1 #ifndef ALIANALYSISTASKZDCPBPB_H
2 #define ALIANALYSISTASKZDCPBPB_H
4 /* Copyright(c) 1998-2008, ALICE Experiment at CERN, All rights reserved. *
5 * See cxx source for full Copyright notice */
7 //*****************************************************
8 // Class AliAnalysisTaskZDCPbPb
9 // author: Chiara Oppedisano
10 //*****************************************************
12 #include "AliAnalysisTaskSE.h"
21 #include "AliAnalysisTaskSE.h"
23 class AliAnalysisTaskZDCPbPb : public AliAnalysisTaskSE {
27 enum kAnalysisInput{kESD=1, kAOD=2};
29 AliAnalysisTaskZDCPbPb();
30 AliAnalysisTaskZDCPbPb(const char *name);
31 AliAnalysisTaskZDCPbPb& operator= (const AliAnalysisTaskZDCPbPb& ana);
32 AliAnalysisTaskZDCPbPb(const AliAnalysisTaskZDCPbPb& c);
33 virtual ~AliAnalysisTaskZDCPbPb();
35 // Implementation of interface methods
36 virtual void UserCreateOutputObjects();
37 virtual void UserExec(Option_t *option);
38 virtual void Terminate(Option_t *option);
40 virtual void SetDebugLevel(Int_t level) {fDebug = level;}
41 void SetInput(int input) {fAnalysisInput = input;}
42 void SetMCInput() {fIsMCInput = kTRUE;}
43 void SetCentralityRange(Float_t centrlow=0., Float_t centrup=100.) {fCentrLowLim=centrlow;
45 void SetCentralityEstimator(TString centrest = "V0M") {fCentrEstimator=centrest;}
49 Int_t fAnalysisInput; // analysis input
50 Bool_t fIsMCInput; // true when input is MC
51 Float_t fCentrLowLim; // centrality lower limit
52 Float_t fCentrUpLim; // centrality upper limit
53 TString fCentrEstimator; // string for the centrality estimator
55 TList *fOutput; //! list send on output slot 0
57 TH1F *fhZNCPM[5]; //! ZNC PM high res.
58 TH1F *fhZNAPM[5]; //! ZNA PM high res.
59 TH1F *fhZPCPM[5]; //! ZPC PM high res.
60 TH1F *fhZPAPM[5]; //! ZPA PM high res.
61 TH1F *fhZEM[2]; //! ZEM PM high res.
62 TH1F *fhZNCPMlg[5]; //! ZNC PM low res.
63 TH1F *fhZNAPMlg[5]; //! ZNA PM low res.
64 TH1F *fhZPCPMlg[5]; //! ZPC PM low res.
65 TH1F *fhZPAPMlg[5]; //! ZPA PM low res.
66 TH1F *fhTDCraw[6]; //! raw TDC histos
67 TH1F *fhTDC[6]; //! corrected TDC histos
69 TH1F *fhZNCPMQiPMC[4]; //! PMQi/PMC for ZNC
70 TH1F *fhZNAPMQiPMC[4]; //! PMQi/PMC for ZNA
71 TH1F *fhZPCPMQiPMC[4]; //! PMQi/PMC for ZPC
72 TH1F *fhZPAPMQiPMC[4]; //! PMQi/PMC for ZPA
74 TH2F *fhZNCvsZNA; //! ZNC vs ZNA;
75 TH2F *fhZPCvsZPA; //! ZPC vs ZPA;
76 TH2F *fhZDCCvsZDCCA; //! ZDCC vs ZDCCA
77 TH2F *fhZNCvsZPC; //! ZNC vs ZPC;
78 TH2F *fhZNAvsZPA; //! ZNA vs ZPA;
79 TH2F *fhZNvsZP; //! ZNC+ZNA vs ZPC+ZPA;
80 TH2F *fhZNvsZEM; //! ZN vs ZEM;
81 TH2F *fhZNvsZEMwV0M; //! ZN vs ZEM weighted with V0M centr. perc.;
82 TH2F *fhZDCvsZEM; //! ZDC vs ZEM;
83 TH2F *fhZDCvsZEMwV0M; //! ZDC vs ZEM weighted with V0M centr. perc.;
84 TH2F *fhZNvsVZERO; //! ZN vs VZERO;
85 TH2F *fhZDCvsVZERO; //! ZDC vs VZERO;
86 TH2F *fhZDCvsTracklets; //! ZDC vs N_tracklets;
87 TH2F *fhZDCvsNclu1; //! ZDC vs N_cluster layer 1;
88 TH2F *fhVZEROvsZEM; //! VZERO vs ZEM;
89 TH2F *fhDebunch; //! Debunch;
90 TH2F *fhZNCcentroid; //! ZNC centroid
91 TH2F *fhZNAcentroid; //! ZNA centroid
92 TH2F *fhPMCvsPMQ[4]; //! PMC vs sum PMQi
94 TH1F *fhAsymm; //! ZN asymmetry
95 TH2F *fhZNAvsAsymm; //! ZNA vs asymmetry
96 TH2F *fhZNCvsAsymm; //! ZNC vs asymmetry
98 TH2F *fhZNCvscentrality; //! ZNC vs. centrality
99 TH2F *fhZNAvscentrality; //! ZNA vs. centrality
100 TH2F *fhZPCvscentrality; //! ZPC vs. centrality
101 TH2F *fhZPAvscentrality; //! ZPA vs. centrality
103 TH2F *fhZNCpmcvscentr; //! ZNC vs. centrality
104 TH2F *fhZNApmcvscentr; //! ZNA vs. centrality
105 TH2F *fhZPCpmcvscentr; //! ZPC vs. centrality
106 TH2F *fhZPApmcvscentr; //! ZPA vs. centrality
108 ClassDef(AliAnalysisTaskZDCPbPb,2);