1 //_________________________________________________________________________
2 // Utility Class for transverse energy studies, charged hadrons
3 // Base class for MC analysis
6 //Created by Christine Nattrass, Rebecca Scott, Irakli Martashvili
7 //University of Tennessee at Knoxville
8 //_________________________________________________________________________
9 #ifndef ALIANALYSISHADETMONTECARLO_H
10 #define ALIANALYSISHADETMONTECARLO_H
12 #include "AliAnalysisHadEt.h"
15 class AliAnalysisHadEtReconstructed;
17 class AliAnalysisHadEtMonteCarlo : public AliAnalysisHadEt
22 AliAnalysisHadEtMonteCarlo();
23 virtual ~AliAnalysisHadEtMonteCarlo();
25 virtual Int_t AnalyseEvent(AliVEvent* event);
26 virtual Int_t AnalyseEvent(AliVEvent* event,AliVEvent* event2);
28 //void FillHistograms();
29 void CreateHistograms();
32 Float_t GetSimulatedHadronicEt() const {return fSimHadEt;}
33 Float_t GetSimulatedTotalEt() const {return fSimTotEt;}
35 void FillSimTotEtVsRecoTotEtFullAcceptanceTPC(Float_t et){if(fGoodEvent && fSimTotEt>0.0&&et>0.0)FillHisto2D("SimTotEtVsRecoTotEtFullAcceptanceTPC",fSimTotEt,et,1.0);}
36 void FillSimTotEtVsRecoTotEtFullAcceptanceITS(Float_t et){if(fGoodEvent && fSimTotEt>0.0&&et>0.0)FillHisto2D("SimTotEtVsRecoTotEtFullAcceptanceITS",fSimTotEt,et,1.0);}
37 void FillSimTotEtVsRecoTotEtEMCALAcceptanceTPC(Float_t et){if(fGoodEvent && fSimTotEt>0.0&&et>0.0)FillHisto2D("SimTotEtVsRecoTotEtEMCALAcceptanceTPC",fSimTotEt,et,1.0);}
38 void FillSimTotEtVsRecoTotEtEMCALAcceptanceITS(Float_t et){if(fGoodEvent && fSimTotEt>0.0&&et>0.0)FillHisto2D("SimTotEtVsRecoTotEtEMCALAcceptanceITS",fSimTotEt,et,1.0);}
39 void FillSimTotEtVsRecoTotEtPHOSAcceptanceTPC(Float_t et){if(fGoodEvent && fSimTotEt>0.0&&et>0.0)FillHisto2D("SimTotEtVsRecoTotEtPHOSAcceptanceTPC",fSimTotEt,et,1.0);}
40 void FillSimTotEtVsRecoTotEtPHOSAcceptanceITS(Float_t et){if(fGoodEvent && fSimTotEt>0.0&&et>0.0)FillHisto2D("SimTotEtVsRecoTotEtPHOSAcceptanceITS",fSimTotEt,et,1.0);}
41 void FillSimTotEtVsRecoTotEtFullAcceptanceTPCNoPID(Float_t et){if(fGoodEvent && fSimTotEt>0.0&&et>0.0)FillHisto2D("SimTotEtVsRecoTotEtFullAcceptanceTPCNoPID",fSimTotEt,et,1.0);}
42 void FillSimTotEtVsRecoTotEtFullAcceptanceITSNoPID(Float_t et){if(fGoodEvent && fSimTotEt>0.0&&et>0.0)FillHisto2D("SimTotEtVsRecoTotEtFullAcceptanceITSNoPID",fSimTotEt,et,1.0);}
43 void FillSimTotEtVsRecoTotEtEMCALAcceptanceTPCNoPID(Float_t et){if(fGoodEvent && fSimTotEt>0.0&&et>0.0)FillHisto2D("SimTotEtVsRecoTotEtEMCALAcceptanceTPCNoPID",fSimTotEt,et,1.0);}
44 void FillSimTotEtVsRecoTotEtEMCALAcceptanceITSNoPID(Float_t et){if(fGoodEvent && fSimTotEt>0.0&&et>0.0)FillHisto2D("SimTotEtVsRecoTotEtEMCALAcceptanceITSNoPID",fSimTotEt,et,1.0);}
