Ejemplo n.º 1
0
//--------------------------------------------------------------------------------------------------
// Draw the FakeRate histograms and fit functions
//--------------------------------------------------------------------------------------------------
void drawFakeRatePlots( vector<TH1F*> fakeRateHistograms, vector<TF1*> fakeRateFits,
                        vector<string> fakeRateLegendNames , string plotname ,Double_t MAXY = 0.2) {

  assert(fakeRateHistograms.size() == fakeRateFits.size());
  assert(fakeRateHistograms.size() == fakeRateLegendNames.size());
  TCanvas *cv = MakeCanvas("cv", plotname.c_str(), 800, 600);
  
  TLegend *leg1=0;
  leg1 = new TLegend(0.65,0.6,0.9,0.8);   
  leg1->SetBorderSize(1);
  leg1->SetTextSize(0.03);
  
  for (UInt_t i=0; i<fakeRateHistograms.size() ; i++) {    
    //fakeRateHistograms[i]->SetMarkerSize(0.5);
    fakeRateHistograms[i]->SetMarkerColor(COLORS[i]);
    fakeRateHistograms[i]->SetMinimum(0.0);
    fakeRateHistograms[i]->SetMaximum(MAXY);
    fakeRateHistograms[i]->SetLineColor(COLORS[i]);
    fakeRateFits[i]->SetLineColor(COLORS[i]);    
    leg1->AddEntry(fakeRateFits[i], fakeRateLegendNames[i].c_str(), "LP"); 
  
    if (i==0) { 
      fakeRateHistograms[i]->Draw();
    } else {
      fakeRateHistograms[i]->Draw("same");
    }
    fakeRateFits[i]->Draw("same");    
  }

  leg1->Draw();

  string filename = plotname + ".gif";
  cv->SaveAs(filename.c_str());
  cv->Delete();
}
Ejemplo n.º 2
0
void Make1DPlot(TH1F *hist1D, const TString str1D, bool logY, const int xlow, const int xhigh){
  TCanvas *BBB = new TCanvas("BBB", "MET Response",600,450);
  BBB->cd();
  hist1D->GetXaxis()->SetRangeUser(xlow, xhigh); 
  gStyle->SetStatX(0.9);
  gStyle->SetStatY(0.88); 
  gStyle->SetOptStat(111111);
  if(logY)BBB->SetLogy();  
  hist1D->Draw();
  TString name1, name2;
  name1 = str1D+".eps";
  name2 = str1D+".pdf";
  BBB->SaveAs(name1);
  BBB->SaveAs(name2);
  BBB->Delete();
}
Ejemplo n.º 3
0
void getHltAcceptance(TString const& filename, particleProperties* prop, 
                      Int_t const& bins = 20)
{
  uselhcbStyle(0.08,1.5);
  
  Double_t t_min(prop->t_min);
  Double_t t_max(prop->t_max);
  Double_t nStart(1000.);
  Int_t bins_M(40);
  
  TString particle = prop->GetName();
  Double_t mass = prop->GetMass();
  Double_t tau_PDG = prop->GetTau();
  
  TObjArray* tokens = filename.Tokenize("/");
  TString prefix(((TObjString*)tokens->At(tokens->GetEntriesFast()-1))->GetString());
  prefix.ReplaceAll(".txt","");
  prefix.ReplaceAll("_Stripping","");
  prefix.ReplaceAll("Tuple","_StrippingPropertimeAcceptance");
  
  TString outputname("ROOT/");
  outputname += prefix;
  outputname += "_";
  outputname += bins;
  outputname += "bins.root";
  TFile* outputfile = new TFile(outputname,"RECREATE");
  
  RooRealVar TAU("B_TAU",prop->plotName+" Decay Time #tau",t_min,t_max,"ps") ;
  TAU.setRange("total",t_min,t_max);
  RooRealVar M("B_s0_M","Mass",prop->mass_low_acc,prop->mass_high_acc,"MeV/c^{2}") ;
  RooRealVar Weight("Weight","Weight",-1000.,1000.,"") ;
  RooRealVar Weight2("Weight2","Weight2",-1000.,1000.,"") ;

  RooCategory CatA("CatA","Category A");
  CatA.defineType("CatA0", 0);
  CatA.defineType("CatA1", 1);
  CatA.defineType("CatA2", 2);
  
  RooCategory CatB("CatB","Category B");
  CatB.defineType("CatB0", 0);
  CatB.defineType("CatB1", 1);
  CatB.defineType("CatB2", 2);
  CatB.defineType("CatB3", 3);

  RooArgList list("list");
  list.add(M);
  list.add(TAU);
  list.add(CatA);
  list.add(CatB);
  list.add(Weight);
  
  //RooBinning* binning = new RooBinning(bins,t_min,t_max);
  
  RooBinning* binning = new RooBinning(t_min,t_max);
  Double_t A(TMath::Exp(-t_max/tau_PDG));
  Double_t B(TMath::Exp(-t_min/tau_PDG));
  for(Int_t i(1); i< bins; i++){
    binning->addBoundary(-TMath::Log(((Double_t)i*(A-B)/(Double_t)bins+B))*tau_PDG);
  }
  
  TAU.setBinning(*binning);
  
  RooDataSet* data_ = RooDataSet::read(filename, list);
  RooDataSet* data = new RooDataSet("data", "data", data_, list, 0, "Weight");
  
  Double_t width_boundary;

  if(particle == "Bs" || particle == "Lambdab0")
    width_boundary = 8.;
  else if(particle == "Bd")
    width_boundary = 9.;
  else
    width_boundary = 11.;
  
  /*
  Double_t width_boundary_high;
  
  if(particle == "Bs" || particle == "BdJPsiKs" || particle == "Lambdab0")
    width_boundary_high = 15.;
  else if(particle == "Bd")
    width_boundary_high = 18.;
  else
    width_boundary_high = 22.;
  */

  RooRealVar c0("c_{0}", "coefficient #0", -0.15,-1.0,1.0);
  RooRealVar Bmass = RooRealVar("#m_{B}", "Mean B mass", mass, mass-5.,mass+5., "MeV/c^{2}");
  RooRealVar Bwidth1 = RooRealVar("Bwidth1", "B mass resolution", 7., 4., width_boundary-0.1, "MeV/c^{2}");
  //RooRealVar Bwidth2 = RooRealVar("Bwidth2", "B mass resolution", 15., width_boundary+0.1, width_boundary_high, "MeV/c^{2}");
  RooRealVar frac = RooRealVar("frac", "frac", prop->frac_M_sig, 0.3, 1.);
  RooRealVar rfrac = RooRealVar("rfrac", "rfrac", prop->rfrac_M_sig, 1.2, 4.);
  RooFormulaVar Bwidth2 = RooFormulaVar("#sigma_{B^{0}_{s,2}}", "B mass resolution", "Bwidth1*rfrac",RooArgList(Bwidth1,rfrac));
  
  RooChebychev *   pdf_J_Bmass = new RooChebychev("Bmass_J_bkg", "background PDF", M, RooArgList(c0));
  RooGaussian *    pdf_S_Bmass1 = new RooGaussian("Bmass_pdf_sig1", "B signal mass pdf", M, Bmass, Bwidth1);
  RooGaussian *    pdf_S_Bmass2 = new RooGaussian("Bmass_pdf_sig2", "B signal mass pdf", M, Bmass, Bwidth2);
  RooAddPdf *      pdf_S_Bmass  = new RooAddPdf("Bmass_pdf_sig", "B signal mass pdf", RooArgSet(*pdf_S_Bmass1, *pdf_S_Bmass2), frac);
  
