Form("Track DCA%s vs p_{T} distribution",dcaName[i].Data()),
nptbins,ptmin,ptmax,ndcabins,mindca,maxdca);
fhPtDCA[i]->SetXTitle("p_{T} (GeV/c)");
- fhPtDCA[i]->SetXTitle(Form("DCA_{%s}",dcaName[i].Data()));
+ fhPtDCA[i]->SetYTitle(Form("DCA_{%s}",dcaName[i].Data()));
outputContainer->Add(fhPtDCA[i]);
fhPtDCASPDRefit[i] = new TH2F(Form("hPtDCA%sSPDRefit",dcaName[i].Data()),
Form("Track DCA%s vs p_{T} distribution of tracks with SPD and ITS refit",dcaName[i].Data()),
nptbins,ptmin,ptmax,ndcabins,mindca,maxdca);
fhPtDCASPDRefit[i]->SetXTitle("p_{T} (GeV/c)");
- fhPtDCASPDRefit[i]->SetXTitle(Form("DCA_{%s}",dcaName[i].Data()));
+ fhPtDCASPDRefit[i]->SetYTitle(Form("DCA_{%s}",dcaName[i].Data()));
outputContainer->Add(fhPtDCASPDRefit[i]);
fhPtDCANoSPDRefit[i] = new TH2F(Form("hPtDCA%sNoSPDRefit",dcaName[i].Data()),
Form("Track DCA%s vs p_{T} distributionof constrained tracks no SPD and with ITSRefit",dcaName[i].Data()),
nptbins,ptmin,ptmax,ndcabins,mindca,maxdca);
fhPtDCANoSPDRefit[i]->SetXTitle("p_{T} (GeV/c)");
- fhPtDCANoSPDRefit[i]->SetXTitle(Form("DCA_{%s}",dcaName[i].Data()));
+ fhPtDCANoSPDRefit[i]->SetYTitle(Form("DCA_{%s}",dcaName[i].Data()));
outputContainer->Add(fhPtDCANoSPDRefit[i]);
fhPtDCANoSPDNoRefit[i] = new TH2F(Form("hPtDCA%sNoSPDNoRefit",dcaName[i].Data()),
Form("Track DCA%s vs p_{T} distribution, constrained tracks with no SPD requierement and without ITSRefit",dcaName[i].Data()),
nptbins,ptmin,ptmax,ndcabins,mindca,maxdca);
fhPtDCANoSPDNoRefit[i]->SetXTitle("p_{T} (GeV/c)");
- fhPtDCANoSPDNoRefit[i]->SetXTitle(Form("DCA_{%s}",dcaName[i].Data()));
+ fhPtDCANoSPDNoRefit[i]->SetYTitle(Form("DCA_{%s}",dcaName[i].Data()));
outputContainer->Add(fhPtDCANoSPDNoRefit[i]);
fhPtDCATOFBC0[i] = new TH2F(Form("hPtDCA%sTOFBC0",dcaName[i].Data()),
Form("Track DCA%s vs p_{T} distribution, BC=0",dcaName[i].Data()),
nptbins,ptmin,ptmax,ndcabins,mindca,maxdca);
fhPtDCATOFBC0[i]->SetXTitle("p_{T} (GeV/c)");
- fhPtDCATOFBC0[i]->SetXTitle(Form("DCA_{%s}",dcaName[i].Data()));
+ fhPtDCATOFBC0[i]->SetYTitle(Form("DCA_{%s}",dcaName[i].Data()));
outputContainer->Add(fhPtDCATOFBC0[i]);
fhPtDCATOFBCOut[i] = new TH2F(Form("hPtDCA%sTOFBCOut",dcaName[i].Data()),
Form("Track DCA%s vs p_{T} distribution, BC!=0",dcaName[i].Data()),
nptbins,ptmin,ptmax,ndcabins,mindca,maxdca);
fhPtDCATOFBCOut[i]->SetXTitle("p_{T} (GeV/c)");
- fhPtDCATOFBCOut[i]->SetXTitle(Form("DCA_{%s}",dcaName[i].Data()));
+ fhPtDCATOFBCOut[i]->SetYTitle(Form("DCA_{%s}",dcaName[i].Data()));
outputContainer->Add(fhPtDCATOFBCOut[i]);
fhPtDCANoTOFHit[i] = new TH2F(Form("hPtDCA%sNoTOFHit",dcaName[i].Data()),
Form("Track (no TOF hit) DCA%s vs p_{T} distribution",dcaName[i].Data()),
