used ?) Int_t nEntries = fUnitArray->GetEntries();
	196
	197	//(not used ?) Int_t nRefEnt = fRefArray->GetEntries();
	198
	199	//loop over tracks
	200	nmax = nt;
	201	for (Int_t it = 0; it < nmax; it++) {
	202	AliESDtrack *track;
	203	track = fESD->GetTrack(it);
	204	UInt_t status = track->GetStatus();
	205
	206	Double_t mom[3];
	207	track->GetPxPyPz(mom);
	208
	209	p3.SetXYZ(mom[0],mom[1],mom[2]);
	210	pt = p3.Pt();
	211
	212	Float_t mass = 0.;
	213	mass = track->GetMass();
	214
	215	if ((status & AliESDtrack::kTPCrefit) == 0) continue; // quality check
	216	if ((status & AliESDtrack::kITSrefit) == 0) continue; // quality check
	217	if (((AliJetESDReaderHeader*) fReaderHeader)->ReadSignalOnly()
	218	&& TMath::Abs(track->GetLabel()) > 10000) continue; // quality check
	219	if (((AliJetESDReaderHeader*) fReaderHeader)->ReadBkgdOnly()
220	&& TMath::Abs(track->GetLabel()) < 10000) continue; // quality check
221	eta = p3.Eta();
222	phi = ( (p3.Phi()) < 0) ? (p3.Phi()) + 2. * TMath::Pi() : (p3.Phi());
223
224	if ( (eta > etaMax) \|\| (eta < etaMin)) continue; // checking eta cut
225
226	sflag[goodTrack]=0;
227	if (TMath::Abs(track->GetLabel()) < 10000) sflag[goodTrack]=1;
228	cflag[goodTrack]=0;
229	if (pt > ptMin) cflag[goodTrack]=1; // pt cut
e36a3f22	230	// fRef->Add(track);
be6e5811	231
	232	if(fGrid==0)
	233	{
	234	// Only TPC filled from its grid in its total acceptance
	235
	236	Int_t idTPC = fTPCGrid->GetIndex(phi,eta);
	237	Bool_t ok = kFALSE;
	238	Bool_t ref = kFALSE;
	239
	240	AliJetUnitArray uArray = (AliJetUnitArray)fUnitArray->At(idTPC-1);
	241	TRefArray *reference = uArray->GetUnitTrackRef();
a9c14d46	242	if (reference->GetEntries() == 0) {
	243	new(reference) TRefArray(TProcessID::GetProcessWithUID(track));
	244	}
	245
be6e5811	246	reference->Add(track);
	247
	248	Float_t unitEnergy = 0.;
	249	unitEnergy = uArray->GetUnitEnergy();
	250	// nTracksTpcOnly is necessary to count the number of candidate cells
	251	// but it doesn't give the real multiplicity -> it will be extracted
	252	// in the jet finder through the reference to tracks
	253	if(unitEnergy==0.){
	254	nTracksTpcOnly++;
	255	ok = kTRUE;
	256	ref = kTRUE;
	257	}
	258
	259	// Fill energy in TPC acceptance
	260	uArray->SetUnitEnergy(unitEnergy + pt);
	261	uArray->SetUnitMass(mass);
	262
	263	// Pt cut flag
	264	if(uArray->GetUnitEnergy()<ptMin){
	265	uArray->SetUnitCutFlag(kPtSmaller);
	266	}
	267	else {
	268	uArray->SetUnitCutFlag(kPtHigher);
	269	if(ok) nTracksTpcOnlyCut++;
	270	}
	271
	272	// Signal flag
	273	if(sflag[goodTrack] == 1) {
	274	uArray->SetUnitSignalFlag(kGood);
	275	uArray->SetUnitSignalFlagC(kFALSE,kGood);
	276	} else uArray->SetUnitSignalFlagC(kFALSE,kBad);
	277
	278	if(uArray->GetUnitEnergy()>0 && ref){
	279	if(!fProcId) {
	280	fProcId = kTRUE;
	281	new(fRefArray) TRefArray(TProcessID::GetProcessWithUID(uArray));
	282	}
	283	fRefArray->Add(uArray);
	284	}
	285	}
	286
	287	if(fGrid==1)
	288	{
	289	Int_t nElements = fTPCGrid->GetNEntries();
