Int_t GetAreaTypeNumber() const {return fAreaTypeNumber;}
Int_t GetBGAlgorithm() const {return fBGAlgo;}
Int_t GetNPassMax() const {return fNPassMax;}
+ Int_t GetNumberOfJetsToErase() const {return fNHardJets;}
Int_t GetSplitMergeScale() const {return fSplitMergeScaleNumber;}
Double_t GetGhostEtaMax() const {return fGhostEtaMax;}
Double_t GetGhostArea() const {return fGhostArea;}
Double_t GetEffectiveRFact() const {return fEffectiveRFact;}
+
Double_t GetRapMax() const {return fRapMax;}
Double_t GetRapMin() const {return fRapMin;}
Double_t GetPhiMax() const {return fPhiMax;}
void SetConeRadius(Double_t value) {fConeRadius = value;}
void SetMinJetPt(Double_t value) {fMinJetPt = value;}
void SetNPassMax(Int_t value) {fNPassMax = value;}
+ void SetNumberOfJetsToErase(Int_t value) {fNHardJets = value;}
void SetOverlapThreshold(Double_t value) {fOverlapThreshold = value;}
void SetPhiRange(Double_t fmin, Double_t fmax) {fPhiMin = fmin; fPhiMax = fmax;}
void SetPtProtojetMin(Double_t value) {fPtProtoJetMin = value;}
Int_t fActiveAreaRepeats; // How many times do you want to caculate active areas?
Int_t fAreaTypeNumber; // Kind of area
Int_t fBGAlgo; // Algorithm for rho calculus
+ Int_t fNHardJets; // Number of hard jets not to take into account for rho estimation
+
Bool_t fBGMode; // Do we subtract BG or not?
Bool_t fCaching; // Do we record found cones for this set of data?
Double_t fConeRadius; // Cone radius
Int_t fSplitMergeScaleNumber; // Kind of recombination in split/merge procedure, there's only one
Double_t fSplitMergeStoppingScale; // Stopping scale for split/merge procedure in case of area calculus
- ClassDef(AliSISConeJetHeader,3)
+ ClassDef(AliSISConeJetHeader,4)
};
#endif