Float_t fCentV0M; // percentile centrality from V0
Float_t fCentV0A; // percentile centrality from V0A
+ Float_t fCentV0A123; // percentile centrality from V0A-123
Float_t fCentV0C; // percentile centrality from V0C
Float_t fCentV0MEq; // percentile centrality from V0 equalized channel
Float_t fCentV0AEq; // percentile centrality from V0A equalized channel
TH1F *fHtempV0M; // histogram with centrality vs multiplicity using V0
TH1F *fHtempV0A; // histogram with centrality vs multiplicity using V0A
+ TH1F *fHtempV0A123; // histogram with centrality vs multiplicity using V0A-123
TH1F *fHtempV0C; // histogram with centrality vs multiplicity using V0C
TH1F *fHtempV0MEq; // histogram with centrality vs multiplicity using V0 equalized channel
TH1F *fHtempV0AEq; // histogram with centrality vs multiplicity using V0A equalized channel
TH1F *fHOutCentV0M ; //control histogram for centrality
TH1F *fHOutCentV0A ; //control histogram for centrality
+ TH1F *fHOutCentV0A123 ; //control histogram for centrality
TH1F *fHOutCentV0C ; //control histogram for centrality
TH1F *fHOutCentV0MEq ; //control histogram for centrality
TH1F *fHOutCentV0AEq ; //control histogram for centrality
TH2F *fHOutMultV0AC; //control histogram for multiplicity
TH1F *fHOutMultV0M ; //control histogram for multiplicity
TH1F *fHOutMultV0A ; //control histogram for multiplicity
+ TH1F *fHOutMultV0A123 ; //control histogram for multiplicity
TH1F *fHOutMultV0C ; //control histogram for multiplicity
TH1F *fHOutMultV0MEq ; //control histogram for multiplicity
TH1F *fHOutMultV0AEq ; //control histogram for multiplicity
TH1F *fHOutVertex ; //control histogram for vertex SPD
TH1F *fHOutVertexT0 ; //control histogram for vertex T0
- ClassDef(AliCentralitySelectionTask, 28);
+ ClassDef(AliCentralitySelectionTask, 29);
};
#endif