  RooRealVar ratio_Hlt1DiMuon_Hlt2DiMuonDetached_S = RooRealVar("ratio_Hlt1DiMuon_Hlt2DiMuonDetached_S","ratio_Hlt1DiMuon_Hlt2DiMuonDetached_S",0.9, 0., 1.5);
  RooRealVar ratio_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S = RooRealVar("ratio_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S","ratio_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S",0.3, -0.5, 1.5);
  
  RooRealVar n_A_1_S = RooRealVar("n_A_1_S","n_A_1_S",nStart, 0.0000001, 5000000.);
  RooRealVar n_A_2_S = RooRealVar("n_A_2_S","n_A_2_S",nStart, 0.0000001, 5000000.);
  RooRealVar n_B_1_S = RooRealVar("n_B_1_S","n_B_1_S",nStart, 0.0000001, 5000000.);
  RooRealVar n_B_2_S = RooRealVar("n_B_2_S","n_B_2_S",nStart, 0.0000001, 5000000.);  
  
  RooFormulaVar n_A_2_Hlt1DiMuon_Hlt2DiMuonDetached_S = RooFormulaVar("n_A_2_Hlt1DiMuon_Hlt2DiMuonDetached_S","n_A_2_Hlt1DiMuon_Hlt2DiMuonDetached_S","n_A_1_S/ratio_Hlt1DiMuon_Hlt2DiMuonDetached_S-n_A_1_S",RooArgList(ratio_Hlt1DiMuon_Hlt2DiMuonDetached_S,n_A_1_S));
  
  RooFormulaVar n_B_2_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S = RooFormulaVar("n_B_2_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S","n_B_1_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S","n_B_1_S/ratio_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S-n_B_1_S",RooArgList(ratio_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S,n_B_1_S));
  
  RooRealVar ratio_Hlt1DiMuon_Hlt2DiMuonDetached_B = RooRealVar("ratio_Hlt1DiMuon_Hlt2DiMuonDetached_B","ratio_Hlt1DiMuon_Hlt2DiMuonDetached_B",0.9, -0.5, 1.5);
  RooRealVar ratio_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_B = RooRealVar("ratio_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_B","ratio_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_B",0.9, -0.5, 1.5);
  RooRealVar n_A_1_B = RooRealVar("n_A_1_B","n_A_1_B",nStart, 0.0000001, 5000000.);
  RooRealVar n_A_2_B = RooRealVar("n_A_2_B","n_A_2_B",nStart, 0.0000001, 5000000.);
  RooRealVar n_B_1_B = RooRealVar("n_B_1_B","n_B_1_B",nStart, 0.0000001, 5000000.);
  RooRealVar n_B_2_B = RooRealVar("n_B_2_B","n_B_2_B",nStart, 0.0000001, 5000000.);  
  
  RooFormulaVar n_A_2_Hlt1DiMuon_Hlt2DiMuonDetached_B = RooFormulaVar("n_A_2_Hlt1DiMuon_Hlt2DiMuonDetached_B","n_A_2_Hlt1DiMuon_Hlt2DiMuonDetached_B","n_A_1_B/ratio_Hlt1DiMuon_Hlt2DiMuonDetached_B-n_A_1_B",RooArgList(ratio_Hlt1DiMuon_Hlt2DiMuonDetached_B,n_A_1_B));
  
  RooFormulaVar n_B_2_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_B = RooFormulaVar("n_B_2_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_B","n_B_1_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_B","n_B_1_B/ratio_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_B-n_B_1_B",RooArgList(ratio_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_B,n_B_1_B));
  
  RooAddPdf * model_A_1 = new RooAddPdf("model_A_1","model_A_1", RooArgList(*pdf_S_Bmass, *pdf_J_Bmass), RooArgList(n_A_1_S, n_A_1_B));
  RooAddPdf * model_A_2 = new RooAddPdf("model_A_2","model_A_2", RooArgList(*pdf_S_Bmass, *pdf_J_Bmass), RooArgList(n_A_2_S, n_A_2_B));
  RooAddPdf * model_B_1 = new RooAddPdf("model_B_1","model_B_1", RooArgList(*pdf_S_Bmass, *pdf_J_Bmass), RooArgList(n_B_1_S, n_B_1_B));
  RooAddPdf * model_B_2 = new RooAddPdf("model_B_2","model_B_2", RooArgList(*pdf_S_Bmass, *pdf_J_Bmass), RooArgList(n_B_2_S, n_B_2_B));
  
  RooAddPdf * model_A_2_Hlt1DiMuon_Hlt2DiMuonDetached = new RooAddPdf("model_A_2_Hlt1DiMuon_Hlt2DiMuonDetached","model_A_2_Hlt1DiMuon_Hlt2DiMuonDetached", RooArgList(*pdf_S_Bmass, *pdf_J_Bmass), RooArgList(n_A_2_Hlt1DiMuon_Hlt2DiMuonDetached_S, n_A_2_Hlt1DiMuon_Hlt2DiMuonDetached_B));
  RooAddPdf * model_B_2_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached = new RooAddPdf("model_B_2_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached","model_B_1_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached", RooArgList(*pdf_S_Bmass, *pdf_J_Bmass), RooArgList(n_B_2_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S, n_B_2_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_B));
  
  RooDataHist * histo_Hlt1DiMuon_Hlt2DiMuonDetached_1_S_ = new RooDataHist("histo_Hlt1DiMuon_Hlt2DiMuonDetached_1_S_","histo_Hlt1DiMuon_Hlt2DiMuonDetached_1_S_",TAU);
  RooDataHist * histo_Hlt1DiMuon_Hlt2DiMuonDetached_2_S_ = new RooDataHist("histo_Hlt1DiMuon_Hlt2DiMuonDetached_2_S_","histo_Hlt1DiMuon_Hlt2DiMuonDetached_2_S_",TAU);  
  RooDataHist * histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_1_S_ = new RooDataHist("histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_1_S_","histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_1_S_",TAU);
  RooDataHist * histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_2_S_ = new RooDataHist("histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_2_S_","histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_2_S_",TAU);  
  RooDataHist * histo_Hlt1DiMuon_Hlt2DiMuonDetached_S_ = new RooDataHist("histo_Hlt1DiMuon_Hlt2DiMuonDetached_S_","histo_Hlt1DiMuon_Hlt2DiMuonDetached_S_",TAU);
  RooDataHist * histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S_ = new RooDataHist("histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S_","histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S_",TAU);
  RooDataHist * histo_Hlt1DiMuon_Hlt2DiMuonDetached_B_ = new RooDataHist("histo_Hlt1DiMuon_Hlt2DiMuonDetached_B_","histo_Hlt1DiMuon_Hlt2DiMuonDetached_B_",TAU);
  RooDataHist * histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_B_ = new RooDataHist("histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_B_","histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_B_",TAU);
  
  RooHist * graph_Hlt1DiMuon_Hlt2DiMuonDetached_1_S = new RooHist();
  RooHist * graph_Hlt1DiMuon_Hlt2DiMuonDetached_2_S = new RooHist();
  RooHist * graph_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_1_S = new RooHist();
  RooHist * graph_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_2_S = new RooHist();
  
  RooHist * graph_Hlt1DiMuon_Hlt2DiMuonDetached_S = new RooHist();
  RooHist * graph_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S = new RooHist();
  RooHist * graph_Hlt1DiMuon_Hlt2DiMuonDetached_B = new RooHist();
  RooHist * graph_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_B = new RooHist();
  
