1 #ifndef AliAnalysisTaskPi0Flow_cxx
2 #define AliAnalysisTaskPi0Flow_cxx
4 /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
5 * See cxx source for full Copyright notice */
7 // Analysis task to fill histograms with PHOS ESD or AOD clusters and cells
8 // Authors : Dmitri Peressounko
10 // Modified: 03.08.2012 Henrik Qvigstad
20 class AliESDtrackCuts;
21 class AliPHOSGeometry;
23 class AliPHOSCalibData;
25 class AliESDCaloCluster ;
30 #include "AliAnalysisTaskSE.h"
32 class AliAnalysisTaskPi0Flow : public AliAnalysisTaskSE {
34 enum Period { kUndefinedPeriod, kLHC10h, kLHC11h, kLHC13 };
37 AliAnalysisTaskPi0Flow(const char *name = "AliAnalysisTaskPi0Flow", Period period = kUndefinedPeriod);
38 virtual ~AliAnalysisTaskPi0Flow();
40 virtual void UserCreateOutputObjects();
41 virtual void UserExec(Option_t *option);
42 /* virtual void Terminate(Option_t *); */
44 void SetPeriod(Period period) { fPeriod = period;}
46 void SetCentralityBinning(const TArrayD& edges, const TArrayI& nMixed);
47 void SetEventMixingRPBinning(UInt_t nBins) { fNEMRPBins = nBins; }
48 void SetMaxAbsVertexZ(Float_t z) { fMaxAbsVertexZ = z; }
49 void SetManualV0EPCalc(Bool_t manCalc = true) {fManualV0EPCalc = manCalc;}
50 void SetEnablePHOSModule(int module, Bool_t enable = true);
52 void SetPHOSBadMap(Int_t mod,TH2I * badMapHist);
53 //Where to read AODB object with EP calibration if not default
54 void SetEPcalibFileName(const TString filename) {fEPcalibFileName = filename; }
58 AliAnalysisTaskPi0Flow(const AliAnalysisTaskPi0Flow&); // not implemented
59 AliAnalysisTaskPi0Flow& operator=(const AliAnalysisTaskPi0Flow&); // not implemented
61 virtual void MakeMCHistograms();
64 AliVEvent* GetEvent();
68 void SetMisalignment();
69 void SetV0Calibration(); //V0 calibration
70 void SetESDTrackCuts(); // AliESDtrack cuts ( for esd data )
71 void SetPHOSCalibData(); // phos re-calibration ( for esd data)
72 void SetFlatteningData(); // phos flattening
76 Bool_t RejectEventVertex();
80 Bool_t RejectCentrality();
83 void EvalReactionPlane();
84 void EvalV0ReactionPlane();
86 // Step 7: QA PHOS cells
87 void FillPHOSCellQAHists();
89 // Step 8: Event Photons (PHOS Clusters) selection
90 void SelectPhotonClusters();
91 void FillSelectedClusterHistograms();
93 // Step 9: Consider pi0 (photon/cluster) pairs.
97 void ConsiderPi0sMix();
102 // Step 12: Update lists
105 Bool_t AreNeibors(Int_t id1,Int_t id2) ;
106 Double_t ApplyFlattening(Double_t phi, Double_t c) ; //Apply centrality-dependent flattening
107 Double_t ApplyFlatteningV0A(Double_t phi, Double_t c) ; //Apply centrality-dependent flattening
108 Double_t ApplyFlatteningV0C(Double_t phi, Double_t c) ; //Apply centrality-dependent flattening
109 Int_t ConvertToInternalRunNumber(Int_t run) ;
110 Double_t CoreEnergy(AliVCluster * clu, AliVCaloCells * cells);
111 void EvalCoreLambdas(AliVCluster * clu, AliVCaloCells * cells, Double_t &m02, Double_t &m20) ;
112 Bool_t TestCoreLambda(Double_t pt,Double_t l1,Double_t l2) ;
117 void FillHistogram(const char * key,Double_t x) const ; //Fill 1D histogram witn name key
118 void FillHistogram(const char * key,Double_t x, Double_t y) const ; //Fill 2D histogram witn name key
119 void FillHistogram(const char * key,Double_t x, Double_t y, Double_t z) const ; //Fill 3D histogram witn name key
121 TVector3 GetVertexVector(const AliVVertex* vertex);
122 Int_t GetCentralityBin(Float_t centralityV0M);
125 void LogProgress(int step);
126 void LogSelection(int step, int internalRunNumber);
128 Bool_t IsGoodChannel(const char * det, Int_t mod,Int_t ix, Int_t iz); //Use addisional bad map for PHOS
131 void Reclusterize(AliVCluster * clu) ;
132 Double_t TestCPV(Double_t dx, Double_t dz, Double_t pt, Int_t charge);
133 Bool_t TestLambda(Double_t pt,Double_t l1,Double_t l2) ; //Evaluate Dispersion cuts for photons
134 Bool_t TestLambda2(Double_t pt,Double_t l1,Double_t l2) ; //Evaluate Dispersion cuts for photons
136 UInt_t GetNumberOfCentralityBins() { return fCentEdges.GetSize()-1; }
137 TList* GetCaloPhotonsPHOSList(UInt_t vtxBin, UInt_t centBin, UInt_t rpBin);
143 // transiant constants
144 static const Int_t kNMod = 5;
147 static const Double_t kLogWeight= 4.5 ; // log weight for recalibration.
