Updating geometry for new scintillaton modules

[u/mrichter/AliRoot.git] / EMCAL / AliEMCALJetFinderPlots.h

#ifndef ALIEMCALJETFINDERPLOTS_H
#define ALIEMCALJETFINDERPLOTS_H

/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
 *  *  * See cxx source for full Copyright notice     */


/* $Id$ */

//_________________________________________________________________________
//  Class for Filling jetfinder plots
//
//*-- Author: Mark Horner (LBL/UCT)
//
//



#include "TObject.h"
#include "TH1F.h"
#include "TH2F.h"

#include "AliEMCALJetFinderOutput.h"

class AliEMCALJetFinderPlots : public TObject
{
        public: 
        AliEMCALJetFinderPlots();
        ~AliEMCALJetFinderPlots();
        void SetConeRadius(Float_t coneradius){fConeRadius = coneradius;}
        void SetNominalEnergy(Float_t energy){fNominalEnergy = energy;}
        void SetDebug(Int_t debug){fDebug = debug;}
        void SetBackHisto(TH1F* histo){fhBackHisto=histo;}
        void FillFromOutput(AliEMCALJetFinderOutput* output,Float_t weight=1.0);
        //========================== CASE 1 ========================
        // Only consider events with only 1 jet
        TH1F* GetFragmFcn(){return fhFragmFcn;} 
        TH1F* GetPartonFragmFcn(){return fhPartonFragmFcn;}     
        TH1F* GetPT(){return fhJetPT;}  
        TH1F* GetPartonPT(){return fhPartonPT;} 
        TH1F* GetJetJT(){return fhJetJT;}       
        TH1F* GetPartonJT(){return fhPartonJT;} 
        TH1F* GetJetPL(){return fhJetPL;}
        TH1F* GetPartonPL(){return fhPartonPL;}
        TH1F* GetJetEt(){return fhJetEt;}
        TH1F* GetJetEtDiff(){return fhJetEtDiff;}
        TH1F* GetJetEta(){return fhJetEta;}
        TH1F* GetPartonEta(){return fhPartonEta;}
        TH1F* GetPartonPhi(){return fhPartonPhi;}
        TH1F* GetJetPhi(){return fhJetPhi;}
        TH1F* GetEtaDiff(){return fhEtaDiff;}
        TH1F* GetPhiDiff(){return fhPhiDiff;}
        TH2F* GetEtaPhiSpread(){return fhEtaPhiSpread;}
        TH1F* GetNJets(){return fhNJets;}

        //========================== CASE 2 ========================
        // Only consider events with at least 2 jets
        TH1F* GetFragmFcn2(){return fhFragmFcn2;}       
        TH1F* GetPartonFragmFcn2(){return fhPartonFragmFcn2;}   
        TH1F* GetPT2(){return fhJetPT2;}        
        TH1F* GetPartonPT2(){return fhPartonPT2;}       
        TH1F* GetJetJT2(){return fhJetJT2;}     
        TH1F* GetPartonJT2(){return fhPartonJT2;}       
        TH1F* GetJetPL2(){return fhJetPL2;}
        TH1F* GetPartonPL2(){return fhPartonPL2;}
        TH1F* GetJetEt2(){return fhJetEt2;}
        TH1F* GetJetEtDiff2(){return fhJetEtDiff2;}
        TH1F* GetJetEta2(){return fhJetEta2;}
        TH1F* GetPartonEta2(){return fhPartonEta2;}
        TH1F* GetPartonPhi2(){return fhPartonPhi2;}
        TH1F* GetJetPhi2(){return fhJetPhi2;}
        TH1F* GetEtaDiff2(){return fhEtaDiff2;}
        TH1F* GetPhiDiff2(){return fhPhiDiff2;}
        TH2F* GetEtaPhiSpread2(){return fhEtaPhiSpread2;}
        TH1F* GetNJets2(){return fhNJets2;}
        TH1F* GetJetEtSecond2(){return fhJetEtSecond2;}
        TH1F* GetJetEtRatio2(){return fhJetEtRatio2;}
        TH1F* GetEtaPhiDist2(){return fhEtaPhiDist2;}

