MultiplicityPlotMacros.h File Reference

Go to the source code of this file.

Functions
TH1D *	AverageRunMultiplicity (TFile &ff, const char *module, const bool excludeLastBins, const char *histo)
void	PlotPixelMultVtxPos (TFile *ff, const char *module)

Function Documentation

AverageRunMultiplicity()

TH1D* AverageRunMultiplicity	(	TFile &	ff,
		const char *	module,
		const bool	excludeLastBins,
		const char *	histo
	)

Definition at line 98 of file MultiplicityPlotMacros.cc.

References gather_cfg::cout, alignCSCRings::ff, CommonAnalyzer::getObject(), CommonAnalyzer::getRunList(), timingPdfMaker::histo, mps_fire::i, writedatasetfile::runs, CommonAnalyzer::setPath(), and jetUpdater_cfi::sort.

                                                                    {
  CommonAnalyzer camult(&ff, "", module);

  TH1D* clusmult = new TH1D("clusmult", "Average Multiplicity vs run", 10, 0., 10.);
  clusmult->SetCanExtend(TH1::kXaxis);

  std::vector<unsigned int> runs = camult.getRunList();
  std::sort(runs.begin(), runs.end());

  {
    for (unsigned int i = 0; i < runs.size(); ++i) {
      char runlabel[100];
      sprintf(runlabel, "%d", runs[i]);
      char runpath[100];
      sprintf(runpath, "run_%d", runs[i]);
      camult.setPath(runpath);

      TProfile* multvstime = nullptr;
      if (multvstime == nullptr)
        multvstime = (TProfile*)camult.getObject(histo);
      if (multvstime) {
        // compute mean exlucing the last filled bins

        if (excludeLastBins) {
          int lastbin = multvstime->GetNbinsX() + 1;
          int firstbin = 1;
          for (int ibin = multvstime->GetNbinsX() + 1; ibin > 0; --ibin) {
            if (multvstime->GetBinEntries(ibin) != 0) {
              lastbin = ibin;
              break;
            }
          }

          std::cout << "Restricted range: " << firstbin << " " << lastbin << std::endl;
          multvstime->GetXaxis()->SetRangeUser(multvstime->GetBinLowEdge(firstbin),
                                               multvstime->GetBinLowEdge(lastbin - 2));
        }
        // fill the summary
        clusmult->Fill(runlabel, multvstime->GetMean(2));
      }
    }
  }
  return clusmult;
}

PlotPixelMultVtxPos()

void PlotPixelMultVtxPos	(	TFile *	ff,
		const char *	module
	)

Definition at line 15 of file MultiplicityPlotMacros.cc.

References gpuPixelDoublets::cc, alignCSCRings::ff, CommonAnalyzer::getObject(), mps_fire::i, SummaryClient_cfi::labels, castor_dqm_sourceclient_file_cfg::path, CommonAnalyzer::setPath(), and AlCaHLTBitMon_QueryRunRegistry::string.

                                                        {
  CommonAnalyzer camult(ff, "", module);
  //  camult.setPath("VtxPosCorr");

  std::vector<std::string> labels;
  labels.push_back("FPIX_m");
  labels.push_back("BPIX_L1_mod_1");
  labels.push_back("BPIX_L1_mod_2");
  labels.push_back("BPIX_L1_mod_3");
  labels.push_back("BPIX_L1_mod_4");
  labels.push_back("BPIX_L1_mod_5");
  labels.push_back("BPIX_L1_mod_6");
  labels.push_back("BPIX_L1_mod_7");
  labels.push_back("BPIX_L1_mod_8");
  labels.push_back("FPIX_p");
  labels.push_back("BPIX_L1");
  labels.push_back("BPIX_L2");
  labels.push_back("BPIX_L3");
  labels.push_back("Lumi");

  std::vector<TProfile*> profs;

  for (unsigned int i = 0; i < labels.size(); ++i) {
    std::string path = "VtxPosCorr/" + labels[i];
    camult.setPath(path.c_str());

    std::string hname = "n" + labels[i] + "digivsvtxposprof";
    profs.push_back((TProfile*)camult.getObject(hname.c_str()));
  }

  TCanvas* cc = new TCanvas("BPIX L1 details", "BPIX L1 details", 1000, 1000);
  gPad->Divide(2, 2);

  for (unsigned int i = 1; i < 5; ++i) {
    cc->cd(i);
    if (profs[i] && profs[9 - i]) {
      profs[i]->Draw();
      profs[9 - i]->SetLineColor(kRed);
      profs[9 - i]->SetMarkerColor(kRed);
      profs[9 - i]->Draw("same");
      TLegend* leg = new TLegend(0.4, 0.8, 0.6, 0.9, "Occupancy");
      leg->SetFillStyle(0);
      leg->AddEntry(profs[i], labels[i].c_str(), "l");
      leg->AddEntry(profs[9 - i], labels[9 - i].c_str(), "l");
      leg->Draw();
    }
  }
  new TCanvas("FPIX", "FPIX");
  if (profs[0] && profs[9]) {
    profs[0]->Draw();
    profs[9]->SetLineColor(kRed);
    profs[9]->SetMarkerColor(kRed);
    profs[9]->Draw("same");
    TLegend* leg = new TLegend(0.4, 0.8, 0.6, 0.9, "Occupancy");
    leg->SetFillStyle(0);
    leg->AddEntry(profs[0], labels[0].c_str(), "l");
    leg->AddEntry(profs[9], labels[9].c_str(), "l");
    leg->Draw();
  }

  gStyle->SetOptStat(11);
  gStyle->SetOptFit(11);
  new TCanvas("BPIXL1", "BPIX L1");
  profs[10]->Fit("pol2");
  new TCanvas("BPIXL2", "BPIX L2");
  profs[11]->Fit("pol2");
  new TCanvas("BPIXL3", "BPIX L3");
  profs[12]->Fit("pol2");

  new TCanvas("LumiAdd", "LumiAdd");
  TH1D* hlumi = profs[11]->ProjectionX("lumi");
  TH1D* hbpixl3 = profs[12]->ProjectionX("bpixl3");
  TH1D* hfpixm = profs[0]->ProjectionX("fpixm");
  TH1D* hfpixp = profs[9]->ProjectionX("fpixp");
  hlumi->SetTitle("BPIX L2+L3 + FPIX multiplicity vs vtx z position");
  hlumi->Add(hbpixl3);
  hlumi->Add(hfpixm);
  hlumi->Add(hfpixp);
  hlumi->Fit("pol2");
  new TCanvas("Lumi", "Lumi");
  profs[13]->Fit("pol2");
}