~AliHFEtaggedTrackAnalysis();
void InitContainer();
- void ProcessTrack(AliVParticle *track, Int_t abinitioPID);
+ void ProcessTrack(AliVTrack *track, Int_t abinitioPID);
AliHFEcontainer *GetContainer() const { return fContainer; }
AliHFEpidQAmanager *GetPIDqa() const { return fPIDqa; }
Bool_t GetClean() const { return fClean; };
Bool_t IsPbPb() const { return fIsPbPb; }
Bool_t IsPP() const { return !fIsPbPb; }
+ Bool_t IspPb() const { return fIspPb; }
Double_t GetMagneticField() const { return fMagneticField; };
AliHFEvarManager *GetVarManager() const { return fVarManager; }
void SetCentrality(Int_t centrality) { fCentralityF = centrality; };
void SetPbPb(){ fIsPbPb = kTRUE; }
void SetPP() { fIsPbPb = kFALSE; }
+ void SetpPb() { fIsPbPb = kFALSE; fIspPb=kTRUE; }
void SetClean(Bool_t clean) { fClean = clean; };
void SetMagneticField(Double_t magneticField) { fMagneticField = magneticField; };
void SetVariablesTRD(Bool_t variablesTRD) { fVariablesTRD = variablesTRD; };
Bool_t fClean; // Clean
Double_t fMagneticField; // Magnetic field
Bool_t fVariablesTRD; // Use phi angle at the first plane of the TRD
- Bool_t fIsPbPb; // Analysis Type: pp or PbPb
+ Bool_t fIsPbPb; // Analysis Type: PbPb or no PbPb
+ Bool_t fIspPb; // Analysis Type: pPb or no pPb
ClassDef(AliHFEtaggedTrackAnalysis, 0)
};