Exemplo n.º 1
0
void drawHistos(TString rfile) {
  
  TH1::AddDirectory(0);

  TFile f(rfile);
  f.ls();
  TH1D *hpp = (TH1D*)f.Get("hpp");
  TH1D *hpn = (TH1D*)f.Get("hpn");
  TH1D *hnp = (TH1D*)f.Get("hnp");
  TH1D *hnn = (TH1D*)f.Get("hnn");

  hpp->Print();
  hnn->Print();
  hpn->Print();
  hnp->Print();
 
  TCanvas *cv = new TCanvas("cv", "Delta t", 500, 700);
  cv->Divide(1,2);
  
  cv->cd(1);
  drawOverlay(hpp, hnn);
  cv->cd(2);
  drawOverlay(hpn, hnp);

  f.Close();
}
void compareOldandNew()
{
  TCanvas * c1 = new TCanvas("c1","c1",800,600);
  TLatex lat;  

  int centBounds[6] = {60,80,100,120,140,200};
  for(int i = 0 ; i<5; i++){
  const char * histName = "pPbPbp_FF";
  TFile * fold = TFile::Open("FragmentationFunctionsUE2_nominal.root","read");
  TFile * fnew = TFile::Open("FragmentationFunctionsUE2.root","read");
  TH1D * num = (TH1D*)fnew->Get(Form("%s_%d_%d",histName,centBounds[i],centBounds[i+1]));
  TH1D * den = (TH1D*)fold->Get(Form("%s_%d_%d",histName,centBounds[i],centBounds[i+1]));
  //den->Add(num);
  num->Divide(den);
  //num->Scale(2);
  num->GetYaxis()->SetTitle("(no L2 residual)/(Nominal)");
  num->GetYaxis()->SetRangeUser(0.7,1.3);
  num->GetXaxis()->SetTitle("p_{T}");
  num->GetXaxis()->SetRangeUser(0.5,200);
  num->Print("All");
  num->Draw();
  
  lat.DrawLatex(1,1.2,Form("%d < p_{T}^{jet} < %d",centBounds[i],centBounds[i+1]));

  c1->SetLogx();
  c1->SaveAs(Form("diffPlots/noL2Residual_%d_%d.png",centBounds[i],centBounds[i+1]));
  c1->SaveAs(Form("diffPlots/noL2Residual_%d_%d.pdf",centBounds[i],centBounds[i+1]));
  fnew->Close();
  fold->Close();
  }  

  /*const char * histName = "PbPbTrackSpectrum_0_5";
  TFile * fnew = TFile::Open("Spectra_Jun9_noChi2Cut.root","read");
  TFile * fold = TFile::Open("Spectra_Jun9_withChi2Cut.root","read");
  TH1D * num = (TH1D*)fnew->Get(histName);
  TH1D * den = (TH1D*)fold->Get(histName);
  //den->Add(num);
  num->Divide(den);
  //num->Scale(2);
  num->GetYaxis()->SetTitle("(No Chi2)/(With Chi2)");
  num->GetYaxis()->SetRangeUser(0.7,1.5);
  num->GetXaxis()->SetRangeUser(0.7,350);
  num->Print("All");
  num->Draw();
  c1->SetLogx();
  c1->SaveAs("plots/comparisonPlots/Chi2CutTest_PbPb_0_5.png");
  c1->SaveAs("plots/comparisonPlots/Chi2CutTest_PbPb_0_5.pdf");
  */

  //c1->SaveAs("plots/comparisonPlots/ppChargeFraction2.C");
}
Exemplo n.º 3
0
void MakeClosurePlot(TH1D* hObs, TH1D* hPred, TString name, bool logy=true) {
  set_style(hObs,"data_obs");
  set_style(hPred,"pred");

  // Setup canvas and pads
  TCanvas * c1 = new TCanvas("c1", "c1", 700, 700);
  c1->SetFillStyle(4000);
  TPad * pad1 = new TPad("pad1", "top pad" , 0.0, 0.3, 1.0, 1.0);
  pad1->SetFillStyle(4000);
  pad1->SetBottomMargin(0.0);
  pad1->Draw();
  TPad * pad2 = new TPad("pad2", "bottom pad", 0.0, 0.0, 1.0, 0.3);
  pad2->SetFillStyle(4000);
  pad2->SetTopMargin(0.0);
  pad2->SetBottomMargin(0.35);
  pad2->Draw();
  pad1->cd();
  pad1->SetLogy(logy);

  TH1D * staterr = (TH1D *) hPred->Clone("staterr");
  //  staterr->Sumw2();
  //staterr->SetFillColor(kRed);
  staterr->SetFillColor(kGray+3);
  staterr->SetMarkerSize(0);
  staterr->SetFillStyle(3013);

  //cout << "Compute ratio hist..." << endl;
  TH1D * ratio = (TH1D *) hPred->Clone("ratio");
  //ratio->Sumw2();
  ratio->SetMarkerSize(0.8);
  ratio->SetMarkerColor(1);
  //ratio->SetMarkerSize(0.5);
  ratio->Divide(hObs, hPred, 1., 1., "B");
  ratio->Print("all");
  TH1D * ratiostaterr = (TH1D *) hObs->Clone("ratiostaterr");
  //  ratiostaterr->Sumw2();
  ratiostaterr->SetStats(0);
  ratiostaterr->SetTitle(hPred->GetTitle());
  ratiostaterr->GetYaxis()->SetTitle("Obs/Pred.");
  ratiostaterr->SetMaximum(2.2);
  ratiostaterr->SetMinimum(0);
  ratiostaterr->SetMarkerSize(0);
  //ratiostaterr->SetFillColor(kRed);
  ratiostaterr->SetFillColor(kGray+3);
  ratiostaterr->SetFillStyle(3013);
  ratiostaterr->GetXaxis()->SetLabelSize(0.2);
  ratiostaterr->GetXaxis()->SetLabelOffset(0.03);
  ratiostaterr->GetXaxis()->SetTitleSize(0.14);
  ratiostaterr->GetXaxis()->SetTitleOffset(1.10);
  ratiostaterr->GetYaxis()->SetLabelSize(0.10);
  ratiostaterr->GetYaxis()->SetTitleSize(0.12);
  ratiostaterr->GetYaxis()->SetTitleOffset(0.6);
  ratiostaterr->GetYaxis()->SetNdivisions(505);
  TLine* ratiounity = new TLine(hPred->GetBinLowEdge(1),1,hPred->GetBinLowEdge(hPred->GetNbinsX()+1),1);
  ratiounity->SetLineStyle(2);
  for (Int_t i = 0; i < hPred->GetNbinsX()+2; i++) {
    // if (hObs->GetBinContent(i)>0.) ratio->SetBinError(i, hObs->GetBinError(i)/hObs->GetBinContent(i)); // just the fractional uncertainty on the observation
    ratiostaterr->SetBinContent(i, 1.0);
    if (hPred->GetBinContent(i) > 1e-6) { //< not empty
      double binerror = hPred->GetBinError(i) / hPred->GetBinContent(i);
      ratiostaterr->SetBinError(i, binerror);
    } else {
      ratiostaterr->SetBinError(i, 999.);
    }
  }
  TH1D * ratiosysterr = (TH1D *) ratiostaterr->Clone("ratiosysterr");
  //  ratiosysterr->Sumw2();
  ratiosysterr->SetMarkerSize(0);
  ratiosysterr->SetFillColor(kYellow-4);
  //ratiosysterr->SetFillStyle(3002);
  ratiosysterr->SetFillStyle(1001);
  for (Int_t i = 0; i < hPred->GetNbinsX()+2; i++) {
    if (hPred->GetBinContent(i) > 1e-6) { //< not empty
      double binerror2 = (pow(hPred->GetBinError(i), 2));
      double binerror = sqrt(binerror2);
      ratiosysterr->SetBinError(i, binerror / hPred->GetBinContent(i));
    }
  }


  double max = hObs->GetMaximum();
  if (hPred->GetMaximum() > max) max = hPred->GetMaximum();

  if (logy) {
    hPred->SetMaximum(max*10);
    hPred->SetMinimum(0.09);
  } else {
    hPred->SetMaximum(max*1.5);
    hPred->SetMinimum(0.);
  }

  hPred->GetYaxis()->SetTitle("Events / bin");
  hPred->Draw("hist");
  hObs->Draw("e1,same");
  staterr->Draw("e2 same");
  hPred->GetXaxis()->SetTitleSize(0.035);
  hPred->GetXaxis()->SetLabelSize(0.035);
  /* hObs->GetYaxis()->SetTitleSize(0.035); */
  /* hObs->GetYaxis()->SetLabelSize(0.035); */

  TLegend * leg2 = new TLegend(0.72, 0.68, 0.94, 0.92);
  set_style(leg2,0.035);
  leg2->AddEntry(hObs,"Obs.","elp");
  leg2->AddEntry(hPred,"Pred.","f");
  leg2->AddEntry(staterr, "Syst. uncert.", "f");
  leg2->Draw();
  TLatex * latex = new TLatex();
  latex->SetNDC();
  latex->SetTextAlign(12);
  latex->SetTextFont(62);
  latex->SetTextSize(0.042);
  latex->DrawLatex(0.19, 0.89, "CMS Simulation");
  latex->SetTextSize(0.03);
  TString stamp = Form("#sqrt{s} = 13 TeV, L = %3.1f fb^{-1}", int_lumi);
  latex->DrawLatex(0.19, 0.84, stamp);

  pad2->cd();
  pad2->SetGridy(0);
  ratiostaterr->GetXaxis()->SetRangeUser(0,6);
  ratiostaterr->Draw("e2");
  //ratiosysterr->Draw("e2 same");
  ratiostaterr->Draw("e2 same");
  ratiounity->Draw();
  ratio->Draw("e1 same");

