void SetMinNormDistForb3(Float_t kMinNormDistForb3=1.0){fkMinNormDistForb3=kMinNormDistForb3;}
void SetMinNormDistForb4(Float_t kMinNormDistForb4=4.0){fkMinNormDistForb4=kMinNormDistForb4;}
void SetMinNormDistForb5(Float_t kMinNormDistForb5=5.0){fkMinNormDistForb5=kMinNormDistForb5;}
+ void SetMinNormDistForbProt(Float_t kMinNormDistForbProt=2.0){fkMinNormDistForbProt=kMinNormDistForbProt;}
+ void SetMaxPidProbPionForb(Float_t kMaxPidProbPionForb=0.5){fkMaxPidProbPionForb=kMaxPidProbPionForb;}
+
void SetMinRTPCdensity(Float_t kMinRTPCdensity=40.0){fkMinRTPCdensity=kMinRTPCdensity;}
void SetMaxRTPCdensity0( Float_t kMaxRTPCdensity0=110.0){fkMaxRTPCdensity0=kMaxRTPCdensity0;}
Float_t GetMinNormDistForb3() const {return fkMinNormDistForb3;}
Float_t GetMinNormDistForb4() const {return fkMinNormDistForb4;}
Float_t GetMinNormDistForb5() const {return fkMinNormDistForb5;}
+ Float_t GetMinNormDistForbProt() const {return fkMinNormDistForbProt;}
+ Float_t GetMaxPidProbPionForb() const {return fkMaxPidProbPionForb;}
Float_t GetMinRTPCdensity() const {return fkMinRTPCdensity;}
Float_t GetMaxRTPCdensity0() const {return fkMaxRTPCdensity0;}
Float_t fkMinNormDistForb3; // Minimum normalize distance Forbid cond 3
Float_t fkMinNormDistForb4; // Minimum normalize distance Forbid cond 4
Float_t fkMinNormDistForb5; // Minimum normalize distance Forbid cond 5
+ Float_t fkMinNormDistForbProt; // Minimum normalize distance to not Forbid Proton
+ Float_t fkMaxPidProbPionForb; // Max pid prob to decleare not pion
+
Float_t fkMinRTPCdensity; // Minimum R TPC density cond
Float_t fkMaxRTPCdensity0; // Maximum R TPC density cond
- ClassDef(AliESDV0Params,3) // ESD V0 vertex - error and likelihood parameterization constant
+ ClassDef(AliESDV0Params,4) // ESD V0 vertex - error and likelihood parameterization constant
};