45 void FillSimTotEtVsRecoTotEtPHOSAcceptanceTPCNoPID(Float_t et){if(fGoodEvent && fSimTotEt>0.0&&et>0.0)FillHisto2D("SimTotEtVsRecoTotEtPHOSAcceptanceTPCNoPID",fSimTotEt,et,1.0);}
46 void FillSimTotEtVsRecoTotEtPHOSAcceptanceITSNoPID(Float_t et){if(fGoodEvent && fSimTotEt>0.0&&et>0.0)FillHisto2D("SimTotEtVsRecoTotEtPHOSAcceptanceITSNoPID",fSimTotEt,et,1.0);}
47 void FillSimHadEtVsRecoHadEtFullAcceptanceTPC(Float_t et){if(fGoodEvent && fSimHadEt>0.0&&et>0.0)FillHisto2D("SimHadEtVsRecoHadEtFullAcceptanceTPC",fSimHadEt,et,1.0);}
48 void FillSimHadEtVsRecoHadEtFullAcceptanceITS(Float_t et){if(fGoodEvent && fSimHadEt>0.0&&et>0.0)FillHisto2D("SimHadEtVsRecoHadEtFullAcceptanceITS",fSimHadEt,et,1.0);}
49 void FillSimHadEtVsRecoHadEtEMCALAcceptanceTPC(Float_t et){if(fGoodEvent && fSimHadEt>0.0&&et>0.0)FillHisto2D("SimHadEtVsRecoHadEtEMCALAcceptanceTPC",fSimHadEt,et,1.0);}
50 void FillSimHadEtVsRecoHadEtEMCALAcceptanceITS(Float_t et){if(fGoodEvent && fSimHadEt>0.0&&et>0.0)FillHisto2D("SimHadEtVsRecoHadEtEMCALAcceptanceITS",fSimHadEt,et,1.0);}
51 void FillSimHadEtVsRecoHadEtPHOSAcceptanceTPC(Float_t et){if(fGoodEvent && fSimHadEt>0.0&&et>0.0)FillHisto2D("SimHadEtVsRecoHadEtPHOSAcceptanceTPC",fSimHadEt,et,1.0);}
52 void FillSimHadEtVsRecoHadEtPHOSAcceptanceITS(Float_t et){if(fGoodEvent && fSimHadEt>0.0&&et>0.0)FillHisto2D("SimHadEtVsRecoHadEtPHOSAcceptanceITS",fSimHadEt,et,1.0);}
53 void FillSimHadEtVsRecoHadEtFullAcceptanceTPCNoPID(Float_t et){if(fGoodEvent && fSimHadEt>0.0&&et>0.0)FillHisto2D("SimHadEtVsRecoHadEtFullAcceptanceTPCNoPID",fSimHadEt,et,1.0);}
54 void FillSimHadEtVsRecoHadEtFullAcceptanceITSNoPID(Float_t et){if(fGoodEvent && fSimHadEt>0.0&&et>0.0)FillHisto2D("SimHadEtVsRecoHadEtFullAcceptanceITSNoPID",fSimHadEt,et,1.0);}
55 void FillSimHadEtVsRecoHadEtEMCALAcceptanceTPCNoPID(Float_t et){if(fGoodEvent && fSimHadEt>0.0&&et>0.0)FillHisto2D("SimHadEtVsRecoHadEtEMCALAcceptanceTPCNoPID",fSimHadEt,et,1.0);}
56 void FillSimHadEtVsRecoHadEtEMCALAcceptanceITSNoPID(Float_t et){if(fGoodEvent && fSimHadEt>0.0&&et>0.0)FillHisto2D("SimHadEtVsRecoHadEtEMCALAcceptanceITSNoPID",fSimHadEt,et,1.0);}
57 void FillSimHadEtVsRecoHadEtPHOSAcceptanceTPCNoPID(Float_t et){if(fGoodEvent && fSimHadEt>0.0&&et>0.0)FillHisto2D("SimHadEtVsRecoHadEtPHOSAcceptanceTPCNoPID",fSimHadEt,et,1.0);}
58 void FillSimHadEtVsRecoHadEtPHOSAcceptanceITSNoPID(Float_t et){if(fGoodEvent && fSimHadEt>0.0&&et>0.0)FillHisto2D("SimHadEtVsRecoHadEtPHOSAcceptanceITSNoPID",fSimHadEt,et,1.0);}
60 void FillSimTotEtMinusRecoTotEtFullAcceptanceTPC(Float_t et){if(fGoodEvent && fSimTotEt>0.0&&et>0.0)FillHisto2D("SimTotEtMinusRecoTotEtFullAcceptanceTPC",et,(fSimTotEt-et)/fSimTotEt,1.0);}