  TPaveText * pave = new TPaveText(0.18, 0.86, 0.4, 0.96, "brNDC");
  pave->SetLineColor(0);
  pave->SetFillColor(kWhite);
  pave->SetShadowColor(0);
  pave->SetBorderSize(1);
  double nchisq = hObs->Chi2Test(hPred, "UWCHI2/NDF, P"); // MC uncert. (stat)
  double p_value = hObs->Chi2Test(hPred, "UW"); // MC uncert. (stat)
  // //double kolprob = hdata_obs->KolmogorovTest(hmc_pred); // MC uncert. (stat)
  TText * text = pave->AddText(Form("#chi_{#nu}^{2}/ndf = %.3f, p = %.3f", nchisq, p_value));
  // //TText * text = pave->AddText(Form("#chi_{#nu}^{2} = %.3f, K_{s} = %.3f", nchisq, kolprob));
  text->SetTextFont(62);
  text->SetTextSize(0.07);
  // text->SetTextSize(0.06);
  pave->Draw();
  
  /* TLegend * ratioleg = new TLegend(0.72, 0.88, 0.94, 0.96); */
  /* set_style(ratioleg); */
  /* ratioleg->SetTextSize(0.07); */
  /* ratioleg->AddEntry(ratiostaterr, "MC uncert. (stat)", "f"); */
  /* ratioleg->Draw(); */

  pad1->cd();
  gPad->RedrawAxis();
  gPad->Modified();
  gPad->Update();
  pad2->cd();
  gPad->RedrawAxis();
  gPad->Modified();
  gPad->Update();

  c1->cd();
  
  c1->Print("Closure/plots/no_dp_cut/"+name+".pdf");

  delete staterr;
  delete ratio;
  delete ratiostaterr;
  delete ratiosysterr;
  delete leg2;
  // delete ratioleg;
  delete pad1;
  delete pad2;
  delete c1;
  delete latex;
  
}
void Plot_searchBin_full_ICHEP_wQCD(string option="", int pull=0){ // string option="QCD"

  // Use option="QCD" to produce plots in QCD binning

  char tempname[200];
  // Open root file
  sprintf(tempname,"LLPrediction_QCD.root");

  // true: do closure test (MC prediction vs MC truth)
  // false: do data driven prediction and compare to MC truth
  bool doDataVsMC = false;

  // Add systematics in quadrature to stat. uncertainty on prediction
  // Non-closure systematic not included yet!
  bool showSystematics = false;

  bool doClosurewoIsoTrackVeto = false;

  ///////////////////////////////////////////////////////////////////////////////////////////
  ////Some cosmetic work for official documents.
  //
  // Set basic style
  //
  setTDRStyle();
  gStyle->SetPalette(1) ; // for better color output

  //
  // Canvas size
  int W = 1200;
  int H = 740;
  int H_ref = 740;
  int W_ref = 800;
  float T = 0.10*H_ref;
  float B = 0.06*H_ref;
  float L = 0.16*W_ref;
  float R = 0.04*W_ref;

  //
  // Various vertical line coordinates
  float ymax_top = 40000.;
  float ymin_top = 0.015;

  float ymax2_top = 1000.;
  float ymax3_top = 200.;
  float ymax4_top = 30.;
  float ymax5_top = 5.;

  float ymax_bottom = 1.99;
  float ymin_bottom = 0.01;

  float ymax2_bottom = 2.15;
  float ymax3_bottom = 2.15;
  float ymax4_bottom = 2.15;

  //
  // Luminosity information for scaling
  double lumi     = 7.6; // normaliza to this lumi (fb-1)
  double lumi_ref = 7.6; // normaliza to 3 (fb-1)
  
  ///////////////////////////////////////////////////////////////////////////////////////////
  //
  // More specific style set, opening input files etc

  gStyle->SetOptStat(0);  ///to avoid the stat. on the plots
  //gStyle->SetErrorX(0);
  char xtitlename[200];
  char ytitlename[200];

  TFile * LLFile = new TFile(tempname,"R");
  printf("Opened %s\n",tempname);

  //
  // Define legend
  //
  Float_t legendX1 = .655; //.50;
  Float_t legendX2 = .955; //.70;
  Float_t legendY1 = .53; //.65;
  Float_t legendY2 = .78;

  TLegend* catLeg1 = new TLegend(legendX1,legendY1,legendX2,legendY2);
  //catLeg1->SetTextSize(0.060);
  catLeg1->SetTextSize(0.044);
  catLeg1->SetTextFont(42);
  catLeg1->SetFillColor(0);
  catLeg1->SetLineColor(1);
  catLeg1->SetBorderSize(1);

  //
  // Define canvas
  //
  TCanvas *canvas = new TCanvas("canvas","canvas",10,10,W,H);

  canvas->SetFillColor(0);
  canvas->SetBorderMode(0);
  canvas->SetFrameFillStyle(0);
  canvas->SetFrameBorderMode(0);
  canvas->SetLeftMargin( L/W );
  canvas->SetRightMargin( R/W );
  canvas->SetTopMargin( T/H );
  canvas->SetBottomMargin( B/H );
  canvas->SetTickx(0);
  canvas->SetTicky(0);

  canvas->Divide(1, 2);
  
  //
  // Define pads
  //
  TPad* canvas_up = (TPad*) canvas->GetListOfPrimitives()->FindObject("canvas_1");
  TPad* canvas_dw = (TPad*) canvas->GetListOfPrimitives()->FindObject("canvas_2");

  //
  // define the size
  double up_height     = 0.8;  // please tune so that the upper figures size will meet your requirement
  double dw_correction = 1.30; // please tune so that the smaller canvas size will work in your environment
  double font_size_dw  = 0.1;  // please tune the font size parameter for bottom figure
  double dw_height     = (1. - up_height) * dw_correction;
  double dw_height_offset = 0.04; // KH, added to put the bottom one closer to the top panel

  //
  // set pad size
  canvas_up->SetPad(0., 1 - up_height,    1., 1.00);
  canvas_dw->SetPad(0., 0.,               1., dw_height+dw_height_offset);
  //
  canvas_up->SetFrameFillColor(0);
  canvas_up->SetFillColor(0);
  canvas_up->SetTopMargin(0.12);
  canvas_up->SetLeftMargin(0.1);
  //
  canvas_dw->SetFillColor(0);
  canvas_dw->SetFrameFillColor(0);
  canvas_dw->SetBottomMargin(0.35);
  canvas_dw->SetTopMargin(0);
  canvas_dw->SetLeftMargin(0.1);
  
  //
  // draw top figure
  canvas_up->cd();

  TH1D * GenHist, * EstHist,* thist;
  TH1D * GenHistTemp, * EstHistTemp;
  TH1D * GenHistD, * EstHistD;
  TH1D * GenHistDTemp, * EstHistDTemp;
  TH1D * EstSystematics;
  TH1D * histTemplate;

  double HT_x_max=2500.;
  double HT_x_min=400.;
  double MHT_x_max=1000.;
  double NJet_x_max=15.;
  double NBtag_x_max=4.;
  double search_x_max=208.-0.5;
  if(option.find("QCD")!=string::npos)search_x_max=208.-0.5;
  double search_x_min=1.-0.5;

  TDirectory *dPre = 0;
  TDirectory *dExp = (TDirectory*)LLFile->Get("Expectation");

  if(doDataVsMC){
    dPre = (TDirectory*)LLFile->Get("Prediction_data");
  }else{
    dPre = (TDirectory*)LLFile->Get("Prediction_MC");
  }  

  if(doDataVsMC){    
      EstHistTemp=(TH1D*) dPre->Get("totalPred_LL")->Clone();
      EstHistDTemp=(TH1D*) dPre->Get("totalPred_LL")->Clone();
  }else{
    if(doClosurewoIsoTrackVeto){
      EstHistTemp=(TH1D*) dPre->Get("totalPred_woIsoTrack_LL_MC")->Clone();
      EstHistDTemp=(TH1D*) dPre->Get("totalPred_woIsoTrack_LL_MC")->Clone();
    }else{
      EstHistTemp=(TH1D*) dPre->Get("totalPred_LL_MC")->Clone();
      EstHistDTemp=(TH1D*) dPre->Get("totalPred_LL_MC")->Clone();
    }
  }


  if(doClosurewoIsoTrackVeto){
      GenHistTemp=(TH1D*) dExp->Get("totalExp_woIsoTrack_LL")->Clone();
      GenHistDTemp=(TH1D*) dExp->Get("totalExp_woIsoTrack_LL")->Clone();;
  }else{
      GenHistTemp=(TH1D*) dExp->Get("totalExp_LL")->Clone();
      GenHistDTemp=(TH1D*) dExp->Get("totalExp_LL")->Clone();
  }

  if(showSystematics){
    TDirectory *dSys = (TDirectory*)LLFile->Get("AdditionalContent");
    if(doDataVsMC){
      EstSystematics=(TH1D*) dSys->Get("totalPropSysUp_LL")->Clone();
    }else{
      EstSystematics=(TH1D*) dSys->Get("totalPropSysUp_LL_MC")->Clone();
    }
  }

  if(EstHistTemp->GetNbinsX() != GenHistTemp->GetNbinsX()) std::cout<<"NbinsX of Expectation and Prediction don't agree!"<<std::endl;

  EstHist = new TH1D("Exp", "Exp", EstHistTemp->GetNbinsX(), 0.5, EstHistTemp->GetNbinsX()+0.5);
  EstHistD = new TH1D("ExpD", "ExpD", EstHistDTemp->GetNbinsX(), 0.5, EstHistDTemp->GetNbinsX()+0.5);
  GenHist = new TH1D("Pred", "Pred", GenHistTemp->GetNbinsX(), 0.5, GenHistTemp->GetNbinsX()+0.5);
  GenHistD = new TH1D("PredD", "PredD", GenHistDTemp->GetNbinsX(), 0.5, GenHistDTemp->GetNbinsX()+0.5);

  for(int i = 0; i <= EstHistTemp->GetNbinsX()+1; i++){
    EstHist->SetBinContent(i, EstHistTemp->GetBinContent(i));    
    EstHistD->SetBinContent(i, EstHistDTemp->GetBinContent(i));

    if(showSystematics){
      EstHist->SetBinError(i, std::sqrt(EstHistTemp->GetBinError(i)*EstHistTemp->GetBinError(i)+EstSystematics->GetBinContent(i)*EstSystematics->GetBinContent(i)*EstHistTemp->GetBinError(i)*EstHistTemp->GetBinError(i)));
      EstHistD->SetBinError(i, std::sqrt(EstHistDTemp->GetBinError(i)*EstHistDTemp->GetBinError(i)+EstSystematics->GetBinContent(i)*EstSystematics->GetBinContent(i)*EstHistDTemp->GetBinError(i)*EstHistDTemp->GetBinError(i)));
    }else{
      EstHist->SetBinError(i, EstHistTemp->GetBinError(i));
      EstHistD->SetBinError(i, EstHistDTemp->GetBinError(i));
    }    

