Float_t xTOfill2[] = {static_cast<Float_t>(fPtKs),static_cast<Float_t>(KpTrack->Eta()),static_cast<Float_t>(fPtKp),static_cast<Float_t>(fPtKn),static_cast<Float_t>(probP[2]),static_cast<Float_t>(probN[2]),static_cast<Float_t>(tofMatch1),static_cast<Float_t>(tofMatch2),static_cast<Float_t>(isTrue),static_cast<Float_t>(nSigmaComb),static_cast<Float_t>(nSigmaComb2),static_cast<Float_t>(deltaphi1),static_cast<Float_t>(deltaphi2),static_cast<Float_t>(fPsi)};
Int_t ipt = 0;
- while(fPtKsMin[ipt] < fPtKs && ipt < nPtBin){
+ while(ipt < nPtBin && fPtKsMin[ipt] < fPtKs){
ipt++;
}
ipt--;
Int_t ipt = 0;
- while(fPtLambdaMin[ipt] < fPtLambdaC && ipt < nPtBin){
+ while(ipt < nPtBin && fPtLambdaMin[ipt] < fPtLambdaC){
ipt++;
}
ipt--;
Float_t xTOfill2[] = {static_cast<Float_t>(fPtPhi),static_cast<Float_t>(KpTrack->Eta()),static_cast<Float_t>(fPtKp),static_cast<Float_t>(fPtKn),static_cast<Float_t>((fPidKp%128)*0.01),static_cast<Float_t>((fPidKn%128)*0.01),static_cast<Float_t>(tofMatch1),static_cast<Float_t>(tofMatch2),static_cast<Float_t>(isTrue),static_cast<Float_t>(nSigmaComb),static_cast<Float_t>(nSigmaComb2),static_cast<Float_t>(deltaphi1),static_cast<Float_t>(deltaphi2),static_cast<Float_t>(fPsi)};
Int_t ipt = 0;
- while(fPtPhiMin[ipt] < fPtPhi && ipt < nPtBin){
+ while(ipt < nPtBin && fPtPhiMin[ipt] < fPtPhi){
ipt++;
}
ipt--;