Double_t PtSub(Double_t rho) const { return fPt - fArea*rho; }
Double_t PtSubVect(Double_t rho) const;
Short_t TrackAt(Int_t idx) const { return fTrackIDs.At(idx); }
- AliVParticle *TrackAt(Int_t idx, TClonesArray *ta) const { if (!ta) return 0; return dynamic_cast<AliVParticle*>(ta->At(TrackAt(idx))); }
+ AliVParticle *TrackAt(Int_t idx, TClonesArray *ta) const { if (!ta) return 0; return dynamic_cast<AliVParticle*>(ta->At(TrackAt(idx))); }
AliVParticle *GetLeadingTrack(TClonesArray *tracks) const;
Int_t GetFlavour() const { return fFlavourTagging; }
Int_t fNch; // number of charged constituents
Double32_t fPtEmc; //[0,0,12] pt in EMCAL acceptance
Int_t fNEmc; // number of constituents in EMCAL acceptance
- TArrayI fClusterIDs; // array of cluster constituents
- TArrayI fTrackIDs; // array of track constituents
+ TArrayI fClusterIDs; // array containing ids of cluster constituents
+ TArrayI fTrackIDs; // array containing ids 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