    GenHist->SetBinContent(i, GenHistTemp->GetBinContent(i));
    GenHist->SetBinError(i, GenHistTemp->GetBinError(i));
    GenHistD->SetBinContent(i, GenHistDTemp->GetBinContent(i));
    GenHistD->SetBinError(i, GenHistDTemp->GetBinError(i));
  }

  GenHist->SetLineColor(4);
  EstHist->SetLineColor(4);
  //GenHist->GetXaxis()->SetLabelFont(42);
  //GenHist->GetXaxis()->SetLabelOffset(0.007);
  //GenHist->GetXaxis()->SetLabelSize(0.04);
  //GenHist->GetXaxis()->SetTitleSize(0.05);
  //GenHist->GetXaxis()->SetTitleOffset(0.9);
  //GenHist->GetXaxis()->SetTitleOffset(0.5);
  //GenHist->GetXaxis()->SetTitleFont(42);
  //GenHist->GetYaxis()->SetLabelFont(42);
  //GenHist->GetYaxis()->SetLabelOffset(0.007);
  //GenHist->GetYaxis()->SetLabelSize(0.04);
  GenHist->GetYaxis()->SetLabelSize(0.045*1.15);
  GenHist->GetYaxis()->SetTitleSize(0.06*1.15);
  GenHist->GetYaxis()->SetTitleOffset(0.6);
  GenHist->GetYaxis()->SetTitleFont(42);


  //EstHist->GetXaxis()->SetLabelFont(42);
  //EstHist->GetXaxis()->SetLabelOffset(0.007);
  //EstHist->GetXaxis()->SetLabelSize(0.04);
  //EstHist->GetXaxis()->SetTitleSize(0.05);
  //EstHist->GetXaxis()->SetTitleOffset(0.9);
  //EstHist->GetXaxis()->SetTitleFont(42);
  //EstHist->GetYaxis()->SetLabelFont(42);
  //EstHist->GetYaxis()->SetLabelOffset(0.007);
  //EstHist->GetYaxis()->SetLabelSize(0.04);
  //EstHist->GetYaxis()->SetTitleSize(0.08);
  //EstHist->GetYaxis()->SetTitleOffset(2.0);
  //EstHist->GetYaxis()->SetTitleFont(42);
  sprintf(xtitlename,"Search region bin number");
  sprintf(ytitlename,"Events");
  gPad->SetLogy();
  GenHist->SetMaximum(ymax_top);
  GenHist->SetMinimum(ymin_top);
  GenHist->GetXaxis()->SetRangeUser(search_x_min,search_x_max);

  //GenHist->GetYaxis()->SetTickLength(0.015);
  //GenHist->GetXaxis()->SetTickLength(0.02);

  //gPad->SetGridx(1);
  TExec *ex1 = new TExec("ex1","gStyle->SetErrorX(0);");
  TExec *ex2 = new TExec("ex2","gStyle->SetErrorX(0.5);");

  GenHist->SetTitle("");
  GenHist->SetMarkerStyle(20);
  GenHist->SetMarkerSize(1.2);
  GenHist->SetLineColor(1);
  GenHist->GetXaxis()->SetTitle(xtitlename);
  GenHist->GetYaxis()->SetTitle(ytitlename);
  GenHist->Scale(lumi/lumi_ref);
  EstHist->Scale(lumi/lumi_ref);
  TH1D * GenHist_Normalize = static_cast<TH1D*>(GenHist->Clone("GenHist_Normalize"));
  GenHist_Normalize->SetMaximum(ymax_top);
  GenHist_Normalize->SetMinimum(ymin_top);
  ex1->Draw();
  //GenHist_Normalize->GetListOfFunctions()->Add(ex1);
  GenHist_Normalize->DrawCopy("e");

  EstHist->SetFillStyle(3144);
  EstHist->SetFillColor(kRed-10);
  EstHist->SetMarkerStyle(20);
  EstHist->SetMarkerSize(0.0001);
  TH1D * EstHist_Normalize = static_cast<TH1D*>(EstHist->Clone("EstHist_Normalize"));
  ex2->Draw();
  //EstHist_Normalize->GetListOfFunctions()->Add(ex2);
  EstHist_Normalize->DrawCopy("e2same");
  //EstHist_Normalize->DrawCopy("esame");

  TH1D *EstHist_Normalize_Clone = (TH1D*)EstHist_Normalize->Clone();
  for(int i=1; i<208; i++) {
    EstHist_Normalize_Clone->SetBinError(i,0);
  }
  EstHist_Normalize_Clone->SetFillColor(kWhite);
  EstHist_Normalize_Clone->Draw("esame");

  GenHist->Print("all");
  EstHist->Print("all");
  
  //
  // Re-draw to have "expectation" on top of "prediction"
  ex1->Draw();
  GenHist_Normalize->DrawCopy("esame");
  //

  TString line = "";
  sprintf(tempname,"%8.1f",lumi);
  line+=tempname;
  line+=" fb^{-1} (13 TeV)";
  
  int iPeriod = 0;    // 1=7TeV, 2=8TeV, 3=7+8TeV, 7=7+8+13TeV, 0=free form (uses lumi_sqrtS)
  int iPos=0;
    
  writeExtraText = true;  
  if(doDataVsMC) extraText   = "        Preliminary";
  else extraText   = "        Simulation";
  //float extraTextFont = 52;  // default is helvetica-italics

  // text sizes and text offsets with respect to the top frame
  // in unit of the top margin size
  //lumiTextSize     = 0.5;
  //float lumiTextOffset   = 0.2;
  //cmsTextSize      = 0.65;
  //float cmsTextOffset    = 0.1;  // only used in outOfFrame version
  
  //relPosX    = 0.045;
  //relPosY    = 0.035;
  //relExtraDY = 1.2;
  
  // ratio of "CMS" and extra text size
  //float extraOverCmsTextSize  = 0.76;
    
  //TString lumi_13TeV = "20.1 fb^{-1}";
  //TString lumi_8TeV  = "19.7 fb^{-1}";
  //TString lumi_7TeV  = "5.1 fb^{-1}";
  TString lumi_sqrtS = line;

  //
  if(option.find("QCD")==string::npos ){
    
    //-----------------------------------------------------------
    // Putting lines and labels explaining search region definitions
    //-----------------------------------------------------------

    //TString CMSlabel = "";
    //cmsText = "#bf{CMS} #it{Simulation}";
    //CMSlabel += "#splitline{#bf{CMS}}{#scale[0.6]{#it{Simulation}}}";

    /*
    double x0 = gStyle->GetPadLeftMargin();
    double x1 = 1.-gStyle->GetPadRightMargin();
    double y0 = 1.005-gStyle->GetPadTopMargin();
    double y1 = 0.96;
    TPaveText *Lumitxt = new TPaveText(x0,y0,x1,y1,"NDC");
    Lumitxt->SetBorderSize(0);
    Lumitxt->SetFillColor(0);
    Lumitxt->SetTextFont(42);
    Lumitxt->SetTextAlign(31);
    Lumitxt->SetTextSize(1.2*gStyle->GetPadTopMargin());
    Lumitxt->SetMargin(0.);
    Lumitxt->AddText(line);
    //Lumitxt->Draw("same");

    x0 = gStyle->GetPadLeftMargin()+0.03;
    x1 = gStyle->GetPadLeftMargin()+0.13;
    y0 = 0.905-gStyle->GetPadTopMargin();
    y1 = 0.88;
    TPaveText *CMStxt = new TPaveText(x0,y0,x1,y1,"NDC");
    CMStxt->SetBorderSize(0);
    CMStxt->SetFillColor(0);
    CMStxt->SetTextFont(42);
    CMStxt->SetTextAlign(11);
    CMStxt->SetTextSize(1.2*gStyle->GetPadTopMargin());
    CMStxt->SetMargin(0.);
    CMStxt->AddText(CMSlabel);
    //CMStxt->Draw("same");
    */

    // Njet separation lines
    TLine *tl_njet = new TLine();
    tl_njet->SetLineStyle(2);
    tl_njet->DrawLine(53.-0.5,ymin_top,53.-0.5,ymax_top); 
    tl_njet->DrawLine(105.-0.5,ymin_top,105.-0.5,ymax_top); 
    tl_njet->DrawLine(157.-0.5,ymin_top,157.-0.5,ymax_top); 

    // Njet labels
    TLatex * ttext_njet = new TLatex();
    ttext_njet->SetTextFont(42);
    ttext_njet->SetTextSize(0.04);
    ttext_njet->SetTextAlign(22);
    ttext_njet->DrawLatex(26.-0.5 , ymax_top/4. , "3 #leq N_{#scale[0.2]{ }jet} #leq 4");
    ttext_njet->DrawLatex(78.-0.5 , ymax_top/4. , "5 #leq N_{#scale[0.2]{ }jet} #leq 6");
    ttext_njet->DrawLatex(130.-0.5 , ymax_top/4. , "7 #leq N_{#scale[0.2]{ }jet} #leq 8");
    ttext_njet->DrawLatex(182.-0.5 , ymax_top/4. , "N_{#scale[0.2]{ }jet} #geq 9");

