AliPhysics/vAN-20181129/_ali_jet_container_8cxx_source.html

 /**************************************************************************
  * 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.                  *
  **************************************************************************/

 #include <TClonesArray.h>

 #include "AliVEvent.h"
 #include "AliLog.h"
 #include "AliEMCALGeometry.h"
 #include "AliParticleContainer.h"
 #include "AliClusterContainer.h"
 #include "AliLocalRhoParameter.h"
 #include "AliTLorentzVector.h"

 #include "AliJetContainer.h"

 ClassImp(AliJetContainer);

 AliJetContainer::AliJetContainer():
   AliParticleContainer(),
   fJetType(kUndefinedJetType),
   fJetAlgorithm(undefined_jet_algorithm),
   fRecombinationScheme(undefined_scheme),
   fJetAcceptanceType(0),
   fJetRadius(0),
   fRhoName(),
   fLocalRhoName(),
   fRhoMassName(),
   fFlavourSelection(0),
   fJetAreaCut(-1),
   fAreaEmcCut(-1),
   fMinClusterPt(-1),
   fMaxClusterPt(1000),
   fMinTrackPt(-1),
   fMaxTrackPt(100),
   fZLeadingEmcCut(10.),
   fZLeadingChCut(10.),
   fNEFMinCut(-10.),
   fNEFMaxCut(10.),
   fLeadingHadronType(0),
   fNLeadingJets(1),
   fMinNConstituents(-1),
   fJetTrigger(0),
   fTagStatus(-1),
   fParticleContainer(0),
   fClusterContainer(0),
   fRho(0),
   fLocalRho(0),
   fRhoMass(0),
   fGeom(0),
   fRunNumber(0),
   fTpcHolePos(0),
   fTpcHoleWidth(0)
 {
   fBaseClassName = "AliEmcalJet";
   SetClassName("AliEmcalJet");
 }

 AliJetContainer::AliJetContainer(const char *name):
   AliParticleContainer(name),
   fJetType(kUndefinedJetType),
   fJetAlgorithm(undefined_jet_algorithm),
   fRecombinationScheme(undefined_scheme),
   fJetAcceptanceType(0),
   fJetRadius(0),
   fRhoName(),
   fLocalRhoName(),
   fRhoMassName(),
   fFlavourSelection(0),
   fJetAreaCut(-1),
   fAreaEmcCut(-1),
   fMinClusterPt(-1),
   fMaxClusterPt(1000),
   fMinTrackPt(-1),
   fMaxTrackPt(100),
   fZLeadingEmcCut(10.),
   fZLeadingChCut(10.),
   fNEFMinCut(-10.),
   fNEFMaxCut(10.),
   fLeadingHadronType(0),
   fNLeadingJets(1),
   fMinNConstituents(-1),
   fJetTrigger(0),
   fTagStatus(-1),
   fParticleContainer(0),
   fClusterContainer(0),
   fRho(0),
   fLocalRho(0),
   fRhoMass(0),
   fGeom(0),
   fRunNumber(0),
   fTpcHolePos(0),
   fTpcHoleWidth(0)
 {
   fBaseClassName = "AliEmcalJet";
   SetClassName("AliEmcalJet");
   SetMinPt(1);
 }

 AliJetContainer::AliJetContainer(EJetType_t jetType, EJetAlgo_t jetAlgo, ERecoScheme_t recoScheme, Double_t radius,
     AliParticleContainer* partCont, AliClusterContainer* clusCont, TString tag):
   AliParticleContainer(GenerateJetName(jetType, jetAlgo, recoScheme, radius, partCont, clusCont, tag)),
   fJetType(jetType),
   fJetAlgorithm(jetAlgo),
   fRecombinationScheme(recoScheme),
   fJetAcceptanceType(0),
   fJetRadius(radius),
   fRhoName(),
   fLocalRhoName(),
   fRhoMassName(),
   fFlavourSelection(0),
   fJetAreaCut(-1),
   fAreaEmcCut(-1),
   fMinClusterPt(-1),
   fMaxClusterPt(1000),
   fMinTrackPt(-1),
   fMaxTrackPt(100),
   fZLeadingEmcCut(10.),
   fZLeadingChCut(10.),
   fNEFMinCut(-10.),
   fNEFMaxCut(10.),
   fLeadingHadronType(0),
   fNLeadingJets(1),
   fMinNConstituents(-1),
   fJetTrigger(0),
   fTagStatus(-1),
   fParticleContainer(partCont),
   fClusterContainer(clusCont),
   fRho(0),
   fLocalRho(0),
   fRhoMass(0),
   fGeom(0),
   fRunNumber(0)
 {
   fBaseClassName = "AliEmcalJet";
   SetClassName("AliEmcalJet");
   SetMinPt(1);
 }

 void AliJetContainer::SetArray(const AliVEvent *event)
 {
   // Set jet array

   AliEmcalContainer::SetArray(event);
 }

 void AliJetContainer::LoadRho(const AliVEvent *event)
 {
   if (!fRhoName.IsNull() && !fRho) {
     fRho = dynamic_cast<AliRhoParameter*>(event->FindListObject(fRhoName));
     if (!fRho) {
       AliError(Form("%s: Could not retrieve rho %s!", GetName(), fRhoName.Data()));
       return;
     }
   }
 }

 void AliJetContainer::LoadLocalRho(const AliVEvent *event)
 {
   if (!fLocalRhoName.IsNull() && !fLocalRho) {
     fLocalRho = dynamic_cast<AliLocalRhoParameter*>(event->FindListObject(fLocalRhoName));
     if (!fLocalRho) {
       AliError(Form("%s: Could not retrieve rho %s!", GetName(), fLocalRhoName.Data()));
       return;
     }
   }
 }

 void AliJetContainer::LoadRhoMass(const AliVEvent *event)
 {
   if (!fRhoMassName.IsNull() && !fRhoMass) {
     fRhoMass = dynamic_cast<AliRhoParameter*>(event->FindListObject(fRhoMassName));
     if (!fRhoMass) {
       AliError(Form("%s: Could not retrieve rho_mass %s!", GetName(), fRhoMassName.Data()));
       return;
     }
   }
 }

