void SwitchOnSplitClusterDistToBad() { fCheckSplitDistToBad = kTRUE ; }
void SwitchOffSplitClusterDistToBad() { fCheckSplitDistToBad = kFALSE ; }
-
- void SetNumberOfSuperModules(Int_t nSM) { fNSuperModules = nSM ; }
-
//For histograms
enum mcTypes { kmcPhoton = 0, kmcConversion = 1, kmcPi0 = 2,
Bool_t fCheckSplitDistToBad; // Check the distance to bad channel and to EMCal borders of split clusters
- Int_t fNSuperModules; // Number of supermodules
-
//Histograms
TH1F * fhPt ; //! Number of identified pi0/eta vs pT
TH2F * fhAnglePairMCPi0; //! pair opening angle, origin is same pi0
TH2F * fhAnglePairMCEta; //! pair opening angle, origin is same eta
+ TH2F * fhMCPi0PtOrigin ; //! Mass of reoconstructed pi0 pairs in calorimeter vs mother
+ TH2F * fhMCEtaPtOrigin ; //! Mass of reoconstructed pi0 pairs in calorimeter vs mother
+ TH2F * fhMCPi0ProdVertex; //! Spectrum of selected pi0 vs production vertex
+ TH2F * fhMCEtaProdVertex; //! Spectrum of selected eta vs production vertex
+ TH2F * fhMCPi0ProdVertexInner; //! Spectrum of selected pi0 vs production vertex, below 50 cm
+ TH2F * fhMCEtaProdVertexInner; //! Spectrum of selected eta vs production vertex, below 50 cm
+
+
// Weight studies
TH2F * fhECellClusterRatio; //! e cell / e cluster vs e cluster for selected photons
AliAnaPi0EbE( const AliAnaPi0EbE & pi0ebe) ; // cpy ctor
AliAnaPi0EbE & operator = (const AliAnaPi0EbE & pi0ebe) ; // cpy assignment
- ClassDef(AliAnaPi0EbE,36)
+ ClassDef(AliAnaPi0EbE,38)
} ;