    // Nb separation lines
    TLine *tl_nb = new TLine();
    tl_nb->SetLineStyle(3);
    tl_nb->DrawLine(14.-0.5,ymin_top,14.-0.5,ymax2_top); 
    tl_nb->DrawLine(27.-0.5,ymin_top,27.-0.5,ymax2_top); 
    tl_nb->DrawLine(40.-0.5,ymin_top,40.-0.5,ymax2_top);
    tl_nb->DrawLine(53.-0.5,ymin_top,53.-0.5,ymax2_top);
    tl_nb->DrawLine(66.-0.5,ymin_top,66.-0.5,ymax3_top); 
    tl_nb->DrawLine(79.-0.5,ymin_top,79.-0.5,ymax3_top); 
    tl_nb->DrawLine(92.-0.5,ymin_top,92.-0.5,ymax3_top); 
    tl_nb->DrawLine(105.-0.5,ymin_top,105.-0.5,ymax3_top); 
    tl_nb->DrawLine(118.-0.5,ymin_top,118.-0.5,ymax4_top); 
    tl_nb->DrawLine(131.-0.5,ymin_top,131.-0.5,ymax4_top); 
    tl_nb->DrawLine(144.-0.5,ymin_top,144.-0.5,ymax4_top);
    tl_nb->DrawLine(157.-0.5,ymin_top,157.-0.5,ymax4_top);
    tl_nb->DrawLine(170.-0.5,ymin_top,170.-0.5,ymax5_top);
    tl_nb->DrawLine(183.-0.5,ymin_top,183.-0.5,ymax5_top);
    tl_nb->DrawLine(196.-0.5,ymin_top,196.-0.5,ymax5_top);
    
    // Nb labels
    TLatex * ttext_nb = new TLatex();
    ttext_nb->SetTextFont(42);
    ttext_nb->SetTextSize(0.04);
    ttext_nb->SetTextAlign(22);
    
    ttext_nb->DrawLatex(9.-0.5 , ymax_top/12. , "N_{#scale[0.2]{ }b-jet}");
    ttext_nb->DrawLatex(8.-0.5 , ymax_top/40. , "0");
    ttext_nb->DrawLatex(20.-0.5 , ymax_top/40. , "1");
    ttext_nb->DrawLatex(33.-0.5 , ymax_top/40. , "2");
    ttext_nb->DrawLatex(46.-0.5 , ymax_top/40. , "#geq 3");

    //
  } else {
    
    //-----------------------------------------------------------
    // Putting lines and labels explaining search region definitions
    //-----------------------------------------------------------

    // Njet separation lines
    TLine *tl_njet = new TLine();
    tl_njet->SetLineStyle(2);
    tl_njet->DrawLine( 45.,ymin_top, 45.,ymax_top); 
    tl_njet->DrawLine( 89.,ymin_top, 89.,ymax_top); 
    tl_njet->DrawLine(133.,ymin_top,133.,ymax_top); 
    tl_njet->DrawLine(177.,ymin_top,177.,ymax_top); 

    // Njet labels
    TLatex * ttext_njet = new TLatex();
    ttext_njet->SetTextFont(42);
    ttext_njet->SetTextSize(0.04);
    ttext_njet->SetTextAlign(22);
    ttext_njet->DrawLatex(23. , ymax_top/4. , "N_{jets} = 4");
    ttext_njet->DrawLatex(67. , ymax_top/4. , "N_{jets} = 5");
    ttext_njet->DrawLatex(111., ymax_top/4. , "N_{jets} = 6");
    ttext_njet->DrawLatex(155., ymax_top/4. , "7 #leq N_{jets} #leq 8");
    ttext_njet->DrawLatex(199., ymax_top/4. , "N_{jets} #geq 9");

    // Nb separation lines
    TLine *tl_nb = new TLine();
    tl_nb->SetLineStyle(3);
    tl_nb->DrawLine(12.,ymin_top,12.,ymax2_top); 
    tl_nb->DrawLine(23.,ymin_top,23.,ymax2_top); 
    tl_nb->DrawLine(34.,ymin_top,34.,ymax2_top); 

    tl_nb->DrawLine(56.,ymin_top,56.,ymax2_top); 
    tl_nb->DrawLine(67.,ymin_top,67.,ymax2_top); 
    tl_nb->DrawLine(78.,ymin_top,78.,ymax2_top); 

    tl_nb->DrawLine(100.,ymin_top,100.,ymax2_top); 
    tl_nb->DrawLine(111.,ymin_top,111.,ymax2_top); 
    tl_nb->DrawLine(122.,ymin_top,122.,ymax2_top); 

    tl_nb->DrawLine(144.,ymin_top,144.,ymax3_top); 
    tl_nb->DrawLine(155.,ymin_top,155.,ymax3_top); 
    tl_nb->DrawLine(166.,ymin_top,166.,ymax3_top); 

    tl_nb->DrawLine(188.,ymin_top,188.,ymax4_top); 
    tl_nb->DrawLine(199.,ymin_top,199.,ymax4_top); 
    tl_nb->DrawLine(210.,ymin_top,210.,ymax4_top); 

    // Nb labels
    TLatex * ttext_nb = new TLatex();
    ttext_nb->SetTextFont(42);
    ttext_nb->SetTextSize(0.04);
    ttext_nb->SetTextAlign(22);
    ttext_nb->SetTextAngle(90);

    ttext_nb->DrawLatex( 6. , ymax_top/50. , "N_{b} = 0");
    ttext_nb->DrawLatex(17. , ymax_top/50. , "N_{b} = 1");
    ttext_nb->DrawLatex(28. , ymax_top/50. , "N_{b} = 2");
    ttext_nb->DrawLatex(39. , ymax_top/50. , "N_{b} #geq 3");
    
    TText * ttext = new TLatex(160. , ymax_top/50. , "Normalized to 10 fb^{-1}");
    ttext->SetTextFont(42);
    ttext->SetTextSize(0.045);
    ttext->SetTextAlign(22);
    ttext->Draw();

  }

  // Legend & texts
  sprintf(tempname,"Lost-lepton background");
  catLeg1->SetHeader(tempname);
  //sprintf(tempname,"#tau_{hadronic} BG expectation (MC truth)");
  sprintf(tempname,"Direct from simulation");
  catLeg1->AddEntry(GenHist,tempname,"p");
  //sprintf(tempname,"Prediction from MC");
  if(doDataVsMC) sprintf(tempname,"Prediction from data");
  else sprintf(tempname,"Treat simulation like data");
  catLeg1->AddEntry(EstHist,tempname);
  catLeg1->Draw();

  gPad->RedrawAxis();

  //
  // Bottom ratio plot
  //
  // ----------

    //
    // Preparing ratio histograms
      TH1D * numerator   = static_cast<TH1D*>(GenHist->Clone("numerator"));
      TH1D * numerator_fullstaterr   = static_cast<TH1D*>(GenHist->Clone("numerator_fullstaterr"));
      TH1D * denominator = static_cast<TH1D*>(EstHist->Clone("denominator"));

      TH1D * GenHist_Clone = static_cast<TH1D*>(GenHist->Clone("GenHist_Clone"));
      TH1D * EstHist_Clone = static_cast<TH1D*>(EstHist->Clone("EstHist_Clone"));
      TH1D * EstHist_NoError = static_cast<TH1D*>(EstHist->Clone("EstHist_NoError"));
      TH1D * One_NoError = static_cast<TH1D*>(EstHist->Clone("EstHist_NoError"));
      for (int ibin=0; ibin<EstHist_NoError->GetNbinsX()+2; ibin++){ // scan including underflow and overflow bins
	EstHist_NoError->SetBinError(ibin,0.);
	One_NoError->SetBinContent(ibin,1.);
	One_NoError->SetBinError(ibin,0.);
      }

      //EstHistD->Add(GenHistD,-1);
      numerator->Divide(GenHist_Clone,EstHist_NoError,1,1,"");
      denominator->Divide(EstHist_Clone,EstHist_NoError,1,1,"");

      numerator_fullstaterr->Divide(GenHist_Clone,EstHist_Clone,1,1,"");  // Expectation/Prediction
      numerator_fullstaterr->Add(One_NoError,-1.);                        // Expectation/Prediction-1

      // draw bottom figure
      canvas_dw->cd();
      // font size
      numerator->GetXaxis()->SetLabelSize(font_size_dw);
      numerator->GetXaxis()->SetTitleSize(font_size_dw);
      numerator->GetYaxis()->SetLabelSize(font_size_dw);
      numerator->GetYaxis()->SetTitleSize(font_size_dw);

      //
      // Horizontal Lines
      TLine *tline  = new TLine(search_x_min,1.,search_x_max,1.);
      TLine *tline0 = new TLine(search_x_min,0.,search_x_max,0.);

      //
      // Common to all bottom plots
      //
      //sprintf(ytitlename,"#frac{Estimate - #tau_{had} BG}{#tau_{had} BG} ");
      sprintf(ytitlename,"#frac{Direct}{Prediction} ");
      numerator->SetMaximum(ymax_bottom);
      numerator->SetMinimum(ymin_bottom);

      //
      // Specific to each bottom plot
      //
      // Setting style
      //numerator->SetMaximum(1.4);
      //numerator->GetXaxis()->SetLabelFont(42);
      //numerator->GetXaxis()->SetLabelOffset(0.007);
      numerator->GetXaxis()->SetLabelSize(0.18*0.045/0.06);
      numerator->GetXaxis()->SetTitleSize(0.18);
      numerator->GetXaxis()->SetTitleOffset(0.9);
      numerator->GetXaxis()->SetTitleFont(42);
      //numerator->GetYaxis()->SetLabelFont(42);
      //numerator->GetYaxis()->SetLabelOffset(0.007);
      numerator->GetYaxis()->SetLabelSize(0.18*0.045/0.06);
      numerator->GetYaxis()->SetTitleSize(0.18);
      //numerator->GetYaxis()->SetTitleOffset(0.5);
      numerator->GetYaxis()->SetTitleOffset(0.25);
      numerator->GetYaxis()->SetTitleFont(42);

      numerator->GetXaxis()->SetTitle(xtitlename);
      numerator->GetYaxis()->SetTitle(ytitlename);

      //gPad->SetGridx(1);


      if (pull==1){

	sprintf(ytitlename,"#frac{Exp - Pre}{Stat Error} ");
	numerator->SetMaximum(8.);
	numerator->SetMinimum(-8.);
	