 AliEmcalJet* AliJetContainer::GetLeadingJet(const char* opt)
 {
   TString option(opt);
   option.ToLower();

   Int_t tempID = fCurrentID;
   ResetCurrentID();

   AliEmcalJet *jetMax = GetNextAcceptJet();
   AliEmcalJet *jet = 0;

   if (option.Contains("rho")) {
     while ((jet = GetNextAcceptJet())) {
       if ( (jet->Pt()-jet->Area()*GetRhoVal()) > (jetMax->Pt()-jetMax->Area()*GetRhoVal()) )
         jetMax = jet;
     }
   }
   else {
     while ((jet = GetNextAcceptJet())) {
       if (jet->Pt() > jetMax->Pt()) jetMax = jet;
     }
   }

   fCurrentID = tempID;

   return jetMax;
 }

 AliEmcalJet* AliJetContainer::GetJet(Int_t i) const
 {
   if (i < 0 || i > fClArray->GetEntriesFast()) return 0;
   AliEmcalJet *jet = static_cast<AliEmcalJet*>(fClArray->At(i));
   return jet;

 }

 AliEmcalJet* AliJetContainer::GetAcceptJet(Int_t i) const
 {
   UInt_t rejectionReason = 0;
   AliEmcalJet *jet = GetJet(i);
   if(!AcceptJet(jet, rejectionReason)) return 0;

   return jet;
 }

 AliEmcalJet* AliJetContainer::GetNextAcceptJet()
 {
   const Int_t njets = GetNEntries();
   AliEmcalJet *jet = 0;
   do {
     fCurrentID++;
     if (fCurrentID >= njets) break;
     jet = GetAcceptJet(fCurrentID);
   } while (!jet);

   return jet;
 }

 AliEmcalJet* AliJetContainer::GetNextJet()
 {
   const Int_t njets = GetNEntries();
   AliEmcalJet *jet = 0;
   do {
     fCurrentID++;
     if (fCurrentID >= njets) break;
     jet = GetJet(fCurrentID);
   } while (!jet);


   return jet;
 }

 Double_t AliJetContainer::GetJetPtCorr(Int_t i) const
 {
   AliEmcalJet *jet = GetJet(i);
   return jet->Pt() - fRho->GetVal()*jet->Area();
 }

 Double_t AliJetContainer::GetJetPtCorrLocal(Int_t i) const
 {
   AliEmcalJet *jet = GetJet(i);

   return jet->Pt() - fLocalRho->GetLocalVal(jet->Phi(), fJetRadius)*jet->Area();
 }

 Bool_t AliJetContainer::GetMomentumFromJet(TLorentzVector &mom, const AliEmcalJet* jet, Double_t mass) const
 {
   Double_t p = jet->P();
   Double_t e = TMath::Sqrt(mass*mass + p*p);

   mom.SetPtEtaPhiE(jet->Pt(), jet->Eta(), jet->Phi(), e);

   return kTRUE;
 }

 Bool_t AliJetContainer::GetMomentumFromJet(TLorentzVector &mom, const AliEmcalJet* jet) const
 {
   if (jet) {
     if (fMassHypothesis >= 0) {
       GetMomentumFromJet(mom, jet, fMassHypothesis);
     }
     else {
       jet->GetMomentum(mom);
     }
     return kTRUE;
   }
   else {
     mom.SetPtEtaPhiM(0, 0, 0, 0);
     return kFALSE;
   }
 }

 Bool_t AliJetContainer::GetMomentum(TLorentzVector &mom, Int_t i) const
 {
   AliEmcalJet *jet = GetJet(i);
   return GetMomentumFromJet(mom, jet);
 }

 Bool_t AliJetContainer::GetNextMomentum(TLorentzVector &mom)
 {
   AliEmcalJet *jet = GetNextJet();
   return GetMomentumFromJet(mom, jet);
 }

 Bool_t AliJetContainer::GetAcceptMomentum(TLorentzVector &mom, Int_t i) const
 {
   AliEmcalJet *jet = GetAcceptJet(i);
   return GetMomentumFromJet(mom, jet);
 }

 Bool_t AliJetContainer::GetNextAcceptMomentum(TLorentzVector &mom)
 {
   AliEmcalJet *jet = GetNextAcceptJet();
   return GetMomentumFromJet(mom, jet);
 }

 Bool_t AliJetContainer::AcceptJet(const AliEmcalJet *jet, UInt_t &rejectionReason) const
 {
   if (fTpcHolePos>0) {
     Bool_t s = CheckTpcHolesOverlap(jet,rejectionReason);
     if (!s) return kFALSE;
   }

   Bool_t r = ApplyJetCuts(jet, rejectionReason);
   if (!r) return kFALSE;

   AliTLorentzVector mom;
   GetMomentumFromJet(mom, jet);

   return ApplyKinematicCuts(mom, rejectionReason);
 }

 Bool_t AliJetContainer::AcceptJet(Int_t i, UInt_t &rejectionReason) const
 {
   if (fTpcHolePos>0) {
     Bool_t s = CheckTpcHolesOverlap(GetJet(i),rejectionReason);
     if (!s) return kFALSE;
    }