	290	// Fill track information in EMCAL acceptance
	291	if((eta >= fEtaMin && eta <= fEtaMax) &&
	292	(phi >= fPhiMin && phi <= fPhiMax))// &&
	293	{
	294
	295	// Include dead-zones
	296	if(fDZ)
	297	{
	298	Double_t phimin0 = 0., phimin1 = 0., phimin2 = 0., phimin3 = 0., phimin4 = 0.;
	299	Double_t phimax0 = 0., phimax1 = 0., phimax2 = 0., phimax3 = 0., phimax4 = 0.;
f45e6f72	300	fGeom->GetEMCGeometry()->GetPhiBoundariesOfSMGap(0,phimin0,phimax0);
	301	fGeom->GetEMCGeometry()->GetPhiBoundariesOfSMGap(1,phimin1,phimax1);
	302	fGeom->GetEMCGeometry()->GetPhiBoundariesOfSMGap(2,phimin2,phimax2);
	303	fGeom->GetEMCGeometry()->GetPhiBoundariesOfSMGap(3,phimin3,phimax3);
	304	fGeom->GetEMCGeometry()->GetPhiBoundariesOfSMGap(4,phimin4,phimax4);
be6e5811	305	Int_t n0 = fGrid0->GetNEntries();
	306	Int_t n1 = fGrid1->GetNEntries();
	307	Int_t n2 = fGrid2->GetNEntries();
	308	Int_t n3 = fGrid3->GetNEntries();
	309	//(not used ?) Int_t n4 = fGrid4->GetNEntries();
	310
	311	if(phi >= phimin0 && phi <= phimax0){
	312	Int_t id0 = fGrid0->GetIndex(phi,eta)-1;
	313	AliJetUnitArray uArray0 = (AliJetUnitArray)fUnitArray->At(id0+fNumUnits+nElements);
	314	TRefArray *reference0 = uArray0->GetUnitTrackRef();
a9c14d46	315	if (reference0->GetEntries() == 0) {
	316	new(reference0) TRefArray(TProcessID::GetProcessWithUID(track));
	317	}
	318
be6e5811	319	reference0->Add(track);
	320
	321	Float_t uEnergy0 = uArray0->GetUnitEnergy();
	322	Bool_t ok0 = kFALSE;
	323	Bool_t ref0 = kFALSE;
	324	if(uEnergy0==0.){
	325	nTracksEmcalDZ++;
	326	ok0 = kTRUE;
	327	ref0 = kTRUE;
	328	}
	329	uArray0->SetUnitEnergy(uEnergy0+pt);
	330
	331	if(uArray0->GetUnitEnergy()<ptMin)
	332	uArray0->SetUnitCutFlag(kPtSmaller);
	333	else {
	334	uArray0->SetUnitCutFlag(kPtHigher);
	335	if(ok0) nTracksEmcalDZCut++;
	336	}
	337	if(sflag[goodTrack] == 1) {
	338	uArray0->SetUnitSignalFlag(kGood);
	339	uArray0->SetUnitSignalFlagC(kFALSE,kGood);
	340	} else uArray0->SetUnitSignalFlagC(kFALSE,kBad);
	341
	342	if(uArray0->GetUnitEnergy()>0 && ref0){
	343	if(!fProcId){
	344	new(fRefArray) TRefArray(TProcessID::GetProcessWithUID(uArray0));
	345	fProcId = kTRUE;
	346	}
	347	fRefArray->Add(uArray0);
	348	}
	349	}
	350
	351	if(phi >= phimin1 && phi <= phimax1){
	352	Int_t id1 = fGrid1->GetIndex(phi,eta)-1+n0;
	353	AliJetUnitArray uArray1 = (AliJetUnitArray)fUnitArray->At(id1+fNumUnits+nElements);
	354	TRefArray *reference1 = uArray1->GetUnitTrackRef();
a9c14d46	355	if (reference1->GetEntries() == 0) {
	356	new(reference1) TRefArray(TProcessID::GetProcessWithUID(track));
	357	}
	358
be6e5811	359	reference1->Add(track);
	360
	361	Float_t uEnergy1 = uArray1->GetUnitEnergy();
	362	Bool_t ok1 = kFALSE;
	363	Bool_t ref1 = kFALSE;
	364	if(uEnergy1==0.){
	365	nTracksEmcalDZ++;
	366	ok1 = kTRUE;
	367	ref1 = kTRUE;
	368	}
	369	uArray1->SetUnitEnergy(uEnergy1+pt);
	370
	371	if(uArray1->GetUnitEnergy()<ptMin)
	372	uArray1->SetUnitCutFlag(kPtSmaller);
	373	else {
	374	uArray1->SetUnitCutFlag(kPtHigher);
	375	if(ok1) nTracksEmcalDZCut++;