  TH1F* histo_Hlt1DiMuon_Hlt2DiMuonDetached_1_S = TAU.createHistogram("histo_Hlt1DiMuon_Hlt2DiMuonDetached_1_S", "Hlt Acceptance", *binning);
  TH1F* histo_Hlt1DiMuon_Hlt2DiMuonDetached_2_S = TAU.createHistogram("histo_Hlt1DiMuon_Hlt2DiMuonDetached_2_S", "Hlt Acceptance", *binning);
  TH1F* histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_1_S = TAU.createHistogram("histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_1_S", "Hlt Acceptance", *binning);
  TH1F* histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_2_S = TAU.createHistogram("histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_2_S", "Hlt Acceptance", *binning);

  TH1F* histo_Hlt1DiMuon_Hlt2DiMuonDetached_S = TAU.createHistogram("histo_Hlt1DiMuon_Hlt2DiMuonDetached_S", "Hlt Acceptance", *binning);
  TH1F* histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S = TAU.createHistogram("histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S", "Hlt Acceptance", *binning);
  TH1F* histo_Hlt1DiMuon_Hlt2DiMuonDetached_B = TAU.createHistogram("histo_Hlt1DiMuon_Hlt2DiMuonDetached_B", "Hlt Acceptance", *binning);
  TH1F* histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_B = TAU.createHistogram("histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_B", "Hlt Acceptance", *binning);
  
  TH1F* histo_Hlt1DiMuon_Hlt2DiMuonDetached_check_S = TAU.createHistogram("histo_Hlt1DiMuon_Hlt2DiMuonDetached_check_S", "Hlt Acceptance", *binning);
  TH1F* histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_check_S = TAU.createHistogram("histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_check_S", "Hlt Acceptance", *binning);

  TString tmp;
  
  tmp = prefix;
  tmp += "_";
  tmp += bins;
  tmp += "bins";
  tmp += "_Hlt1DiMuon_Hlt2DiMuonDetached";
  histo_Hlt1DiMuon_Hlt2DiMuonDetached_S->SetName(tmp);
  histo_Hlt1DiMuon_Hlt2DiMuonDetached_1_S->SetName(tmp+"_SetA");
  histo_Hlt1DiMuon_Hlt2DiMuonDetached_2_S->SetName(tmp+"_SetB");
  histo_Hlt1DiMuon_Hlt2DiMuonDetached_check_S->SetName(tmp+"_check");
  tmp += "_AsymErrors";
  graph_Hlt1DiMuon_Hlt2DiMuonDetached_S->SetName(tmp);
  graph_Hlt1DiMuon_Hlt2DiMuonDetached_1_S->SetName(tmp+"_SetA");
  graph_Hlt1DiMuon_Hlt2DiMuonDetached_2_S->SetName(tmp+"_SetB");
  tmp = particle;
  tmp += " Hlt1DiMuon_Hlt2DiMuonDetached Acceptance";
  histo_Hlt1DiMuon_Hlt2DiMuonDetached_S->SetTitle(tmp);
  graph_Hlt1DiMuon_Hlt2DiMuonDetached_S->SetTitle(tmp);

  tmp = prefix;
  tmp += "_";
  tmp += bins;
  tmp += "bins";
  tmp += "_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached";
  histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S->SetName(tmp);
  histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_1_S->SetName(tmp+"_SetC");
  histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_2_S->SetName(tmp+"_SetD");
  histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_check_S->SetName(tmp+"_check");
  tmp += "_AsymErrors";
  graph_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S->SetName(tmp);
  graph_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_1_S->SetName(tmp+"_SetC");
  graph_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_2_S->SetName(tmp+"_SetD");
  tmp = particle;
  tmp += " Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached Acceptance";
  histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S->SetTitle(tmp);
  graph_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S->SetTitle(tmp);

  tmp = prefix;
  tmp += "_";
  tmp += bins;
  tmp += "bins";
  tmp += "_Hlt1DiMuon_Hlt2DiMuonDetached_Background";
  histo_Hlt1DiMuon_Hlt2DiMuonDetached_B->SetName(tmp);
  tmp += "_AsymErrors";
  graph_Hlt1DiMuon_Hlt2DiMuonDetached_B->SetName(tmp);
  tmp = particle;
  tmp += " Hlt1DiMuon_Hlt2DiMuonDetached UB Acceptance";
  histo_Hlt1DiMuon_Hlt2DiMuonDetached_B->SetTitle(tmp);
  graph_Hlt1DiMuon_Hlt2DiMuonDetached_B->SetTitle(tmp);
  
  tmp = prefix;
  tmp += "_";
  tmp += bins;
  tmp += "bins";
  tmp += "_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_Background";
  histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_B->SetName(tmp);
  tmp += "_AsymErrors";
  graph_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_B->SetName(tmp);
  tmp = particle;
  tmp += " Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached Acceptance";
  histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_B->SetTitle(tmp);
  graph_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_B->SetTitle(tmp);
  
  RooDataSet* data_sub;
  RooDataSet* data_sub2;
  RooDataSet* data_sub_A_1;
  RooDataSet* data_sub_A_2;
  RooDataSet* data_sub_B_1;
  RooDataSet* data_sub_B_2;
  
  data_sub2 = ((RooDataSet*)data->reduce("CatB>0."));
  
  n_A_1_S.setVal(TMath::Max(data_sub2->sumEntries()/2.,100.));
  n_A_1_B.setVal(TMath::Max(data_sub2->sumEntries()/2.,100.));
  
  model_A_1->fitTo(*data_sub2,RooFit::Minos(kFALSE),Optimize(kFALSE),RooFit::SumW2Error(kTRUE));
  
  rfrac.setConstant();
  frac.setConstant();
  Bmass.setConstant();
  c0.setConstant();
  Bwidth1.setConstant();
  data_sub2->Delete();
  
  for(Int_t i(0); i< bins; i++){
    tmp = "B_TAU < ";
    tmp += binning->binHigh(i);
    tmp += " && B_TAU > ";
    tmp += binning->binLow(i);
    data_sub = (RooDataSet*)data->reduce(tmp);
    data_sub2 = ((RooDataSet*)data_sub->reduce("CatB>0."));
    data_sub_A_1 = ((RooDataSet*)data_sub->reduce("CatA==CatA::CatA1"));
    data_sub_A_2 = ((RooDataSet*)data_sub->reduce("CatA==CatA::CatA2"));
    data_sub_B_1 = ((RooDataSet*)data_sub->reduce("CatB==CatB::CatB1"));
    data_sub_B_2 = ((RooDataSet*)data_sub->reduce("CatB==CatB::CatB2"));
    
    TAU.setRange("fit",binning->binLow(i),binning->binHigh(i));
    TAU.setBin(i);
    
    n_A_1_S.setVal(TMath::Max(data_sub_A_1->sumEntries()/2.,100.));
    n_A_1_B.setVal(TMath::Max(data_sub_A_1->sumEntries()/2.,100.));
    
    c0.setConstant(kFALSE);
    //Bwidth1.setConstant(kFALSE);
    
    //n_A_1_S.setMin(-1000.);
    model_A_1->fitTo(*data_sub2,RooFit::Minos(kFALSE),Optimize(kFALSE),RooFit::SumW2Error(kTRUE));
    n_A_1_S.setMin(0.0000001);
    
    //c0.setConstant();
    //Bwidth1.setConstant();
    
