AliEmcalJet* SecondClosestJet() const { return fClosestJets[1]; }
Double_t SecondClosestJetDistance() const { return fClosestJetsDist[1]; }
AliEmcalJet* MatchedJet() const { return fMatched < 2 ? fClosestJets[fMatched] : 0; }
- // Only for backward compatibility
Double_t MaxClusterPt() const { return MaxNeutralPt(); }
Double_t MaxTrackPt() const { return MaxChargedPt(); }
void SetMatchedToSecondClosest() { fMatched = 1; }
protected:
- Double32_t fPt; //[0,0,12] pt
- Double32_t fEta; //[-1,1,12] eta
- Double32_t fPhi; //[0,6.3,12] phi
- Double32_t fM; //[0,0,8] mass
- Double32_t fNEF; //[0,1,8] neutral energy fraction
- Double32_t fArea; //[0,0,12] area
- Double32_t fAreaEmc; //[0,0,12] area on EMCAL surface (determined from ghosts)
- Bool_t fAxisInEmcal; // =true if jet axis inside EMCAL acceptance
- Double32_t fMaxCPt; //[0,0,12] pt of maximum charged constituent
- Double32_t fMaxNPt; //[0,0,12] pt of maximum neutral constituent
- Double32_t fMCPt; // pt from MC particles contributing to the jet
- Int_t fNn; // number of neutral constituents
- Int_t fNch; // number of charged constituents
- TArrayS fClusterIDs; // array of cluster constituents
- TArrayS fTrackIDs; // array of track constituents
- AliEmcalJet *fClosestJets[2]; //! if this is MC it contains the two closest detector level jets in order of distance and viceversa
- Double32_t fClosestJetsDist[2]; //! distance to closest jets (see above)
- UShort_t fMatched; //! 0,1 if it is matched with one of the closest jets; 2 if it is not matched
+ Double32_t fPt; //[0,0,12] pt
+ Double32_t fEta; //[-1,1,12] eta
+ Double32_t fPhi; //[0,6.3,12] phi
+ Double32_t fM; //[0,0,8] mass
+ Double32_t fNEF; //[0,1,8] neutral energy fraction
+ Double32_t fArea; //[0,0,12] area
+ Double32_t fAreaEmc; //[0,0,12] area on EMCAL surface (determined from ghosts)
+ Bool_t fAxisInEmcal; // =true if jet axis inside EMCAL acceptance
+ Double32_t fMaxCPt; //[0,0,12] pt of maximum charged constituent
+ Double32_t fMaxNPt; //[0,0,12] pt of maximum neutral constituent
+ Double32_t fMCPt; // pt from MC particles contributing to the jet
+ Int_t fNn; // number of neutral constituents
+ Int_t fNch; // number of charged constituents
+ TArrayS fClusterIDs; // array of cluster constituents
+ TArrayS fTrackIDs; // array of track constituents
+ AliEmcalJet *fClosestJets[2]; //! if this is MC it contains the two closest detector level jets in order of distance and viceversa
+ Double32_t fClosestJetsDist[2]; //! distance to closest jets (see above)
+ UShort_t fMatched; //! 0,1 if it is matched with one of the closest jets; 2 if it is not matched
ClassDef(AliEmcalJet,6) // Emcal jet class in cylindrical coordinates
};