	376	}
	377	if(sflag[goodTrack] == 1) {
	378	uArray1->SetUnitSignalFlag(kGood);
	379	uArray1->SetUnitSignalFlagC(kFALSE,kGood);
	380	} else uArray1->SetUnitSignalFlagC(kFALSE,kBad);
	381
	382	if(uArray1->GetUnitEnergy()>0 && ref1){
	383	if(!fProcId){
	384	new(fRefArray) TRefArray(TProcessID::GetProcessWithUID(uArray1));
	385	fProcId = kTRUE;
	386	}
	387	fRefArray->Add(uArray1);
	388	}
	389	}
	390
	391	if(phi >= phimin2 && phi <= phimax2){
	392	Int_t id2 = fGrid2->GetIndex(phi,eta)-1+n0+n1;
	393	AliJetUnitArray uArray2 = (AliJetUnitArray)fUnitArray->At(id2+fNumUnits+nElements);
	394	TRefArray *reference2 = uArray2->GetUnitTrackRef();
a9c14d46	395	if (reference2->GetEntries() == 0) {
	396	new(reference2) TRefArray(TProcessID::GetProcessWithUID(track));
	397	}
	398
be6e5811	399	reference2->Add(track);
	400
	401	Float_t uEnergy2 = uArray2->GetUnitEnergy();
	402	Bool_t ok2 = kFALSE;
	403	Bool_t ref2 = kFALSE;
	404	if(uEnergy2==0.){
	405	nTracksEmcalDZ++;
	406	ok2 = kTRUE;
	407	ref2 = kTRUE;
	408	}
	409	uArray2->SetUnitEnergy(uEnergy2+pt);
	410
	411	if(uArray2->GetUnitEnergy()<ptMin)
	412	uArray2->SetUnitCutFlag(kPtSmaller);
	413	else {
	414	uArray2->SetUnitCutFlag(kPtHigher);
	415	if(ok2) nTracksEmcalDZCut++;
	416	}
	417	if(sflag[goodTrack] == 1) {
	418	uArray2->SetUnitSignalFlag(kGood);
	419	uArray2->SetUnitSignalFlagC(kFALSE,kGood);
	420	} else uArray2->SetUnitSignalFlagC(kFALSE,kBad);
	421
	422	if(uArray2->GetUnitEnergy()>0 && ref2){
	423	if(!fProcId){
	424	new(fRefArray) TRefArray(TProcessID::GetProcessWithUID(uArray2));
	425	fProcId = kTRUE;
	426	}
	427	fRefArray->Add(uArray2);
	428	}
	429	}
	430
	431	if(phi >= phimin3 && phi <= phimax3){
	432	Int_t id3 = fGrid3->GetIndex(phi,eta)-1+n0+n1+n2;
	433	AliJetUnitArray uArray3 = (AliJetUnitArray)fUnitArray->At(id3+fNumUnits+nElements);
	434	TRefArray *reference3 = uArray3->GetUnitTrackRef();
a9c14d46	435	if (reference3->GetEntries() == 0) {
	436	new(reference3) TRefArray(TProcessID::GetProcessWithUID(track));
	437	}
	438
be6e5811	439	reference3->Add(track);
	440
	441	Float_t uEnergy3 = uArray3->GetUnitEnergy();
	442	Bool_t ok3 = kFALSE;
	443	Bool_t ref3 = kFALSE;
	444	if(uEnergy3==0.){
	445	nTracksEmcalDZ++;
	446	ok3 = kTRUE;
	447	ref3 = kTRUE;
	448	}
	449	uArray3->SetUnitEnergy(uEnergy3+pt);
	450
	451	if(uArray3->GetUnitEnergy()<ptMin)
	452	uArray3->SetUnitCutFlag(kPtSmaller);
	453	else {
	454	uArray3->SetUnitCutFlag(kPtHigher);
	455	if(ok3) nTracksEmcalDZCut++;
	456	}
	457	if(sflag[goodTrack] == 1) {
	458	uArray3->SetUnitSignalFlag(kGood);
	459	uArray3->SetUnitSignalFlagC(kFALSE,kGood);
	460	} else uArray3->SetUnitSignalFlagC(kFALSE,kBad);
	461
	462	if(uArray3->GetUnitEnergy()>0 && ref3){
	463	if(!fProcId){
	464	new(fRefArray) TRefArray(TProcessID::GetProcessWithUID(uArray3));
	465	fProcId = kTRUE;
	466	}
	467	fRefArray->Add(uArray3);
	468	}
	469	}
	470
	471	if(phi >= phimin4 && phi <= phimax4){
	472	Int_t id4 = fGrid4->GetIndex(phi,eta)-1+n0+n1+n2+n3;
