// getters
TH1I *GetNJetsH() {return fNJetsH;}
TH1I *GetMultH() {return fMultH;}
+ TH1D *GetPhiH() {return fPhiH;}
+ TH1D *GetFractionInJetH() {return fInJetH;}
TH1D *GetEneH() {return fEneH;}
TH1D *GetPtH() {return fPtH;}
TH1D *GetEtaH() {return fEtaH;}
TH1D *GetFragH() {return fFragH;}
TH1D *GetFragLnH() {return fFragLnH;}
- TH1D *GetPhiH() {return fPhiH;}
- TH1D *GetFractionInJetH() {return fInJetH;}
+ TH1D *GetFragrH() {return fFragrH;}
+ TH1D *GetFragLnrH() {return fFragLnrH;}
+ TH1D *GetShapeH() {return fShapeH;}
+ TH1D *GetShaperH() {return fShaperH;}
// others
- void FillHistos(AliJet *j,AliJetReader *r);
+ void FillHistos(AliJet *j);
void PlotHistos();
void SetProperties(TH1* h,const char* x, const char* y) const;
void Normalize();
protected:
- TH1I *fNJetsH; // distribution of number of jets
+ TH1I *fNJetsH; // distribution of number of jets
TH1I *fMultH; // jet multiplicity
- TH1D *fPtH; // pt spectra
- TH1D *fEtaH; // eta distribution
- TH1D *fEneH; // energy distribution
- TH1D *fFragH; // jet fragmentation
- TH1D *fFragLnH; // jet fragmentation in ln scale
- TH1D *fPhiH; // phi distribution
- TH1D *fInJetH; // percentage of input particles in a jet
- Int_t fNJetT; // total number of jets for normalization
+ TH1D *fPtH; // pt spectra
+ TH1D *fEtaH; // eta distribution
+ TH1D *fEneH; // energy distribution
+ TH1D *fFragH; // leading jet fragmentation (selected part)
+ TH1D *fFragLnH; // leading jet fragmentation in ln scale
+ TH1D *fFragrH; // leading jet fragmentation (rejected part)
+ TH1D *fFragLnrH; // leading jet fragmentation in ln scale
+ TH1D *fShapeH; // leading jet shape (selected part)
+ TH1D *fShaperH; // leading jet shape (rejected part)
+ TH1D *fPhiH; // phi distribution
+ TH1D *fInJetH; // percentage of input particles in a jet
+ Int_t fNJetT; // total number of jets for normalization
ClassDef(AliJetControlPlots,1)
};