void SetDnorm(Int_t i, Float_t d) {fDnorm[i]=d;}
Float_t GetSigmaY(Int_t i) const {return fSigmaY[i];}
Float_t GetSigmaZ(Int_t i) const {return fSigmaZ[i];}
+ Float_t GetSigmaYZ(Int_t i) const {return fSigmaYZ[i];}
void SetSigmaY(Int_t i, Float_t s) {fSigmaY[i]=s;}
void SetSigmaZ(Int_t i, Float_t s) {fSigmaZ[i]=s;}
+ void SetSigmaYZ(Int_t i, Float_t s) {fSigmaYZ[i]=s;}
Float_t GetNDeadZone() const {return fNDeadZone;}
void SetNDeadZone(Float_t d) {fNDeadZone=d;}
Int_t* ClIndex() {return fClIndex;}
Float_t GetDeadZoneProbability(Int_t ilayer) const {return fDeadZoneProbability[ilayer];}
void SetDeadZoneProbability(Int_t ilayer,Float_t d) {fDeadZoneProbability[ilayer]=d;}
- Double_t GetPredictedChi2MI(Double_t cy, Double_t cz, Double_t cerry, Double_t cerrz) const;
+ Double_t GetPredictedChi2MI(Double_t cy, Double_t cz, Double_t cerry, Double_t cerrz, Double_t covyz=0.) const;
Bool_t IsGoldPrimary();
protected:
Float_t fDz[12]; //dz in layer
Float_t fSigmaY[12]; //sigma y
Float_t fSigmaZ[12]; //sigma z
+ Float_t fSigmaYZ[12]; //covariance of y and z
Float_t fNy[6]; //expected size of cluster
Float_t fNz[6]; //expected size of cluster
Float_t fD[2]; //distance to the vertex
Bool_t fConstrain; //indication of the vertex constrain
Int_t fClIndex[6]; //cluster Index
Bool_t fGoldV0; //corresponding gold V0 found
- ClassDef(AliITStrackMI,2) //ITS reconstructed track
+ ClassDef(AliITStrackMI,3) //ITS reconstructed track
};
#endif