//pid response object
fESDpid=(AliESDpid*)inputHandler->GetPIDResponse();
if (!fESDpid) AliError("PIDResponse object was not created");
- // fESDpid->SetOADBPath("$ALICE_ROOT/OADB");
+ //fESDpid->SetOADBPath("$ALICE_ROOT/OADB");
Info("CreateOutputObjects","CreateOutputObjects (TList) of task %s", GetName());
OpenFile(1);
//add trd plots
if (fEnableAdvancedCheck) {
AddTrdHisto();
- AddTofTrgHisto("");
}
+ //Add trigger plots
+ AddTofTrgHisto("");
+
PostData(1, fHlist);
PostData(2, fHlistTimeZero);
PostData(3, fHlistPID);
*/
fESD=(AliESDEvent*)InputEvent();
if (!fESD) {
- Printf("ERROR: fESD not available");
+ AliError("fESD event not available");
return;
}
if (!fESDpid) {
- Printf("ERROR: fESDpid not available");
+ AliError("PID object fESDpid not available");
return;
}
if (fIsMC) {
AliMCEventHandler *mcH = dynamic_cast<AliMCEventHandler*> (AliAnalysisManager::GetAnalysisManager()->GetMCtruthEventHandler());
if (!mcH) {
- AliError("ERROR: Could not get MCeventHandler");
+ AliError("Cannot get MCeventHandler");
return;
} else {
fMCevent = (AliMCEvent *) mcH->MCEvent();
//set response tof_t0 for all other checks
fESDpid->SetTOFResponse(fESD,AliESDpid::kTOF_T0);//(fill_t0, tof_t0, t0_t0, best_t0)
- Printf("Momentum cut for eta and phi distributions set: Pt>%3.2f", fMatchingMomCut);
+ AliDebug(3, Form("Momentum cut for eta and phi distributions set: Pt>%3.2f", fMatchingMomCut));
+ //check existence of track filter
+ if (!fTrackFilter){
+ AliInfo("No track filter found, skipping the track loop");
+ return;
+ }
+
// loop over ESD tracks
for (Int_t iTracks = 0; iTracks < fESD->GetNumberOfTracks(); iTracks++) {
AliESDtrack* track = fESD->GetTrack(iTracks);
if (!track) {
- Printf("ERROR: Could not receive track %d", iTracks);
+ AliInfo(Form("Cannot receive track %d", iTracks));
continue;
}
//primary tracks selection: kTPCrefit and std cuts
- if (fTrackFilter){
- if(!fTrackFilter->IsSelected(track)) continue;
- } else {
- Printf("No track filter found, skipping the track loop");
- return;
- }
+ if (!fTrackFilter->IsSelected(track)) continue;
//select specie if MC
if ( fIsMC &&
Int_t charge = track->Charge();
+ //Fill histograms for primary particles
FillPrimaryTrkHisto(charge,"");
+
if (IsTPCTOFMatched(track)) {
fTof=track->GetTOFsignal()*1E-3;//in ps
//increment track counters
//check on output validity
fHlist = dynamic_cast<TList*> (GetOutputData(1));
if (!fHlist) {
- Printf("ERROR: lists not available");
+ AliError("Base histograms list not available");
return;
}
- // TH1D*hDummy = ((TH1D*)fHlist->FindObject("hTOFmatchedESDPt"));
- // TH1D*hMatchingEff = (TH1D*) hDummy->Clone("hMatchingEff");
+ // TH1F*hDummy = ((TH1F*)fHlist->FindObject("hTOFmatchedESDPt"));
+ // TH1F*hMatchingEff = (TH1F*) hDummy->Clone("hMatchingEff");
// hMatchingEff->SetTitle("Matching efficiency");
// hMatchingEff->Divide((TH1F*) fHlist->FindObject("hESDprimaryTrackPt"));