   Bool_t r = ApplyJetCuts(GetJet(i), rejectionReason);
   if (!r) return kFALSE;

   AliTLorentzVector mom;
   GetMomentum(mom, i);

   return ApplyKinematicCuts(mom, rejectionReason);
 }

 Bool_t AliJetContainer::ApplyJetCuts(const AliEmcalJet *jet, UInt_t &rejectionReason) const
 {
   // Return true if jet is accepted.

   if (!jet) {
     AliDebug(11,"No jet found");
     rejectionReason |= kNullObject;
     return kFALSE;
   }

   if (jet->TestBits(fBitMap) != (Int_t)fBitMap) {
     AliDebug(11,"Cut rejecting jet: Bit map");
     rejectionReason |= kBitMapCut;
     return kFALSE;
   }

   if (jet->Area() <= fJetAreaCut)  {
     AliDebug(11,"Cut rejecting jet: Area");
     rejectionReason |= kAreaCut;
     return kFALSE;
   }

   if (jet->AreaEmc() < fAreaEmcCut) {
     AliDebug(11,"Cut rejecting jet: AreaEmc");
     rejectionReason |= kAreaEmcCut;
     return kFALSE;
   }

   if (fZLeadingChCut < 1 && GetZLeadingCharged(jet) > fZLeadingChCut) {
     AliDebug(11,"Cut rejecting jet: ZLeading");
     rejectionReason |= kZLeadingChCut;
     return kFALSE;
   }

   if (fZLeadingEmcCut < 1 && GetZLeadingEmc(jet) > fZLeadingEmcCut) {
     AliDebug(11,"Cut rejecting jet: ZLeadEmc");
     rejectionReason |= kZLeadingEmcCut;
     return kFALSE;
   }

   if (jet->NEF() < fNEFMinCut || jet->NEF() > fNEFMaxCut) {
     AliDebug(11,"Cut rejecting jet: NEF");
     rejectionReason |= kNEFCut;
     return kFALSE;
   }

   if (fMinNConstituents > 0 && jet->GetNumberOfConstituents() < fMinNConstituents) {
     AliDebug(11,"Cut rejecting jet: minimum number of constituents");
     rejectionReason |= kMinNConstituents;
     return kFALSE;
   }

   if (fLeadingHadronType == 0) {
     if (jet->MaxTrackPt() < fMinTrackPt) {
       AliDebug(11,"Cut rejecting jet: Bias");
       rejectionReason |= kMinLeadPtCut;
       return kFALSE;
     }
   }
   else if (fLeadingHadronType == 1) {
     if (jet->MaxClusterPt() < fMinClusterPt) {
       AliDebug(11,"Cut rejecting jet: Bias");
       rejectionReason |= kMinLeadPtCut;
       return kFALSE;
     }
   }
   else {
     if (jet->MaxTrackPt() < fMinTrackPt && jet->MaxClusterPt() < fMinClusterPt) {
       AliDebug(11,"Cut rejecting jet: Bias");
       rejectionReason |= kMinLeadPtCut;
       return kFALSE;
     }
   }

   if (jet->MaxTrackPt() > fMaxTrackPt) {
     AliDebug(11,"Cut rejecting jet: MaxTrackPt");
     rejectionReason |= kMaxTrackPtCut;
     return kFALSE;

   }

   if (jet->MaxClusterPt() > fMaxClusterPt) {
     AliDebug(11,"Cut rejecting jet: MaxClusPt");
     rejectionReason |= kMaxClusterPtCut;
     return kFALSE;
   }

   if (fFlavourSelection != 0 && !jet->TestFlavourTag(fFlavourSelection)) {
     AliDebug(11,"Cut rejecting jet: Flavour");
     rejectionReason |= kFlavourCut;
     return kFALSE;
   }

   if (fTagStatus>-1 && jet->GetTagStatus()!=fTagStatus) {
     AliDebug(11,"Cut rejecting jet: tag status");
     rejectionReason |= kTagStatus;
     return kFALSE;
   }

   // If user sets acceptance selection type, compare it to jet's acceptance type, bitwise
   if (fJetAcceptanceType != 0) {
     UInt_t jetAccType = jet->GetJetAcceptanceType();
     UInt_t isAccepted = jetAccType & fJetAcceptanceType;
     if (!isAccepted)
       return kFALSE;
   }

   return kTRUE;
 }

 Double_t AliJetContainer::GetLeadingHadronPt(const AliEmcalJet *jet) const
 {
   if (fLeadingHadronType == 0)       // charged leading hadron
     return jet->MaxTrackPt();
   else if (fLeadingHadronType == 1)  // neutral leading hadron
     return jet->MaxClusterPt();
   else                               // charged or neutral
     return jet->MaxPartPt();
 }

 void AliJetContainer::GetLeadingHadronMomentum(TLorentzVector &mom, const AliEmcalJet *jet) const
 {
   Double_t maxClusterPt = 0;
   Double_t maxClusterEta = 0;
   Double_t maxClusterPhi = 0;