nptbins,ptmin,ptmax,ndcabins,mindca,maxdca);
fhPtDCANoTOFHit[i]->SetXTitle("p_{T} (GeV/c)");
- fhPtDCANoTOFHit[i]->SetXTitle(Form("DCA_{%s}",dcaName[i].Data()));
+ fhPtDCANoTOFHit[i]->SetYTitle(Form("DCA_{%s}",dcaName[i].Data()));
outputContainer->Add(fhPtDCANoTOFHit[i]);
if(fFillVertexBC0Histograms)
Form("Track DCA%s vs p_{T} distribution, vertex with BC!=0",dcaName[i].Data()),
nptbins,ptmin,ptmax,ndcabins,mindca,maxdca);
fhPtDCAVtxOutBC0[i]->SetXTitle("p_{T} (GeV/c)");
- fhPtDCAVtxOutBC0[i]->SetXTitle(Form("DCA_{%s}",dcaName[i].Data()));
+ fhPtDCAVtxOutBC0[i]->SetYTitle(Form("DCA_{%s}",dcaName[i].Data()));
outputContainer->Add(fhPtDCAVtxOutBC0[i]);
fhPtDCAVtxOutBC0NoTOFHit[i] = new TH2F(Form("hPtDCA%sVtxOutBC0NoTOFHit",dcaName[i].Data()),
Form("Track (no TOF hit) DCA%s vs p_{T} distribution, vertex with BC!=0",dcaName[i].Data()),
nptbins,ptmin,ptmax,ndcabins,mindca,maxdca);
fhPtDCAVtxOutBC0NoTOFHit[i]->SetXTitle("p_{T} (GeV/c)");
- fhPtDCAVtxOutBC0NoTOFHit[i]->SetXTitle(Form("DCA_{%s}",dcaName[i].Data()));
+ fhPtDCAVtxOutBC0NoTOFHit[i]->SetYTitle(Form("DCA_{%s}",dcaName[i].Data()));
outputContainer->Add(fhPtDCAVtxOutBC0NoTOFHit[i]);
fhPtDCAVtxInBC0[i] = new TH2F(Form("hPtDCA%sVtxInBC0",dcaName[i].Data()),
Form("Track DCA%s vs p_{T} distribution, vertex with BC==0",dcaName[i].Data()),
nptbins,ptmin,ptmax,ndcabins,mindca,maxdca);
fhPtDCAVtxInBC0[i]->SetXTitle("p_{T} (GeV/c)");
- fhPtDCAVtxInBC0[i]->SetXTitle(Form("DCA_{%s}",dcaName[i].Data()));
+ fhPtDCAVtxInBC0[i]->SetYTitle(Form("DCA_{%s}",dcaName[i].Data()));
outputContainer->Add(fhPtDCAVtxInBC0[i]);
fhPtDCAVtxInBC0NoTOFHit[i] = new TH2F(Form("hPtDCA%sVtxInBC0NoTOFHit",dcaName[i].Data()),
Form("Track (no TOF hit) DCA%s vs p_{T} distribution, vertex with BC==0",dcaName[i].Data()),
nptbins,ptmin,ptmax,ndcabins,mindca,maxdca);
fhPtDCAVtxInBC0NoTOFHit[i]->SetXTitle("p_{T} (GeV/c)");
- fhPtDCAVtxInBC0NoTOFHit[i]->SetXTitle(Form("DCA_{%s}",dcaName[i].Data()));
+ fhPtDCAVtxInBC0NoTOFHit[i]->SetYTitle(Form("DCA_{%s}",dcaName[i].Data()));
outputContainer->Add(fhPtDCAVtxInBC0NoTOFHit[i]);
}
Form("Track DCA%s vs p_{T} distribution, SPD Pile-Up",dcaName[i].Data()),
nptbins,ptmin,ptmax,ndcabins,mindca,maxdca);
fhPtDCAPileUp[i]->SetXTitle("p_{T} (GeV/c)");
- fhPtDCAPileUp[i]->SetXTitle(Form("DCA_{%s}",dcaName[i].Data()));
+ fhPtDCAPileUp[i]->SetYTitle(Form("DCA_{%s}",dcaName[i].Data()));
outputContainer->Add(fhPtDCAPileUp[i]);
fhPtDCAPileUpTOFBC0[i] = new TH2F(Form("hPtDCA%sPileUpTOFBC0",dcaName[i].Data()),
Form("Track DCA%s vs p_{T} distribution",dcaName[i].Data()),
nptbins,ptmin,ptmax,ndcabins,mindca,maxdca);
fhPtDCAPileUpTOFBC0[i]->SetXTitle("p_{T} (GeV/c)");
