virtual void SetDebugLevel(Int_t level) {fDebug = level;}
void SetInput(const char* input) {fAnalysisInput = input;}
void SetMCInput() {fIsMCInput = kTRUE;}
-
+ void DontUseScaling() {fUseScaling=kFALSE;}
+ void DontUseCleaning() {fUseCleaning=kFALSE;}
void ReadCentralityHistos(TString filename);
void ReadCentralityHistos2(TString filename);
-
private:
Int_t SetupRun(AliESDEvent* esd);
+ Bool_t IsOutlierV0MSPD(Float_t spd, Float_t v0, Int_t cent);
+ Bool_t IsOutlierV0MTPC(Int_t tracks, Float_t v0, Int_t cent);
+ Bool_t IsOutlierV0MZDC(Float_t zdc, Float_t v0);
+ Bool_t IsOutlierV0MZDCECal(Float_t zdc, Float_t v0);
+ Float_t MyGetScaleFactor(Int_t runnumber, Int_t flag);
+ void MyInitScaleFactor();
+ Float_t MyGetScaleFactorMC(Int_t runnumber);
+ void MyInitScaleFactorMC();
Int_t fDebug; // Debug flag
TString fAnalysisInput; // "ESD", "AOD"
TFile *fFile2; // file that holds the centrality vs multiplicity 2d
Int_t fCurrentRun; // current run number
Int_t fRunNo; // reference run number
+ Int_t fLowRunN; // first run
+ Int_t fHighRunN; // last run
+ Bool_t fUseScaling; // flag to use scaling
+ Bool_t fUseCleaning; // flag to use cleanin
+ Float_t V0MScaleFactor[2667]; // number of runs in PbPb 2010
+ Float_t SPDScaleFactor[2667]; // number of runs in PbPb 2010
+ Float_t TPCScaleFactor[2667]; // number of runs in PbPb 2010
+ Float_t V0MScaleFactorMC[2667]; // number of runs in PbPb 2010
+
+ AliESDtrackCuts* fTrackCuts; //! optional track cuts
- AliESDtrackCuts* fTrackCuts; //! optional track cuts
+ Float_t fZVCut; //! z-vertex cut (in cm)
+ Float_t fOutliersCut; //! outliers cut (in n-sigma)
+ Int_t fQuality; //! quality for centrality determination
Float_t fCentV0M; // percentile centrality from V0
Float_t fCentFMD; // percentile centrality from FMD
TH1F *fHtempCL1; // histogram with centrality vs multiplicity using clusters in layer 0
TH1F *fHtempV0MvsFMD; // histogram with centrality vs multiplicity using V0 vs FMD
TH1F *fHtempTKLvsV0M; // histogram with centrality vs multiplicity using tracklets vs V0
- TH1F *fHtempZEMvsZDC; // histogram with centrality vs multiplicity using ZEM vs ZDC
+ TH2F *fHtempZEMvsZDC; // histogram with centrality vs multiplicity using ZEM vs ZDC
TList *fOutputList; // output list
TH1F *fHOutCentV0MvsFMD; //control histogram for centrality
TH1F *fHOutCentTKLvsV0M; //control histogram for centrality
TH1F *fHOutCentZEMvsZDC; //control histogram for centrality
+ TH2F *fHOutCentV0MvsCentCL1; //control histogram for centrality
+ TH2F *fHOutCentV0MvsCentTRK; //control histogram for centrality
+ TH2F *fHOutCentTRKvsCentCL1; //control histogram for centrality
TH1F *fHOutMultV0M ; //control histogram for multiplicity
TH1F *fHOutMultV0R ; //control histogram for multiplicity
TH1F *fHOutMultCL0 ; //control histogram for multiplicity
TH1F *fHOutMultCL1 ; //control histogram for multiplicity
+ TH2F *fHOutMultV0MvsZDN; //control histogram for multiplicity
+ TH2F *fHOutMultZEMvsZDN; //control histogram for multiplicity
TH2F *fHOutMultV0MvsZDC; //control histogram for multiplicity
TH2F *fHOutMultZEMvsZDC; //control histogram for multiplicity
TH2F *fHOutMultV0MvsCL1; //control histogram for multiplicity
TH2F *fHOutMultV0MvsTRK; //control histogram for multiplicity
TH2F *fHOutMultTRKvsCL1; //control histogram for multiplicity
- ClassDef(AliCentralitySelectionTask,1);
+ TH1F *fHOutCentV0M_qual1 ; //control histogram for centrality quality 1
+ TH1F *fHOutCentTRK_qual1 ; //control histogram for centrality quality 1
+ TH1F *fHOutCentCL1_qual1 ; //control histogram for centrality quality 1
+
+ TH1F *fHOutCentV0M_qual2 ; //control histogram for centrality quality 2
+ TH1F *fHOutCentTRK_qual2 ; //control histogram for centrality quality 2
+ TH1F *fHOutCentCL1_qual2 ; //control histogram for centrality quality 2
+
+ TH1F *fHOutQuality ; //control histogram for quality
+ TH1F *fHOutVertex ; //control histogram for vertex
+ ClassDef(AliCentralitySelectionTask, 7);
};
#endif