Float_t GetMaxMove() const {return fMaxMove;}
Float_t GetEtSeed() const {return fEtSeed;}
Float_t GetMinJetEt() const {return fMinJetEt;}
+ Float_t GetMinCellEt() const {return fMinCellEt;} // Added temporarily !!! To be removed if not necessary
Int_t GetLegoNbinEta() const {return fLegoNbinEta;}
Int_t GetLegoNbinPhi() const {return fLegoNbinPhi;}
Float_t GetLegoEtaMin() const {return fLegoEtaMin;}
void SetMaxMove(Float_t f) {fMaxMove=f;}
void SetEtSeed(Float_t f) {fEtSeed=f;}
void SetMinJetEt(Float_t f) {fMinJetEt=f;}
+ void SetMinCellEt(Float_t f) {fMinCellEt=f;}
void SetLegoNbinEta(Int_t f) {fLegoNbinEta=f;}
void SetLegoNbinPhi(Int_t f) {fLegoNbinPhi=f;}
void SetLegoEtaMin(Float_t f) {fLegoEtaMin=f;}
Float_t fConeRadius; // Cone radius
Float_t fEtSeed; // Min. Et for seed
Float_t fMinJetEt; // Min Et of jet
+ Float_t fMinCellEt; // Min Et in one cell
// parameters of backgound substraction
Float_t fMinMove; // min cone move
Float_t fMaxMove; // max cone move
- Int_t fBackgMode; // background subtraction mode
+ Int_t fBackgMode; // background subtraction mode
Float_t fPrecBg; // max value of change for BG (in %)
- Float_t fBackgStat; // pre-calculated background used in statistic subtraction method
- Float_t fBackgCutRatio; // pre-calculated pt-cut ratio used in ratio subtraction method
- Int_t fNAcceptJets; // number of accepted jets per events
+ Float_t fBackgStat; // pre-calculated background used in statistic subtraction method
+ Float_t fBackgCutRatio; // pre-calculated pt-cut ratio used in ratio subtraction method
+ Int_t fNAcceptJets; // number of accepted jets per events
// parameters for legos
- Int_t fLegoNbinEta; //! number of cells in eta
- Int_t fLegoNbinPhi; //! number of cells in phi
- Float_t fLegoEtaMin; //! minimum eta
- Float_t fLegoEtaMax; //! maximum eta
- Float_t fLegoPhiMin; //! minimun phi
- Float_t fLegoPhiMax; //! maximum phi
+ Int_t fLegoNbinEta; // number of cells in eta
+ Int_t fLegoNbinPhi; // number of cells in phi
+ Float_t fLegoEtaMin; // minimum eta
+ Float_t fLegoEtaMax; // maximum eta
+ Float_t fLegoPhiMin; // minimun phi
+ Float_t fLegoPhiMax; // maximum phi
ClassDef(AliUA1JetHeaderV1,1)
};