    //n_A_1_S.setMin(-1000.);
    //n_A_2_S.setMin(-1000.);
    //n_B_1_S.setMin(-1000.);
    //n_B_2_S.setMin(-1000.);
      
    n_A_1_S.setVal(TMath::Max(data_sub_A_1->sumEntries()*n_A_1_S.getVal()/(n_A_1_S.getVal()+n_A_1_B.getVal()),100.));
    n_A_2_S.setVal(TMath::Max(data_sub_A_2->sumEntries()*n_A_2_S.getVal()/(n_A_2_S.getVal()+n_A_2_B.getVal()),100.));
    n_B_1_S.setVal(TMath::Max(data_sub_B_1->sumEntries()*n_B_1_S.getVal()/(n_B_1_S.getVal()+n_B_1_B.getVal()),100.));
    n_B_2_S.setVal(TMath::Max(data_sub_B_2->sumEntries()*n_B_2_S.getVal()/(n_B_2_S.getVal()+n_B_2_B.getVal()),100.));
    
    n_A_1_B.setVal(TMath::Max(data_sub_A_1->sumEntries()*n_A_1_B.getVal()/(n_A_1_B.getVal()+n_A_1_S.getVal()),100.));
    n_A_2_B.setVal(TMath::Max(data_sub_A_2->sumEntries()*n_A_2_B.getVal()/(n_A_2_B.getVal()+n_A_2_S.getVal()),100.));
    n_B_1_B.setVal(TMath::Max(data_sub_B_1->sumEntries()*n_B_1_B.getVal()/(n_B_1_B.getVal()+n_B_1_S.getVal()),100.));
    n_B_2_B.setVal(TMath::Max(data_sub_B_2->sumEntries()*n_B_2_B.getVal()/(n_B_2_B.getVal()+n_B_2_S.getVal()),100.));
    
    RooSimultaneous* simmodel_Hlt1DiMuon_Hlt2DiMuonDetached = new RooSimultaneous("simmodel_Hlt1DiMuon_Hlt2DiMuonDetached","simultaneous pdf",CatA) ;
    RooSimultaneous* simmodel_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached = new RooSimultaneous("simmodel_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached","simultaneous pdf",CatB) ;
    
    RooSimultaneous* simmodel_Hlt1DiMuon_Hlt2DiMuonDetached_ = new RooSimultaneous("simmodel_Hlt1DiMuon_Hlt2DiMuonDetached_","simultaneous pdf",CatA) ;
    RooSimultaneous* simmodel_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_ = new RooSimultaneous("simmodel_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_","simultaneous pdf",CatB) ;
    
    model_A_1->fitTo(*data_sub_A_1,RooFit::Minos(kFALSE),RooFit::Strategy(1),Optimize(kFALSE),RooFit::SumW2Error(kTRUE));
    simmodel_Hlt1DiMuon_Hlt2DiMuonDetached->addPdf(*model_A_1,"CatA1") ;
    simmodel_Hlt1DiMuon_Hlt2DiMuonDetached_->addPdf(*model_A_1,"CatA1") ;
  
    model_A_2->fitTo(*data_sub_A_2,RooFit::Minos(kFALSE),RooFit::Strategy(1),Optimize(kFALSE),RooFit::SumW2Error(kTRUE));
    simmodel_Hlt1DiMuon_Hlt2DiMuonDetached->addPdf(*model_A_2_Hlt1DiMuon_Hlt2DiMuonDetached,"CatA2") ;
    simmodel_Hlt1DiMuon_Hlt2DiMuonDetached_->addPdf(*model_A_2,"CatA2") ;
    
    model_B_1->fitTo(*data_sub_B_1,RooFit::Minos(kFALSE),RooFit::Strategy(1),Optimize(kFALSE),RooFit::SumW2Error(kTRUE));
    simmodel_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached->addPdf(*model_B_1,"CatB1") ;
    simmodel_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_->addPdf(*model_B_1,"CatB1") ;
    
    model_B_2->fitTo(*data_sub_B_2,RooFit::Minos(kFALSE),RooFit::Strategy(1),Optimize(kFALSE),RooFit::SumW2Error(kTRUE));
    simmodel_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached->addPdf(*model_B_2_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached,"CatB2") ;
    simmodel_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_->addPdf(*model_B_2,"CatB2") ;
    
    ratio_Hlt1DiMuon_Hlt2DiMuonDetached_S.setVal(n_A_1_S.getVal()/(n_A_1_S.getVal()+n_A_2_S.getVal())-0.001);
    ratio_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S.setVal(n_B_1_S.getVal()/(n_B_1_S.getVal()+n_B_2_S.getVal())-0.001);
    
    ratio_Hlt1DiMuon_Hlt2DiMuonDetached_B.setVal(n_A_1_B.getVal()/(n_A_1_B.getVal()+n_A_2_B.getVal())-0.001);
    ratio_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_B.setVal(n_B_1_B.getVal()/(n_B_1_B.getVal()+n_B_2_B.getVal())-0.001);
    
    n_A_1_B.setConstant();
    n_A_2_B.setConstant();
    n_B_1_B.setConstant();
    n_B_2_B.setConstant();
    ratio_Hlt1DiMuon_Hlt2DiMuonDetached_B.setConstant();
    ratio_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_B.setConstant();
    
    simmodel_Hlt1DiMuon_Hlt2DiMuonDetached->fitTo(*data_sub,RooFit::Minos(kTRUE),RooFit::Strategy(1),Optimize(kFALSE),RooFit::SumW2Error(kTRUE));
    simmodel_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached->fitTo(*data_sub,RooFit::Minos(kTRUE),RooFit::Strategy(1),Optimize(kFALSE),RooFit::SumW2Error(kTRUE));
    simmodel_Hlt1DiMuon_Hlt2DiMuonDetached_->fitTo(*data_sub,RooFit::Minos(kTRUE),RooFit::Strategy(1),Optimize(kFALSE),RooFit::SumW2Error(kTRUE));
    simmodel_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_->fitTo(*data_sub,RooFit::Minos(kTRUE),RooFit::Strategy(1),Optimize(kFALSE),RooFit::SumW2Error(kTRUE));
    simmodel_Hlt1DiMuon_Hlt2DiMuonDetached->fitTo(*data_sub,RooFit::Minos(kTRUE),RooFit::Strategy(1),Optimize(kFALSE),RooFit::SumW2Error(kTRUE));
    simmodel_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached->fitTo(*data_sub,RooFit::Minos(kTRUE),RooFit::Strategy(1),Optimize(kFALSE),RooFit::SumW2Error(kTRUE));
    
    TCanvas* canvas = new TCanvas("canvas","canvas", 1400, 800);
    gPad->SetLeftMargin(0.15);
    outputname = particle;
    outputname += " Mass";
    canvas->Divide(2,1);
    canvas->cd(1);
    RooPlot* frame2 = M.frame(Bins(bins_M),Title(outputname));
    data_sub_A_1->plotOn(frame2);
    model_A_1->plotOn(frame2);
    frame2->Draw();
    canvas->cd(2);
    RooPlot* frame3 = M.frame(Bins(bins_M),Title(outputname));
    data_sub_A_2->plotOn(frame3);
    model_A_2_Hlt1DiMuon_Hlt2DiMuonDetached->plotOn(frame3);
    frame3->Draw();
    TString tmp("test_");
    tmp += i;
    tmp += ".eps";
    canvas->SaveAs(tmp);
    canvas->Delete();
        
    n_A_1_B.setConstant(kFALSE);
    n_A_2_B.setConstant(kFALSE);
    n_B_1_B.setConstant(kFALSE);
    n_B_2_B.setConstant(kFALSE);
    ratio_Hlt1DiMuon_Hlt2DiMuonDetached_B.setConstant(kFALSE);
    ratio_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_B.setConstant(kFALSE);
    
