void Correlation(TLorentzVector *lv1,TLorentzVector *lv2,TH2F *h1, TH2F *h2, TH2F *h3, TH2F *h4);
void Correlation50(AliJet *j,TLorentzVector *lv1,TLorentzVector *lv2,TH2F *h1, TH2F *h2, TH2F *h3, TH2F *h4);
// setters
void Correlation(TLorentzVector *lv1,TLorentzVector *lv2,TH2F *h1, TH2F *h2, TH2F *h3, TH2F *h4);
void Correlation50(AliJet *j,TLorentzVector *lv1,TLorentzVector *lv2,TH2F *h1, TH2F *h2, TH2F *h3, TH2F *h4);
// setters
void SetPercentage(Float_t p) {fPercentage = p;} // minimum percentage of tracks coming from pythia (very aprox.)
void SetEventRange(Int_t imin, Int_t imax)
{fEventMin = imin; fEventMax = imax;} // first and last event
void SetPercentage(Float_t p) {fPercentage = p;} // minimum percentage of tracks coming from pythia (very aprox.)
void SetEventRange(Int_t imin, Int_t imax)
{fEventMin = imin; fEventMax = imax;} // first and last event
void SetDoTriggerBias(Bool_t f = kTRUE){fDoTrig = f;} // Trigger bias plots
void SetDivideEnergy(Float_t Efactor){fEfactor = Efactor;} // Divides E of rec.jet by Efactor
void SetProperties(TH1* h,const char* x, const char* y) const;
void SetDoTriggerBias(Bool_t f = kTRUE){fDoTrig = f;} // Trigger bias plots
void SetDivideEnergy(Float_t Efactor){fEfactor = Efactor;} // Divides E of rec.jet by Efactor
void SetProperties(TH1* h,const char* x, const char* y) const;
- char* fReaderHeader; // Reader header
- char* fDirectory; // Directory
- char* fBkgdDirectory; // Directory for background
- char* fFile; // Output file name
+ const char* fReaderHeader; // Reader header
+ const char* fDirectory; // Directory
+ const char* fBkgdDirectory; // Directory for background
+ const char* fFile; // Output file name
Int_t fEventMin; // Minimum event number
Int_t fEventMax; // Maximum event number
Int_t fRunMin; // Minimum run number
Int_t fEventMin; // Minimum event number
Int_t fEventMax; // Maximum event number
Int_t fRunMin; // Minimum run number
TH2F *fRGCorrEtaH; // Pseudorapidity correlation rec jet-gen jet
TH2F *fRGCorrPhiH; // Azimuthal angle correlation rec jet-gen jet
TH2F *fRGCorrEtaH; // Pseudorapidity correlation rec jet-gen jet
TH2F *fRGCorrPhiH; // Azimuthal angle correlation rec jet-gen jet
TH2F *fPRCorr50EneH; // Energy correlation part-rec jet
TH2F *fPRCorr50PtH; // Pt correlation part-rec jet
TH2F *fPRCorr50EtaH; // Pseudorapidity correlation part-rec jet
TH2F *fPRCorr50EneH; // Energy correlation part-rec jet
TH2F *fPRCorr50PtH; // Pt correlation part-rec jet
TH2F *fPRCorr50EtaH; // Pseudorapidity correlation part-rec jet