kfMother[1] = CreateMotherParticle(daughter[0], daughter[1], TMath::Abs(kPiPlus), TMath::Abs(kProton));
if(!kfMother[1]) return kFALSE;
- Float_t dMass[2] = {TMath::Abs(mMass[0] - cL0mass), TMath::Abs(mMass[1] - cL0mass)};
+ Float_t dMass[2] = {static_cast<Float_t>(TMath::Abs(mMass[0] - cL0mass)), static_cast<Float_t>(TMath::Abs(mMass[1] - cL0mass))};
AliESDtrack* d[2];
d[0] = dynamic_cast<AliESDtrack*>(fEvent->GetTrack(pIndex));
d[1] = dynamic_cast<AliESDtrack*>(fEvent->GetTrack(nIndex));
if(!d[0] || !d[1]) return kFALSE;
- Float_t p[2] = {d[0]->GetP(), d[1]->GetP()};
+ Float_t p[2] = {static_cast<Float_t>(d[0]->GetP()), static_cast<Float_t>(d[1]->GetP())};
// check the 3 lambda - antilambda variables
Int_t check[2] = {-1, -1}; // 0 : lambda, 1 : antilambda