	473	AliJetUnitArray uArray4 = (AliJetUnitArray)fUnitArray->At(id4+fNumUnits+nElements);
	474	TRefArray *reference4 = uArray4->GetUnitTrackRef();
a9c14d46	475	if (reference4->GetEntries() == 0) {
	476	new(reference4) TRefArray(TProcessID::GetProcessWithUID(track));
	477	}
	478
be6e5811	479	reference4->Add(track);
	480
	481	Float_t uEnergy4 = uArray4->GetUnitEnergy();
	482	Bool_t ok4 = kFALSE;
	483	Bool_t ref4 = kFALSE;
	484	if(uEnergy4==0.){
	485	nTracksEmcalDZ++;
	486	ok4 = kTRUE;
	487	ref4 = kTRUE;
	488	}
	489	uArray4->SetUnitEnergy(uEnergy4+pt);
	490
	491	if(uArray4->GetUnitEnergy()<ptMin)
	492	uArray4->SetUnitCutFlag(kPtSmaller);
	493	else {
	494	uArray4->SetUnitCutFlag(kPtHigher);
	495	if(ok4) nTracksEmcalDZCut++;
	496	}
	497	if(sflag[goodTrack] == 1) {
	498	uArray4->SetUnitSignalFlag(kGood);
	499	uArray4->SetUnitSignalFlagC(kFALSE,kGood);
	500	} else uArray4->SetUnitSignalFlagC(kFALSE,kBad);
	501
	502	if(uArray4->GetUnitEnergy()>0 && ref4){
	503	if(!fProcId){
	504	new(fRefArray) TRefArray(TProcessID::GetProcessWithUID(uArray4));
	505	fProcId = kTRUE;
	506	}
	507	fRefArray->Add(uArray4);
	508	}
	509	}
	510	} // end fDZ
	511
	512	Int_t towerID = 0;
	513	fGeom->GetAbsCellIdFromEtaPhi(eta,phi,towerID);
	514	if(towerID==-1) continue;
	515
	516	AliJetUnitArray uArray = (AliJetUnitArray)fUnitArray->At(towerID);
	517	TRefArray *reference = uArray->GetUnitTrackRef();
a9c14d46	518	if (reference->GetEntries() == 0) {
	519	new(reference) TRefArray(TProcessID::GetProcessWithUID(track));
	520	}
	521
be6e5811	522	reference->Add(track);
	523
	524	Float_t unitEnergy = uArray->GetUnitEnergy();
	525	Bool_t ok = kFALSE;
	526	Bool_t ref = kFALSE;
	527	if(unitEnergy==0.){
	528	nTracksEmcal++;
	529	ok=kTRUE;
	530	ref=kTRUE;
	531	}
	532
	533	// Do Hadron Correction
	534	// This is under construction !!!!!!!!!!!!!!!!!!!!!!!
e36a3f22	535	// For the moment I apply MIP correction if p >= 0.5 GeV/c
e36a3f22	536	if (fApplyMIPCorrection != 0 && p3.Mag() >= 0.5)
be6e5811	537	{
f445ed00	538	((AliJetHadronCorrectionv1*)fHadCorr)->SetGeometry("EMCAL_COMPLETEV1",1.);
e36a3f22	539
	540	// Get track position at the outer part of the reconstruction ~ TRD
	541	Double_t phiOut = track->GetOuterParam()->Phi();
	542	Double_t etaOut = track->GetOuterParam()->Eta();
	543
	544	// If the track in the outer part of the TPC/TDR ? is inside
	545	// the calorimeter, it can deposit part of its energy
	546	// We can then correct on average for these particles
	547	if((etaOut >= fEtaMin && etaOut <= fEtaMax) &&
	548	(phiOut >= fPhiMin && phiOut <= fPhiMax))// &&
	549	{
	550	Double_t hCEnergy = (Double_t)fHadCorr->GetEnergy(p3.Mag(), (Double_t)eta,0);
	551	unitEnergy -= hCEnergyTMath::Sin(2.0TMath::ATan(TMath::Exp(-eta)));
	552	}
be6e5811	553	} //end Hadron Correction loop
be6e5811	554
e36a3f22	555	cout << "unitEnergy + pt = " << unitEnergy << " + " << pt << " = " << unitEnergy + pt << endl;
	556
	557	if((unitEnergy + pt) > 0.) uArray->SetUnitEnergy(unitEnergy + pt);
	558	else uArray->SetUnitEnergy(0.);
