fXtlArrSize[2]=fGeometryEMCA->GetInnerThermoHalfSize()[2] ; //Wery close to the zise of the Xtl set
//calculate offset to crystal surface
- Float_t * inthermo = fGeometryEMCA->GetInnerThermoHalfSize() ;
- Float_t * strip = fGeometryEMCA->GetStripHalfSize() ;
- Float_t* splate = fGeometryEMCA->GetSupportPlateHalfSize();
- Float_t * crystal = fGeometryEMCA->GetCrystalHalfSize() ;
- Float_t * pin = fGeometryEMCA->GetAPDHalfSize() ;
- Float_t * preamp = fGeometryEMCA->GetPreampHalfSize() ;
+ const Float_t * inthermo = fGeometryEMCA->GetInnerThermoHalfSize() ;
+ const Float_t * strip = fGeometryEMCA->GetStripHalfSize() ;
+ const Float_t * splate = fGeometryEMCA->GetSupportPlateHalfSize();
+ const Float_t * crystal = fGeometryEMCA->GetCrystalHalfSize() ;
+ const Float_t * pin = fGeometryEMCA->GetAPDHalfSize() ;
+ const Float_t * preamp = fGeometryEMCA->GetPreampHalfSize() ;
fCrystalShift=-inthermo[1]+strip[1]+splate[1]+crystal[1]-fGeometryEMCA->GetAirGapLed()/2.+pin[1]+preamp[1] ;
fCryCellShift=crystal[1]-(fGeometryEMCA->GetAirGapLed()-2*pin[1]-2*preamp[1])/2;
fCellStep = 2.*fGeometryEMCA->GetAirCellHalfSize()[0] ;