void SetEtaRange(Float_t min, Float_t max) { fEtaMin = min; fEtaMax = max; }
void SetPhiRange(Float_t min, Float_t max) { fPhiMin = min; fPhiMax = max; }
void SetPtRange(Float_t min, Float_t max) { fPtMin = min; fPtMax = max; }
- void SetPtSpectrum(TH1 *f) { fPtSpectrum = f; }
+ void SetPtSpectrum(TH1F *f) { fPtSpectrum = f; }
void SetPtSpectrum(TF1 *f) { fPtSpectrum = new TH1F("ptSpectrum","ptSpectrum",1000,f->GetXmin(),f->GetXmax());
fPtSpectrum->Add(f); }
void SetPtPhiEvPlDistribution(TF2 *f) { fPtPhiEvPlDistribution = f; }
- void SetDensitySpectrum(TH1 *f) { fDensitySpectrum = f; }
+ void SetDensitySpectrum(TH1F *f) { fDensitySpectrum = f; }
void SetDensitySpectrum(TF1 *f) { fDensitySpectrum = new TH1F("densitypectrum","densitypectrum",1000,f->GetXmin(),f->GetXmax());
fDensitySpectrum->Add(f); }
void SetDifferentialV2(TF1* f) { fDifferentialV2 = f; }
Int_t fNCells; // how many cells are being processed
Int_t fNTracks; // how many tracks are being processed
Int_t fMarkMC; // which MC label is to be used (default=100)
- TH1 *fPtSpectrum; // pt spectrum to extract random pt values
+ TH1F *fPtSpectrum; // pt spectrum to extract random pt values
TF2 *fPtPhiEvPlDistribution; // pt vs. (phi-psi) distribution to extract random pt/phi values
- TH1 *fDensitySpectrum; // particle density spectrum to extract random density values
+ TH1F *fDensitySpectrum; // particle density spectrum to extract random density values
TF1 *fDifferentialV2; // v2 as function of pt
Bool_t fAddV2; // add v2 sampled from a tf1
Bool_t fFlowFluctuations; // introduce gaussian flow fluctuation
AliJetModelBaseTask(const AliJetModelBaseTask&); // not implemented
AliJetModelBaseTask &operator=(const AliJetModelBaseTask&); // not implemented
- ClassDef(AliJetModelBaseTask, 11) // Jet modelling task
+ ClassDef(AliJetModelBaseTask, 12) // Jet modelling task
};
#endif