61 void FillSimTotEtMinusRecoTotEtFullAcceptanceITS(Float_t et){if(fGoodEvent && fSimTotEt>0.0&&et>0.0)FillHisto2D("SimTotEtMinusRecoTotEtFullAcceptanceITS",et,(fSimTotEt-et)/fSimTotEt,1.0);}
62 void FillSimTotEtMinusRecoTotEtEMCALAcceptanceTPC(Float_t et){if(fGoodEvent && fSimTotEt>0.0&&et>0.0)FillHisto2D("SimTotEtMinusRecoTotEtEMCALAcceptanceTPC",et,(fSimTotEt-et)/fSimTotEt,1.0);}
63 void FillSimTotEtMinusRecoTotEtEMCALAcceptanceITS(Float_t et){if(fGoodEvent && fSimTotEt>0.0&&et>0.0)FillHisto2D("SimTotEtMinusRecoTotEtEMCALAcceptanceITS",et,(fSimTotEt-et)/fSimTotEt,1.0);}
64 void FillSimTotEtMinusRecoTotEtPHOSAcceptanceTPC(Float_t et){if(fGoodEvent && fSimTotEt>0.0&&et>0.0)FillHisto2D("SimTotEtMinusRecoTotEtPHOSAcceptanceTPC",et,(fSimTotEt-et)/fSimTotEt,1.0);}
65 void FillSimTotEtMinusRecoTotEtPHOSAcceptanceITS(Float_t et){if(fGoodEvent && fSimTotEt>0.0&&et>0.0)FillHisto2D("SimTotEtMinusRecoTotEtPHOSAcceptanceITS",et,(fSimTotEt-et)/fSimTotEt,1.0);}
66 void FillSimTotEtMinusRecoTotEtFullAcceptanceTPCNoPID(Float_t et){if(fGoodEvent && fSimTotEt>0.0&&et>0.0)FillHisto2D("SimTotEtMinusRecoTotEtFullAcceptanceTPCNoPID",et,(fSimTotEt-et)/fSimTotEt,1.0);}
67 void FillSimTotEtMinusRecoTotEtFullAcceptanceITSNoPID(Float_t et){if(fGoodEvent && fSimTotEt>0.0&&et>0.0)FillHisto2D("SimTotEtMinusRecoTotEtFullAcceptanceITSNoPID",et,(fSimTotEt-et)/fSimTotEt,1.0);}
68 void FillSimTotEtMinusRecoTotEtEMCALAcceptanceTPCNoPID(Float_t et){if(fGoodEvent && fSimTotEt>0.0&&et>0.0)FillHisto2D("SimTotEtMinusRecoTotEtEMCALAcceptanceTPCNoPID",et,(fSimTotEt-et)/fSimTotEt,1.0);}
69 void FillSimTotEtMinusRecoTotEtEMCALAcceptanceITSNoPID(Float_t et){if(fGoodEvent && fSimTotEt>0.0&&et>0.0)FillHisto2D("SimTotEtMinusRecoTotEtEMCALAcceptanceITSNoPID",et,(fSimTotEt-et)/fSimTotEt,1.0);}
70 void FillSimTotEtMinusRecoTotEtPHOSAcceptanceTPCNoPID(Float_t et){if(fGoodEvent && fSimTotEt>0.0&&et>0.0)FillHisto2D("SimTotEtMinusRecoTotEtPHOSAcceptanceTPCNoPID",et,(fSimTotEt-et)/fSimTotEt,1.0);}
71 void FillSimTotEtMinusRecoTotEtPHOSAcceptanceITSNoPID(Float_t et){if(fGoodEvent && fSimTotEt>0.0&&et>0.0)FillHisto2D("SimTotEtMinusRecoTotEtPHOSAcceptanceITSNoPID",et,(fSimTotEt-et)/fSimTotEt,1.0);}
72 void FillSimHadEtMinusRecoHadEtFullAcceptanceTPC(Float_t et){if(fGoodEvent && fSimHadEt>0.0&&et>0.0)FillHisto2D("SimHadEtMinusRecoHadEtFullAcceptanceTPC",et,(fSimHadEt-et)/fSimHadEt,1.0);}
73 void FillSimHadEtMinusRecoHadEtFullAcceptanceITS(Float_t et){if(fGoodEvent && fSimHadEt>0.0&&et>0.0)FillHisto2D("SimHadEtMinusRecoHadEtFullAcceptanceITS",et,(fSimHadEt-et)/fSimHadEt,1.0);}
