1 /////////////////////////////////////////////////////
2 // AliAnalysisTaskFlowEvent:
3 // analysis task to fill the flow event
4 // and make it available to the flow analysis methods.
5 //////////////////////////////////////////////////////
7 /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
8 * See cxx source for full Copyright notice */
11 #ifndef AliAnalysisTaskFlowEvent_H
12 #define AliAnalysisTaskFlowEvent_H
15 class AliFlowEventCuts;
16 class AliFlowTrackCuts;
17 class AliFlowEventSimpleMaker;
21 class AliAnalysisTaskSE;
25 class AliAnalysisTaskFlowEvent : public AliAnalysisTaskSE {
27 AliAnalysisTaskFlowEvent();
28 AliAnalysisTaskFlowEvent(const char *name, TString RPtype, Bool_t QAon, UInt_t seed=666, Bool_t bCandidates=kFALSE);
29 virtual ~AliAnalysisTaskFlowEvent();
31 virtual void UserCreateOutputObjects();
32 virtual void UserExec(Option_t *option);
33 virtual void Terminate(Option_t *);
34 virtual void NotifyRun();
36 void SetAnalysisType(TString type) { this->fAnalysisType = type; }
37 TString GetAnalysisType() const { return this->fAnalysisType; }
39 void SetRPType(TString rptype) { this->fRPType = rptype; }
40 TString GetRPType() const { return this->fRPType; }
42 void SetMinMult(Int_t multmin) {this->fMinMult = multmin; }
43 Int_t GetMinMult() const {return this->fMinMult; }
44 void SetMaxMult(Int_t multmax) {this->fMaxMult = multmax; }
45 Int_t GetMaxMult() const {return this->fMaxMult; }
47 void SetSubeventEtaRange(Double_t minA, Double_t maxA, Double_t minB, Double_t maxB)
48 {this->fMinA = minA; this->fMaxA = maxA; this->fMinB = minB; this->fMaxB = maxB; }
49 Double_t GetMinA() const {return this->fMinA;}
50 Double_t GetMaxA() const {return this->fMaxA;}
51 Double_t GetMinB() const {return this->fMinB;}
52 Double_t GetMaxB() const {return this->fMaxB;}
54 void DefineDeadZone( Double_t etaMin, Double_t etaMax, Double_t phiMin, Double_t phiMax )
55 {this->fExcludedEtaMin = etaMin; this->fExcludedEtaMax = etaMax;
56 this->fExcludedPhiMin = phiMin; this->fExcludedPhiMax = phiMax; }
58 void SetCutsEvent(AliFlowEventCuts* cutsEvent) {fCutsEvent=cutsEvent;}
59 AliFlowEventCuts* GetCutsEvent() const {return fCutsEvent;}
60 void SetCutsRP(AliFlowTrackCuts* cutsRP) {fCutsRP=cutsRP;}
61 AliFlowTrackCuts* GetCutsRP() const {return fCutsRP;}
62 void SetCutsPOI(AliFlowTrackCuts* cutsPOI) {fCutsPOI=cutsPOI;}
63 AliFlowTrackCuts* GetCutsPOI() const {return fCutsPOI;}
65 void SetCFManager1(AliCFManager* cfmgr) {this->fCFManager1 = cfmgr; }
66 AliCFManager* GetCFManager1() {return this->fCFManager1; }
67 void SetCFManager2(AliCFManager* cfmgr) {this->fCFManager2 = cfmgr; }
68 AliCFManager* GetCFManager2() {return this->fCFManager2; }
69 void SetQAList1(TList* list) {this->fQAInt = list; }
70 TList* GetQAList1() {return this->fQAInt; }
71 void SetQAList2(TList* list) {this->fQADiff = list; }
72 TList* GetQAList2() {return this->fQADiff; }
73 void SetQAOn(Bool_t kt) {this->fQA = kt; }
74 Bool_t GetQAOn() {return this->fQA; }
76 // setters for common constants
77 void SetNbinsMult( Int_t i ) { fNbinsMult = i; }
78 void SetNbinsPt( Int_t i ) { fNbinsPt = i; }
79 void SetNbinsPhi( Int_t i ) { fNbinsPhi = i; }
80 void SetNbinsEta( Int_t i ) { fNbinsEta = i; }
81 void SetNbinsQ( Int_t i ) { fNbinsQ = i; }
83 void SetMultMin( Double_t i ) { fMultMin = i; }
84 void SetMultMax( Double_t i ) { fMultMax = i; }
85 void SetPtMin( Double_t i ) { fPtMin = i; }
86 void SetPtMax( Double_t i ) { fPtMax = i; }