- fhPtDCAPileUpTOFBC0[i]->SetXTitle(Form("DCA_{%s}",dcaName[i].Data()));
+ fhPtDCAPileUpTOFBC0[i]->SetYTitle(Form("DCA_{%s}",dcaName[i].Data()));
outputContainer->Add(fhPtDCAPileUpTOFBC0[i]);
fhPtDCAPileUpNoTOFHit[i] = new TH2F(Form("hPtDCA%sPileUpNoTOFHit",dcaName[i].Data()),
Form("Track (no TOF hit) DCA%s vs p_{T} distribution, SPD Pile-Up, vertex with BC!=0",dcaName[i].Data()),
nptbins,ptmin,ptmax,ndcabins,mindca,maxdca);
fhPtDCAPileUpNoTOFHit[i]->SetXTitle("p_{T} (GeV/c)");
- fhPtDCAPileUpNoTOFHit[i]->SetXTitle(Form("DCA_{%s}",dcaName[i].Data()));
+ fhPtDCAPileUpNoTOFHit[i]->SetYTitle(Form("DCA_{%s}",dcaName[i].Data()));
outputContainer->Add(fhPtDCAPileUpNoTOFHit[i]);
if(fFillVertexBC0Histograms)
Form("Track DCA%s vs p_{T} distribution, SPD Pile-Up, vertex with BC!=0",dcaName[i].Data()),
nptbins,ptmin,ptmax,ndcabins,mindca,maxdca);
fhPtDCAVtxOutBC0PileUp[i]->SetXTitle("p_{T} (GeV/c)");
- fhPtDCAVtxOutBC0PileUp[i]->SetXTitle(Form("DCA_{%s}",dcaName[i].Data()));
+ fhPtDCAVtxOutBC0PileUp[i]->SetYTitle(Form("DCA_{%s}",dcaName[i].Data()));
outputContainer->Add(fhPtDCAVtxOutBC0PileUp[i]);
fhPtDCAVtxOutBC0PileUpNoTOFHit[i] = new TH2F(Form("hPtDCA%sVtxOutBC0PileUpNoTOFHit",dcaName[i].Data()),
Form("Track (no TOF hit) DCA%s vs p_{T} distribution, SPD Pile-Up, vertex with BC!=0",dcaName[i].Data()),
nptbins,ptmin,ptmax,ndcabins,mindca,maxdca);
fhPtDCAVtxOutBC0PileUpNoTOFHit[i]->SetXTitle("p_{T} (GeV/c)");
- fhPtDCAVtxOutBC0PileUpNoTOFHit[i]->SetXTitle(Form("DCA_{%s}",dcaName[i].Data()));
+ fhPtDCAVtxOutBC0PileUpNoTOFHit[i]->SetYTitle(Form("DCA_{%s}",dcaName[i].Data()));
outputContainer->Add(fhPtDCAVtxOutBC0PileUpNoTOFHit[i]);
fhPtDCAVtxInBC0PileUp[i] = new TH2F(Form("hPtDCA%sPileUpVtxInBC0",dcaName[i].Data()),
Form("Track DCA%s vs p_{T} distribution, SPD Pile-Up,vertex with BC==0",dcaName[i].Data()),
nptbins,ptmin,ptmax,ndcabins,mindca,maxdca);
fhPtDCAVtxInBC0PileUp[i]->SetXTitle("p_{T} (GeV/c)");
- fhPtDCAVtxInBC0PileUp[i]->SetXTitle(Form("DCA_{%s}",dcaName[i].Data()));
+ fhPtDCAVtxInBC0PileUp[i]->SetYTitle(Form("DCA_{%s}",dcaName[i].Data()));
outputContainer->Add(fhPtDCAVtxInBC0PileUp[i]);
fhPtDCAVtxInBC0PileUpNoTOFHit[i] = new TH2F(Form("hPtDCA%sVtxInBC0PileUpNoTOFHit",dcaName[i].Data()),
Form("Track (no TOF hit) DCA%s vs p_{T} distribution, SPD Pile-Up, vertex with BC==0",dcaName[i].Data()),
nptbins,ptmin,ptmax,ndcabins,mindca,maxdca);
fhPtDCAVtxInBC0PileUpNoTOFHit[i]->SetXTitle("p_{T} (GeV/c)");
- fhPtDCAVtxInBC0PileUpNoTOFHit[i]->SetXTitle(Form("DCA_{%s}",dcaName[i].Data()));
+ fhPtDCAVtxInBC0PileUpNoTOFHit[i]->SetYTitle(Form("DCA_{%s}",dcaName[i].Data()));
outputContainer->Add(fhPtDCAVtxInBC0PileUpNoTOFHit[i]);
}