    n_A_1_S.setConstant(kFALSE);
    n_A_2_S.setConstant(kFALSE);
    n_B_1_S.setConstant(kFALSE);
    n_B_2_S.setConstant(kFALSE);
    ratio_Hlt1DiMuon_Hlt2DiMuonDetached_S.setConstant(kFALSE);
    ratio_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S.setConstant(kFALSE);
          
    histo_Hlt1DiMuon_Hlt2DiMuonDetached_1_S_->set(RooArgSet(TAU),n_A_1_S.getVal()/binning->binWidth(i),n_A_1_S.getError()/binning->binWidth(i));
    histo_Hlt1DiMuon_Hlt2DiMuonDetached_2_S_->set(RooArgSet(TAU),n_A_2_Hlt1DiMuon_Hlt2DiMuonDetached_S.getVal()/binning->binWidth(i),n_A_2_S.getError()/binning->binWidth(i));
    histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_1_S_->set(RooArgSet(TAU),n_B_1_S.getVal()/binning->binWidth(i),n_B_1_S.getError()/binning->binWidth(i));
    histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_2_S_->set(RooArgSet(TAU),n_B_2_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S.getVal()/binning->binWidth(i),n_B_2_S.getError()/binning->binWidth(i));
    
    histo_Hlt1DiMuon_Hlt2DiMuonDetached_1_S->SetBinContent(i+1,n_A_1_S.getVal()/binning->binWidth(i));
    histo_Hlt1DiMuon_Hlt2DiMuonDetached_1_S->SetBinError(i+1,n_A_1_S.getError()/binning->binWidth(i));
    histo_Hlt1DiMuon_Hlt2DiMuonDetached_2_S->SetBinContent(i+1,n_A_2_Hlt1DiMuon_Hlt2DiMuonDetached_S.getVal()/binning->binWidth(i));
    histo_Hlt1DiMuon_Hlt2DiMuonDetached_2_S->SetBinError(i+1,n_A_2_S.getError()/binning->binWidth(i));
    histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_1_S->SetBinContent(i+1,n_B_1_S.getVal()/binning->binWidth(i));
    histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_1_S->SetBinError(i+1,n_B_1_S.getError()/binning->binWidth(i));
    histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_2_S->SetBinContent(i+1,n_B_2_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S.getVal()/binning->binWidth(i));
    histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_2_S->SetBinError(i+1,n_B_2_S.getError()/binning->binWidth(i));
    
    histo_Hlt1DiMuon_Hlt2DiMuonDetached_check_S->SetBinContent(i+1,n_A_1_S.getVal()/(n_A_1_S.getVal()+n_A_2_S.getVal()));
    histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_check_S->SetBinContent(i+1,n_B_1_S.getVal()/n_B_2_S.getVal());
    
    histo_Hlt1DiMuon_Hlt2DiMuonDetached_S_->set(RooArgSet(TAU),ratio_Hlt1DiMuon_Hlt2DiMuonDetached_S.getVal(),ratio_Hlt1DiMuon_Hlt2DiMuonDetached_S.getError());
    histo_Hlt1DiMuon_Hlt2DiMuonDetached_S->SetBinContent(i+1,ratio_Hlt1DiMuon_Hlt2DiMuonDetached_S.getVal());
    histo_Hlt1DiMuon_Hlt2DiMuonDetached_S->SetBinError(i+1,ratio_Hlt1DiMuon_Hlt2DiMuonDetached_S.getError());
    histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S_->set(RooArgSet(TAU),ratio_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S.getVal(),ratio_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S.getError());
    histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S->SetBinContent(i+1,ratio_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S.getVal());
    histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S->SetBinError(i+1,ratio_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S.getError());
    
    histo_Hlt1DiMuon_Hlt2DiMuonDetached_B_->set(RooArgSet(TAU),ratio_Hlt1DiMuon_Hlt2DiMuonDetached_B.getVal(),ratio_Hlt1DiMuon_Hlt2DiMuonDetached_B.getError());
    histo_Hlt1DiMuon_Hlt2DiMuonDetached_B->SetBinContent(i+1,ratio_Hlt1DiMuon_Hlt2DiMuonDetached_B.getVal());
    histo_Hlt1DiMuon_Hlt2DiMuonDetached_B->SetBinError(i+1,ratio_Hlt1DiMuon_Hlt2DiMuonDetached_B.getError());
    histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_B_->set(RooArgSet(TAU),ratio_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_B.getVal(),ratio_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_B.getError());
    histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_B->SetBinContent(i+1,ratio_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_B.getVal());
    histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_B->SetBinError(i+1,ratio_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_B.getError());
    
    graph_Hlt1DiMuon_Hlt2DiMuonDetached_1_S->addBinWithError(TAU.getVal(),n_A_1_S.getVal(),TMath::Abs(n_A_1_S.getErrorLo()),
                                                             n_A_1_S.getErrorHi(),TAU.getBinWidth(i));
    
    graph_Hlt1DiMuon_Hlt2DiMuonDetached_2_S->addBinWithError(TAU.getVal(),n_A_2_Hlt1DiMuon_Hlt2DiMuonDetached_S.getVal(),TMath::Abs(n_A_2_S.getErrorLo()),
                                                             n_A_2_S.getErrorHi(),TAU.getBinWidth(i));
    
    graph_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_1_S->addBinWithError(TAU.getVal(),n_B_1_S.getVal(),
                                                                            TMath::Abs(n_B_1_S.getErrorLo()),
                                                                            n_B_1_S.getErrorHi(),TAU.getBinWidth(i));
    
    graph_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_2_S->addBinWithError(TAU.getVal(),n_B_2_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S.getVal(),
                                                                            TMath::Abs(n_B_2_S.getErrorLo()),
                                                                            n_B_2_S.getErrorHi(),TAU.getBinWidth(i));
    
    graph_Hlt1DiMuon_Hlt2DiMuonDetached_S->addBinWithError(TAU.getVal(),ratio_Hlt1DiMuon_Hlt2DiMuonDetached_S.getVal(),TMath::Abs(ratio_Hlt1DiMuon_Hlt2DiMuonDetached_S.getErrorLo()),
                                                           ratio_Hlt1DiMuon_Hlt2DiMuonDetached_S.getErrorHi(),TAU.getBinWidth(i),1.,kFALSE);
    
    graph_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S->addBinWithError(TAU.getVal(),ratio_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S.getVal(),
                                                                          TMath::Abs(ratio_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S.getErrorLo()),
                                                                          ratio_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S.getErrorHi(),TAU.getBinWidth(i),1.,kFALSE);
    
    graph_Hlt1DiMuon_Hlt2DiMuonDetached_B->addBinWithError(TAU.getVal(),ratio_Hlt1DiMuon_Hlt2DiMuonDetached_B.getVal(),TMath::Abs(ratio_Hlt1DiMuon_Hlt2DiMuonDetached_B.getErrorLo()),
                                                           ratio_Hlt1DiMuon_Hlt2DiMuonDetached_B.getErrorHi(),TAU.getBinWidth(i),1.,kFALSE);
    
    graph_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_B->addBinWithError(TAU.getVal(),ratio_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_B.getVal(),
                                                                          TMath::Abs(ratio_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_B.getErrorLo()),
                                                                          ratio_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_B.getErrorHi(),TAU.getBinWidth(i),1.,kFALSE);
    
    simmodel_Hlt1DiMuon_Hlt2DiMuonDetached->Delete();
    simmodel_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached->Delete();
    simmodel_Hlt1DiMuon_Hlt2DiMuonDetached_->Delete();
    simmodel_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_->Delete();
    
