- private:
-
- AliPHOSClusterizer * fClu ; // a clusterizer
- Int_t fEvt ; // the evt number being processed
- AliPHOSGeometry * fGeom ; // the PHOS Geometry object
- AliPHOSIndexToObject * fObjGetter ; // provides methods to retrieve objects from their index in a list
- AliPHOSv1 * fPHOS ; // the PHOS object from the root file
- AliPHOSPID * fPID ; // a particle identifier
- AliPHOSReconstructioner * fRec ; // a reconstructioner
- TFile * fRootFile ; // the root file that contains the data
- AliPHOSTrackSegmentMaker * fTrs ; // a tracksegmentmaker ;
- TH1F * fhEmcDigit ; // Histo of digit energies in the Emc
- TH1F * fhVetoDigit ; // Histo of digit energies in the Veto
- TH1F * fhConvertorDigit ; // Histo of digit energies in the Convertor
- TH1F * fhEmcCluster ; // Histo of Cluster energies in Emc
- TH1F * fhVetoCluster ; // Histo of Cluster energies in Veto
- TH1F * fhConvertorCluster ; // Histo of Cluster energies in Convertor
- TH2F * fhConvertorEmc ; // 2d Convertor versus Emc energies
- TH1F * fhPhotonEnergy ; // Spectrum of detected photons
- TH1F * fhElectronEnergy ; // Spectrum of detected electrons
- TH1F * fhNeutralHadronEnergy ; // Spectrum of detected neutral hadron
- TH1F * fhNeutralEMEnergy ; // Spectrum of detected neutral EM
- TH1F * fhChargedHadronEnergy ; // Spectrum of detected charged
- TH1F * fhPhotonHadronEnergy ; // Spectrum of detected Photon-Hadron
- TH1F * fhPhotonPositionX ; // X distribution of detected photons
- TH1F * fhElectronPositionX ; // X distribution of detected electrons
- TH1F * fhNeutralHadronPositionX ; // X distribution of detected neutral hadron
- TH1F * fhNeutralEMPositionX ; // X distribution of detected neutral EM
- TH1F * fhChargedHadronPositionX ; // X distribution of detected charged
- TH1F * fhPhotonHadronPositionX ; // X distribution of detected Photon-Hadron
- TH1F * fhPhotonPositionY ; // Y distribution of detected photons
- TH1F * fhElectronPositionY ; // Y distribution of detected electrons
- TH1F * fhNeutralHadronPositionY ; // Y distribution of detected neutral hadron
- TH1F * fhNeutralEMPositionY ; // Y distribution of detected neutral EM
- TH1F * fhChargedHadronPositionY ; // Y distribution of detected charged
- TH1F * fhPhotonHadronPositionY ; // Y distribution of detected Photon-Hadron
+private:
+
+ Float_t CorrectedEnergy(Float_t ReconstEnergy)const
+ {return ReconstEnergy * fCorrection;}
+ //Converts reconstructed energy (energy of the EMCRecPoint) to the energy of primary
+ //The coeficient shoud be (and was) calculated usin Erec vs. Eprim plot
+ //(see Energy Resolution function). However, if one change parameters of reconstruction
+ //or geometry, one have to recalculate coefficient!
+
+private:
+
+ Float_t fCorrection ; //! Conversion coefficient between True and Reconstructed energies
+ Int_t fEvt ; //! the evt number being processed
+ TString ffileName ; //! the root file that contains the data