fNPartSideC(0),
fImpParameter(0),
fImpParSideA(0),
- fImpParSideC(0)
-
+ fImpParSideC(0),
+ fRecoFlag(0x0),
+ fIsScalerOn(kFALSE)
{
//
// Default constructor
fPMRef1[i] = fPMRef2[i] = 0.;
}
}
+
+ for(Int_t i=0; i<32; i++) fZDCScaler[i]=0;
}
Int_t detspnSideA, Int_t detsppSideA, Int_t detspnSideC, Int_t detsppSideC,
Int_t trsp, Int_t trspSideA,Int_t trspSideC,
Int_t npart, Int_t npartSideA, Int_t npartSideC,
- Float_t b, Float_t bSideA, Float_t bSideC) :
+ Float_t b, Float_t bSideA, Float_t bSideC,
+ UInt_t recoFlag, Bool_t scalerOn, UInt_t* scaler) :
TObject(),
//
fNPartSideC(npartSideC),
fImpParameter(b),
fImpParSideA(bSideA),
- fImpParSideC(bSideC)
-
+ fImpParSideC(bSideC),
+ fRecoFlag(recoFlag),
+ fIsScalerOn(scalerOn)
{
//
// Constructor
fPMRef2[j] = ref2[j];
}
}
+ for(Int_t j=0; j<32; j++) fZDCScaler[j] = scaler[j];
}
fNPartSideC(oldreco.GetNPartSideC()),
fImpParameter(oldreco.GetImpParameter()),
fImpParSideA(oldreco.GetImpParSideA()),
-fImpParSideC(oldreco.GetImpParSideC())
+fImpParSideC(oldreco.GetImpParSideC()),
+fRecoFlag(oldreco.GetRecoFlag()),
+fIsScalerOn(oldreco.IsScalerOn())
{
// Copy constructor
fPMRef1[1] = oldreco.GetPMRef1LRsignal();
fPMRef2[0] = oldreco.GetPMRef2HRsignal();
fPMRef2[1] = oldreco.GetPMRef2LRsignal();
+ for(Int_t j=0; j<32; j++) fZDCScaler[j] = oldreco.GetZDCScaler(j);
}
//______________________________________________________________________________
//
printf(" ****************** AliZDCReco object ******************\n"
" --------------- side A ---------------\n"
- " E_{ZN} = %f TeV, E_{ZP} = %f TeV, "
- " E_{ZEM1} = %f TeV, E_{ZEM2} = %f TeV\n "
- " N_{spec n}^{DET} = %d, N_{spec p}^{DET} = %d,"
- " N_{part} = %d, b = %1.4f fm\n"
+ " E_ZN = %1.2f TeV, E_ZP = %1.2f TeV, "
+ " E_ZEM1 = %1.2f TeV, E_ZEM2 = %1.2f TeV\n "
+ " N_spec_n = %d, N_spec_p = %d,"
+ " N_part = %d, b = %1.4f fm\n"
" --------------- side C ---------------\n"
- " E_{ZN} = %f TeV, E_{ZP} = %f TeV\n "
- " N_{spec n}^{DET} = %d, N_{spec p}^{DET} = %d,"
- " N_{part} = %d, b = %1.4f fm\n"
+ " E_ZN = %1.2f TeV, E_ZP = %1.2f TeV, "
+ " N_spec_n = %d, N_spec_p = %d,"
+ " N_part = %d, b = %1.4f fm\n"
" *******************************************************\n",
fZN2Energy[0]/1000., fZP2Energy[0]/1000.,
fZEM1signal[0]/1000.,fZEM2signal[0]/1000.,