        
        TH1F* GetJetPt(){return fhJetPT ;}
        TH1F* GetPartonPt(){return fhPartonPT ;}
        TH1F* GetJetPt2(){return        fhJetPT2;}
        TH1F* GetPartonPt2(){return fhPartonPT2;}
        TH1F* GetRecoBinFragmFcn() {return fhRecoBinFragmFcn;}
        TH1F* GetRecoBinFragmFcnNoBg() {return fhRecoBinFragmFcnNoBg;}
        TH1F* GetRecoBinPartonFragmFcn() {return        fhRecoBinPartonFragmFcn;}

        //============================== ALL CASES ============================================
        
        TH2F* GetInputOutput(){return fhInputOutput;}
        
        //============================== Reconstruction Bin Comparison  ============================================
        
        TH1F* GetRecoBinPt(){return fhRecoBinPt;}                  // ("fhRecoBinPt","Reconstructed Pt Distribution",100,0,1);
        TH1F* GetRecoBinPtNoBg(){return fhRecoBinPtNoBg;}                  // ("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
        Float_t                         fConeRadius;    // Cone radius to be used in filling
        Float_t                         fNominalEnergy; // Force a nominal energy - specifically for 80+20 jets
        AliEMCALJetFinderOutput*        fOutput;        // Output object to be analysed
        //===================== CASE 1 ===========================================
        TH1F                            *fhFragmFcn;    // ("hFragmFcn","Fragmentation Function",100,0,1);
        TH1F                            *fhPartonFragmFcn;// ("hFragmFcn","Parton Fragmentation Function",100,0,1);
        TH1F                            *fhPartonJT;    // ("hPartonJT","Track Momentum Perpendicular to Parton Axis",100,0.,10.);
        TH1F                            *fhPartonPL;    // ("hPartonPL","Track Momentum Parallel to Parton Axis ",100,0.,100.);
        TH1F                            *fhJetJT;       // ("hJetJT","Track Momentum Perpendicular to Jet Axis",100,0.,10.);
        TH1F                            *fhJetPL;       // ("hJetPL","Track Momentum Parallel to Jet Axis ",100,0.,100.);
        TH1F                            *fhJetEt;       // ("hJetEt","E_{T}^{reco}",250,0.,250.);
        TH1F                            *fhJetEtDiff;   // ("hJetEt","E_{T}^{reco}",250,0.,250.);
        TH1F                            *fhJetEta;      // ("hJetEta","#eta_{jet}^{reco}",180,-0.9,0.9);
        TH1F                            *fhJetPhi;      // ("hJetPhi","#phi_{jet}^{reco}",62,0.,3.1);
        TH1F                            *fhPartonEta;   // ("hPartonEta","#eta_{Parton}",180,-0.9,0.9);
        TH1F                            *fhPartonPhi;   // ("hPartonPhi","#phi_{Parton}",62,0.,3.1);
        TH1F                            *fhEtaDiff;     // ("hEtaDiff","#eta_{jet}^{reco}-#eta_{jet}^{input}",100,-0.5,0.5);
        TH1F                            *fhPhiDiff;     // ("hPhiDiff","#phi_{jet}^{reco}-#phi_{jet}^{input}",100,-0.5,0.5);
        TH2F                            *fhEtaPhiSpread;        // ("hEtaPhiSpread","#eta - #phi Distribution 
                                                        //of Reconstructed Jets",192,-0.7,0.7,288,pi/3,pi);
        TH1F                            *fhNJets;       // ("hNJets","N Reconstructed jets",11,-0.5,10.5);
  
