-#ifndef ALIMASSFITCONTROL
-#define ALIMASSFITCONTROL
+#ifndef ALIMASSFITCONTROL_H
+#define ALIMASSFITCONTROL_H
#include "TMath.h"
//-------------------------------------------------------------------------
return 0;
};
- const Int_t RebinFactor(){return fRebinFactor;};
- const Int_t BinLower(){return fBinLower;};
- const Int_t BinUpper(){return fBinUpper;};
- const Double_t PtUpper(){return fPtUpper;};
- const Double_t PtLower(){return fPtLower;};
- const Double_t MinMass(){return fMinMass;};
- const Double_t MaxMass(){return fMaxMass;};
+ Int_t RebinFactor() const {return fRebinFactor;};
+ Int_t BinLower() const {return fBinLower;};
+ Int_t BinUpper() const {return fBinUpper;};
+ Double_t PtUpper() const {return fPtUpper;};
+ Double_t PtLower() const {return fPtLower;};
+ Double_t MinMass() const {return fMinMass;};
+ Double_t MaxMass() const {return fMaxMass;};
- const Bool_t FixedQuad(){if(fPolyOrder < 2) {return kTRUE;}
+ Bool_t FixedQuad() const {if(fPolyOrder < 2) {return kTRUE;}
else {return kFALSE;};
};
- const Bool_t FixedLin(){if(fPolyOrder < 1) {return kTRUE;}
+ Bool_t FixedLin() const {if(fPolyOrder < 1) {return kTRUE;}
else {return kFALSE;};
};
- const Double_t DPt(){return fPtUpper-fPtLower;};
+ Double_t DPt() const {return fPtUpper-fPtLower;};
void CalcBinLimits(Int_t BinsPerGeV){
fBinLower = TMath::Nint(1.+fPtLower*BinsPerGeV);
fBinUpper = TMath::Nint(fPtUpper*BinsPerGeV);