74 void FillSimHadEtMinusRecoHadEtEMCALAcceptanceTPC(Float_t et){if(fGoodEvent && fSimHadEt>0.0&&et>0.0)FillHisto2D("SimHadEtMinusRecoHadEtEMCALAcceptanceTPC",et,(fSimHadEt-et)/fSimHadEt,1.0);}
75 void FillSimHadEtMinusRecoHadEtEMCALAcceptanceITS(Float_t et){if(fGoodEvent && fSimHadEt>0.0&&et>0.0)FillHisto2D("SimHadEtMinusRecoHadEtEMCALAcceptanceITS",et,(fSimHadEt-et)/fSimHadEt,1.0);}
76 void FillSimHadEtMinusRecoHadEtPHOSAcceptanceTPC(Float_t et){if(fGoodEvent && fSimHadEt>0.0&&et>0.0)FillHisto2D("SimHadEtMinusRecoHadEtPHOSAcceptanceTPC",et,(fSimHadEt-et)/fSimHadEt,1.0);}
77 void FillSimHadEtMinusRecoHadEtPHOSAcceptanceITS(Float_t et){if(fGoodEvent && fSimHadEt>0.0&&et>0.0)FillHisto2D("SimHadEtMinusRecoHadEtPHOSAcceptanceITS",et,(fSimHadEt-et)/fSimHadEt,1.0);}
78 void FillSimHadEtMinusRecoHadEtFullAcceptanceTPCNoPID(Float_t et){if(fGoodEvent && fSimHadEt>0.0&&et>0.0)FillHisto2D("SimHadEtMinusRecoHadEtFullAcceptanceTPCNoPID",et,(fSimHadEt-et)/fSimHadEt,1.0);}
79 void FillSimHadEtMinusRecoHadEtFullAcceptanceITSNoPID(Float_t et){if(fGoodEvent && fSimHadEt>0.0&&et>0.0)FillHisto2D("SimHadEtMinusRecoHadEtFullAcceptanceITSNoPID",et,(fSimHadEt-et)/fSimHadEt,1.0);}
80 void FillSimHadEtMinusRecoHadEtEMCALAcceptanceTPCNoPID(Float_t et){if(fGoodEvent && fSimHadEt>0.0&&et>0.0)FillHisto2D("SimHadEtMinusRecoHadEtEMCALAcceptanceTPCNoPID",et,(fSimHadEt-et)/fSimHadEt,1.0);}
81 void FillSimHadEtMinusRecoHadEtEMCALAcceptanceITSNoPID(Float_t et){if(fGoodEvent && fSimHadEt>0.0&&et>0.0)FillHisto2D("SimHadEtMinusRecoHadEtEMCALAcceptanceITSNoPID",et,(fSimHadEt-et)/fSimHadEt,1.0);}
82 void FillSimHadEtMinusRecoHadEtPHOSAcceptanceTPCNoPID(Float_t et){if(fGoodEvent && fSimHadEt>0.0&&et>0.0)FillHisto2D("SimHadEtMinusRecoHadEtPHOSAcceptanceTPCNoPID",et,(fSimHadEt-et)/fSimHadEt,1.0);}
83 void FillSimHadEtMinusRecoHadEtPHOSAcceptanceITSNoPID(Float_t et){if(fGoodEvent && fSimHadEt>0.0&&et>0.0)FillHisto2D("SimHadEtMinusRecoHadEtPHOSAcceptanceITSNoPID",et,(fSimHadEt-et)/fSimHadEt,1.0);}
86 void FillSimTotEtMinusRawEtFullAcceptanceTPC(Float_t et){if(fGoodEvent && fSimTotEt>0.0&&et>0.0)FillHisto2D("SimTotEtMinusRawEtFullAcceptanceTPC",et,(fSimTotEt-et)/fSimTotEt,1.0);}
87 void FillSimTotEtMinusRawEtFullAcceptanceITS(Float_t et){if(fGoodEvent && fSimTotEt>0.0&&et>0.0)FillHisto2D("SimTotEtMinusRawEtFullAcceptanceITS",et,(fSimTotEt-et)/fSimTotEt,1.0);}
88 void FillSimTotEtMinusRawEtEMCALAcceptanceTPC(Float_t et){if(fGoodEvent && fSimTotEt>0.0&&et>0.0)FillHisto2D("SimTotEtMinusRawEtEMCALAcceptanceTPC",et,(fSimTotEt-et)/fSimTotEt,1.0);}
89 void FillSimTotEtMinusRawEtEMCALAcceptanceITS(Float_t et){if(fGoodEvent && fSimTotEt>0.0&&et>0.0)FillHisto2D("SimTotEtMinusRawEtEMCALAcceptanceITS",et,(fSimTotEt-et)/fSimTotEt,1.0);}
