// Main
+ void FillEMCALBCHistograms(Float_t energy, Float_t eta, Float_t phi, Float_t time);
+
void FillPileUpHistograms(Float_t pt, Float_t time, AliVCluster * c) ;
void FillRejectedClusterHistograms(TLorentzVector mom, Int_t mctag, Int_t nMaxima);
TH2F * fhSelectedMass ; //! pair mass vs E, for selected pairs
TH2F * fhSelectedMassPt ; //! pair mass vs pT, for selected pairs
TH2F * fhSelectedMassSplitPt ; //! pair mass vs pT (split), for selected pairs
-
+
TH2F * fhMassPtLocMax[3] ; //! pair mass vs pT, for all pairs, for each NLM case
TH2F * fhSelectedMassPtLocMax[3] ; //! pair mass vs pT, for selected pairs, for each NLM case
TH2F * fhSelectedMassPtLocMaxSM[3][22];//! pair mass vs pT, for selected pairs, for each NLM case, for each SM
TH1F * fhEDecay ; //! Number of identified pi0/eta decay photons vs E
TH2F * fhPtDispersion ; //! pT vs disp of selected cluster
- TH2F * fhPtLambda0 ; //! pT vs lambda0 of selected cluster
- TH2F * fhPtLambda1 ; //! pT vs lambda1 of selected cluster
+ TH2F * fhPtLambda0 ; //! pT vs lambda0 of selected cluster
+ TH2F * fhPtLambda0NoSplitCut ; //! pT vs lambda0 of cluster before the split selection.
+ TH2F * fhPtLambda1 ; //! pT vs lambda1 of selected cluster
TH2F * fhPtLambda0NoTRD ; //! pT vs lambda0 of selected cluster, not behind TRD
TH2F * fhPtLambda0FracMaxCellCut ;//! pT vs lambda0 of selected cluster, fraction of cluster energy in max cell cut
TH2F * fhPtFracMaxCell ; //! pT vs frac max cell of selected cluster
AliAnaPi0EbE( const AliAnaPi0EbE & pi0ebe) ; // cpy ctor
AliAnaPi0EbE & operator = (const AliAnaPi0EbE & pi0ebe) ; // cpy assignment
- ClassDef(AliAnaPi0EbE,38)
+ ClassDef(AliAnaPi0EbE,39)
} ;