   Double_t maxTrackPt = 0;
   Double_t maxTrackEta = 0;
   Double_t maxTrackPhi = 0;

   if (fLeadingHadronType == 1 || fLeadingHadronType == 2) {
     AliVCluster *cluster = jet->GetLeadingCluster();
     if (cluster) {
       TLorentzVector nPart;
       cluster->GetMomentum(nPart, const_cast<Double_t*>(fVertex));

       maxClusterEta = nPart.Eta();
       maxClusterPhi = nPart.Phi();
       maxClusterPt = nPart.Pt();
     }
   }

   if (fLeadingHadronType == 0 || fLeadingHadronType == 2) {
     AliVParticle *track = jet->GetLeadingTrack();
     if (track) {
       maxTrackEta = track->Eta();
       maxTrackPhi = track->Phi();
       maxTrackPt = track->Pt();
     }
   }

   if (maxTrackPt > maxClusterPt)
     mom.SetPtEtaPhiM(maxTrackPt,maxTrackEta,maxTrackPhi,0.139);
   else
     mom.SetPtEtaPhiM(maxClusterPt,maxClusterEta,maxClusterPhi,0.139);
 }

 Double_t AliJetContainer::GetZLeadingEmc(const AliEmcalJet *jet) const
 {
   TLorentzVector mom;

   AliVCluster *cluster = jet->GetLeadingCluster();
   if (cluster) {
     cluster->GetMomentum(mom, fVertex);

     return GetZ(jet,mom);
   }
   else {
     return -1;
   }
 }

 Double_t AliJetContainer::GetZLeadingCharged(const AliEmcalJet *jet) const
 {
   TLorentzVector mom;

   AliVParticle *track = jet->GetLeadingTrack();
   if (track) {
     mom.SetPtEtaPhiM(track->Pt(),track->Eta(),track->Phi(),0.139);

     return GetZ(jet,mom);
   }
   else {
     return -1;
   }
 }

 Double_t AliJetContainer::GetZ(const AliEmcalJet *jet, const TLorentzVector& mom) const
 {
   Double_t pJetSq = jet->Px()*jet->Px() + jet->Py()*jet->Py() + jet->Pz()*jet->Pz();

   if (pJetSq < 1e-6) {
     AliWarning(Form("%s: strange, pjet*pjet seems to be zero pJetSq: %.3f",GetName(), pJetSq));
     return 0;
   }

   Double_t z = (mom.Px()*jet->Px() + mom.Py()*jet->Py() + mom.Pz()*jet->Pz()) / pJetSq;

   if (z < 0) {
     AliWarning(Form("%s: z  = %.3ff < 0, returning 0...",GetName(), z));
     z = 0;
   }

   return z;
 }

 void AliJetContainer::PrintCuts()
 {
   TString arrName = GetArrayName();
   Printf("Print jet cuts for %s",arrName.Data());
   Printf("PtBiasJetTrack: %f",fMinTrackPt);
   Printf("PtBiasJetClus: %f",fMinClusterPt);
   Printf("JetPtCut: %f", fMinPt);
   Printf("JetPtCutMax: %f", fMaxPt);
   Printf("JetAreaCut: %f",fJetAreaCut);
   Printf("AreaEmcCut: %f",fAreaEmcCut);
   Printf("JetMinEta: %f", fMinEta);
   Printf("JetMaxEta: %f", fMaxEta);
   Printf("JetMinPhi: %f", fMinPhi);
   Printf("JetMaxPhi: %f", fMaxPhi);
   Printf("MaxClusterPt: %f",fMaxClusterPt);
   Printf("MaxTrackPt: %f",fMaxTrackPt);
   Printf("LeadingHadronType: %d",fLeadingHadronType);
   Printf("ZLeadingEmcCut: %f",fZLeadingEmcCut);
   Printf("ZLeadingChCut: %f",fZLeadingChCut);
 }

 void AliJetContainer::ResetCuts()
 {
   fMinTrackPt     = 0;
   fMinClusterPt   = 0;
   fMinPt          = 0;
   fJetAreaCut     = -1;
   fAreaEmcCut     = -1;
   fMinEta         = -0.9;
   fMaxEta         = 0.9;
   fMinPhi         = 0;
   fMaxPhi         = 10;
   fMaxClusterPt   = 1000;
   fMaxTrackPt     = 100;
   fLeadingHadronType = 0;
   fZLeadingEmcCut = 10.;
   fZLeadingChCut  = 10.;
 }

 Int_t AliJetContainer::GetNAcceptedJets()
 {
   return accepted().GetEntries();
 }

 Double_t AliJetContainer::GetFractionSharedPt(const AliEmcalJet *jet1, AliParticleContainer *cont2) const
 {
   AliEmcalJet *jet2 = jet1->ClosestJet();
   if (!jet2) return -1;

   Double_t jetPt2 = jet2->Pt();
   if (jetPt2 <= 0) return -1;

   Int_t bgeom = kTRUE;
   if (!cont2) bgeom = kFALSE;
   Double_t sumPt = 0.;
   AliVParticle *vpf = 0x0;
   Int_t iFound = 0;
   for (Int_t icc = 0; icc < jet2->GetNumberOfTracks(); icc++) {
     Int_t idx = (Int_t)jet2->TrackAt(icc);
     //get particle
     AliVParticle *p2 = 0x0;
     if (bgeom) p2 = static_cast<AliVParticle*>(jet2->Track(icc));
     iFound = 0;
     for (Int_t icf = 0; icf < jet1->GetNumberOfTracks(); icf++) {
       if (!bgeom && idx == jet1->TrackAt(icf) && iFound == 0 ) {
         iFound = 1;
         vpf = jet1->Track(icf);
         if (vpf) sumPt += vpf->Pt();
         continue;
       }
       if (bgeom){
         vpf = jet1->Track(icf);
         if (!vpf) continue;
         if (!SamePart(vpf, p2, 1.e-4)) continue; //not the same particle
         sumPt += vpf->Pt();
       }
     }
   }