// TCanvas *c1 = new TCanvas("AliAnalysisTaskTOFqaID","Matching vs Pt",10,10,510,510);
for (Int_t iTracks = 0; iTracks < fESD->GetNumberOfTracks(); iTracks++) {
AliESDtrack* track = fESD->GetTrack(iTracks);
if (!track) {
- Printf("ERROR: Could not receive track %d", iTracks);
+ AliInfo(Form("Cannot receive track %d", iTracks));
continue;
}
//primary tracks selection: kTPCrefit and std cuts
if(!fTrackFilter->IsSelected(track)) continue;
}
else{
- Printf("No track filter found, skipping the track loop");
+ AliInfo("No track filter found, skipping the track loop");
break;
}
if (TMath::Abs(track->Eta())>0.8) continue; //cut for acceptance
Int_t pdgCode = mcPart->PdgCode();
if (!(TMath::Abs(pdgCode)==fSelectedPdg))
return kFALSE;
- else //Printf("Found particle with selected pdg code = %i", pdgCode);
- return kTRUE;
+ else
+ return kTRUE;
}
//----------------------------------------------------------------------------------
xAxisTitle = "#phi_vtx (deg)";
}
- TH1D*hDummy = ((TH1D*)list->FindObject(matchedName.Data()));
+ TH1F*hDummy = ((TH1F*)list->FindObject(matchedName.Data()));
if (!hDummy) return 0;
- TH1D*hMatchingEff = (TH1D*) hDummy->Clone("hMatchingEff");
+ TH1F*hMatchingEff = (TH1F*) hDummy->Clone("hMatchingEff");
hMatchingEff->SetNameTitle(Form("hMatchingEff_%s", variable.Data()),Form("Matching efficiency vs %s", variable.Data()));
hMatchingEff->Divide((TH1F*) list->FindObject(primaryName.Data()));
hMatchingEff->GetXaxis()->SetTitle(xAxisTitle.Data());
list->AddLast(hMatchedL);
TH2F* hMatchedDxVsPt = new TH2F(Form("hMatchedDxVsPt%s_%s",suffix.Data(),cLabel.Data()), Form("%s matched trk dx vs.p_{T}", cLabel.Data()), 1000,0.,10.,200, -10., 10.) ;
- HistogramMakeUp(hMatchedDxVsPt,((charge>0)? kRed+2 : kBlue+2), 1, "colz", "","", "GeV/c (p_{T})","dx (cm)");
+ HistogramMakeUp(hMatchedDxVsPt,((charge>0)? kRed+2 : kBlue+2), 1, "colz", "","", "p_{T} (GeV/c)","dx (cm)");
list->AddLast(hMatchedDxVsPt);
TH2F* hMatchedDzVsStrip = new TH2F(Form("hMatchedDzVsStrip%s_%s",suffix.Data(),cLabel.Data()), Form("%s matched trk dz vs. strip (#eta)", cLabel.Data()), 92,0.,92.,200, -10., 10.) ;
- HistogramMakeUp(hMatchedDzVsStrip,((charge>0)? kRed+2 : kBlue+2), 1, "colz", "","", "strip","dz (cm)");
+ HistogramMakeUp(hMatchedDzVsStrip,((charge>0)? kRed+2 : kBlue+2), 1, "colz", "","", "strip index","dz (cm)");
list->AddLast(hMatchedDzVsStrip) ;
TProfile *hMatchedDxVsCh = new TProfile(Form("hMatchedDxVsCh%s_%s",suffix.Data(),cLabel.Data()), Form("%s matched trk dx vs. channel", cLabel.Data()), 157248., 0.,157248.);
- HistogramMakeUp(hMatchedDxVsCh,((charge>0)? kRed+2 : kBlue+2), 1, "", "","", "channel","dx (cm)");
+ HistogramMakeUp(hMatchedDxVsCh,((charge>0)? kRed+2 : kBlue+2), 1, "", "","", "channel index","dx (cm)");
list->AddLast(hMatchedDxVsCh);
TProfile *hMatchedDzVsCh = new TProfile(Form("hMatchedDzVsCh%s_%s",suffix.Data(),cLabel.Data()), Form("%s matched trk dz vs. channel", cLabel.Data()), 157248., 0.,157248.);
