TH1F* GetJetEtRatio2(){return fhJetEtRatio2;}
TH1F* GetEtaPhiDist2(){return fhEtaPhiDist2;}
+ //============================== ALL CASES ============================================
+
+ TH2F* GetInputOutput(){return fhInputOutput;}
+
+ //============================== Reconstruction Bin Comparison ============================================
+
+ TH1F* GetRecoBinPt(){return fhRecoBinPt;} // ("fhRecoBinPt","Reconstructed Pt Distribution",100,0,1);
+ TH1F* GetRecoBinPartonPt(){return fhRecoBinPartonPt;} // ("fhRecoBinPartonPt","Input Pt Distribution",100,0,1);
+ TH1F* GetRecoBinJetEt(){return fhRecoBinJetEt;} // ("fhRecoJetEt","E_{T}^{reco}",250,0.,250.);
+ TH1F* GetRecoBinInputJetEt(){return fhRecoBinInputJetEt;} // ("fhRecoInputJetEt","E_{T}^{reco}",250,0.,250.);
+
private:
void InitPlots();
Int_t fDebug; // Debug value
TH1F *fhJetEtRatio2; //("hJetEtRatio2","Ratio of Second Highest to Highest",100,0,1);
TH1F *fhEtaPhiDist2; //("hEtaPhiDist2","Angular Distance Between First and Second",100,0,3);
+ //============================== ALL CASES ============================================
+ TH2F *fhInputOutput; //("hJetEtRatio2","Ratio of Second Highest to Highest",100,0,1);
+ //============================== Reconstruction Bin Comparison ============================================
+
+ TH1F *fhRecoBinPt; // ("fhRecoBinPt","Reconstructed Pt Distribution",100,0,1);
+ TH1F *fhRecoBinPartonPt; // ("fhRecoBinPartonPt","Input Pt Distribution",100,0,1);
+ TH1F *fhRecoBinJetEt; // ("fhRecoJetEt","E_{T}^{reco}",250,0.,250.);
+ TH1F *fhRecoBinInputJetEt; // ("fhRecoInputJetEt","E_{T}^{reco}",250,0.,250.);
+
Bool_t fInitialised; // have histograms been initialised
- ClassDef(AliEMCALJetFinderPlots,4)
+ ClassDef(AliEMCALJetFinderPlots,5)
};
#endif