   Double_t fraction = sumPt / jetPt2;

   return fraction;
 }

 TString AliJetContainer::GenerateJetName(EJetType_t jetType, EJetAlgo_t jetAlgo, ERecoScheme_t recoScheme, Double_t radius, AliParticleContainer* partCont, AliClusterContainer* clusCont, TString tag)
 {
   TString algoString;
   switch (jetAlgo)
   {
   case kt_algorithm:
     algoString = "KT";
     break;
   case antikt_algorithm:
     algoString = "AKT";
     break;
   default:
     ::Warning("AliJetContainer::GenerateJetName", "Unknown jet finding algorithm '%d'!", jetAlgo);
     algoString = "";
   }

   TString typeString;
   switch (jetType) {
   case kFullJet:
     typeString = "Full";
     break;
   case kChargedJet:
     typeString = "Charged";
     break;
   case kNeutralJet:
     typeString = "Neutral";
     break;
   }

   TString radiusString = TString::Format("R%03.0f", radius*100.0);

   TString trackString;
   if (partCont) { //Neutral jets on particle level, can have praticle containers
     trackString = "_" + TString(partCont->GetTitle());
   }

   TString clusterString;
   if (jetType != kChargedJet && clusCont) {
     clusterString = "_" + TString(clusCont->GetTitle());
   }

   TString recombSchemeString;
   switch (recoScheme) {
   case E_scheme:
     recombSchemeString = "E_scheme";
     break;
   case pt_scheme:
     recombSchemeString = "pt_scheme";
     break;
   case pt2_scheme:
     recombSchemeString = "pt2_scheme";
     break;
   case Et_scheme:
     recombSchemeString = "Et_scheme";
     break;
   case Et2_scheme:
     recombSchemeString = "Et2_scheme";
     break;
   case BIpt_scheme:
     recombSchemeString = "BIpt_scheme";
     break;
   case BIpt2_scheme:
     recombSchemeString = "BIpt2_scheme";
     break;
   case external_scheme:
     recombSchemeString = "ext_scheme";
     break;
   default:
     ::Error("AliJetContainer::GenerateJetName", "Recombination %d scheme not recognized.", recoScheme);
   }

   TString name = TString::Format("%s_%s%s%s%s%s_%s",
       tag.Data(), algoString.Data(), typeString.Data(), radiusString.Data(), trackString.Data(), clusterString.Data(), recombSchemeString.Data());

   return name;
 }

 const AliJetIterableContainer AliJetContainer::all() const {
   return AliJetIterableContainer(this, false);
 }

 const AliJetIterableContainer AliJetContainer::accepted() const {
   return AliJetIterableContainer(this, true);
 }

 const AliJetIterableMomentumContainer AliJetContainer::all_momentum() const {
   return AliJetIterableMomentumContainer(this, false);
 }

 const AliJetIterableMomentumContainer AliJetContainer::accepted_momentum() const {
   return AliJetIterableMomentumContainer(this, true);
 }

 const char* AliJetContainer::GetTitle() const
 {
   static TString jetString;

   if (GetMinPt() == 0) {
     jetString = TString::Format("_%s_pT0000", GetArrayName().Data());
   }
   else if (GetMinPt() < 1.0) {
     jetString = TString::Format("_%s_pT0%3.0f", GetArrayName().Data(), GetMinPt()*1000.0);
   }
   else {
     jetString = TString::Format("_%s_pT%4.0f", GetArrayName().Data(), GetMinPt()*1000.0);
   }

   return jetString.Data();
 }

 Bool_t AliJetContainer::CheckTpcHolesOverlap(const AliEmcalJet *jet, UInt_t &rejectionReason) const
 {
   if (!jet) {
     AliDebug(11,"No jet found");
     rejectionReason |= kNullObject;
     return kFALSE;
   }

   Double_t disthole = RelativePhi(jet->Phi(), fTpcHolePos);
   if (TMath::Abs(disthole) < (fTpcHoleWidth + fJetRadius)){
     AliDebug(11,"Jet overlaps with TPC hole");
     rejectionReason |= kOverlapTpcHole;
     return kFALSE;
   }

   return kTRUE;
 }
AliEmcalJet::AreaEmc
Double_t AreaEmc() const
Definition: AliEmcalJet.h:135

AliJetContainer::fJetTrigger
UInt_t fJetTrigger
jet trigger
Definition: AliJetContainer.h:225

AliJetContainer::fJetAcceptanceType
UInt_t fJetAcceptanceType
Jet acceptance type cut, see AliEmcalJet::JetAcceptanceType.
Definition: AliJetContainer.h:206

AliEmcalJet::Area
Double_t Area() const
Definition: AliEmcalJet.h:130

AliClusterContainer::GetTitle
const char * GetTitle() const
Definition: AliClusterContainer.cxx:515

AliJetContainer::fMinTrackPt
Float_t fMinTrackPt
maximum track constituent pt to accept the jet
Definition: AliJetContainer.h:216

AliJetContainer::fJetAreaCut
Float_t fJetAreaCut
cut on jet area
Definition: AliJetContainer.h:212

AliJetContainer::GetRhoVal
Double_t GetRhoVal() const
Definition: AliJetContainer.h:164

AliJetContainer::fJetRadius
Float_t fJetRadius
jet radius
Definition: AliJetContainer.h:207

Double_t
double Double_t
Definition: External.C:58

AliJetContainer::fTpcHolePos
Double_t fTpcHolePos
position(in radians) of the malfunctioning TPC sector
Definition: AliJetContainer.h:234