be6e5811	559
	560	// Put a pt cut flag
	561	if(uArray->GetUnitEnergy()<ptMin){
	562	uArray->SetUnitCutFlag(kPtSmaller);
	563	}
	564	else {
	565	uArray->SetUnitCutFlag(kPtHigher);
	566	if(ok) nTracksEmcalCut++;
	567	}
	568
	569	// Signal flag
	570	if(sflag[goodTrack] == 1) {
	571	uArray->SetUnitSignalFlag(kGood);
	572	uArray->SetUnitSignalFlagC(kFALSE,kGood);
	573	} else uArray->SetUnitSignalFlagC(kFALSE,kBad);
	574
	575
	576	if(uArray->GetUnitEnergy()>0 && ref){
	577	if(!fProcId){
	578	new(fRefArray) TRefArray(TProcessID::GetProcessWithUID(uArray));
	579	fProcId = kTRUE;
	580	}
	581	fRefArray->Add(uArray);
	582	}
	583	} // end loop on EMCal acceptance cut + tracks quality
	584	else{
	585	// Outside EMCal acceptance
	586
	587	Int_t idTPC = fTPCGrid->GetIndex(phi,eta);
	588
	589	AliJetUnitArray uArray = (AliJetUnitArray)fUnitArray->At(fNumUnits-1+idTPC);
	590	TRefArray *reference = uArray->GetUnitTrackRef();
a9c14d46	591	if (reference->GetEntries() == 0) {
	592	new(reference) TRefArray(TProcessID::GetProcessWithUID(track));
	593	}
	594
be6e5811	595	reference->Add(track);
	596
	597	Float_t unitEnergy2 = uArray->GetUnitEnergy();
	598	Bool_t okout = kFALSE;
	599	Bool_t refout = kFALSE;
	600	if(unitEnergy2==0.){
	601	nTracksTpc++;
	602	okout=kTRUE;
	603	refout=kTRUE;
	604	}
	605	// Fill energy outside emcal acceptance
	606	uArray->SetUnitEnergy(unitEnergy2 + pt);
	607
	608	// Pt cut flag
	609	if(uArray->GetUnitEnergy()<ptMin){
	610	uArray->SetUnitCutFlag(kPtSmaller);
	611	}
	612	else {
	613	uArray->SetUnitCutFlag(kPtHigher);
	614	if(okout) nTracksTpcCut++;
	615	}
	616	// Signal flag
	617	if(sflag[goodTrack] == 1) {
	618	uArray->SetUnitSignalFlag(kGood);
	619	uArray->SetUnitSignalFlagC(kFALSE,kGood);
	620	} else uArray->SetUnitSignalFlagC(kFALSE,kBad);
	621
	622
	623	if(uArray->GetUnitEnergy()>0 && refout){
	624	if(!fProcId){
	625	new(fRefArray) TRefArray(TProcessID::GetProcessWithUID(uArray));
	626	fProcId = kTRUE;
	627	}
	628	fRefArray->Add(uArray);
	629	}
	630	}
	631	} // end fGrid==1
	632
	633	goodTrack++;
	634
	635	} // end loop on entries (tpc tracks)
	636
	637	if(fDebug>0)
	638	{
	639	cout << "End of Tracks %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%" << endl;
	640	cout << "goodTracks: " << goodTrack << endl;
	641	}
	642
e36a3f22	643	// fSignalFlag.Set(goodTrack,sflag);
	644	// fCutFlag.Set(goodTrack,cflag);
	645
be6e5811	646	delete[] sflag;
	647	delete[] cflag;
	648
	649	if(fGrid==0) {
	650	fNTracks = nTracksTpcOnly;
	651	fNTracksCut = nTracksTpcOnlyCut;
	652	if(fDebug>10){
	653	cout << "fNTracks : " << fNTracks << endl;
	654	cout << "fNTracksCut : " << fNTracksCut << endl;
	655	}
	656	}
	657	if(fGrid==1) {
	658	fNTracks = nTracksEmcal+nTracksEmcalDZ+nTracksTpc;
	659	fNTracksCut = nTracksEmcalCut+nTracksEmcalDZCut+nTracksTpcCut;
	660	if(fDebug>10){
	661	cout << "fNTracks : " << fNTracks << endl;
	662	cout << "fNTracksCut : " << fNTracksCut << endl;
	663	}
	664	}
	665
	666	}
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