    data_sub->Delete();
    data_sub2->Delete();
    data_sub_A_1->Delete();
    data_sub_A_2->Delete();
    data_sub_B_1->Delete();
    data_sub_B_2->Delete();
  }

  histo_Hlt1DiMuon_Hlt2DiMuonDetached_S->Write();
  histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S->Write();
  
  graph_Hlt1DiMuon_Hlt2DiMuonDetached_S->Write();
  graph_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S->Write();
  
  histo_Hlt1DiMuon_Hlt2DiMuonDetached_1_S->Write();
  histo_Hlt1DiMuon_Hlt2DiMuonDetached_2_S->Write();
  histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_1_S->Write();
  histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_2_S->Write();

  graph_Hlt1DiMuon_Hlt2DiMuonDetached_1_S->Write();
  graph_Hlt1DiMuon_Hlt2DiMuonDetached_2_S->Write();
  graph_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_1_S->Write();
  graph_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_2_S->Write();
  /*
  histo_Hlt1DiMuon_Hlt2DiMuonDetached_check_S->Write();
  histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_check_S->Write();
  */  
  TCanvas* cdata = new TCanvas("cdata","cdata", 1600, 1000);
  cdata->Divide(2,2);
  
  cdata->cd(1);
  gPad->SetLeftMargin(0.15);
  outputname = "";
  outputname += particle;
  outputname += " Decay Time used for Almost Unbiased Acceptance";
  RooPlot* frame1 = TAU.frame(Bins(bins),Title(outputname));
  histo_Hlt1DiMuon_Hlt2DiMuonDetached_1_S_->plotOn(frame1,Name("histo_Hlt1DiMuon_Hlt2DiMuonDetached_1_S_"), LineColor(kBlue), MarkerColor(kBlue));
  histo_Hlt1DiMuon_Hlt2DiMuonDetached_2_S_->plotOn(frame1,Name("histo_Hlt1DiMuon_Hlt2DiMuonDetached_2_S_"), LineColor(kRed), MarkerColor(kRed));
  frame1->GetYaxis()->SetTitle("Events / Bin Width (ps^{-1})");
  frame1->Draw();
  gPad->SetLogx();
  
  TLegend* legend_1 = new TLegend(0.65,0.6,0.9,0.85);
  legend_1->SetFillColor(kWhite);
  legend_1->AddEntry((RooHist*)frame1->findObject("histo_Hlt1DiMuon_Hlt2DiMuonDetached_1_S_"),"Set A","lep");
  legend_1->AddEntry((RooHist*)frame1->findObject("histo_Hlt1DiMuon_Hlt2DiMuonDetached_2_S_"),"Set B","lep");
  legend_1->SetTextFont(132);
  legend_1->Draw();
  
  cdata->cd(2);
  gPad->SetLeftMargin(0.15);
  outputname = "Almost Unbiased Acceptance VS ";
  outputname += particle;
  outputname += " Decay Time";
  RooPlot* frame2 = TAU.frame(Bins(bins),Title(outputname));
  histo_Hlt1DiMuon_Hlt2DiMuonDetached_S_->plotOn(frame2,Name("histo_Hlt1DiMuon_Hlt2DiMuonDetached_S_"), LineColor(kBlack), MarkerColor(kBlack));
  frame2->SetMinimum(0.);
  //frame2->SetMinimum(0.85);
  frame2->SetMaximum(1.1);
  frame2->GetYaxis()->SetTitle("Acceptance");
  frame2->Draw();
  gPad->SetLogx();

  TLegend* legend_2 = new TLegend(0.3,0.25,0.9,0.45);
  legend_2->SetFillColor(kWhite);
  legend_2->AddEntry((RooHist*)frame2->findObject("histo_Hlt1DiMuon_Hlt2DiMuonDetached_S_"),"Almost Unbiased Acceptance","lep");
  legend_2->SetTextFont(132);
  legend_2->Draw();
  
  cdata->cd(3);
  gPad->SetLeftMargin(0.15);
  outputname = "";
  outputname += particle;
  outputname += " Decay Time used for Exclusively Biased Acceptance";
  RooPlot* frame3 = TAU.frame(Bins(bins),Title(outputname));
  histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_1_S_->plotOn(frame3,Name("histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_1_S_"), LineColor(kBlue), MarkerColor(kBlue));
  histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_2_S_->plotOn(frame3,Name("histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_2_S_"), LineColor(kRed), MarkerColor(kRed));
  frame3->GetYaxis()->SetTitle("Events / Bin Width (ps^{-1})");
  frame3->Draw();
  gPad->SetLogx();
  
  TLegend* legend_3 = new TLegend(0.65,0.6,0.9,0.85);
  legend_3->SetFillColor(kWhite);
  legend_3->AddEntry((RooHist*)frame3->findObject("histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_1_S_"),"Set A","lep");
  legend_3->AddEntry((RooHist*)frame3->findObject("histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_2_S_"),"Set B","lep");
  legend_3->SetTextFont(132);
  legend_3->Draw();
  
  cdata->cd(4);
  gPad->SetLeftMargin(0.15);
  outputname = "Exclusively Biased Acceptance VS ";
  outputname += particle;
  outputname += " Decay Time";
  RooPlot* frame4 = TAU.frame(Bins(bins),Title(outputname));
  histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S_->plotOn(frame4,Name("histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S_"), LineColor(kBlack), MarkerColor(kBlack));
  frame4->SetMinimum(0.);
  //frame4->SetMinimum(0.85);
  frame4->SetMaximum(1.1);
  frame4->GetYaxis()->SetTitle("Acceptance");
  frame4->Draw();
  gPad->SetLogx();

  TLegend* legend_4 = new TLegend(0.3,0.25,0.9,0.45);
  legend_4->SetFillColor(kWhite);
  legend_4->AddEntry((RooHist*)frame4->findObject("histo_Hlt1TrackAndTrackMuonExcl_Hlt2DiMuonDetached_S_"),"Exclusively Biased Acceptance","lep");
  legend_4->SetTextFont(132);
  legend_4->Draw();
  
  outputname = "plots/";
  outputname += prefix;
  outputname += "_";
  outputname += bins;
  outputname += "bins.eps";
  
  cdata->SaveAs(outputname);
  
  TCanvas* cdata1 = new TCanvas("cdata1","cdata1", 800, 500);
  
  frame2->Draw();
  gPad->SetLogx();
  legend_2->Draw();
  
  outputname = "plots/";
  outputname += prefix;
  outputname += "_";
  outputname += bins;
  outputname += "bins_AlmostUnbiased.eps";
  
  cdata1->SaveAs(outputname);

  TCanvas* cdata2 = new TCanvas("cdata2","cdata2", 800, 500);
  
  frame4->Draw();
  gPad->SetLogx();
  legend_4->Draw();
  
  outputname = "plots/";
  outputname += prefix;
  outputname += "_";
  outputname += bins;
  outputname += "bins_ExclusivelyBiased.eps";
  
  cdata2->SaveAs(outputname);
  
  TCanvas* cdata3 = new TCanvas("cdata3","cdata3", 800, 500);
  
  frame1->Draw();
  gPad->SetLogx();
  legend_1->Draw();
  
  outputname = "plots/";
  outputname += prefix;
  outputname += "_";
  outputname += bins;
  outputname += "bins_AlmostUnbiasedYields.eps";
  
  cdata3->SaveAs(outputname);

