}
void SetUseBit(Bool_t use=kTRUE){fUseBit=use;}
void SetDoImpactParameterHistos(Bool_t doImp=kTRUE){fDoImpPar=doImp;}
+ void SetKeepEstimatorCorrelationPlots(Bool_t use=kTRUE){fKeepCorrPlots=use;}
void SetMultiplVsZProfileLHC10b(TProfile* hprof){
if(fMultEstimatorAvg[0]) delete fMultEstimatorAvg[0];
void SetSubtractTrackletsFromDaughters(Bool_t opt){fSubtractTrackletsFromDau=opt;}
Int_t CheckOrigin(TClonesArray* arrayMC, AliAODMCParticle *mcPartCandidate) const;
- enum { kNtrk10=0, kNtrk10to16=1, kVZERO=2 };
+ enum { kNtrk10=0, kNtrk10to16=1, kVZERO=2, kNtrk03=3, kNtrk05=4, kVZEROA=5 };
void SetMultiplicityEstimator(Int_t value){ fMultiplicityEstimator=value; }
Int_t GetMultiplicityEstimator(){ return fMultiplicityEstimator; }
- enum { kEta10=0, kEta10to16=1, kEtaVZERO=2 };
+ enum { kEta10=0, kEta10to16=1, kEtaVZERO=2, kEta03=3, kEta05=5, kEtaVZEROA=5 };
void SetMCPrimariesEstimator(Int_t value){ fMCPrimariesEstimator=value; }
Int_t GetMCPrimariesEstimator(){ return fMCPrimariesEstimator; }
TH1F *fHistNEvents; //!hist. for No. of events
- TH2F* fHistNtrEta16vsNtrEta1; //!hist. for Ntracklets in eta<1.6 vs. eta<1.
- TH2F* fHistNtrCorrEta1vsNtrRawEta1; //!hist. for Ntracklets in eta<1 with and w/o corrections
+ TH2F* fHistNtrEta16vsNtrEta1EvSel; //!hist. for Ntracklets in eta<1.6 vs. eta<1.
+ TH2F* fHistNtrEta05vsNtrEta1EvSel; //!hist. for Ntracklets in eta<0.5 vs. eta<1.
+ TH2F* fHistNtrEta03vsNtrEta1EvSel; //!hist. for Ntracklets in eta<0.3 vs. eta<1.
+ TH2F* fHistNtrEtaV0AvsNtrEta1EvSel; //!hist. for Ntracklets in eta-V0A vs. eta<1.
+ TH2F* fHistNtrEtaV0MvsNtrEta1EvSel; //!hist. for Ntracklets in eta-V0M vs. eta<1.
+ TH2F* fHistNtrCorrEta1vsNtrRawEta1EvSel; //!hist. for Ntracklets in eta<1 with and w/o corrections
+ TH2F* fHistNtrEta16vsNtrEta1EvWithCand; //!hist. for Ntracklets in eta<1.6 vs. eta<1. for events with a candidate
+ TH2F* fHistNtrEta05vsNtrEta1EvWithCand; //!hist. for Ntracklets in eta<0.5 vs. eta<1. for events with a candidate
+ TH2F* fHistNtrEta03vsNtrEta1EvWithCand; //!hist. for Ntracklets in eta<0.3 vs. eta<1. for events with a candidate
+ TH2F* fHistNtrEtaV0AvsNtrEta1EvWithCand; //!hist. for Ntracklets in eta-V0A vs. eta<1. for events with a candidate
+ TH2F* fHistNtrEtaV0MvsNtrEta1EvWithCand; //!hist. for Ntracklets in eta-V0M vs. eta<1. for events with a candidate
+ TH2F* fHistNtrCorrEta1vsNtrRawEta1EvWithCand; //!hist. for Ntracklets in eta<1 with and w/o corrections for events with a candidate
+ TH2F* fHistNtrEta16vsNtrEta1EvWithD; //!hist. for Ntracklets in eta<1.6 vs. eta<1. for events with a candidate in D mass peak
+ TH2F* fHistNtrEta05vsNtrEta1EvWithD; //!hist. for Ntracklets in eta<0.5 vs. eta<1. for events with a candidate in D mass peak
+ TH2F* fHistNtrEta03vsNtrEta1EvWithD; //!hist. for Ntracklets in eta<0.3 vs. eta<1. for events with a candidate in D mass peak
+ TH2F* fHistNtrEtaV0AvsNtrEta1EvWithD; //!hist. for Ntracklets in eta-V0A vs. eta<1. for events with a candidate in D mass peak
+ TH2F* fHistNtrEtaV0MvsNtrEta1EvWithD; //!hist. for Ntracklets in eta-V0M vs. eta<1. for events with a candidate in D mass peak
+ TH2F* fHistNtrCorrEta1vsNtrRawEta1EvWithD; //!hist. for Ntracklets in eta<1 with and w/o corrections for events with a candidate in D mass peak
+
TH2F* fHistNtrVsZvtx; //! hist of ntracklets vs Zvertex
TH2F* fHistNtrCorrVsZvtx; //! hist of ntracklets vs Zvertex
TH1F* fHistGenPrimaryParticlesInelGt0; //!hist. of geenrated multiplcity
TH3F* fHistNchMCVsNchMCPrimaryVsNchMCPhysicalPrimary; //! hist of Nch (generated) vs Nch (Primary) vs Nch (Physical Primary)
+ TH1F* fHistNtrUnCorrPSSel; //! hist. of ntracklets for physics selection only selected events
TH1F* fHistNtrUnCorrEvSel; //! hist. of ntracklets for selected events
TH1F* fHistNtrUnCorrEvWithCand; //! hist. of ntracklets for evnts with a candidate
TH1F* fHistNtrUnCorrEvWithD;//! hist. of ntracklets for evnts with a candidate in D mass peak
+ TH1F* fHistNtrCorrPSSel; //! hist. of ntracklets for physics selection only selected events
TH1F* fHistNtrCorrEvSel; //! hist. of ntracklets for selected events
TH1F* fHistNtrCorrEvWithCand; //! hist. of ntracklets for evnts with a candidate
TH1F* fHistNtrCorrEvWithD;//! hist. of ntracklets for evnts with a candidate in D mass peak
Bool_t fisPPbData; // flag to run on pPb data (differen histogram bining)
Bool_t fUseBit; // flag to use bitmask
Bool_t fSubtractTrackletsFromDau; // flag for subtracting D meson daughter contribution to N of tracklets
+ Bool_t fKeepCorrPlots; // flag to look at the correlation of different estimators (eta ranges)
Bool_t fUseNchWeight; // weight on the MC on the generated multiplicity
TH1F* fHistoMCNch; // weight histogram for the MC on the generated multiplicity
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,10); // D vs. mult task
+ ClassDef(AliAnalysisTaskSEDvsMultiplicity,12); // D vs. mult task
};
#endif