- printf(" \t --- Reconstruction -> EZN = %f TeV, EZP = %f TeV, EZEM = %f GeV \n "
- " \t NDetSpecNLeft = %d, NDetSpecPLeft = %d, NspecnLeft = %d,"
- " NspecpLeft = %d, NpartLeft = %d"
- " \t NDetSpecNRight = %d, NDetSpecPRight = %d, NspecnRight = %d,"
- " NspecpRight = %d, NpartRight = %d"
- " \t b = %f fm\n ",
- fZN1Energy,fZP1Energy,fZEMsignal,
- fNDetSpecNLeft,fNDetSpecPLeft,fNTrueSpecNLeft,fNTrueSpecPLeft,fNPartLeft,
- fNDetSpecNRight,fNDetSpecPRight,fNTrueSpecNRight,fNTrueSpecPRight,fNPartRight,
- fImpPar);
+ 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"
+ " --------------- 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"
+ " *******************************************************\n",
+ fZN2Energy[0]/1000., fZP2Energy[0]/1000.,
+ fZEM1signal[0]/1000.,fZEM2signal[0]/1000.,
+ fNDetSpecNSideA,fNDetSpecPSideA, fNPartSideA,fImpParSideA,
+ fZN1Energy[0]/1000.,fZP1Energy[0]/1000.,
+ fNDetSpecNSideC,fNDetSpecPSideC,fNPartSideC,fImpParSideC);
+