- HistogramMakeUp(hMatchedDzVsCh,((charge>0)? kRed+2 : kBlue+2), 1, "", "","", "channel","dz (cm)");
+ HistogramMakeUp(hMatchedDzVsCh,((charge>0)? kRed+2 : kBlue+2), 1, "", "","", "channel index","dz (cm)");
list->AddLast(hMatchedDzVsCh);
return;
if (charge<0) cLabel.Form("neg"); else if (charge>0) cLabel.Form("pos"); else cLabel.Form("all");
TH1F* hMatchedP = new TH1F(Form("hMatchedP%s_%s",suffix.Data(),cLabel.Data()), Form("%s matched trk p", cLabel.Data()), 1000,0.,10.) ;
- HistogramMakeUp(hMatchedP,((charge>0)? kRed+2 : kBlue+2), 1, "E1", "","", "L (cm)","tracks");
+ HistogramMakeUp(hMatchedP,((charge>0)? kRed+2 : kBlue+2), 1, "E1", "","", "p (GeV/c)","tracks");
list->AddLast(hMatchedP) ;
TH1F* hMatchedPt = new TH1F(Form("hMatchedPt%s_%s",suffix.Data(),cLabel.Data()), Form("%s matched trk p_{T}", cLabel.Data()), 1000,0.,10.) ;
list->AddLast(hMatchedPtVsOutPhi) ;
TH1F* hPrimaryP = new TH1F(Form("hPrimaryP%s_%s",suffix.Data(),cLabel.Data()), Form("%s matched trk p", cLabel.Data()), 1000,0.,10.) ;
- HistogramMakeUp(hPrimaryP,((charge>0)? kRed+2 : kBlue+2), 1, "E1", "","", "L (cm)","tracks");
+ HistogramMakeUp(hPrimaryP,((charge>0)? kRed+2 : kBlue+2), 1, "E1", "","", "p (GeV/c)","tracks");
list->AddLast(hPrimaryP) ;
TH1F* hPrimaryPt = new TH1F(Form("hPrimaryPt%s_%s",suffix.Data(),cLabel.Data()), Form("%s matched trk p_{T}", cLabel.Data()), 1000,0.,10.) ;
HistogramMakeUp(hExpTimePiT0Sub1GeV,((charge>0)? kRed+2 : kBlue+2), 1, "colz", "","","n. tracks used for t_{0}^{TOF}","t_{TOF}-t_{#pi,exp}-t_{0}^{TOF}");
list->AddLast(hExpTimePiT0Sub1GeV) ;
- TH1F* hExpTimePiFillSub = new TH1F(Form("hExpTimePiFillSub%s_%s",suffix.Data(),cLabel.Data()), "%s trk t_{TOF}-t_{#pi,exp}-t_{0,fill}; t_{TOF}-t_{#pi,exp} -_{0,fill} [ps];entries", fnExpTimeBins, fExpTimeRangeMin, fExpTimeRangeMax) ;
+ TH1F* hExpTimePiFillSub = new TH1F(Form("hExpTimePiFillSub%s_%s",suffix.Data(),cLabel.Data()), Form("%s trk t_{TOF}-t_{#pi,exp}-t_{0,fill}",cLabel.Data()), fnExpTimeBins, fExpTimeRangeMin, fExpTimeRangeMax) ;
+ HistogramMakeUp(hExpTimePiFillSub,((charge>0)? kRed+2 : kBlue+2), 1, "", "","","t_{TOF}-t_{#pi,exp} -t_{0,fill} [ps]","entries");
list->AddLast(hExpTimePiFillSub) ;
-
+
TH1F* hExpTimePi = new TH1F(Form("hExpTimePi%s_%s",suffix.Data(),cLabel.Data()),Form("%s matched trk t_{TOF}-t_{#pi,exp}",cLabel.Data()), fnExpTimeBins, fExpTimeRangeMin, fExpTimeRangeMax) ;
HistogramMakeUp(hExpTimePi,((charge>0)? kRed+2 : kBlue+2), 1, "", "","", "t_{TOF}-t_{#pi,exp} [ps]","tracks");
list->AddLast(hExpTimePi);
AliError("Invalid list passed as argument.");
return;
}
- TH1D* hT0AC = new TH1D(Form("hT0AC%s",suffix.Data()), "Event timeZero from T0A&C; t_{0,AC} [ps]; events", 1000, -25000., 25000. ) ;
+ TH1F* hT0AC = new TH1F(Form("hT0AC%s",suffix.Data()), "Event timeZero from T0A&C; t_{0,AC} [ps]; events", 1000, -12500., 12500.) ;
