Int_t nbtracklets = 0;
// Check some stuff
- Bool_t standalonetracklet = kFALSE;
+ // Coverity
+ //Bool_t standalonetracklet = kFALSE;
const AliTRDseedV1 *tracklet = 0x0;
//////////////////////////////////////
// Loop tracklets
if(!(tracklet = fTrdTrack->GetTracklet(itr))) continue;
if(!tracklet->IsOK()) continue;
++nbtracklets;
- standalonetracklet = kFALSE;
- if(tracklet->IsStandAlone()) standalonetracklet = kTRUE;
+ // Coverity
+ //standalonetracklet = kFALSE;
+ //if(tracklet->IsStandAlone()) standalonetracklet = kTRUE;
nbclusters = 0;
memset(phtb, 0, AliTRDseedV1::kNtb*sizeof(Double_t));
////////////
// results of the linear fit
Double_t dydt = 0.0; // dydt tracklet after straight line fit
- Double_t errorpar = 0.0; // error after straight line fit on dy/dt
+ // Coverity
+ //Double_t errorpar = 0.0; // error after straight line fit on dy/dt
Double_t pointError = 0.0; // error after straight line fit
// pad row problemes: avoid tracklet that cross pad rows, tilting angle in the constant
Int_t crossrow = 0; // if it crosses a pad row
linearFitterTracklet.Eval();
linearFitterTracklet.GetParameters(pars);
pointError = TMath::Sqrt(linearFitterTracklet.GetChisquare()/(nbli-2));
- errorpar = linearFitterTracklet.GetParError(1)*pointError;
+ // Coverity
+ //errorpar = linearFitterTracklet.GetParError(1)*pointError;
dydt = pars[1];
//printf("chis %f, nbli %d, pointError %f, parError %f, errorpar %f\n",linearFitterTracklet->GetChisquare(),nbli,pointError,linearFitterTracklet->GetParError(1),errorpar);
linearFitterTracklet.ClearPoints();