	//
	// Specific to each bottom plot
	//
	// Setting style

	for (int ibin=0; ibin<numerator_fullstaterr->GetNbinsX()+2; ibin++){ // scan including underflow and overflow bins
	  numerator_fullstaterr->SetBinContent(ibin,numerator_fullstaterr->GetBinContent(ibin)/numerator_fullstaterr->GetBinError(ibin));
	  numerator_fullstaterr->SetBinError(ibin,0.);
	}
	numerator_fullstaterr->Print("all");
	
	numerator_fullstaterr->GetXaxis()->SetLabelSize(font_size_dw);
	numerator_fullstaterr->GetXaxis()->SetTitleSize(font_size_dw);
	numerator_fullstaterr->GetYaxis()->SetLabelSize(font_size_dw);
	numerator_fullstaterr->GetYaxis()->SetTitleSize(font_size_dw);

	numerator_fullstaterr->GetXaxis()->SetTitleSize(0.12);
	numerator_fullstaterr->GetXaxis()->SetTitleOffset(0.9);
	numerator_fullstaterr->GetXaxis()->SetTitleFont(42);
	numerator_fullstaterr->GetYaxis()->SetTitleSize(0.13);
	numerator_fullstaterr->GetYaxis()->SetTitleOffset(0.5);
	numerator_fullstaterr->GetYaxis()->SetTitleFont(42);
	
	numerator_fullstaterr->GetXaxis()->SetTitle(xtitlename);
	numerator_fullstaterr->GetYaxis()->SetTitle(ytitlename);
	//numerator_fullstaterr->SetFillColor(kGreen-3);
	numerator_fullstaterr->SetFillColor(kRed-10);
	numerator_fullstaterr->DrawCopy();

	//
	// Drawing lines
	tline0->SetLineStyle(2);
	//tline0->Draw();

      }
      else {

      //
      // Plotting
      numerator->GetYaxis()->SetNdivisions(505);
      numerator->GetYaxis()->SetTickLength(0.015);
      numerator->GetXaxis()->SetTickLength(0.08);
      numerator->SetTitle("");
      ex1->Draw();
      numerator->DrawCopy();

      ex2->Draw();
      denominator->DrawCopy("e2same");
      //denominator->DrawCopy("same");

      TH1D *denominator_Clone = (TH1D*)denominator->Clone();
      denominator_Clone->SetFillColor(kWhite);
      denominator_Clone->Draw("hist same");

      ex1->Draw();
      numerator->DrawCopy("same");

      numerator->Print("all");
      denominator->Print("all");
      numerator_fullstaterr->Print("all");

      //
      // Drawing lines
      tline->SetLineStyle(2);
      //tline->Draw();

      }
      

      //
      if(option.find("QCD")==string::npos ){
	
        // Njet separation lines
        TLine *tl_njet = new TLine();
        tl_njet->SetLineStyle(2);
        tl_njet->DrawLine(53.-0.5,ymin_bottom,53.-0.5,ymax_bottom); 
        tl_njet->DrawLine(105.-0.5,ymin_bottom,105.-0.5,ymax_bottom); 
        tl_njet->DrawLine(157.-0.5,ymin_bottom,157.-0.5,ymax_bottom); 

        // Nb separation lines
        TLine *tl_nb = new TLine();
        tl_nb->SetLineStyle(3);
        tl_nb->DrawLine(14.-0.5,ymin_bottom,14.-0.5,ymax2_bottom); 
        tl_nb->DrawLine(27.-0.5,ymin_bottom,27.-0.5,ymax2_bottom); 
        tl_nb->DrawLine(40.-0.5,ymin_bottom,40.-0.5,ymax2_bottom);
        tl_nb->DrawLine(53.-0.5,ymin_bottom,53.-0.5,ymax2_bottom);
        tl_nb->DrawLine(66.-0.5,ymin_bottom,66.-0.5,ymax2_bottom); 
        tl_nb->DrawLine(79.-0.5,ymin_bottom,79.-0.5,ymax2_bottom); 
        tl_nb->DrawLine(92.-0.5,ymin_bottom,92.-0.5,ymax2_bottom); 
        tl_nb->DrawLine(105.-0.5,ymin_bottom,105.-0.5,ymax2_bottom); 
        tl_nb->DrawLine(118.-0.5,ymin_bottom,118.-0.5,ymax2_bottom); 
        tl_nb->DrawLine(131.-0.5,ymin_bottom,131.-0.5,ymax2_bottom); 
        tl_nb->DrawLine(144.-0.5,ymin_bottom,144.-0.5,ymax2_bottom);
        tl_nb->DrawLine(157.-0.5,ymin_bottom,157.-0.5,ymax2_bottom);
        tl_nb->DrawLine(170.-0.5,ymin_bottom,170.-0.5,ymax2_bottom);
        tl_nb->DrawLine(183.-0.5,ymin_bottom,183.-0.5,ymax2_bottom);
        tl_nb->DrawLine(196.-0.5,ymin_bottom,196.-0.5,ymax2_bottom);

      } else {
	
      // Njet separation lines
      TLine *tl_njet = new TLine();
      tl_njet->SetLineStyle(2);
      tl_njet->DrawLine( 45.,ymin_bottom, 45.,ymax_bottom); 
      tl_njet->DrawLine( 89.,ymin_bottom, 89.,ymax_bottom); 
      tl_njet->DrawLine(133.,ymin_bottom,133.,ymax_bottom); 
      tl_njet->DrawLine(177.,ymin_bottom,177.,ymax_bottom); 


      // Nb separation lines
      TLine *tl_nb = new TLine();
      tl_nb->SetLineStyle(3);
      tl_nb->DrawLine(12.,ymin_bottom,12.,ymax2_bottom); 
      tl_nb->DrawLine(23.,ymin_bottom,23.,ymax2_bottom); 
      tl_nb->DrawLine(34.,ymin_bottom,34.,ymax2_bottom); 
      
      tl_nb->DrawLine(56.,ymin_bottom,56.,ymax2_bottom); 
      tl_nb->DrawLine(67.,ymin_bottom,67.,ymax2_bottom); 
      tl_nb->DrawLine(78.,ymin_bottom,78.,ymax2_bottom); 
      
      tl_nb->DrawLine(100.,ymin_bottom,100.,ymax2_bottom); 
      tl_nb->DrawLine(111.,ymin_bottom,111.,ymax2_bottom); 
      tl_nb->DrawLine(122.,ymin_bottom,122.,ymax2_bottom); 

      tl_nb->DrawLine(144.,ymin_bottom,144.,ymax2_bottom); 
      tl_nb->DrawLine(155.,ymin_bottom,155.,ymax2_bottom); 
      tl_nb->DrawLine(166.,ymin_bottom,166.,ymax2_bottom); 
      
      tl_nb->DrawLine(188.,ymin_bottom,188.,ymax2_bottom); 
      tl_nb->DrawLine(199.,ymin_bottom,199.,ymax2_bottom); 
      tl_nb->DrawLine(210.,ymin_bottom,210.,ymax2_bottom); 
    
      }

      gPad->RedrawAxis();

      //
      //

  CMS_lumi(canvas, iPeriod, iPos, lumi_sqrtS);

  if(doDataVsMC){
    sprintf(tempname,"DataMC_Full_Plot.pdf");
    if (pull==1)    sprintf(tempname,"DataMCPull_Full_Plot.pdf");
  }else{
    if(doClosurewoIsoTrackVeto){
      if(option.find("QCD")!=string::npos) sprintf(tempname,"Closure_QCD_HDP_woIsoTrack_Full_Plot.pdf");
        else sprintf(tempname,"Closure_woIsoTrack_Full_Plot.pdf");
      if (pull==1)    sprintf(tempname,"ClosurePull_woIsoTrack_Full_Plot.pdf");
    }else{
      if(option.find("QCD")!=string::npos) sprintf(tempname,"Closure_QCD_HDP_Full_Plot.pdf");
        else sprintf(tempname,"Closure_Full_Plot.pdf");
      if (pull==1)    sprintf(tempname,"ClosurePull_Full_Plot.pdf");
    }
  }

  canvas->Print(tempname);

}
Exemplo n.º 5
0
Scale_ByLumi(double newLum=3, int imode=1){   // Scale histogram contents and uncertainty to xxx fb^{-1}

  char tempname[200];
  TH1D * temphist;

  const int sampleSize=11;
  string sample[sampleSize]={"TTbar",
			     "WJet_100_200","WJet_200_400","WJet_400_600","WJet_600_inf",
			     "t_top","tW_top","t_antitop","tW_antitop"};

  /*
  TTbar:            806.1 (pb), 
  Wjets HT=100-200: 1.23 * 1817.0 (pb),
  Wjets HT=200-400: 1.23 * 471.6  (pb),
  Wjets HT=400-600: 1.23 * 55.61  (pb),
  Wjets HT=600-inf: 1.23 * 18.81  (pb),
  Single top T_s:       2   (pb)
  Single top Tbar_s:    1   (pb)
  Single top T_t:     103.4 (pb)
  Single top Tbar_t:   61.6 (pb)
  Single top T_tW:     35   (pb)
  Single top Tbar_tW:  35   (pb)
  */
  
  double sample_xsec[sampleSize]={806.1, 
				  1.23*1817.0, 1.23*471.6, 1.23*55.61, 1.23*18.81,
                                  2.,103.4,35.,1.,61.3,35.};  // in pb
  double sample_nevents[sampleSize]={25348009,
				     5257344,4936077,4640594,4581841,
				     500000,3941400,986100,
				     250000,1999800,971800};  // total number of events in ntuples
  double sample_lumi[sampleSize];

  //
  // Looping over different samples
  //
  for(int filei=0;filei<sampleSize;filei++){

    //#######
    // Prediction 
    //#######

    cout << " \n Working on sample: " << sample[filei] << endl;
    sprintf(tempname,"TauHad2/HadTauEstimation_%s_org.root",sample[filei].c_str());
    TFile * file_in  = new TFile(tempname,"READ");
    if (imode==1)      sprintf(tempname,"TauHad2/HadTauEstimation_%s_LumiScaledTo%.1ffbinv.root",sample[filei].c_str(),newLum);
    else if (imode==0) sprintf(tempname,"TauHad2/HadTauEstimation_%s_%.1ffbinv_OrigRelStatError.root",sample[filei].c_str(),newLum);
    else { printf("This mode is not supported\n"); break; }
    TFile * file_out = new TFile(tempname,"UPDATE");

    //#######
    // QCD_Low
    //#######
   
    temphist = (TH1D*) file_in->Get("QCD_Low")->Clone();

    cout << " QCD_Low: Before fix: \n ############### \n ";
    temphist->GetXaxis()->SetRange(1,1);
    if (filei==0) temphist->Print("all");
    else temphist->Print("range");