148 static const Double_t kAlphaCut=0.7 ;
149 static const Bool_t doESDReCalibration = kTRUE;
150 static const Int_t kNCenBins = 9; // see EvalV0ReactionPlane()
152 // cluster cut variables:
153 static const Double_t kMinClusterEnergy = 0.3;
154 static const Double_t kMinBCDistance = 2.5; //distance to nearest bad channel
155 static const Int_t kMinNCells = 3;
156 static const Double_t kMinM02 = 0.2;
158 // Binning, [vtx, centrality, reaction-plane]
159 static const Int_t kNVtxZBins = 1;
160 static const Double_t kCentCutoff = 90.; // Ignore Centrality over 90%
161 TArrayD fCentEdges; // Centrality Bin Lower edges
162 TArrayI fCentNMixed; // Number of mixed events for each centrality bin
168 Float_t fMaxAbsVertexZ; // in cm
169 Bool_t fManualV0EPCalc;
170 Bool_t fModuleEnabled[kNMod]; //[kNMod]
173 TList * fOutputContainer; //final histogram container
175 TF1 *fNonLinCorr; // Non-linearity correction
176 //TF1 * fRecent[5][12] ;//Recentering corrections
177 TH2I *fPHOSBadMap[6] ; //Container for PHOS bad channels map
181 // Step 0: Event Objects
183 AliVEvent* fEvent; //! Current event
184 AliESDEvent* fEventESD; //! Current event, if ESD.
185 AliAODEvent* fEventAOD; //! Current event, if AOD.
187 // Step 1: Run Number, Misalignment Matrix, and Calibration
188 Int_t fRunNumber; // run number
189 Int_t fInternalRunNumber ; //Current internal run number
190 AliPHOSGeometry *fPHOSGeo; //! PHOS geometry
191 TProfile *fMultV0; // object containing VZERO calibration information
192 Float_t fV0Cpol,fV0Apol; // loaded by OADB
193 Float_t fMeanQ[kNCenBins][2][2]; // and recentering
194 Float_t fWidthQ[kNCenBins][2][2]; // ...
195 AliESDtrackCuts *fESDtrackCuts; // Track cut
196 AliPHOSCalibData *fPHOSCalibData; // PHOS calibration object
197 TString fEPcalibFileName;
198 AliEPFlattener * fTPCFlat ; //Object for flattening of TPC
199 AliEPFlattener * fV0AFlat ; //Object for flattening of V0A
200 AliEPFlattener * fV0CFlat ; //Object for flattening of V0C
205 TVector3 fVertexVector;
208 // Step 4: Centrality
209 Float_t fCentralityV0M ; //!Centrality of the currecnt event
210 Int_t fCentBin ; //! Current centrality bin
212 // Step 5: Reaction Plane
213 Bool_t fHaveTPCRP ; //! Is TPC RP defined?
214 Float_t fRP ; //!Reaction plane calculated with full TPC
215 Float_t fRPV0A ; //!Reaction plain calculated with A-side TPC: eta>0.15
216 Float_t fRPV0C ; //!Reaction plain calculated with C-side TPC: eta<-0.15
217 Int_t fEMRPBin; //! Event Mixing Reaction Plane Bin
219 // Step 8: Event Photons (PHOS Clusters) selection
220 TObjArray * fCaloPhotonsPHOS ; //PHOS photons in current event
222 // Step 12: Update lists for mixing.
223 TObjArray* fCaloPhotonsPHOSLists; //! array of TList, Containers for events with PHOS photons
226 ClassDef(AliAnalysisTaskPi0Flow, 2); // PHOS analysis task