#ifndef AliJetContainer_H
#define AliJetContainer_H
-//
-// container with name, TClonesArray and cuts for jets
-//
+// $Id$
class TClonesArray;
class TString;
class AliVEvent;
class AliParticleContainer;
class AliClusterContainer;
+class AliLocalRhoParameter;
#include "AliRhoParameter.h"
void SetEMCALGeometry();
void SetEMCALGeometry(AliEMCALGeometry *p) {fGeom = p;}
void LoadRho(AliVEvent *event);
+ void LoadLocalRho(AliVEvent *event);
void SetJetAcceptanceType(JetAcceptanceType type) { fJetAcceptanceType = type ; }
-
void ResetCuts();
-
void SetJetEtaPhiEMCAL() ;
void SetJetEtaPhiTPC() ;
void SetRunNumber(Int_t r) { fRunNumber = r; }
-
void SetJetEtaLimits(Float_t min, Float_t max) { fJetMinEta = min, fJetMaxEta = max ; }
void SetJetPhiLimits(Float_t min, Float_t max) { fJetMinPhi = min, fJetMaxPhi = max ; }
void SetJetAreaCut(Float_t cut) { fJetAreaCut = cut ; }
- void SetPercAreaCut(Float_t p) { if(fJetRadius==0.) AliWarning("JetRadius not set. Area cut will be 0"); fJetAreaCut = p*TMath::Pi()*fJetRadius*fJetRadius; }
+ void SetPercAreaCut(Float_t p) { if(fJetRadius==0.) AliWarning("JetRadius not set. Area cut will be 0");
+ fJetAreaCut = p*TMath::Pi()*fJetRadius*fJetRadius; }
void SetZLeadingCut(Float_t zemc, Float_t zch) { fZLeadingEmcCut = zemc; fZLeadingChCut = zch ; }
-
+ void SetNEFCut(Float_t min = 0., Float_t max = 1.) { fNEFMinCut = min; fNEFMaxCut = max; }
void SetAreaEmcCut(Double_t a = 0.99) { fAreaEmcCut = a ; }
void SetJetPtCut(Float_t cut) { fJetPtCut = cut ; }
void SetJetRadius(Float_t r) { fJetRadius = r ; }
virtual void SetRhoName(const char *n) { fRhoName = n ; }
+ virtual void SetLocalRhoName(const char *n) { fLocalRhoName = n ; }
+ void SetFlavourCut(Int_t myflavour) { fFlavourSelection = myflavour;}
void SetMaxClusterPt(Float_t b) { fMaxClusterPt = b ; }
void SetMaxTrackPt(Float_t b) { fMaxTrackPt = b ; }
void SetPtBiasJetClus(Float_t b) { fPtBiasJetClus = b ; }
void SetNLeadingJets(Int_t t) { fNLeadingJets = t ; }
void SetPtBiasJetTrack(Float_t b) { fPtBiasJetTrack = b ; }
-
void SetLeadingHadronType(Int_t t) { fLeadingHadronType = t ; }
void SetJetBitMap(UInt_t m) { fJetBitMap = m ; }
void SetJetTrigger(UInt_t t=AliVEvent::kEMCEJE) { fJetTrigger = t ; }
-
void ConnectParticleContainer(AliParticleContainer *c) { fParticleContainer = c ; }
void ConnectClusterContainer(AliClusterContainer *c) { fClusterContainer = c ; }
-
AliEmcalJet *GetLeadingJet(const char* opt="") ;
AliEmcalJet *GetJet(Int_t i) const;
AliEmcalJet *GetAcceptJet(Int_t i) const;
AliEmcalJet *GetNextJet(Int_t i=-1) ;
void GetMomentum(TLorentzVector &mom, Int_t i) const;
Bool_t AcceptJet(AliEmcalJet* jet) const;
- Bool_t AcceptBiasJet(AliEmcalJet* jet) const;
+ Bool_t AcceptBiasJet(AliEmcalJet* jet) const;
+ Int_t GetFlavourCut() const {return fFlavourSelection;}
Int_t GetNJets() const {return GetNEntries();}
Double_t GetLeadingHadronPt(AliEmcalJet* jet) const;
void GetLeadingHadronMomentum(TLorentzVector &mom, AliEmcalJet* jet) const;
Double_t GetZLeadingEmc(AliEmcalJet *jet) const;
Double_t GetZLeadingCharged(AliEmcalJet *jet) const;
AliRhoParameter *GetRhoParameter() {return fRho;}
- Double_t GetRhoVal() const { if (fRho) return fRho->GetVal(); else return 0;}
+ Double_t GetRhoVal() const {if (fRho) return fRho->GetVal(); else return 0;}
const TString& GetRhoName() const {return fRhoName;}
+ AliLocalRhoParameter *GetLocalRhoParameter() const {return fLocalRho;}
+ const TString& GetLocalRhoName() const {return fLocalRhoName;}
Double_t GetJetPtCorr(Int_t i) const;
+ Double_t GetJetPtCorrLocal(Int_t i) const;
Float_t GetJetRadius() const {return fJetRadius;}
Float_t GetJetEtaMin() const {return fJetMinEta;}
Float_t GetJetEtaMax() const {return fJetMaxEta;}
JetAcceptanceType fJetAcceptanceType; // acceptance type
Float_t fJetRadius; // jet radius
TString fRhoName; // Name of rho object
+ TString fLocalRhoName; // Name of local rho object
+ Int_t fFlavourSelection; // selection on jet flavour
Float_t fPtBiasJetTrack; // select jets with a minimum pt track
Float_t fPtBiasJetClus; // select jets with a minimum pt cluster
Float_t fJetPtCut; // cut on jet pt
Float_t fMaxTrackPt; // maximum track constituent pt to accept the jet
Float_t fZLeadingEmcCut; // maximum z,leading neutral
Float_t fZLeadingChCut; // maximum z,leading charged
+ Float_t fNEFMinCut; // minimum NEF in a jet
+ Float_t fNEFMaxCut; // maximum NEF in a jet
Int_t fLeadingHadronType; // 0 = charged, 1 = neutral, 2 = both
Int_t fNLeadingJets; // how many jets are to be considered the leading jet(s)
UInt_t fJetBitMap; // bit map of accepted jets
AliClusterContainer *fClusterContainer; // cluster container (jet constituents)
AliRhoParameter *fRho; //! event rho for these jets
+ AliLocalRhoParameter *fLocalRho; //! event local rho for these jets
AliEMCALGeometry *fGeom; //! emcal geometry
Int_t fRunNumber; //! run number
AliJetContainer(const AliJetContainer& obj); // copy constructor
AliJetContainer& operator=(const AliJetContainer& other); // assignment
- ClassDef(AliJetContainer,4);
+ ClassDef(AliJetContainer,6);
};
#endif
-
-