  TCanvas* cdata4 = new TCanvas("cdata4","cdata4", 800, 500);
  
  frame3->Draw();
  gPad->SetLogx();
  legend_3->Draw();
  
  outputname = "plots/";
  outputname += prefix;
  outputname += "_";
  outputname += bins;
  outputname += "bins_ExclusivelyBiasedYields.eps";
  
  cdata4->SaveAs(outputname);
  
  outputfile->Close();  
}
void plotphi(int top, bool phi=kFALSE){
  if (setup("vm","","pol__")==kFALSE) return;
  gStyle->SetOptFit(1111); //pcev = 1111
  //gStyle->SetTitleW(1.5);

  int itop = top-1;
  TFile* fy = _fyexp[itop];

  int nq2wbins = fy->GetNkeys();
  TIter nextkey(fy->GetListOfKeys());
  TKey *key;
  int iq2wbin = 0;
  while (key = (TKey*)nextkey()) {
    TString Q2Wdirname = key->GetName();
    if(Q2Wdirname.EqualTo("hYW_Dir") || Q2Wdirname.EqualTo("hYW"))continue;
    cout << "Q2Wdirname = " << Q2Wdirname << endl;

    THStack* hs[10];
    TF1 *fphi = new TF1("fphi", "([0] + [1]*cos(x*TMath::DegToRad()) + [2]*cos(2*x*TMath::DegToRad()) + [3]*sin(x*TMath::DegToRad()))",0, 360);
    fphi->SetParameter(0,1);
    fphi->SetParameter(1,10);
    fphi->SetParameter(2,20);
    fphi->SetParameter(3,100);
    fphi->SetParName(0, "A");
    fphi->SetParName(1, "B");
    fphi->SetParName(2, "C");
    fphi->SetParName(3, "hPR");
    for (int i = 0; i < 10; i++)
    {
      TString hname_unp = TString::Format("%s/hPhi/Varset1/theta/hphi_%02d",Q2Wdirname.Data(),i+1);
      TString hname_pos = TString::Format("%s/hPhi_POS/Varset1/theta/hphi_%02d",Q2Wdirname.Data(),i+1);
      TString hname_neg = TString::Format("%s/hPhi_NEG/Varset1/theta/hphi_%02d",Q2Wdirname.Data(),i+1);
      cout << "hname_unp = " << hname_unp << endl;
      cout << "hname_pos = " << hname_pos << endl;
      cout << "hname_neg = " << hname_neg << endl;
      TH1D* hunp = (TH1D*)fy->Get(hname_unp);
      TH1D* hpos = (TH1D*)fy->Get(hname_pos);
      TH1D* hneg = (TH1D*)fy->Get(hname_neg);
      if (hunp==NULL || hpos==NULL || hneg==NULL) cout << "histogram not found" << endl;
      hunp->SetLineColor(kBlack);
      hpos->SetLineColor(kRed);
      hneg->SetLineColor(kBlue);
      hunp->Fit(fphi);
      hpos->Fit(fphi);
      hneg->Fit(fphi);

      //! Modify titles
      TObjArray *tarr;
      char t[100];

      TPaveText *ptunp = new TPaveText(0.0, 0.9, 1.0, 1, "NDC");
      TString tunp = hunp->GetTitle();
      tarr = tunp.Tokenize("|");
      sprintf(t, "%s:%s:%s", tarr->At(1)->GetName(), tarr->At(2)->GetName(), tarr->At(3)->GetName());
      ptunp->AddText(tarr->At(0)->GetName());
      ptunp->AddText(t);
      hunp->SetTitle("");

      TPaveText *ptpos = new TPaveText(0.0, 0.9, 1.0, 1, "NDC");
      TString tpos = hpos->GetTitle();
      tarr = tpos.Tokenize("|");
      sprintf(t, "%s:%s:%s", tarr->At(1)->GetName(), tarr->At(2)->GetName(), tarr->At(3)->GetName());
      ptpos->AddText(tarr->At(0)->GetName());
      ptpos->AddText(t);
      hpos->SetTitle("");

      TPaveText *ptneg = new TPaveText(0.0, 0.9, 1.0, 1, "NDC");
      TString tneg = hneg->GetTitle();
      tarr = tneg.Tokenize("|");
      sprintf(t, "%s:%s:%s", tarr->At(1)->GetName(), tarr->At(2)->GetName(), tarr->At(3)->GetName());
      ptneg->AddText(tarr->At(0)->GetName());
      ptneg->AddText(t);
      hneg->SetTitle("");

      //! Draw histograms
      TCanvas *c = new TCanvas(hpos->GetName(),hpos->GetName(),900, 600);
      c->Divide(3,1);
      c->cd(1);
      hunp->Draw();
      ptunp->Draw();
      c->cd(2);
      hpos->Draw();
      ptpos->Draw();
      c->cd(3);
      hneg->Draw();
      ptneg->Draw();
      TString dir = TString::Format("./polobs/top%d/%s/Varset1/theta", top, Q2Wdirname.Data());
      gSystem->mkdir(dir,1);
      c->SaveAs(TString::Format("%s/%s.png", dir.Data(), c->GetName()));
      c->Close();
      c->Delete();
    }
  }
}
Ejemplo n.º 5
0
//--------------------------------------------------------------------------------------------------
// Make plots of fake rates for different charges
//--------------------------------------------------------------------------------------------------
void compareChargeDependantFakeRatesPythiaVsMadgraph(char *FakeRateFilename , int faketype, int chargetype ) {

  string fakeTypeString = "";
  if (faketype == 11) {
    fakeTypeString = "Electron";
  } else if (faketype == 13) {
    fakeTypeString = "Muon";
  } else {
    cerr << "Error: faketype = " << faketype << " not recognized.\n";
    assert(false);
  }

  //different charges
  string chargeTypeName = "";
  if (chargetype == -1)
    chargeTypeName = "Minus";
  else if (chargetype == 1)
    chargeTypeName = "Plus";
  
  string plotname = chargeTypeName + fakeTypeString + "FakeRateComparisonPythiaVsMadgraph";

  TCanvas *cv = MakeCanvas("cv", plotname.c_str(), 800, 600);
  TLegend *leg1=0;
  leg1 = new TLegend(0.65,0.6,0.9,0.8);   
  leg1->SetBorderSize(1);
  leg1->SetTextSize(0.03);

  int color = 0;
  
  for (int eventType= -1; eventType <= 1; eventType += 2) {
    for (int sample=0;sample<=1;sample++) {

      //sample names
      string sampleName = "";
      if (sample == 0)
        sampleName = "PythiaWJets";
      else if (sample == 1)
        sampleName = "MadgraphWJets";

      string LegendString = sampleName + " ";
     
      string eventTypeName = "";
      if (eventType == -1) {
        eventTypeName = "MinusW";
        LegendString += "-";
      } else if (eventType == 1) {
        eventTypeName = "PlusW";
        LegendString += "+";
      }
      if (chargetype == -1) {        
        LegendString += "-";
      } else if (chargetype == 1) {      
        LegendString += "+";
      }

      
      TFile *file = new TFile(FakeRateFilename, "READ");
      file->cd();
      
