track->Set(cParam.GetX(),cParam.GetAlpha(),cParam.GetParameter(),cParam.GetCovariance());
if(accCuts->AcceptTrack(track)) {
- FillHistograms(track,stack,AlidNdPtHelper::kRecTracks,vtxESD->GetZv(),multRecTemp,multMCTrueTracks);
+ FillHistograms(track,stack,AlidNdPtHelper::kRecTracks,vtxESD->GetZ(),multRecTemp,multMCTrueTracks);
labelsRec[multRec] = TMath::Abs(track->GetLabel());
multRec++;
}
// all the rest tracking scenarios
//
if(accCuts->AcceptTrack(track)) {
- FillHistograms(track,stack,AlidNdPtHelper::kRecTracks,vtxESD->GetZv(),multRecTemp, multMCTrueTracks);
+ FillHistograms(track,stack,AlidNdPtHelper::kRecTracks,vtxESD->GetZ(),multRecTemp, multMCTrueTracks);
labelsRec[multRec] = TMath::Abs(track->GetLabel());
multRec++;
}
FillHistograms(AlidNdPtHelper::kRecEvents,vtxMC[2],multMBTracks);
}
else {
- FillHistograms(AlidNdPtHelper::kRecEvents,vtxESD->GetZv(),multMBTracks);
+ FillHistograms(AlidNdPtHelper::kRecEvents,vtxESD->GetZ(),multMBTracks);
}
// calculate meanPt from the event
}
// control event histograms
- Double_t vRecEventHist1[3] = {vtxESD->GetXv(),vtxESD->GetYv(),vtxESD->GetZv()};
+ Double_t vRecEventHist1[3] = {vtxESD->GetX(),vtxESD->GetY(),vtxESD->GetZ()};
fRecEventHist1->Fill(vRecEventHist1);
// correlation track multiplicity vs MB track multiplicity