etCell[i] = 0.;
etaCell[i] = 0.;
phiCell[i] = 0.;
- flagCell[i] = 0.;
+ flagCell[i] = 0;
etCell2[i] = 0.;
etaCell2[i] = 0.;
phiCell2[i] = 0.;
- flagCell2[i] = 0.;
+ flagCell2[i] = 0;
}
// Information extracted from fUnitArray
// Load input vectors and calculate total energy in array
Float_t etaAlgoJet[30] = {0.};
Float_t phiAlgoJet[30] = {0.};
Float_t etAlgoJet[30] = {0.};
- Int_t ncellsAlgoJet[30] = {0.};
+ Int_t ncellsAlgoJet[30] = {0};
// Run algorithm//
////////////////////////////////////////////////////////////////////////
void AliUA1JetFinderV2::SubtractBackgCone(const Int_t& nIn, const Int_t&nJ,Float_t& etbgTotalN,
- Float_t* ptT, Float_t* etaT, const Float_t* phiT, const Int_t* cFlagT, const Int_t* sFlagT,
+ const Float_t* ptT, const Float_t* etaT, const Float_t* phiT, const Int_t* cFlagT, const Int_t* sFlagT,
Float_t* const etJet, const Float_t* etaJet, const Float_t* phiJet,
Float_t* const etsigJet, Int_t* const multJet, Int_t* const injet)
{
////////////////////////////////////////////////////////////////////////
void AliUA1JetFinderV2::SubtractBackgRatio(const Int_t& nIn, const Int_t&nJ,Float_t& etbgTotalN,
- Float_t* ptT, Float_t* etaT, const Float_t* phiT, const Int_t* cFlagT, const Int_t* sFlagT,
+ const Float_t* ptT, const Float_t* etaT, const Float_t* phiT, const Int_t* cFlagT, const Int_t* sFlagT,
Float_t* const etJet, const Float_t* etaJet, const Float_t* phiJet,
Float_t* const etsigJet, Int_t* const multJet, Int_t* const injet)
{