AliJetContainer::LoadRho
void LoadRho(const AliVEvent *event)
Definition: AliJetContainer.cxx:191

AliJetContainer::ResetCuts
void ResetCuts()
Definition: AliJetContainer.cxx:785

AliEmcalJet::GetLeadingTrack
AliVParticle * GetLeadingTrack(TClonesArray *tracks=0) const
Definition: AliEmcalJet.cxx:487

AliEmcalJet::ClosestJet
AliEmcalJet * ClosestJet() const
Definition: AliEmcalJet.h:327

AliJetContainer::fRhoMass
AliRhoParameter * fRhoMass
! event rho mass for these jets
Definition: AliJetContainer.h:231

AliEmcalJet::GetTagStatus
Int_t GetTagStatus() const
Definition: AliEmcalJet.h:338

AliJetContainer::BIpt2_scheme
Definition: AliJetContainer.h:65

AliJetContainer::ApplyJetCuts
virtual Bool_t ApplyJetCuts(const AliEmcalJet *clus, UInt_t &rejectionReason) const
Definition: AliJetContainer.cxx:514

AliJetContainer::E_scheme
Definition: AliJetContainer.h:59

AliJetContainer::AliJetContainer
AliJetContainer()
Definition: AliJetContainer.cxx:35

AliEmcalJet::Eta
Double_t Eta() const
Definition: AliEmcalJet.h:121

AliParticleContainer::GetTitle
const char * GetTitle() const
Definition: AliParticleContainer.cxx:434

AliJetContainer::pt2_scheme
Definition: AliJetContainer.h:61

AliJetContainer::PrintCuts
void PrintCuts()
Definition: AliJetContainer.cxx:761

AliJetContainer::fRho
AliRhoParameter * fRho
! event rho for these jets
Definition: AliJetContainer.h:229

AliEmcalJet::Py
Double_t Py() const
Definition: AliEmcalJet.h:107

AliEmcalJet::Phi
Double_t Phi() const
Definition: AliEmcalJet.h:117

mass
Double_t mass
Definition: charmCutsOptimization.C:35

opt
TString opt
Definition: MakePurityCalculationAndComparisons.C:41

AliLocalRhoParameter::GetLocalVal
Double_t GetLocalVal(Double_t phi, Double_t r, Double_t n) const
Definition: AliLocalRhoParameter.h:16

EMCALIterableContainer::AliEmcalIterableContainerT
Definition: AliEmcalIterableContainer.h:95

AliTLorentzVector.h
Declaration of class AliTLorentzVector.

AliJetContainer::kNeutralJet
Definition: AliJetContainer.h:43

AliJetContainer::fNEFMinCut
Float_t fNEFMinCut
minimum NEF in a jet
Definition: AliJetContainer.h:220

AliJetContainer::GetJetPtCorrLocal
Double_t GetJetPtCorrLocal(Int_t i) const
Definition: AliJetContainer.cxx:359

AliEmcalJet::Track
AliVParticle * Track(Int_t idx) const
Definition: AliEmcalJet.cxx:690

AliJetContainer::AcceptJet
virtual Bool_t AcceptJet(Int_t i, UInt_t &rejectionReason) const
Definition: AliJetContainer.cxx:492

AliJetContainer::fRecombinationScheme
ERecoScheme_t fRecombinationScheme
Recombination scheme.
Definition: AliJetContainer.h:205

AliJetContainer::LoadRhoMass
void LoadRhoMass(const AliVEvent *event)
Definition: AliJetContainer.cxx:229

AliRhoParameter
Definition: AliRhoParameter.h:11

AliJetContainer::fParticleContainer
AliParticleContainer * fParticleContainer
particle container (jet constituents)
Definition: AliJetContainer.h:227

AliJetContainer::fJetType
EJetType_t fJetType
Jet type.
Definition: AliJetContainer.h:203

AliJetContainer::CheckTpcHolesOverlap
virtual Bool_t CheckTpcHolesOverlap(const AliEmcalJet *clus, UInt_t &rejectionReason) const
Definition: AliJetContainer.cxx:1012

AliJetContainer::ERecoScheme_t
ERecoScheme_t
Definition: AliJetContainer.h:58

AliJetContainer::GetMomentum
Bool_t GetMomentum(TLorentzVector &mom, Int_t i) const
Definition: AliJetContainer.cxx:415

AliJetContainer::GenerateJetName
static TString GenerateJetName(EJetType_t jetType, EJetAlgo_t jetAlgo, ERecoScheme_t recoScheme, Double_t radius, AliParticleContainer *partCont, AliClusterContainer *clusCont, TString tag)
Definition: AliJetContainer.cxx:872

AliEmcalJet::GetNumberOfConstituents
UShort_t GetNumberOfConstituents() const
Definition: AliEmcalJet.h:140

AliParticleContainer
Container for particles within the EMCAL framework.
Definition: AliParticleContainer.h:31

AliJetContainer::all_momentum
const AliJetIterableMomentumContainer all_momentum() const
Definition: AliJetContainer.cxx:972

AliJetContainer::kt_algorithm
Definition: AliJetContainer.h:48

AliEmcalJet::TrackAt
Int_t TrackAt(Int_t idx) const
Definition: AliEmcalJet.h:160

AliTLorentzVector
Definition: AliTLorentzVector.h:19

AliEmcalJet::GetNumberOfTracks
UShort_t GetNumberOfTracks() const
Definition: AliEmcalJet.h:139

