virtual void SetReduceMemoryFootprint(Bool_t flag) { fReduceMemoryFootprint = flag; }
virtual void SetEventMixing(Bool_t flag) { fFillMixed = flag; }
virtual void SetCompareCentralities(Bool_t flag) { fCompareCentralities = flag; }
+ virtual void SetTwoTrackEfficiencyStudy(Bool_t flag) { fTwoTrackEfficiencyStudy = flag; }
// histogram settings
void SetTrackingEfficiency( const TH1D* hist) { fkTrackingEfficiency = hist; }
void SetUseChargeHadrons( Bool_t val ) { fUseChargeHadrons = val; }
void SetSelectCharge(Int_t selectCharge) { fSelectCharge = selectCharge; }
void SetCentralityMethod(const char* method) { fCentralityMethod = method; }
+ void SetFillpT(Bool_t flag) { fFillpT = flag; }
private:
Bool_t fReduceMemoryFootprint; // reduce memory consumption by writing less debug histograms
Bool_t fFillMixed; // enable event mixing (default: ON)
Bool_t fCompareCentralities; // use the z vtx axis for a centrality comparison
+ Bool_t fTwoTrackEfficiencyStudy; // two-track efficiency study on
// Pointers to external UE classes
AliAnalyseLeadingTrackUE* fAnalyseUE; //! points to class containing common analysis algorithms
TList* fListOfHistos; // Output list of containers
// Event QA cuts
- Int_t fnTracksVertex; // QA tracks pointing to principal vertex (= 3 default)
+ Int_t fnTracksVertex; // QA tracks pointing to principal vertex
Double_t fZVertex; // Position of Vertex in Z direction
TString fCentralityMethod; // Method to determine centrality
Bool_t fUseChargeHadrons; // Only use charge hadrons
Int_t fSelectCharge; // (un)like sign selection when building correlations: 0: no selection; 1: unlike sign; 2: like sign
+ Bool_t fFillpT; // fill sum pT instead of number density
ClassDef( AliAnalysisTaskPhiCorrelations, 1); // Analysis task for Underlying Event analysis w.r.t. leading track
};