// V0 loop
Int_t nV0s = fOutputAOD->GetNumberOfV0s();
AliAODv0 *myV0;
- Double_t dQT, dALPHA, dPT, dMASS=0.0;
+ Double_t /*dQT, dALPHA, dPT,*/ dMASS=0.0;
for (Int_t i=0; i!=nV0s; ++i) {
myV0 = (AliAODv0*) fOutputAOD->GetV0(i);
if(!myV0) continue;
}
if(pass){// 1 lambda, 2 antilambda, 3=K0s
- dPT=myV0->Pt();
- dQT=myV0->PtArmV0();
- dALPHA=myV0->AlphaV0();
+ //dPT=myV0->Pt();
+ //dQT=myV0->PtArmV0();
+ //dALPHA=myV0->AlphaV0();
Int_t iPos, iNeg;
AliAODTrack *iT=(AliAODTrack*) myV0->GetDaughter(0);
fPID->ComputeProb(iT,tAOD); // compute Bayesian probabilities
Float_t nsigmaTPC[8];
- Int_t tofMatch=0;
- Int_t tofMatch2=0;
+// Int_t tofMatch=0;
+// Int_t tofMatch2=0;
if(iT->GetDetPid()){ // check the PID object is available
for(Int_t iS=0;iS < 8;iS++){
}
- if(fPID->GetCurrentMask(1)) // if TOF is present
- tofMatch = 1;
+// if(fPID->GetCurrentMask(1)) // if TOF is present
+// tofMatch = 1;
// Float_t tofMismProbMC = fPID->GetTOFMismProb(); // TOF mismatch probability requested to be lower than 50% for TOF analysis
nsigmaTPC2[iS] = 10;
}
- if(fPID->GetCurrentMask(1)) // if TOF is present
- tofMatch2 = 1;
+// if(fPID->GetCurrentMask(1)) // if TOF is present
+// tofMatch2 = 1;
// Float_t tofMismProbMC2 = fPID->GetTOFMismProb(); // TOF mismatch probability requested to be lower than 50% for TOF analysis