    //sprintf(tempname,"allEvents/PreSel/MHT_PreSel_allEvents");
    //double nevents_from_root_file = (* (TH1D*)file_in->Get(tempname)).GetEntries();
    sprintf(tempname,"cutflow_preselection");
    double nevents_from_root_file = (* (TH1D*)file_in->Get(tempname)).GetBinContent(1);
  
    double originalSampleLum = nevents_from_root_file / sample_xsec[filei] / 1000.; // original sample luminosity in terms of fb^{-1}
                                                                                   // 1/1000. to convert pb^{-1} to fb^{-1}
    printf("Sample name = %10s, sample lumi = %8.3f, total events = %8.0f, events from allEvent folder = %8.0f\n",
	   sample[filei].c_str(),originalSampleLum,sample_nevents[filei],nevents_from_root_file
	   );

    for (int ibin=0; ibin<temphist->GetNbinsX()+2; ibin++){ // scan including underflow and overflow bins
      double bin=temphist->GetBinContent(ibin);
      temphist->SetBinContent(ibin, bin*newLum/originalSampleLum );
      double binEr=temphist->GetBinError(ibin);
      if (imode==1)      temphist->SetBinError(ibin,   binEr*sqrt(newLum/originalSampleLum) );
      else if (imode==0) temphist->SetBinError(ibin,   binEr*newLum/originalSampleLum );
    }

    cout << " QCD_Low: After fix: \n ############### \n ";
    if (filei==0) temphist->Print("all");
    else temphist->Print("range");
    temphist->GetXaxis()->SetRange();

    temphist->Write();

    //#######
    // QCD_Up
    //#######

    temphist = (TH1D*) file_in->Get("QCD_Up")->Clone();

    cout << " QCD_Up: Before fix: \n ############### \n ";
    temphist->GetXaxis()->SetRange(1,1);
    temphist->Print("range");

    double originalSampleLum = sample_nevents[filei] / sample_xsec[filei] / 1000.; // original sample luminosity in terms of fb^{-1}

    for (int ibin=0; ibin<temphist->GetNbinsX()+2; ibin++){ // scan including underflow and overflow bins
      double bin=temphist->GetBinContent(ibin);
      temphist->SetBinContent(ibin, bin*newLum/originalSampleLum );
      double binEr=temphist->GetBinError(ibin);
      if (imode==1)      temphist->SetBinError(ibin,   binEr*sqrt(newLum/originalSampleLum) );
      else if (imode==0) temphist->SetBinError(ibin,   binEr*newLum/originalSampleLum );
    }

    cout << " QCD_Up: After fix: \n ############### \n ";
    temphist->Print("range");
    temphist->GetXaxis()->SetRange();

    temphist->Write();

    //#######
    // searchH_b
    //#######

    temphist = (TH1D*) file_in->Get("searchH_b")->Clone();

    cout << " searchH_b: Before fix: \n ############### \n ";
    temphist->GetXaxis()->SetRange(1,1);
    temphist->Print("range");

    double originalSampleLum = sample_nevents[filei] / sample_xsec[filei] / 1000.; // original sample luminosity in terms of fb^{-1}

    for (int ibin=0; ibin<temphist->GetNbinsX()+2; ibin++){ // scan including underflow and overflow bins
      double bin=temphist->GetBinContent(ibin);
      temphist->SetBinContent(ibin, bin*newLum/originalSampleLum );
      double binEr=temphist->GetBinError(ibin);
      if (imode==1)      temphist->SetBinError(ibin,   binEr*sqrt(newLum/originalSampleLum) );
      else if (imode==0) temphist->SetBinError(ibin,   binEr*newLum/originalSampleLum );
    }

    cout << " searchH_b: After fix: \n ############### \n ";
    temphist->Print("range");
    temphist->GetXaxis()->SetRange();

    temphist->Write();

    file_out->Close();

  }

  // Expectation

  for(int filei=0;filei<sampleSize;filei++){

    cout << " \n Working on sample: " << sample[filei] << endl;
    sprintf(tempname,"TauHad/GenInfo_HadTauEstimation_%s_org.root",sample[filei].c_str());
    TFile * file_in = new TFile(tempname,"READ");
    if (imode==1)      sprintf(tempname,"TauHad/GenInfo_HadTauEstimation_%s_LumiScaledTo%.1ffbinv.root",sample[filei].c_str(),newLum);
    else if (imode==0) sprintf(tempname,"TauHad/GenInfo_HadTauEstimation_%s_%.1ffbinv_OrigRelStatError.root",sample[filei].c_str(),newLum);
    
    TFile * file_out = new TFile(tempname,"UPDATE");

    //#######
    // QCD_Low
    //#######
   
    temphist = (TH1D*) file_in->Get("QCD_Low")->Clone();

    cout << " QCD_Low: Before fix: \n ############### \n ";
    temphist->GetXaxis()->SetRange(1,1);
    temphist->Print("range");
    
    sprintf(tempname,"cutflow_preselection");
    double nevents_from_root_file = (* (TH1D*)file_in->Get(tempname)).GetBinContent(1);

   double originalSampleLum = nevents_from_root_file / sample_xsec[filei] / 1000.; // original sample luminosity in terms of fb^{-1}
                                                                                   // 1/1000. to convert pb^{-1} to fb^{-1}
    printf("Sample name = %10s, sample lumi = %8.3f, total events = %8.0f, events from allEvent folder = %8.0f\n",
	   sample[filei].c_str(),originalSampleLum,sample_nevents[filei],nevents_from_root_file
	   );

    for (int ibin=0; ibin<temphist->GetNbinsX()+2; ibin++){ // scan including underflow and overflow bins
      double bin=temphist->GetBinContent(ibin);
      temphist->SetBinContent(ibin, bin*newLum/originalSampleLum );
      double binEr=temphist->GetBinError(ibin);
      if (imode==1)      temphist->SetBinError(ibin,   binEr*sqrt(newLum/originalSampleLum) );
      else if (imode==0) temphist->SetBinError(ibin,   binEr*newLum/originalSampleLum );
    }

    cout << " QCD_Low: After fix: \n ############### \n ";
    temphist->Print("range");
    temphist->GetXaxis()->SetRange();

    temphist->Write();

    //#######
    // QCD_Up
    //#######

    temphist = (TH1D*) file_in->Get("QCD_Up")->Clone();

    cout << " QCD_Up: Before fix: \n ############### \n ";
    temphist->GetXaxis()->SetRange(1,1);
    temphist->Print("range");

   double originalSampleLum = sample_nevents[filei] / sample_xsec[filei] / 1000.; // original sample luminosity in terms of fb^{-1}

    for (int ibin=0; ibin<temphist->GetNbinsX()+2; ibin++){ // scan including underflow and overflow bins
      double bin=temphist->GetBinContent(ibin);
      temphist->SetBinContent(ibin, bin*newLum/originalSampleLum );
      double binEr=temphist->GetBinError(ibin);
      if (imode==1)      temphist->SetBinError(ibin,   binEr*sqrt(newLum/originalSampleLum) );
      else if (imode==0) temphist->SetBinError(ibin,   binEr*newLum/originalSampleLum );
    }

    cout << " QCD_Up: After fix: \n ############### \n ";
    temphist->Print("range");
    temphist->GetXaxis()->SetRange();

    temphist->Write();

    //#######
    // searchH_b
    //#######

    temphist = (TH1D*) file_in->Get("searchH_b")->Clone();

    cout << " searchH_b: Before fix: \n ############### \n ";
    temphist->GetXaxis()->SetRange(1,1);
    temphist->Print("range");

   double originalSampleLum = sample_nevents[filei] / sample_xsec[filei] / 1000.; // original sample luminosity in terms of fb^{-1}

    for (int ibin=0; ibin<temphist->GetNbinsX()+2; ibin++){ // scan including underflow and overflow bins
      double bin=temphist->GetBinContent(ibin);
      temphist->SetBinContent(ibin, bin*newLum/originalSampleLum );
      double binEr=temphist->GetBinError(ibin);
      if (imode==1)      temphist->SetBinError(ibin,   binEr*sqrt(newLum/originalSampleLum) );
      else if (imode==0) temphist->SetBinError(ibin,   binEr*newLum/originalSampleLum );
    }

    cout << " searchH_b: After fix: \n ############### \n ";
    temphist->Print("range");
    temphist->GetXaxis()->SetRange();

    temphist->Write();

    file_out->Close();

  }

}
Exemplo n.º 6
0
// ============================================================================
/// finalize the algorithm
// ============================================================================
StatusCode Aida2Root::finalize()
{

  always() << "Get the native ROOT representation of histograms!" << endmsg ;

  {  // loop over all 1D-histograms
    for ( List::const_iterator ipath = m_1Ds.begin() ;
          m_1Ds.end() != ipath ; ++ipath )
    {
      /// retrieve the historam by full path:
      AIDA::IHistogram1D* aida = 0 ;
      StatusCode sc = histoSvc()->retrieveObject( *ipath , aida ) ;
      if ( sc.isFailure() || 0 == aida )
      { return Error ( "Unable to retrieve 1D-histogram '" + (*ipath) + "'"  ) ; }
      /// convert it to ROOT
      TH1D* root = Gaudi::Utils::Aida2ROOT::aida2root ( aida ) ;
      if ( 0 == root )
      { return Error ( "Unable to convert to ROOT the 1D-histogram '"+(*ipath)+"'") ; }
      /// use the native printout from ROOT
      info() << "The native ROOT printout for 1D-histogram '" << (*ipath) << "':" << endmsg ;
      root->Print() ;

      info () << " |  Compare       | AIDA/HistoStats |     ROOT/TH1    |      Delta      | "  << endmsg ;
      const std::string format = " | %1$-14.14s | %2$ 15.8g | %3$- 15.8g | %4$= 15.8g | "  ;
      info () << print
        ( Gaudi::Utils::HistoStats::mean        ( aida ) ,
          root->GetMean      ()    , "'mean'"        , format  ) << endmsg ;
      info () << print
        ( Gaudi::Utils::HistoStats::meanErr     ( aida ) ,
          root->GetMeanError ()    , "'meanErr'"     , format  ) << endmsg ;
      info () << print
        ( Gaudi::Utils::HistoStats::rms         ( aida ) ,
          root->GetRMS       ()    , "'rms'"         , format  ) << endmsg ;
      info () << print
        ( Gaudi::Utils::HistoStats::rmsErr      ( aida ) ,
          root->GetRMSError  ()    , "'rmsErr'"      , format  ) << endmsg ;
      info () << print
        ( Gaudi::Utils::HistoStats::skewness    ( aida ) ,
          root->GetSkewness ()     , "'skewness'"    , format  ) << endmsg ;
      info () << print
        ( Gaudi::Utils::HistoStats::skewnessErr ( aida ) ,
          root->GetSkewness ( 11 ) , "'skewnessErr'" , format  ) << endmsg ;
      info () << print
        ( Gaudi::Utils::HistoStats::kurtosis  ( aida ) ,
          root->GetKurtosis ()     , "'kurtosis'"    , format  ) << endmsg ;
      info () << print
        ( Gaudi::Utils::HistoStats::kurtosisErr ( aida ) ,
          root->GetKurtosis ( 11 ) , "'kurtosisErr'" , format  ) << endmsg ;
    }
  }

