void SetCentralityV0A0(Float_t cent) {fCentralityV0A0 = cent;}
void SetCentralityV0A123(Float_t cent) {fCentralityV0A123 = cent;}
void SetCentralityV0C(Float_t cent) {fCentralityV0C = cent;}
+ void SetCentralityV0A23(Float_t cent) {fCentralityV0A23 = cent;}
+ void SetCentralityV0C01(Float_t cent) {fCentralityV0C01 = cent;}
+ void SetCentralityV0S(Float_t cent) {fCentralityV0S = cent;}
void SetCentralityV0MEq(Float_t cent) {fCentralityV0MEq = cent;}
void SetCentralityV0AEq(Float_t cent) {fCentralityV0AEq = cent;}
void SetCentralityV0CEq(Float_t cent) {fCentralityV0CEq = cent;}
Float_t fCentralityV0A0; // Centrality from V0A0
Float_t fCentralityV0A123;// Centrality from V0A123
Float_t fCentralityV0C; // Centrality from V0C
+ Float_t fCentralityV0A23; // Centrality from V0A23
+ Float_t fCentralityV0C01; // Centrality from V0C01
+ Float_t fCentralityV0S; // Centrality from V0S
Float_t fCentralityV0MEq; // Centrality from V0A+V0C equalized channel
Float_t fCentralityV0AEq; // Centrality from V0A equalized channel
Float_t fCentralityV0CEq; // Centrality from V0C equalized channel
Float_t fCentralityZPAtrue; // Centrality from true (sim) ZNA
Float_t fCentralityZPCtrue; // Centrality from true (sim) ZNC
- ClassDef(AliCentrality, 9)
+ ClassDef(AliCentrality, 10)
};
#endif //ALICENTRALITY_H