void SetMCOption(Int_t option=0){ fMCOption = option; }
void SetIsPPbData(Bool_t flag=kTRUE){
fisPPbData=flag;
- if(flag) fNMultEstimatorProfiles = 2;
}
void SetUseBit(Bool_t use=kTRUE){fUseBit=use;}
void SetDoImpactParameterHistos(Bool_t doImp=kTRUE){fDoImpPar=doImp;}
- void SetNMultEstimatorProfiles(Int_t n = 4) {fNMultEstimatorProfiles = n;}
-
void SetMultiplVsZProfileLHC10b(TProfile* hprof){
if(fMultEstimatorAvg[0]) delete fMultEstimatorAvg[0];
fMultEstimatorAvg[0]=new TProfile(*hprof);
TH1F* fHistoMCNch; // weight histogram for the MC on the generated multiplicity
TH1F* fHistoMeasNch; //! weight histogram on the true measured multiplicity
- Int_t fNMultEstimatorProfiles; //Number of multiplicity estimators (= number of periods: 4 for pp, 2 for pPb)
TProfile* fMultEstimatorAvg[4]; //TProfile with mult vs. Z per period
Double_t fRefMult; // refrence multiplcity (period b)
Int_t fPdgMeson; // pdg code of analyzed meson
Int_t fMultiplicityEstimator; // Definition of the multiplicity estimator: kNtrk10=0, kNtrk10to16=1, kVZERO=2
Int_t fMCPrimariesEstimator; // Definition of the primaries estimator eta range: |eta|<1.0=0, -1.6<|eta|<1.0=1, VZEROrange=2
- ClassDef(AliAnalysisTaskSEDvsMultiplicity,9); // D vs. mult task
+ ClassDef(AliAnalysisTaskSEDvsMultiplicity,10); // D vs. mult task
};
#endif