//-*- Mode: C++ -*- #ifndef ALICentrality_H #define ALICentrality_H /* This file is property of and copyright by the ALICE HLT Project * * ALICE Experiment at CERN, All rights reserved. * * See cxx source for full Copyright notice */ //***************************************************** // Class AliCentrality // author: Alberica Toia //***************************************************** #include "TNamed.h" class AliCentrality : public TNamed { public: AliCentrality(); /// constructor ~AliCentrality(); /// destructor AliCentrality(const AliCentrality& cnt); /// copy constructor AliCentrality& operator=(const AliCentrality& cnt); /// assignment operator /// set centrality result void SetQuality(Int_t quality) {fQuality = quality;} void SetCentralityV0M(Float_t cent) {fCentralityV0M = cent;} void SetCentralityV0A(Float_t cent) {fCentralityV0A = cent;} void SetCentralityV0A0(Float_t cent) {fCentralityV0A0 = cent;} void SetCentralityV0A123(Float_t cent) {fCentralityV0A123 = cent;} void SetCentralityV0C(Float_t cent) {fCentralityV0C = cent;} void SetCentralityV0MEq(Float_t cent) {fCentralityV0MEq = cent;} void SetCentralityV0AEq(Float_t cent) {fCentralityV0AEq = cent;} void SetCentralityV0CEq(Float_t cent) {fCentralityV0CEq = cent;} void SetCentralityFMD(Float_t cent) {fCentralityFMD = cent;} void SetCentralityTRK(Float_t cent) {fCentralityTRK = cent;} void SetCentralityTKL(Float_t cent) {fCentralityTKL = cent;} void SetCentralityCL0(Float_t cent) {fCentralityCL0 = cent;} void SetCentralityCL1(Float_t cent) {fCentralityCL1 = cent;} void SetCentralityCND(Float_t cent) {fCentralityCND = cent;} void SetCentralityZNA(Float_t cent) {fCentralityZNA = cent;} void SetCentralityZNC(Float_t cent) {fCentralityZNC = cent;} void SetCentralityZPA(Float_t cent) {fCentralityZPA = cent;} void SetCentralityZPC(Float_t cent) {fCentralityZPC = cent;} void SetCentralityNPA(Float_t cent) {fCentralityNPA = cent;} void SetCentralityV0MvsFMD(Float_t cent) {fCentralityV0MvsFMD = cent;} void SetCentralityTKLvsV0M(Float_t cent) {fCentralityTKLvsV0M = cent;} void SetCentralityZEMvsZDC(Float_t cent) {fCentralityZEMvsZDC = cent;} void SetCentralityV0Mtrue(Float_t cent) {fCentralityV0Mtrue = cent;} void SetCentralityV0Atrue(Float_t cent) {fCentralityV0Atrue = cent;} void SetCentralityV0Ctrue(Float_t cent) {fCentralityV0Ctrue = cent;} void SetCentralityFMDtrue(Float_t cent) {fCentralityFMDtrue = cent;} void SetCentralityTRKtrue(Float_t cent) {fCentralityTRKtrue = cent;} void SetCentralityTKLtrue(Float_t cent) {fCentralityTKLtrue = cent;} void SetCentralityCL0true(Float_t cent) {fCentralityCL0true = cent;} void SetCentralityCL1true(Float_t cent) {fCentralityCL1true = cent;} void SetCentralityCNDtrue(Float_t cent) {fCentralityCNDtrue = cent;} void SetCentralityZNAtrue(Float_t cent) {fCentralityZNAtrue = cent;} void SetCentralityZNCtrue(Float_t cent) {fCentralityZNCtrue = cent;} void SetCentralityZPAtrue(Float_t cent) {fCentralityZPAtrue = cent;} void SetCentralityZPCtrue(Float_t cent) {fCentralityZPCtrue = cent;} /// get centrality result Float_t GetCentralityPercentile(const char *method) const; Int_t GetCentralityClass10(const char *method) const; Int_t GetCentralityClass5(const char *method) const; Bool_t IsEventInCentralityClass(Float_t a, Float_t b, const char *method) const; Float_t GetCentralityPercentileUnchecked(const char *method) const; Int_t GetCentralityClass10Unchecked(const char *method) const; Int_t GetCentralityClass5Unchecked(const char *method) const; Bool_t IsEventInCentralityClassUnchecked(Float_t a, Float_t b, const char *method) const; Int_t GetQuality() const; void Reset(); private: Int_t fQuality; // Quality of centrality determination Float_t fCentralityV0M; // Centrality from V0A+V0C Float_t fCentralityV0A; // Centrality from V0A Float_t fCentralityV0A0; // Centrality from V0A0 Float_t fCentralityV0A123;// Centrality from V0A123 Float_t fCentralityV0C; // Centrality from V0C 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 fCentralityFMD; // Centrality from FMD Float_t fCentralityTRK; // Centrality from tracks Float_t fCentralityTKL; // Centrality from tracklets Float_t fCentralityCL0; // Centrality from Clusters in layer 0 Float_t fCentralityCL1; // Centrality from Clusters in layer 1 Float_t fCentralityCND; // Centrality from tracks (candle condition) Float_t fCentralityZNA; // Centrality from ZNA Float_t fCentralityZNC; // Centrality from ZNC Float_t fCentralityZPA; // Centrality from ZPA Float_t fCentralityZPC; // Centrality from ZPC Float_t fCentralityNPA; // Centrality from Npart (MC) Float_t fCentralityV0MvsFMD; // Centrality from V0 vs FMD Float_t fCentralityTKLvsV0M; // Centrality from tracklets vs V0 Float_t fCentralityZEMvsZDC; // Centrality from ZEM vs ZDC Float_t fCentralityV0Mtrue; // Centrality from true (sim) V0A+V0C Float_t fCentralityV0Atrue; // Centrality from true (sim) V0A Float_t fCentralityV0Ctrue; // Centrality from true (sim) V0C Float_t fCentralityV0MEqtrue; // Centrality from true (sim) V0A+V0C equalized channels Float_t fCentralityV0AEqtrue; // Centrality from true (sim) V0A equalized channels Float_t fCentralityV0CEqtrue; // Centrality from true (sim) V0C equalized channels Float_t fCentralityFMDtrue; // Centrality from true (sim) FMD Float_t fCentralityTRKtrue; // Centrality from true (sim) tracks Float_t fCentralityTKLtrue; // Centrality from true (sim) tracklets Float_t fCentralityCL0true; // Centrality from true (sim) Clusters in layer 0 Float_t fCentralityCL1true; // Centrality from true (sim) Clusters in layer 1 Float_t fCentralityCNDtrue; // Centrality from true (sim) tracks (candle condition) Float_t fCentralityZNAtrue; // Centrality from true (sim) ZNA Float_t fCentralityZNCtrue; // Centrality from true (sim) ZNC Float_t fCentralityZPAtrue; // Centrality from true (sim) ZNA Float_t fCentralityZPCtrue; // Centrality from true (sim) ZNC ClassDef(AliCentrality, 9) }; #endif //ALICENTRALITY_H