AliAnaOmegaToPi0Gamma() ; // default ctor
AliAnaOmegaToPi0Gamma(const char *name) ; // default ctor
- AliAnaOmegaToPi0Gamma(const AliAnaOmegaToPi0Gamma & g) ; // cpy ctor
- AliAnaOmegaToPi0Gamma & operator = (const AliAnaOmegaToPi0Gamma & api0) ;//cpy assignment
virtual ~AliAnaOmegaToPi0Gamma() ;//virtual dtor
-
+
+ private:
+ AliAnaOmegaToPi0Gamma(const AliAnaOmegaToPi0Gamma & ex) ; // cpy ctor
+ AliAnaOmegaToPi0Gamma & operator = (const AliAnaOmegaToPi0Gamma & ex) ;//cpy assignment
+
+ public:
TList * GetCreateOutputObjects();
void Print(const Option_t * opt) const;
void Terminate(TList * outList);
TString GetInputAODPhotonName() const {return fInputAODGammaName;}
- void SetInputAODPhotonName(TString name) {fInputAODGammaName=name;}
+ void SetInputAODPhotonName(TString name) { fInputAODGammaName = name; }
Bool_t IsBadRun(Int_t /*iRun*/) const {return kFALSE;} //Tests if this run bad according to private list
void SetNEventsMixed(Int_t nevents) { fNmaxMixEv=nevents;} //events to be mixed
- void SetNPID(Int_t pid) {fNpid=pid;}
- void SetNVtxZ(Int_t vtx){fNVtxZBin=vtx;}
- void SetNBadChDist(Int_t dist){fNBadChDistBin=dist;}
+
+ void SetNPID(Int_t pid) {fNpid=pid;} //N pid cut
+ void SetNVtxZ(Int_t vtx){fNVtxZBin=vtx;} //N vertex Z cut
void SetPi0MassPeakWidthCut(Double_t win){fPi0MassWindow=win;}
+
void SetPi0OverOmegaPtCut(Double_t cut){fPi0OverOmegaPtCut=cut;}
void SetGammaOverOmegaPtCut(Double_t cut){fGammaOverOmegaPtCut=cut;}
void ReadHistograms(TList * outputList);
private:
- TClonesArray * fInputAODGamma; //Input AOD gamma array
TClonesArray * fInputAODPi0; //Input AOD pi0 array
TString fInputAODGammaName; //Input AOD gamma name
TList ** fEventsList; //event list for mixing
-
- Double_t *fVtxZCut; //vtertx z cut
- Double_t *fCent; //centrality cut
- Double_t *fRp; //reaction plane cut
- Int_t *fBadChDist; //bad channel dist
-
+
Int_t fNVtxZBin; //Number of vertex z cut
Int_t fNCentBin; //Number of centrality cut
Int_t fNRpBin; //Number of reaction plane cut
-
Int_t fNBadChDistBin; //Number of bad channel dist cut
Int_t fNpid; //Number of PID cut
-
Int_t fNmaxMixEv; //buffer size events to be mixed
+
+ Double_t *fVtxZCut; //![fNVtxZBin] vtertx z cut
+ Double_t *fCent; //![fNCentBin] centrality cut
+ Double_t *fRp; //![fNRpBin] reaction plane cut
+
Double_t fPi0Mass; //nominal pi0 mass
Double_t fPi0MassWindow; //pi0 mass windows
Double_t fPi0OverOmegaPtCut; //pi0 Pt over omega pt cut
Double_t fGammaOverOmegaPtCut; //gamma pt over omega pt cut
TH2F * fhEtalon; //an etalon of 3D histograms
-
- TH2F **fRealOmega; //real omega IVM(asy, pt, m), with Asy_pi0<1
- TH2F **fMixAOmega; //mixA omega IVM(asy, pt, m)
- TH2F **fMixBOmega; //mixB omega IVM(asy, pt, m)
- TH2F **fMixCOmega; //mixC omega IVM(asy, pt, m)
-
+ TH2F **fRealOmega0; //real omega IVM(asy, pt, m), with Asy_pi0<1
+ TH2F **fMixAOmega0; //mixA omega IVM(asy, pt, m)
+ TH2F **fMixBOmega0; //mixB omega IVM(asy, pt, m)
+ TH2F **fMixCOmega0; //mixC omega IVM(asy, pt, m)
TH2F **fRealOmega1; //real omega IVM(asy, pt, m), with Asy_pi0<0.7
TH2F **fMixAOmega1; //mixA omega IVM(asy, pt, m)
TH2F **fMixBOmega1; //mixB omega IVM(asy, pt, m)
TH2F **fMixCOmega1; //mixC omega IVM(asy, pt, m)
-
TH2F **fRealOmega2; //real omega IVM(asy, pt, m), with Asy_pi0<0.8
TH2F **fMixAOmega2; //mixA omega IVM(asy, pt, m)
TH2F **fMixBOmega2; //mixB omega IVM(asy, pt, m)
TH2F **fMixCOmega2; //mixC omega IVM(asy, pt, m)
-
TH1F *fhOmegaPriPt; //MC primary omega pt in 2pi and |y|<0.5
+
ClassDef(AliAnaOmegaToPi0Gamma,2)
} ;
git://git.uio.no / u / mrichter / AliRoot.git / blobdiff