      TH1F *tmp = (TH1F*)file->FindObjectAny((chargeTypeName + fakeTypeString + eventTypeName + "FakeRate_Pt_" + sampleName).c_str());
      if (!tmp) {
        cerr << "can't find :"  << chargeTypeName + fakeTypeString + eventTypeName + "FakeRate_Pt_" + sampleName << endl;
        assert(tmp);
      }
      tmp->SetLineColor(COLORS[color]);
      tmp->SetMarkerColor(COLORS[color]);    
      color++;
      leg1->AddEntry(tmp, LegendString.c_str(), "LP");
      if (sample == -1 && eventType == -1)
        tmp->Draw();
      else 
        tmp->Draw("same");
    }
  }
  
  leg1->Draw();

  string filename = plotname + ".gif";
  cv->SaveAs(filename.c_str());
  cv->Delete();
}
Ejemplo n.º 6
0
//--------------------------------------------------------------------------------------------------
// Make plots of fake rates for different charges
//--------------------------------------------------------------------------------------------------
void compareChargeDependantFakeRates(char *FakeRateFilename , string sampleName, int denominatortype, int faketype, 
                                     int onlychargetype = -1000, int onlyeventType = -1000 ) {

  string fakeTypeString = "";
  if (faketype == 11) {
    fakeTypeString = "Electron";
  } else if (faketype == 13) {
    fakeTypeString = "Muon";
  } else {
    cerr << "Error: faketype = " << faketype << " not recognized.\n";
    assert(false);
  }

  string denominatorTypeString = "";
  if (denominatortype == 1) {
    denominatorTypeString = "TrackDenominator";
  }

  string plotname = "ChargeDependant" + fakeTypeString + denominatorTypeString + "FakeRateComparison_" + sampleName;

  TCanvas *cv = MakeCanvas("cv", plotname.c_str(), 800, 600);
  TLegend *leg1=0;
  leg1 = new TLegend(0.65,0.6,0.9,0.8);   
  leg1->SetBorderSize(1);
  leg1->SetTextSize(0.03);

  int color = 0;
  for (int chargetype = -1; chargetype <= 1; chargetype += 2) {
    for (int eventType= -1; eventType <= 1; eventType ++) {

      if (!(onlychargetype == chargetype || onlychargetype == -1000))
        continue;

      if (onlyeventType == 0) {
        if (eventType != 0)
          continue;
      } else {
        if (eventType == 0)
          continue;
      }

      //different charges
      string chargeTypeName = "";
      string LegendString = sampleName + " ";

      string eventTypeName = "";
      if (eventType == -1) {
        eventTypeName = "MinusW";
        LegendString += "-";
      } else if (eventType == 1) {
          eventTypeName = "PlusW";
          LegendString += "+";
      } else if (eventType == 0)
        LegendString += "Fake";
        
      if (chargetype == -1) {
        chargeTypeName = "Minus";
        LegendString += "-";
      } else if (chargetype == 1) {
        chargeTypeName = "Plus";
        LegendString += "+";
      }
           
      TFile *file = new TFile(FakeRateFilename, "READ");
      file->cd();
      
      TH1F *tmp = (TH1F*)file->FindObjectAny((chargeTypeName + fakeTypeString + eventTypeName + denominatorTypeString + "FakeRate_Pt_" + sampleName).c_str());
      if (!tmp) {
        cerr << "can't find :"  << chargeTypeName + fakeTypeString + eventTypeName + denominatorTypeString + "FakeRate_Pt_" + sampleName << endl;
        assert(tmp);
      }
      tmp->SetLineColor(COLORS[color]);
      tmp->SetMarkerColor(COLORS[color]);    
      tmp->SetAxisRange(0,100);

      color++;
      leg1->AddEntry(tmp, LegendString.c_str(), "LP");
      if (chargetype == -1 && eventType == -1)
        tmp->Draw();
      else 
        tmp->Draw("same");
    }
  }
  
  leg1->Draw();

  string filename = plotname + ".gif";
  cv->SaveAs(filename.c_str());
  cv->Delete();
}
Ejemplo n.º 7
0
//--------------------------------------------------------------------------------------------------
// Make plots of electron fake rate from many samples
//--------------------------------------------------------------------------------------------------
void compareFakeRates(char *FakeRateFilename, int faketype , int chargetype , int eventType) {

  string fakeTypeString = "";
  if (faketype == 11) {
    fakeTypeString = "Electron";
  } else if (faketype == 13) {
    fakeTypeString = "Muon";
  } else {
    cerr << "Error: faketype = " << faketype << " not recognized.\n";
    assert(false);
  }

  //different charges
  string chargeTypeName = "";
  if (chargetype == -1)
    chargeTypeName = "Minus";
  else if (chargetype == 1)
    chargeTypeName = "Plus";

  string eventTypeName = "";
  if (eventType == -1)
    eventTypeName = "MinusW";
  else if (eventType == 1)
    eventTypeName = "PlusW";

  string plotname = chargeTypeName + fakeTypeString + eventTypeName + "FakeRateComparison";

  TFile *file = new TFile(FakeRateFilename, "READ");
  file->cd();

  TCanvas *cv = MakeCanvas("cv", plotname.c_str(), 800, 600);
  TLegend *leg1=0;
  leg1 = new TLegend(0.65,0.6,0.9,0.8);   
  leg1->SetBorderSize(1);
  leg1->SetTextSize(0.03);

  TH1F *electronFakeRate_pythiaWJets = (TH1F*)file->FindObjectAny((chargeTypeName + fakeTypeString + eventTypeName + "FakeRate_Pt_PythiaWJets").c_str());
  TH1F *electronFakeRate_madgraphWJets = (TH1F*)file->FindObjectAny((chargeTypeName + fakeTypeString + eventTypeName + "FakeRate_Pt_MadgraphWJets").c_str());
  TH1F *electronFakeRate_pythiaQCDEM = (TH1F*)file->FindObjectAny((chargeTypeName + fakeTypeString + eventTypeName + "FakeRate_Pt_PythiaQCDEM").c_str());
  TH1F *electronFakeRate_madgraphQCD = (TH1F*)file->FindObjectAny((chargeTypeName + fakeTypeString + eventTypeName + "FakeRate_Pt_MadgraphQCD").c_str());

  assert(electronFakeRate_pythiaWJets);
  assert(electronFakeRate_madgraphWJets);
  assert(electronFakeRate_pythiaQCDEM);
  assert(electronFakeRate_madgraphQCD);

  electronFakeRate_pythiaWJets->SetLineColor(kRed);
  electronFakeRate_pythiaWJets->SetMarkerColor(kRed);
  electronFakeRate_madgraphWJets->SetLineColor(kBlue);
  electronFakeRate_madgraphWJets->SetMarkerColor(kBlue);
  electronFakeRate_pythiaQCDEM->SetLineColor(kMagenta);
  electronFakeRate_pythiaQCDEM->SetMarkerColor(kMagenta);
  electronFakeRate_madgraphQCD->SetLineColor(kGreen);
  electronFakeRate_madgraphQCD->SetMarkerColor(kGreen);
 
  leg1->AddEntry(electronFakeRate_pythiaWJets, (chargeTypeName + fakeTypeString + eventTypeName + "PythiaWJets").c_str(), "LP");
  leg1->AddEntry(electronFakeRate_madgraphWJets, (chargeTypeName + fakeTypeString + eventTypeName + "MadgraphWJets").c_str(), "LP"); 
  leg1->AddEntry(electronFakeRate_pythiaQCDEM, (chargeTypeName + fakeTypeString + eventTypeName + "PythiaQCDEM").c_str(), "LP"); 
  leg1->AddEntry(electronFakeRate_madgraphQCD, (chargeTypeName + fakeTypeString + eventTypeName + "MadgraphQCD").c_str(), "LP"); 
 
  electronFakeRate_pythiaWJets->Draw();
  electronFakeRate_madgraphWJets->Draw("same");
  electronFakeRate_pythiaQCDEM->Draw("same");
  electronFakeRate_madgraphQCD->Draw("same");
  leg1->Draw();

  string filename = plotname + ".gif";
  cv->SaveAs(filename.c_str());
  cv->Delete();
}