        //============================== CASE 2 ============================================

        TH1F                            *fhFragmFcn2;   // ("hFragmFcn2","Fragmentation Function",100,0,1);
        TH1F                            *fhPartonFragmFcn2;// ("hFragmFcn2","Parton Fragmentation Function",100,0,1);
        TH1F                            *fhPartonJT2;   // ("hPartonJT2","Track Momentum Perpendicular to Parton Axis",100,0.,10.);
        TH1F                            *fhPartonPL2;   // ("hPartonPL2","Track Momentum Parallel to Parton Axis ",100,0.,100.);
        TH1F                            *fhJetJT2;      // ("hJetJT2","Track Momentum Perpendicular to Jet Axis",100,0.,10.);
        TH1F                            *fhJetPL2;      // ("hJetPL2","Track Momentum Parallel to Jet Axis ",100,0.,100.);
        TH1F                            *fhJetEt2;      // ("hJetEt2","E_{T}^{reco}",250,0.,250.);
        TH1F                            *fhJetEtDiff2;  // ("hJetEt","E_{T}^{reco}",250,0.,250.);
        TH1F                            *fhJetEta2;     // ("hJetEta2","#eta_{jet}^{reco}",180,-0.9,0.9);
        TH1F                            *fhJetPhi2;     // ("hJetPhi2","#phi_{jet}^{reco}",62,0.,3.1);
        TH1F                            *fhPartonEta2;  // ("hPartonEta2","#eta_{Parton}",180,-0.9,0.9);
        TH1F                            *fhPartonPhi2;  // ("hPartonPhi2","#phi_{Parton}",62,0.,3.1);
        TH1F                            *fhEtaDiff2;    // ("hEtaDiff2","#eta_{jet}^{reco}-#eta_{jet}^{input}",100,-0.5,0.5);
        TH1F                            *fhPhiDiff2;    // ("hPhiDiff2","#phi_{jet}^{reco}-#phi_{jet}^{input}",100,-0.5,0.5);
        TH2F                            *fhEtaPhiSpread2;       // ("hEtaPhiSpread2","#eta - #phi Distribution 
                                                        //of Reconstructed Jets",192,-0.7,0.7,288,pi/3,pi);
        TH1F                            *fhNJets2;      // ("hNJets2","N Reconstructed jets",11,-0.5,10.5);
        TH1F                            *fhJetEtSecond2; //("hJetEtSecond2","E_{T}^{reco}",250,0.,250.); 
        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                            *fhRecoBinPtNoBg;              // ("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.);
    TH1F*                               fhJetPT ;// new TH1F("hJetPT","P_{T} Distribution",200,0,200);
    TH1F*                               fhPartonPT ;// new TH1F("hPartonPT","Parton P_{T} Distribution",200,0,1);
    TH1F*                               fhJetPT2 ;// new TH1F("hJetPT","P_{T} Distribution",200,0,200);
    TH1F*                               fhPartonPT2 ;// new TH1F("hPartonPT","Parton P_{T} Distribution",200,0,1);
    TH1F*                               fhRecoBinFragmFcn;//new TH1F("fhRecoBinFragmFcn","Reconstructed Frag. Fcn",100,0,1);
    TH1F*                               fhRecoBinFragmFcnNoBg;//new TH1F("fhRecoBinFragmFcn","Reconstructed Frag. Fcn",100,0,1);
    TH1F*                               fhRecoBinPartonFragmFcn;// new TH1F("fhRecoBinPartonFragmFcn","Input Bin Fragm Fcn Distribution",100,0,1);
        
        TH1F*                           fhJetInvE;// new TH1F("fhJetInvE","#frac{1}{E_{R}}",100,0,1);
        TH1F*                           fhJetInvE2;// new TH1F("fhJetInvE2","#frac{1}{E_{R}}",100,0,1);
 
        TH1F*                           fhBackHisto;
        Float_t                         fScaleFactor; //Scaling to get back to correct energy
        Bool_t                          fInitialised; // have histograms been initialised
                
        
        ClassDef(AliEMCALJetFinderPlots,6)
        
};
#endif