HistogramMakeUp(hT0AC, kRed+2, 20, "", "","","","");
list->AddLast(hT0AC);
- TH1D* hT0A = new TH1D(Form("hT0A%s",suffix.Data()), "Event timeZero from T0A; t_{0,A} [ps]; events", 1000, -25000., 25000. ) ;
+ TH1F* hT0A = new TH1F(Form("hT0A%s",suffix.Data()), "Event timeZero from T0A; t_{0,A} [ps]; events", 1000, -12500., 12500.) ;
HistogramMakeUp(hT0A, kBlue+2, 25, "", "","","","");
list->AddLast(hT0A);
- TH1D* hT0C = new TH1D(Form("hT0C%s",suffix.Data()), "Event timeZero from T0C; t_{0,C} [ps]; events", 1000, -25000., 25000. ) ;
+ TH1F* hT0C = new TH1F(Form("hT0C%s",suffix.Data()), "Event timeZero from T0C; t_{0,C} [ps]; events", 1000, -12500., 12500.) ;
HistogramMakeUp(hT0C, kGreen+2, 28, "", "","","","");
list->AddLast(hT0C);
- TH1D* hT0DetRes = new TH1D(Form("hT0DetRes%s",suffix.Data()), "T0 detector (T0A-T0C)/2; (T0A-T0C)/2 [ps]; events", 200, -500.,500. ) ;
+ TH1F* hT0DetRes = new TH1F(Form("hT0DetRes%s",suffix.Data()), "T0 detector (T0A-T0C)/2; (T0A-T0C)/2 [ps]; events", 200, -500.,500. ) ;
HistogramMakeUp(hT0DetRes, kMagenta+1, 1, "", "","","","");
list->AddLast(hT0DetRes) ;
- TH1F* hT0fill = new TH1F(Form("hT0fill%s",suffix.Data()), "Event timeZero of fill; t_{0,fill} [ps]; events", 1000, -25000., 25000. ) ;
+ TH1F* hT0fill = new TH1F(Form("hT0fill%s",suffix.Data()), "Event timeZero of fill; t_{0,fill} [ps]; events", 1000, -12500., 12500. ) ;
HistogramMakeUp(hT0fill, kOrange+1, 25, "", "","","","");
list->AddLast(hT0fill) ;
- TH1F* hT0TOF = new TH1F(Form("hT0TOF%s",suffix.Data()), "Event timeZero estimated by TOF; t0 [ps]; events", 1000, -25000., 25000. ) ;
+ TH1F* hT0TOF = new TH1F(Form("hT0TOF%s",suffix.Data()), "Event timeZero estimated by TOF; t0 [ps]; events", 1000, -12500., 12500. ) ;
HistogramMakeUp(hT0TOF, kTeal-5, 21, "", "","","","");
list->AddLast(hT0TOF) ;
- TH1F* hT0T0 = new TH1F(Form("hT0T0%s",suffix.Data()), "Best timeZero between AC, A, C; t_{0} [ps]; events", 1000, -25000.,25000. ) ;
+ TH1F* hT0T0 = new TH1F(Form("hT0T0%s",suffix.Data()), "Best timeZero between AC, A, C; t_{0} [ps]; events", 1000, -12500., 12500. ) ;
HistogramMakeUp(hT0T0, kAzure+7, 26, "", "","","","");
list->AddLast(hT0T0) ;
- TH1F* hT0best = new TH1F(Form("hT0best%s",suffix.Data()), "Event timeZero estimated as T0best; t0 [ps]; events", 1000, -25000.,25000. ) ;
+ TH1F* hT0best = new TH1F(Form("hT0best%s",suffix.Data()), "Event timeZero estimated as T0best; t0 [ps]; events", 1000, -12500., 12500.) ;
HistogramMakeUp(hT0best, kBlack, 20, "", "","","","");
list->AddLast(hT0best) ;
HistogramMakeUp(hT0bestRes, kBlack, 20, "", "","","","");
list->AddLast(hT0bestRes) ;
- TH2F* hT0TOFvsNtrk = new TH2F(Form("hT0TOFvsNtrk%s",suffix.Data()), "Event timeZero estimated by TOF vs. number of tracks in event;TOF-matching tracks; t0 [ps]", 100, 0., 100.,1000,-25000.,25000. ) ;