AliJetContainer::fLocalRho
AliLocalRhoParameter * fLocalRho
! event local rho for these jets
Definition: AliJetContainer.h:230

AliEmcalJet::Px
Double_t Px() const
Definition: AliEmcalJet.h:106

AliJetContainer::fAreaEmcCut
Float_t fAreaEmcCut
minimum cut on jet emcal area
Definition: AliJetContainer.h:213

AliEmcalJet::GetMomentum
void GetMomentum(TLorentzVector &vec) const
Definition: AliEmcalJet.cxx:327

AliJetContainer::fLeadingHadronType
Int_t fLeadingHadronType
0 = charged, 1 = neutral, 2 = both
Definition: AliJetContainer.h:222

AliJetContainer::fTpcHoleWidth
Double_t fTpcHoleWidth
width of the malfunctioning TPC area
Definition: AliJetContainer.h:235

AliJetContainer::GetLeadingJet
AliEmcalJet * GetLeadingJet(const char *opt="")
Definition: AliJetContainer.cxx:246

AliJetContainer::GetLeadingHadronMomentum
void GetLeadingHadronMomentum(TLorentzVector &mom, const AliEmcalJet *jet) const
Definition: AliJetContainer.cxx:653

AliJetContainer::GetAcceptMomentum
Bool_t GetAcceptMomentum(TLorentzVector &mom, Int_t i) const
Definition: AliJetContainer.cxx:444

AliJetContainer::fJetAlgorithm
EJetAlgo_t fJetAlgorithm
Jet algorithm.
Definition: AliJetContainer.h:204

AliJetContainer::accepted_momentum
const AliJetIterableMomentumContainer accepted_momentum() const
Definition: AliJetContainer.cxx:981

Int_t
int Int_t
Definition: External.C:63

AliJetContainer::fRunNumber
Int_t fRunNumber
! run number
Definition: AliJetContainer.h:233

UInt_t
unsigned int UInt_t
Definition: External.C:33

AliJetContainer::GetLeadingHadronPt
Double_t GetLeadingHadronPt(const AliEmcalJet *jet) const
Definition: AliJetContainer.cxx:631

EMCALIterableContainer::AliEmcalIterableContainerT::GetEntries
int GetEntries() const
Definition: AliEmcalIterableContainer.h:301

AliEmcalJet::GetJetAcceptanceType
UInt_t GetJetAcceptanceType() const
Definition: AliEmcalJet.h:367

AliJetContainer::EJetAlgo_t
EJetAlgo_t
Definition: AliJetContainer.h:47

AliJetContainer::fMaxClusterPt
Float_t fMaxClusterPt
maximum cluster constituent pt to accept the jet
Definition: AliJetContainer.h:215

AliJetContainer::GetNextAcceptMomentum
Bool_t GetNextAcceptMomentum(TLorentzVector &mom)
Definition: AliJetContainer.cxx:458

AliJetContainer::GetTitle
const char * GetTitle() const
Definition: AliJetContainer.cxx:990

AliParticleContainer.h

AliJetContainer::pt_scheme
Definition: AliJetContainer.h:60

AliJetContainer::kChargedJet
Definition: AliJetContainer.h:42

AliLocalRhoParameter
Definition: AliLocalRhoParameter.h:10

AliJetContainer.h

AliJetContainer::antikt_algorithm
Definition: AliJetContainer.h:49

AliJetContainer::fMinClusterPt
Float_t fMinClusterPt
maximum cluster constituent pt to accept the jet
Definition: AliJetContainer.h:214

AliEmcalJet::MaxTrackPt
Double_t MaxTrackPt() const
Definition: AliEmcalJet.h:155

AliJetContainer::undefined_scheme
Definition: AliJetContainer.h:67

AliJetContainer::fLocalRhoName
TString fLocalRhoName
Name of local rho object.
Definition: AliJetContainer.h:209

AliJetContainer::BIpt_scheme
Definition: AliJetContainer.h:64

AliJetContainer::fZLeadingChCut
Float_t fZLeadingChCut
maximum z,leading charged
Definition: AliJetContainer.h:219

AliEmcalJet::GetLeadingCluster
AliVCluster * GetLeadingCluster(TClonesArray *clusters=0) const
Definition: AliEmcalJet.cxx:508

AliJetContainer::GetNextAcceptJet
AliEmcalJet * GetNextAcceptJet()
Definition: AliJetContainer.cxx:308

Data
Bool_t Data(TH1F *h, Double_t *rangefit, Bool_t writefit, Double_t &sgn, Double_t &errsgn, Double_t &bkg, Double_t &errbkg, Double_t &sgnf, Double_t &errsgnf, Double_t &sigmafit, Int_t &status)
Definition: charmCutsOptimization.C:371

AliEmcalJet::Pt
Double_t Pt() const
Definition: AliEmcalJet.h:109

AliLocalRhoParameter.h

AliJetContainer::Et_scheme
Definition: AliJetContainer.h:62

AliJetContainer::GetNextJet
AliEmcalJet * GetNextJet()
Definition: AliJetContainer.cxx:327

AliJetContainer::fGeom
AliEMCALGeometry * fGeom
! emcal geometry
Definition: AliJetContainer.h:232

AliJetContainer::EJetType_t
EJetType_t
Definition: AliJetContainer.h:40

AliEmcalJet::P
Double_t P() const
Definition: AliEmcalJet.h:110

AliJetContainer::fNLeadingJets
Int_t fNLeadingJets
how many jets are to be considered the leading jet(s)
Definition: AliJetContainer.h:223