90 void FillSimTotEtMinusRawEtPHOSAcceptanceTPC(Float_t et){if(fGoodEvent && fSimTotEt>0.0&&et>0.0)FillHisto2D("SimTotEtMinusRawEtPHOSAcceptanceTPC",et,(fSimTotEt-et)/fSimTotEt,1.0);}
91 void FillSimTotEtMinusRawEtPHOSAcceptanceITS(Float_t et){if(fGoodEvent && fSimTotEt>0.0&&et>0.0)FillHisto2D("SimTotEtMinusRawEtPHOSAcceptanceITS",et,(fSimTotEt-et)/fSimTotEt,1.0);}
92 void FillSimHadEtMinusRawEtFullAcceptanceTPC(Float_t et){if(fGoodEvent && fSimHadEt>0.0&&et>0.0)FillHisto2D("SimHadEtMinusRawEtFullAcceptanceTPC",et,(fSimHadEt-et)/fSimHadEt,1.0);}
93 void FillSimHadEtMinusRawEtFullAcceptanceITS(Float_t et){if(fGoodEvent && fSimHadEt>0.0&&et>0.0)FillHisto2D("SimHadEtMinusRawEtFullAcceptanceITS",et,(fSimHadEt-et)/fSimHadEt,1.0);}
94 void FillSimHadEtMinusRawEtEMCALAcceptanceTPC(Float_t et){if(fGoodEvent && fSimHadEt>0.0&&et>0.0)FillHisto2D("SimHadEtMinusRawEtEMCALAcceptanceTPC",et,(fSimHadEt-et)/fSimHadEt,1.0);}
95 void FillSimHadEtMinusRawEtEMCALAcceptanceITS(Float_t et){if(fGoodEvent && fSimHadEt>0.0&&et>0.0)FillHisto2D("SimHadEtMinusRawEtEMCALAcceptanceITS",et,(fSimHadEt-et)/fSimHadEt,1.0);}
96 void FillSimHadEtMinusRawEtPHOSAcceptanceTPC(Float_t et){if(fGoodEvent && fSimHadEt>0.0&&et>0.0)FillHisto2D("SimHadEtMinusRawEtPHOSAcceptanceTPC",et,(fSimHadEt-et)/fSimHadEt,1.0);}
97 void FillSimHadEtMinusRawEtPHOSAcceptanceITS(Float_t et){if(fGoodEvent && fSimHadEt>0.0&&et>0.0)FillHisto2D("SimHadEtMinusRawEtPHOSAcceptanceITS",et,(fSimHadEt-et)/fSimHadEt,1.0);}
99 void FillSimPiKPMinusRecoPiKPFullAcceptanceTPC(Float_t et){if(fGoodEvent && fSimPiKPEt>0.0)FillHisto2D("SimPiKPMinusRecoPiKPFullAcceptanceTPC",et,(fSimPiKPEt-et)/fSimPiKPEt,1.0);}
100 void FillSimPiKPMinusRecoPiKPFullAcceptanceITS(Float_t et){if(fGoodEvent && fSimPiKPEt>0.0)FillHisto2D("SimPiKPMinusRecoPiKPFullAcceptanceITS",et,(fSimPiKPEt-et)/fSimPiKPEt,1.0);}
101 void FillSimPiKPMinusRecoPiKPFullAcceptanceTPCNoPID(Float_t et){if(fGoodEvent && fSimPiKPEt>0.0)FillHisto2D("SimPiKPMinusRecoPiKPFullAcceptanceTPCNoPID",et,(fSimPiKPEt-et)/fSimPiKPEt,1.0);}
102 void FillSimPiKPMinusRecoPiKPFullAcceptanceITSNoPID(Float_t et){if(fGoodEvent && fSimPiKPEt>0.0)FillHisto2D("SimPiKPMinusRecoPiKPFullAcceptanceITSNoPID",et,(fSimPiKPEt-et)/fSimPiKPEt,1.0);}
104 void InvestigateSmearing(Bool_t val){fInvestigateSmearing=val;}
105 void InvestigateFull(Bool_t val){fInvestigateFull=val;}
106 void InvestigateEMCAL(Bool_t val){fInvestigateEMCal=val;}
107 void InvestigatePHOS(Bool_t val){fInvestigatePHOS=val;}
108 void InvestigatePiKP(Bool_t val){fInvestigatePiKP=val;}
109 void RequireITSHits(Bool_t val){fRequireITSHits=val;}
110 void EnhanceBaryons(Bool_t val){fBaryonEnhancement=val;}