87 void SetPhiMin( Double_t i ) { fPhiMin = i; }
88 void SetPhiMax( Double_t i ) { fPhiMax = i; }
89 void SetEtaMin( Double_t i ) { fEtaMin = i; }
90 void SetEtaMax( Double_t i ) { fEtaMax = i; }
91 void SetQMin( Double_t i ) { fQMin = i; }
92 void SetQMax( Double_t i ) { fQMax = i; }
93 // end setters common constants
95 // setters for adding by hand flow values (afterburner)
96 void SetAfterburnerOn(Bool_t b=kTRUE) {fAfterburnerOn=b;}
97 void SetNonFlowNumberOfTrackClones(Int_t n) {fNonFlowNumberOfTrackClones=n;}
98 void SetFlow( Double_t v1, Double_t v2, Double_t v3=0.0, Double_t v4=0.0, Double_t v5=0.0)
99 {fV1=v1;fV2=v2;fV3=v3;fV4=v4;fV5=v5;}
100 // end setters afterburner
104 AliAnalysisTaskFlowEvent(const AliAnalysisTaskFlowEvent& aAnalysisTask);
105 AliAnalysisTaskFlowEvent& operator=(const AliAnalysisTaskFlowEvent& aAnalysisTask);
107 // TFile* fOutputFile; // temporary output file for testing
108 // AliESDEvent* fESD; // ESD object
109 // AliAODEvent* fAOD; // AOD object
110 TString fAnalysisType; // can be MC, ESD or AOD
111 TString fRPType; // can be Global or Tracklet or FMD
112 AliCFManager* fCFManager1; // correction framework manager
113 AliCFManager* fCFManager2; // correction framework manager
114 AliFlowEventCuts* fCutsEvent; //event cuts
115 AliFlowTrackCuts* fCutsRP; //cuts for RPs
116 AliFlowTrackCuts* fCutsPOI; //cuts for POIs
117 TList* fQAInt; // QA histogram list
118 TList* fQADiff; // QA histogram list
119 Int_t fMinMult; // Minimum multiplicity from tracks selected using CORRFW
120 Int_t fMaxMult; // Maximum multiplicity from tracks selected using CORRFW
121 Double_t fMinA; // Minimum of eta range for subevent A
122 Double_t fMaxA; // Maximum of eta range for subevent A
123 Double_t fMinB; // Minimum of eta range for subevent B
124 Double_t fMaxB; // Maximum of eta range for subevent B
126 Bool_t fQA; // flag to set the filling of the QA hostograms
127 Bool_t fLoadCandidates; // true if reciving candidates collection
129 // setters for common constants
131 Int_t fNbinsMult; // histogram size
132 Int_t fNbinsPt; // histogram size
133 Int_t fNbinsPhi; // histogram size
134 Int_t fNbinsEta; // histogram size
135 Int_t fNbinsQ; // histogram size
138 Double_t fMultMin; // histogram limit
139 Double_t fMultMax; // histogram limit
140 Double_t fPtMin; // histogram limit
141 Double_t fPtMax; // histogram limit
142 Double_t fPhiMin; // histogram limit
143 Double_t fPhiMax; // histogram limit
144 Double_t fEtaMin; // histogram limit
145 Double_t fEtaMax; // histogram limit
146 Double_t fQMin; // histogram limit
147 Double_t fQMax; // histogram limit
148 // end common constants
151 Double_t fExcludedEtaMin; // excluded region limit
152 Double_t fExcludedEtaMax; // excluded region limit
153 Double_t fExcludedPhiMin; // excluded region limit
154 Double_t fExcludedPhiMax; // excluded region limit
155 // End of excluding a range
157 // values afterburner
158 Bool_t fAfterburnerOn; // do we afterburn?
159 Int_t fNonFlowNumberOfTrackClones; // number of times to clone the particles (nonflow)
160 Double_t fV1; // Add Flow. Must be in range [0,0.5].
161 Double_t fV2; // Add Flow. Must be in range [0,0.5].
162 Double_t fV3; // Add Flow. Must be in range [0,0.5].
163 Double_t fV4; // Add Flow. Must be in range [0,0.5].
164 Double_t fV5; // Add Flow. Must be in range [0,0.5].
166 AliFlowEvent* fFlowEvent; //flowevent
168 TRandom3* fMyTRandom3; // TRandom3 generator
171 ClassDef(AliAnalysisTaskFlowEvent, 1); // example of analysis