  { // loop over all 2D-histograms
    for ( List::const_iterator ipath = m_2Ds.begin() ;
          m_2Ds.end() != ipath ; ++ipath )
    {
      /// retrieve the historam by full path:
      AIDA::IHistogram2D* aida = 0 ;
      StatusCode sc = histoSvc()->retrieveObject( *ipath , aida ) ;
      if ( sc.isFailure() || 0 == aida )
      { return Error ( "Unable to retrieve 2D-histogram '" + (*ipath) + "'"  ) ; }
      /// convert it to ROOT
      TH2D* root = Gaudi::Utils::Aida2ROOT::aida2root ( aida ) ;
      if ( 0 == root )
      { return Error ( "Unable to convert to ROOT the 2D-histogram '"+(*ipath)+"'") ; }
      /// use the native printout from ROOT
      info() << "The native ROOT printout for 2D-histogram '" << (*ipath) << "':" << endmsg ;
      root->Print() ;
    }
  }

  { // loop over all 3D-histograms
    for ( List::const_iterator ipath = m_3Ds.begin() ;
          m_3Ds.end() != ipath ; ++ipath )
    {
      /// retrieve the historam by full path:
      AIDA::IHistogram3D* aida = 0 ;
      StatusCode sc = histoSvc()->retrieveObject( *ipath , aida ) ;
      if ( sc.isFailure() || 0 == aida )
      { return Error ( "Unable to retrieve 3D-histogram '" + (*ipath) + "'"  ) ; }
      /// convert it to ROOT
	TH3D* root = Gaudi::Utils::Aida2ROOT::aida2root ( aida ) ;
      if ( 0 == root )
      { return Error ( "Unable to convert to ROOT the 3D-histogram '"+(*ipath)+"'") ; }
      /// use the native printout from ROOT
      info() << "The native ROOT printout for 3D-histogram '" << (*ipath) << "':" << endmsg ;
      root->Print() ;
    }
  }


  { // loop over all 1D-profiles
    for ( List::const_iterator ipath = m_1Ps.begin() ;
          m_1Ps.end() != ipath ; ++ipath )
    {
      /// retrieve the historam by full path:
      AIDA::IProfile1D* aida = 0 ;
      StatusCode sc = histoSvc()->retrieveObject( *ipath , aida ) ;
      if ( sc.isFailure() || 0 == aida )
      { return Error ( "Unable to retrieve 1D-profile '" + (*ipath) + "'"  ) ; }
      /// convert it to ROOT
	TProfile* root = Gaudi::Utils::Aida2ROOT::aida2root ( aida ) ;
      if ( 0 == root )
      { return Error ( "Unable to convert to ROOT the 1D-profile '"+(*ipath)+"'") ; }
      /// use the native printout from ROOT
      info() << "The native ROOT printout for 1D-profile '" << (*ipath) << "':" << endmsg ;
      root->Print() ;
    }
  }


  { // loop over all 2D-profiles
    for ( List::const_iterator ipath = m_2Ps.begin() ;
          m_2Ps.end() != ipath ; ++ipath )
    {
      /// retrieve the historam by full path:
      AIDA::IProfile2D* aida = 0 ;
      StatusCode sc = histoSvc()->retrieveObject( *ipath , aida ) ;
      if ( sc.isFailure() || 0 == aida )
      { Error ( "Unable to retrieve 2D-profile '" + (*ipath) + "'"  ) ; }
      /// convert it to ROOT
	TProfile2D* root = Gaudi::Utils::Aida2ROOT::aida2root ( aida ) ;
      if ( 0 == root )
      { Error ( "Unable to convert to ROOT the 2D-profile '"+(*ipath)+"'") ; }
      /// use the native printout from ROOT
      info() << "The native ROOT printout for 2D-profile '" << (*ipath) << "':" << endmsg ;
      root->Print() ;
    }
  }

  return GaudiHistoAlg::finalize() ;
}
Exemplo n.º 7
0
void makePlotsPP(Settings s)
{
  for(int j = 0; j<s.nTriggers; j++)
  {
    s.ppByTrigger[j]->SetLineColor(j+1);
    s.ppByTrigger[j]->SetLineWidth(1);
    s.ppByTrigger[j]->SetMarkerColor(j+1);
    s.ppByTrigger[j]->SetFillColor(j+1);
    s.ppUsedByTrigger[j]->SetLineColor(kBlack);
    s.ppUsedByTrigger[j]->SetLineWidth(2);
    s.ppUsedByTrigger[j]->SetMarkerColor(j+1);
    s.ppUsedByTrigger[j]->SetMarkerSize(0);
    s.ppUsedByTrigger[j]->SetFillColor(j+1);
    s.ppJetsByTrigger[j]->SetLineColor(j+1);
    s.ppJetsByTrigger[j]->SetLineWidth(1);
    s.ppJetsByTrigger[j]->SetMarkerColor(j+1);
    s.ppJetsByTrigger[j]->SetMarkerSize(0.8);
    s.ppJetsByTrigger[j]->SetFillColor(j+1);
  }
  for(int j = 0; j<s.nTriggers_trk; j++)
  {
    s.ppByTrigger_trk[j]->SetLineColor(j+1);
    s.ppByTrigger_trk[j]->SetLineWidth(1);
    s.ppByTrigger_trk[j]->SetMarkerColor(j+1);
    s.ppByTrigger_trk[j]->SetFillColor(j+1);
    s.ppUsedByTrigger_trk[j]->SetLineColor(kBlack);
    s.ppUsedByTrigger_trk[j]->SetLineWidth(2);
    s.ppUsedByTrigger_trk[j]->SetMarkerColor(j+1);
    s.ppUsedByTrigger_trk[j]->SetMarkerSize(0);
    s.ppUsedByTrigger_trk[j]->SetFillColor(j+1);
    s.ppMaxtrkByTrigger[j]->SetLineColor(j+1);
    s.ppMaxtrkByTrigger[j]->SetLineWidth(1);
    s.ppMaxtrkByTrigger[j]->SetMarkerColor(j+1);
    s.ppMaxtrkByTrigger[j]->SetMarkerSize(0.8);
    s.ppMaxtrkByTrigger[j]->SetFillColor(j+1);
  }
//******************************************************************************************************************
//************************************************JET TRIGGER PLOTS**********************************************************
//******************************************************************************************************************
  TCanvas * c1 = new TCanvas("c1","c1",800,600);
  c1->SetLogy();
  s.ppJets->Scale(100);
  float Ymin = 0.00000000001;
  float Ymax = 10;
  s.ppJets->GetYaxis()->SetRangeUser(Ymin,Ymax);
  s.ppJets->Draw("h");
  for(int i = 0; i<s.nTriggers; i++) s.ppJetsByTrigger[i]->Draw("same");
  TLegend * leg = new TLegend(0.47,0.62,0.87,0.92);
  leg->AddEntry(s.ppJets,"Jet Spectrum (x100)","l");
  leg->AddEntry(s.ppJetsByTrigger[0],"MB (I)","p");
  leg->AddEntry(s.ppJetsByTrigger[1],"jet 40 (II)","p");
  leg->AddEntry(s.ppJetsByTrigger[2],"jet 60 (III)","p");
  leg->AddEntry(s.ppJetsByTrigger[3],"jet 80 (IV)","p");
  leg->AddEntry((TObject*)0,"ak4Calo Jets, |#eta|<2","");
  leg->Draw("same");
  c1->SaveAs("plots/png/ppJets_FullSpectrum.png"); 
  c1->SaveAs("plots/pdf/ppJets_FullSpectrum.pdf"); 

  s.ppJets->GetXaxis()->SetRangeUser(20,200);
  Ymin = 0.0000001;
  Ymax = 100;
  s.ppJets->GetYaxis()->SetRangeUser(0.0000001,100);
  s.ppJets->Draw("h");
  for(int i = 0; i<s.nTriggers; i++) s.ppJetsByTrigger[i]->Draw("same");
  leg->Draw("same"); 
  TLine * l[3];
  for(int i = 0; i<3; i++) 
  {
    l[i] = new TLine(s.triggerBins[i+1],Ymin,s.triggerBins[i+1],Ymax); 
    l[i]->SetLineWidth(2);
    l[i]->SetLineStyle(2);
    l[i]->SetLineColor(1);
    l[i]->Draw("same");
  }
  TLatex * lat = new TLatex(1,1,"test");
  lat->DrawLatex(45,Ymin*3,"I");
  lat->DrawLatex(65,Ymin*3,"II");
  lat->DrawLatex(85,Ymin*3,"III");
  lat->DrawLatex(105,Ymin*3,"IV");
  c1->SaveAs("plots/png/ppJets_FullSpectrum_XZoom.png"); 
  c1->SaveAs("plots/pdf/ppJets_FullSpectrum_XZoom.pdf"); 