111 void UseReconstructedPt(Bool_t val){fUseRecoPt=val;}
112 Bool_t Full() const {return fInvestigateFull;}
113 Bool_t EMCAL() const {return fInvestigateEMCal;}
114 Bool_t PHOS()const {return fInvestigatePHOS;}
115 Bool_t PiKP() const {return fInvestigatePiKP;}
116 Bool_t BaryonEnhancement() const {return fBaryonEnhancement;}
117 Bool_t ReconstructedPt() const {return fUseRecoPt;}
118 void SetHadEtReconstructed(AliAnalysisHadEtReconstructed *reco){fHadEtReco = reco;}
123 //Declare it private to avoid compilation warning
124 AliAnalysisHadEtMonteCarlo & operator = (const AliAnalysisHadEtMonteCarlo & g) ;//cpy assignment
125 AliAnalysisHadEtMonteCarlo(const AliAnalysisHadEtMonteCarlo & g) ; // cpy ctor
127 Float_t fSimPiKPEt;//simulated Et for pi,k,p event by event
128 Float_t fSimHadEt;//simulated Et event by event
129 Float_t fSimTotEt;//total et event by event
130 Float_t fSimPiKPEtShouldBeReco;//simulated Et for pi,k,p event by event
131 Float_t fSimPiKPEtShouldBeRecoPi;//simulated Et for pi event by event
132 Float_t fSimPiKPEtShouldBeRecoK;//simulated Et for k event by event
133 Float_t fSimPiKPEtShouldBeRecoP;//simulated Et for p event by event
135 Bool_t fInvestigateSmearing;//Turns on and off functions and histos for investigating momentum, efficiency, pid smearing
136 Bool_t fInvestigateFull;//Turns on and off functions and histos for investigating event-by-event et for the full acceptance
137 Bool_t fInvestigateEMCal;//Turns on and off functions and histos for investigating event-by-event et for the full acceptance
138 Bool_t fInvestigatePHOS;//Turns on and off functions and histos for investigating event-by-event et for the full acceptance
139 Bool_t fInvestigatePiKP;//Turns on and off functions and histos for looking pi/k/p Et event-by-event
140 Bool_t fRequireITSHits;//Also investigates Et for track cuts with ITS+TPC hits
141 Bool_t fBaryonEnhancement;//Turns on and off baryon enhancement
142 Bool_t fUseRecoPt;//Switch to decide whether to use reconstructed or simulated pT for reconstructed tracks
144 void ResetEventValues();
146 //Float_t fSimPiKPEtSmeared[4];//simulated Et for pi,k,p smeared for each event by different momentum resolutions
147 static Float_t fgSmearWidths[4];//array with widths for smearing with different momentum resultions
148 static Int_t fgNumSmearWidths;//number of entries in the array above
149 TRandom *fPtSmearer;//a TRandom used for investigating momentum smearing
150 AliAnalysisHadEtReconstructed *fHadEtReco;//corresponding class for data reconstruction. Used to access corrections directly used here.
152 ClassDef(AliAnalysisHadEtMonteCarlo, 1);
155 #endif // ALIANALYSISHADETMONTECARLO_H