+ TH2F* hT0TOFvsNtrk = new TH2F(Form("hT0TOFvsNtrk%s",suffix.Data()), "Event timeZero estimated by TOF vs. number of tracks in event;TOF-matching tracks; t0 [ps]", 100, 0., 100., 500,-2500.,2500. ) ;
HistogramMakeUp(hT0TOFvsNtrk, kTeal-5, 1, "colz", "","","","");
list->AddLast(hT0TOFvsNtrk) ;
- TH2F* hEventT0MeanVsVtx = new TH2F(Form("hEventT0MeanVsVtx%s",suffix.Data()), "T0 detector: mean vs vertex ; (t0_{A}-t0_{C})/2 [ns]; (t0_{A}+t0_{C})/2 [ns]; events", 500, -25., 25., 500, -25., 25. ) ;
+ TH2F* hEventT0MeanVsVtx = new TH2F(Form("hEventT0MeanVsVtx%s",suffix.Data()), "T0 detector: mean vs vertex ; (t0_{A}-t0_{C})/2 [ns]; (t0_{A}+t0_{C})/2 [ns]; events", 50, -25., 25., 50, -25., 25. ) ;
HistogramMakeUp(hEventT0MeanVsVtx, kBlue+2, 1, "colz", "","","","");
list->AddLast(hEventT0MeanVsVtx) ;
- TH2F* hEventV0MeanVsVtx = new TH2F(Form("hEventV0MeanVsVtx%s",suffix.Data()), "V0 detector: mean vs vertex ; (V0_{A}-V0_{C})/2 [ns]; (V0_{A}+V0_{C})/2 [ns]; events", 500, -50., 50., 500, -50., 50. ) ;
+ TH2F* hEventV0MeanVsVtx = new TH2F(Form("hEventV0MeanVsVtx%s",suffix.Data()), "V0 detector: mean vs vertex ; (V0_{A}-V0_{C})/2 [ns]; (V0_{A}+V0_{C})/2 [ns]; events", 50, -25., 25., 50, -25., 25.) ;
HistogramMakeUp(hEventV0MeanVsVtx, kBlack, 1, "colz", "","","","");
list->AddLast(hEventV0MeanVsVtx) ;
HistogramMakeUp(hFiredMaxipadVsTrgPad, kBlue+2, 1, "colz", "","", "N_{pad} in trg window","N_{maxipad}");
fHlistTrigger->AddLast(hFiredMaxipadVsTrgPad);
- TH2I* hTrgMap = new TH2I(Form("hTrgMap%s",suffix.Data()), Form("Map of fired maxipads"), 72, 0, 72, 22, 0, 22);
+ TH2I* hTrgMap = new TH2I(Form("hTrgMap%s",suffix.Data()), Form("Map of fired maxipads"), 72, 0, 72, 23, 0, 23);
HistogramMakeUp(hTrgMap, kBlue+2, 1, "colz", "","", "LTM","maxipad");
fHlistTrigger->AddLast(hTrgMap);
if (suffix.Contains("Trd")) {
((TH1F*)fHlistTRD->FindObject(Form("hPrimaryP%s_%s",suffix.Data(),cLabel.Data())))->Fill(fP);
((TH1F*)fHlistTRD->FindObject(Form("hPrimaryPt%s_%s",suffix.Data(),cLabel.Data())))->Fill(fPt);
+ ((TH2F*)fHlistTRD->FindObject(Form("hPrimaryPtVsOutPhi%s_%s",suffix.Data(),cLabel.Data())))->Fill(fTPCOuterPhi,fPt);
if (fPt>=fMatchingMomCut) {
((TH1F*)fHlistTRD->FindObject(Form("hPrimaryEta%s_%s",suffix.Data(),cLabel.Data())))->Fill(fEta);
((TH1F*)fHlistTRD->FindObject(Form("hPrimaryPhi%s_%s",suffix.Data(),cLabel.Data())))->Fill(fPhi);
- ((TH2F*)fHlistTRD->FindObject(Form("hPrimaryPtVsOutPhi%s_%s",suffix.Data(),cLabel.Data())))->Fill(fTPCOuterPhi,fPt);
}
} else {
((TH1F*)fHlist->FindObject(Form("hPrimaryP%s_%s",suffix.Data(),cLabel.Data())))->Fill(fP);
((TH1F*)fHlist->FindObject(Form("hPrimaryPt%s_%s",suffix.Data(),cLabel.Data())))->Fill(fPt);
+ ((TH2F*)fHlist->FindObject(Form("hPrimaryPtVsOutPhi%s_%s",suffix.Data(),cLabel.Data())))->Fill(fTPCOuterPhi,fPt);
if (fPt>=fMatchingMomCut) {
((TH1F*)fHlist->FindObject(Form("hPrimaryEta%s_%s",suffix.Data(),cLabel.Data())))->Fill(fEta);
((TH1F*)fHlist->FindObject(Form("hPrimaryPhi%s_%s",suffix.Data(),cLabel.Data())))->Fill(fPhi);
