void SetMC(Bool_t mc){fMC=mc;return;}
void SetMClowenpp2011(Bool_t mc){fMCLowEn2011=mc;return;}
void SetOnePad(Bool_t onepad){fOnePad=onepad;return;}
+ void SetppLowEn2011(Bool_t opt){fppLowEn2011=opt;return;}
void SetPbPb(Bool_t pbpb){fPbPb=pbpb;return;}
void SetPCompatTOF(Double_t pTOF){fPCompatTOF=pTOF;return;}
void SetTOFdecide(Bool_t tOFdecide){fTOFdecide=tOFdecide;return;}
Bool_t GetCompat() const{return fCompat;}
Bool_t GetMC() const{return fMC;}
Bool_t GetOnePad() const{return fOnePad;}
+ Bool_t GetppLowEn2011() const {return fppLowEn2011;}
Bool_t GetMCLowEn2011() const {return fMCLowEn2011;}
Bool_t GetPbPb() const{return fPbPb;}
Bool_t GetTOFdecide() const{return fTOFdecide;}
Bool_t fMC; // MC(kTRUE) or real data (kFALSE, default option)
Bool_t fOnePad; // real data with one pad clusters
Bool_t fMCLowEn2011; // MC for low energy MC
+ Bool_t fppLowEn2011; // Data for low energy pp 2011
Bool_t fPbPb; // real data PbPb
Bool_t fTOFdecide; // real data PbPb
Bool_t fOldPid; // old PID method implemented
AliPIDCombined* fPidCombined; //combined PID object
- ClassDef(AliAODPidHF,14) // AliAODPid for heavy flavor PID
+ ClassDef(AliAODPidHF,15) // AliAODPid for heavy flavor PID
};