AliJetContainer::fRhoMassName
TString fRhoMassName
Name of rho mass object.
Definition: AliJetContainer.h:210

AliJetContainer::GetZLeadingCharged
Double_t GetZLeadingCharged(const AliEmcalJet *jet) const
Definition: AliJetContainer.cxx:717

AliJetContainer::undefined_jet_algorithm
Definition: AliJetContainer.h:55

AliJetContainer::GetNAcceptedJets
Int_t GetNAcceptedJets()
Definition: AliJetContainer.cxx:807

AliEmcalJet::TestFlavourTag
Bool_t TestFlavourTag(Int_t tag) const
Definition: AliEmcalJet.h:353

AliJetIterableContainer
EMCALIterableContainer::AliEmcalIterableContainerT< AliEmcalJet, EMCALIterableContainer::operator_star_object< AliEmcalJet > > AliJetIterableContainer
Definition: AliJetContainer.h:14

AliJetContainer::SetArray
void SetArray(const AliVEvent *event)
Definition: AliJetContainer.cxx:177

AliJetContainer::LoadLocalRho
void LoadLocalRho(const AliVEvent *event)
Definition: AliJetContainer.cxx:210

AliJetContainer::fTagStatus
Int_t fTagStatus
jet tag status
Definition: AliJetContainer.h:226

AliJetIterableMomentumContainer
EMCALIterableContainer::AliEmcalIterableContainerT< AliEmcalJet, EMCALIterableContainer::operator_star_pair< AliEmcalJet > > AliJetIterableMomentumContainer
Definition: AliJetContainer.h:26

AliJetContainer::kFullJet
Definition: AliJetContainer.h:41

AliJetContainer::fZLeadingEmcCut
Float_t fZLeadingEmcCut
maximum z,leading neutral
Definition: AliJetContainer.h:218

AliJetContainer::GetAcceptJet
AliEmcalJet * GetAcceptJet(Int_t i) const
Definition: AliJetContainer.cxx:293

AliEmcalJet::MaxClusterPt
Double_t MaxClusterPt() const
Definition: AliEmcalJet.h:154

AliEmcalJet
Represent a jet reconstructed using the EMCal jet framework.
Definition: AliEmcalJet.h:51

AliJetContainer::GetZLeadingEmc
Double_t GetZLeadingEmc(const AliEmcalJet *jet) const
Definition: AliJetContainer.cxx:696

AliJetContainer::Et2_scheme
Definition: AliJetContainer.h:63

AliEmcalJet::Pz
Double_t Pz() const
Definition: AliEmcalJet.h:108

AliJetContainer::fMaxTrackPt
Float_t fMaxTrackPt
maximum track constituent pt to accept the jet
Definition: AliJetContainer.h:217

AliJetContainer::GetFractionSharedPt
Double_t GetFractionSharedPt(const AliEmcalJet *jet, AliParticleContainer *cont2=0x0) const
Definition: AliJetContainer.cxx:821

AliJetContainer::kUndefinedJetType
Definition: AliJetContainer.h:44

AliParticleContainer::ApplyKinematicCuts
virtual Bool_t ApplyKinematicCuts(const AliTLorentzVector &mom, UInt_t &rejectionReason) const
Definition: AliParticleContainer.cxx:398

AliJetContainer::external_scheme
Definition: AliJetContainer.h:66

AliJetContainer::accepted
const AliJetIterableContainer accepted() const
Definition: AliJetContainer.cxx:963

Bool_t
bool Bool_t
Definition: External.C:53

TString
Definition: External.C:108

AliJetContainer::fNEFMaxCut
Float_t fNEFMaxCut
maximum NEF in a jet
Definition: AliJetContainer.h:221

AliEmcalJet::NEF
Double_t NEF() const
Definition: AliEmcalJet.h:148

AliJetContainer::GetMomentumFromJet
Bool_t GetMomentumFromJet(TLorentzVector &mom, const AliEmcalJet *jet, Double_t mass) const
Definition: AliJetContainer.cxx:373

AliJetContainer::fClusterContainer
AliClusterContainer * fClusterContainer
cluster container (jet constituents)
Definition: AliJetContainer.h:228

AliJetContainer::GetNextMomentum
Bool_t GetNextMomentum(TLorentzVector &mom)
Definition: AliJetContainer.cxx:429

AliClusterContainer
Container structure for EMCAL clusters.
Definition: AliClusterContainer.h:33

AliJetContainer::fMinNConstituents
Int_t fMinNConstituents
minimum number of constituents in jet
Definition: AliJetContainer.h:224

AliEmcalJet::MaxPartPt
Double_t MaxPartPt() const
Definition: AliEmcalJet.h:156

AliJetContainer
Container for jet within the EMCAL jet framework.
Definition: AliJetContainer.h:37

AliClusterContainer.h

AliJetContainer::GetZ
Double_t GetZ(const AliEmcalJet *jet, const TLorentzVector &mom) const
Definition: AliJetContainer.cxx:739

AliJetContainer::fRhoName
TString fRhoName
Name of rho object.
Definition: AliJetContainer.h:208

AliJetContainer::GetJet
AliEmcalJet * GetJet(Int_t i) const
Definition: AliJetContainer.cxx:279

AliJetContainer::all
const AliJetIterableContainer all() const
Definition: AliJetContainer.cxx:954

AliJetContainer::GetJetPtCorr
Double_t GetJetPtCorr(Int_t i) const
Definition: AliJetContainer.cxx:347

AliJetContainer::fFlavourSelection
Int_t fFlavourSelection
selection on jet flavour
Definition: AliJetContainer.h:211