- ((TH2F*)fHlist->FindObject(Form("hPrimaryPtVsOutPhi%s_%s",suffix.Data(),cLabel.Data())))->Fill(fTPCOuterPhi,fPt);
}
}
return;
if (suffix.Contains("Trd")) {
((TH1F*)fHlistTRD->FindObject(Form("hMatchedP%s_%s",suffix.Data(),cLabel.Data())))->Fill(fP);
((TH1F*)fHlistTRD->FindObject(Form("hMatchedPt%s_%s",suffix.Data(),cLabel.Data())))->Fill(fPt);
+ ((TH2F*)fHlistTRD->FindObject(Form("hMatchedPtVsOutPhi%s_%s",suffix.Data(),cLabel.Data())))->Fill(fTPCOuterPhi,fPt);
if (fPt>=fMatchingMomCut) {
((TH1F*)fHlistTRD->FindObject(Form("hMatchedEta%s_%s",suffix.Data(),cLabel.Data())))->Fill(fEta);
((TH1F*)fHlistTRD->FindObject(Form("hMatchedPhi%s_%s",suffix.Data(),cLabel.Data())))->Fill(fPhi);
- ((TH2F*)fHlistTRD->FindObject(Form("hMatchedPtVsOutPhi%s_%s",suffix.Data(),cLabel.Data())))->Fill(fTPCOuterPhi,fPt);
}
} else {
((TH1F*)fHlist->FindObject(Form("hMatchedP%s_%s",suffix.Data(),cLabel.Data())))->Fill(fP);
((TH1F*)fHlist->FindObject(Form("hMatchedPt%s_%s",suffix.Data(),cLabel.Data())))->Fill(fPt);
+ ((TH2F*)fHlist->FindObject(Form("hMatchedPtVsOutPhi%s_%s",suffix.Data(),cLabel.Data())))->Fill(fTPCOuterPhi,fPt);
if (fPt>=fMatchingMomCut) {
((TH1F*)fHlist->FindObject(Form("hMatchedEta%s_%s",suffix.Data(),cLabel.Data())))->Fill(fEta);
((TH1F*)fHlist->FindObject(Form("hMatchedPhi%s_%s",suffix.Data(),cLabel.Data())))->Fill(fPhi);
- ((TH2F*)fHlist->FindObject(Form("hMatchedPtVsOutPhi%s_%s",suffix.Data(),cLabel.Data())))->Fill(fTPCOuterPhi,fPt);
}
}
return;
//&& TMath::Abs(fT0[2]-fT0[1]) < 500) //add this condition to check t0 used in tof response
((TH1F*)fHlistTimeZero->FindObject(Form("hT0DetRes%s",suffix.Data())))->Fill((fT0[2]-fT0[1])*0.5);
((TH1F*)fHlistTimeZero->FindObject(Form("hT0AC%s",suffix.Data())))->Fill(fT0[0]);
- ((TH2F*)fHlistTimeZero->FindObject(Form("hEventT0MeanVsVtx%s",suffix.Data())))->Fill((fT0[2]-fT0[1])*0.5,(fT0[2]+fT0[1])*0.5);
+ ((TH2F*)fHlistTimeZero->FindObject(Form("hEventT0MeanVsVtx%s",suffix.Data())))->Fill( ((fT0[2]-fT0[1])*0.5e-3), ((fT0[2]+fT0[1])*0.5e-3) );
}
if(TMath::Abs(fT0[1]) < t0cut){
((TH1F*)fHlistTimeZero->FindObject(Form("hT0A%s",suffix.Data())))->Fill(fT0[1]);
fESDpid->SetTOFResponse(fESD, (AliESDpid::EStartTimeType_t) j);//(fill_t0, tof_t0, t0_t0, best_t0)
timeZero[j]=fESDpid->GetTOFResponse().GetStartTime(10.); //timeZero for bin pT>10GeV/c
timeZeroRes[j]=fESDpid->GetTOFResponse().GetStartTimeRes(10.); //timeZero for bin pT>10GeV/c
- ((TH1D*)(fHlistTimeZero->FindObject(timeZeroHisto[j].Data())))->Fill(timeZero[j]);
- ((TH1D*)(fHlistTimeZero->FindObject(timeZeroHistoRes[j].Data())))->Fill(timeZeroRes[j]);
+ ((TH1F*)(fHlistTimeZero->FindObject(timeZeroHisto[j].Data())))->Fill(timeZero[j]);
+ ((TH1F*)(fHlistTimeZero->FindObject(timeZeroHistoRes[j].Data())))->Fill(timeZeroRes[j]);
}
((TH2F*)fHlistTimeZero->FindObject("hT0TOFvsNtrk"))->Fill(fNTOFtracks[0],timeZero[AliESDpid::kTOF_T0]);