  c1->SetLogy(0);
  for(int i = 0; i<s.nTriggers-1; i++) s.ppJetsByTrigger[s.nTriggers-1-i]->Divide(s.ppJetsByTrigger[s.nTriggers-2-i]);
  s.ppJetsByTrigger[1]->GetYaxis()->SetRangeUser(0,2);
  s.ppJetsByTrigger[1]->GetXaxis()->SetRangeUser(20,140);
  s.ppJetsByTrigger[1]->GetXaxis()->SetTitle("Leading jet p_{T}");
  s.ppJetsByTrigger[1]->Draw();
  s.ppJetsByTrigger[2]->Draw("same");
  s.ppJetsByTrigger[3]->Draw("same");
  TLegend * leg2 = new TLegend(0.2,0.6,0.5,0.9);
  leg2->AddEntry(s.ppJetsByTrigger[1],"Jet40/MB","p");
  leg2->AddEntry(s.ppJetsByTrigger[2],"Jet60/Jet40","p");
  leg2->AddEntry(s.ppJetsByTrigger[3],"Jet80/Jet60","p");
  leg2->Draw("same");
  c1->SaveAs("plots/png/JetRelativeTurnOnes.png");
  c1->SaveAs("plots/pdf/JetRelativeTurnOnes.pdf");
  
  c1->SetLogy();
  c1->SetLogx();
  s.pp->SetMarkerSize(0.8);
  s.pp->GetXaxis()->SetRangeUser(0.7,400);
  s.pp->Draw();
  s.ppUsedByTrigger[0]->SetFillColor(kGray);
  s.ppUsedByTrigger[3]->SetFillColor(kCyan+2);
  s.ppUsedByTrigger[2]->Add(s.ppUsedByTrigger[3]);
  s.ppUsedByTrigger[1]->Add(s.ppUsedByTrigger[2]);
  s.ppUsedByTrigger[0]->Add(s.ppUsedByTrigger[1]);
  for(int i = 0; i<s.nTriggers; i++) s.ppUsedByTrigger[i]->Draw("HIST same");
  s.pp->Draw("sameaxis");
  s.pp->Draw("same");
  leg->Clear();
  leg->AddEntry(s.pp,"pp track Spectrum","p");
  leg->AddEntry(s.ppUsedByTrigger[0],"MB trigger","f");
  leg->AddEntry(s.ppUsedByTrigger[1],"Jet40 trigger","f");
  leg->AddEntry(s.ppUsedByTrigger[2],"Jet60 trigger","f");
  leg->AddEntry(s.ppUsedByTrigger[3],"Jet80 trigger","f");
  leg->AddEntry((TObject*)0,"|#eta|<1","");
  leg->Draw("same");
  
  
 
  c1->SaveAs("plots/png/ppTrack_FullSpectrum.png");
  c1->SaveAs("plots/pdf/ppTrack_FullSpectrum.pdf");
  c1->SetLogy(0);
  for(int i = 0; i<s.nTriggers; i++) s.ppUsedByTrigger[i]->Divide(s.pp);
  s.ppUsedByTrigger[0]->GetYaxis()->SetRangeUser(0,2);
  s.ppUsedByTrigger[0]->GetYaxis()->SetTitle("Relative Contribution to Bin");
  s.ppUsedByTrigger[0]->Draw("HIST");
  for(int i = 1; i<s.nTriggers; i++) s.ppUsedByTrigger[i]->Draw("HIST same");
  s.ppUsedByTrigger[0]->Draw("sameaxis");
  leg->Draw("same");
  c1->SaveAs("plots/png/ppTrack_FullSpectrum_relativeContribution.png");
  c1->SaveAs("plots/pdf/ppTrack_FullSpectrum_relativeContribution.pdf");
  c1->SetLogy();


  TH1D * jtVsTrk = (TH1D*)s.pp->Clone("jtVsTrkRatio");
  
  //xt plot
  TFile * outF = TFile::Open("Spectra.root","UPDATE");
  TH1D * pp_perMBTrigger_xt = (TH1D*)s.pp_perMBTrigger->Clone("pp_perMBTrigger_xt");
  pp_perMBTrigger_xt->Scale(TMath::Power(5020,4.9));
  TH1D * pp_xt = new TH1D("ppTrackSpectrum_xt",";x_{T};#sqrt{s}^{4.9}E#frac{d^{3}#sigma}{d^{3}p} (mb/GeV^{2})",s.ntrkBins,s.xt_xtrkbins);
  for(int i = 1; i< pp_xt->GetSize()-1; i++){
    pp_xt->SetBinContent(i,pp_perMBTrigger_xt->GetBinContent(i));
    pp_xt->SetBinError(i,pp_perMBTrigger_xt->GetBinError(i));
  }
  pp_xt->Draw();
  pp_xt->Print("All");
  pp_xt->Write();
  c1->SaveAs("plots/png/ppTrack_xt_FullSpectrum.png");
  c1->SaveAs("plots/pdf/ppTrack_xt_FullSpectrum.pdf");
  outF->Close();


  //RpPb bin shift correction
  
  //interpolation points
  float ppintyvals[37+1] = {4.1202/0.5946, 2.8116/0.6211, 1.9778/0.6552, 1.4330/0.6984, 1.0405/0.7219, 0.7719/0.7515, 0.5816/0.7809, 0.3893/0.825, 0.23381/0.866, 0.14395/0.901, 0.09103/0.925, 0.05937/0.965, 0.03906/0.984, 0.014787/1.023, 0.003806/1.052, 0.001181/1.056, 0.0004290/1.048, 0.0001787/1.054, 0.00008152/1.031, 0.00002216/1.023, 0.000004653/1.036, 0.000001402/1.054, 0.0000003180/1.072, 0.00000006850/1.142, 0.00000001971/1.189, 0.000000006013/1.259, 0.000000001910/1.308, 0.0000000007181/1.342, 0.0000000002083/1.382,0.00000000005311/1.407,0.00000000001639/1.363,0.000000000005354/1.381,0.000000000001709/1.316,0,0 };//first 2 points were 4.1202/0.5946*0.999, 2.8116/0.6211*1.003
  //float ppintyvals_pPb[s.ntrkBins+1] = {4.1202*0.999, 2.8116*1.003, 1.9778*1.002, 1.4330*0.994 , 1.0405*1.002, 0.7719*1.002, 0.5816*1.002, 0.3893*1.001, 0.23381*1.000, 0.14395*1.004, 0.09103*1.005, 0.05937*0.997, 0.03906*0.998, 0.014787*1.062, 0.003806*1.042, 0.001181*1.033, 0.0004290*1.024, 0.0001787*1.018, 0.00008152*1.015, 0.00002216* 1.109, 0.000004653*1.061, 0.000001402*1.040, 0.0000003180*1.111, 0.00000006850*1.065, 0.00000001971*1.044, 0.000000006013*1.051, 0.000000001910*1.033, 0.0000000007181*1.024, 0.0000000002083*1.078,0.00000000005311*1.05,0.00000000001639*1.034386,0.000000000005354*1.047316,0.000000000001709*1.032760,0,0 };
  float ppintyvals_pPb[37+1] = { 4.1202, 2.8116,1.9778, 1.4330 , 1.0405, 0.7719, 0.5816, 0.3893, 0.23381, 0.14395, 0.09103, 0.05937, 0.03906, 0.014787, 0.003806, 0.001181, 0.0004290, 0.0001787, 0.00008152, 0.00002216, 0.000004653, 0.000001402, 0.0000003180, 0.00000006850, 0.00000001971, 0.000000006013, 0.000000001910, 0.0000000007181, 0.0000000002083,0.00000000005311,0.00000000001639,0.000000000005354,0.000000000001709,0,0 };//first 2 points were 4.1202, 2.8116
  float ppintyvals_RpPb[37+1] = { 0.5946, 0.6211, 0.6552, 0.6984,0.7219,0.7515, 0.7809, 0.825, 0.866, 0.901, 0.925, 0.965, 0.984, 1.023, 1.052,1.056, 1.048, 1.054, 1.031, 1.023, 1.036, 1.054, 1.072, 1.142, 1.189, 1.259, 1.308, 1.342,1.382,1.407,1.363,1.381,1.316,0,0 };//first 2 points were 0.5946, 0.6211
  float ppintyerrRpPb[37+1] = {0.0027/0.5946,0.0028/0.6211, 0.0030/0.6552,0.0032/0.6984,0.0033/0.7219,0.0034/0.7515,0.0036/0.7809,0.003/0.825,0.003/0.866,0.003/0.901,0.003/0.925,0.003/0.965,0.003/0.984,0.002/1.023,0.002/1.052,0.002/1.056,0.002/1.048,0.003/1.054,0.003/1.031,0.003/1.023,0.005/1.036,0.008/1.054,0.001/1.072,0.002/1.142,0.001/1.189,0.002/1.259,0.002/1.308,0.004/1.342,0.004/1.382,0.008/1.407,0.013/1.363,0.019/1.381,0.030/1.316,0,0 };//first 2 points were 0.0027/0.5946,0.0028/0.6211
  float ppintyerr_pPb[37+1] = {0.0188/4.1202,0.0128/2.8116, 0.0090/1.9778,0.0065/1.4330,0.0047/1.0405,0.0035/0.7719,0.0026/0.5816,0.0013/0.3893,0.00076/0.23381,0.00047/0.14395,0.00029/0.09103,0.00019/0.05937,0.00013/0.03906,0.000026/0.014787,0.000007/0.003806,0.000002/0.001181,0.0000009/0.0004290,0.0000004/0.0001787,0.00000025/0.00008152,0.00000025/0.00002216,0.00000006/0.000004653,0.000000023/0.000001402,0.000000011/0.0000003180,0.0000000004/0.00000006850,0.00000000011/0.00000001971,0.00000000002/0.000000006013,0.000000000009/0.000000001910,0.000000000004/0.0000000007181,0.0000000000020/0.0000000002083,0.0000000000007/0.00000000005311,0.00000000000031/0.00000000001639,0.00000000000016/0.000000000005354,0.000000000000073/0.000000000001709,0,0 };//first 2 points were 0.0188/4.1202,0.0128/2.8116
  TH1D * RpPb = new TH1D("pp_interpolation",";pt;E#frac{d^{3}N}{dPtdyd#phi}",s.ntrkBins,s.xtrkbins);
  TH1D * RpPbSpectrum = new TH1D("RpPb_interp",";pt;RpPb",s.ntrkBins,s.xtrkbins);
  TH1D * pPbSpectrum = new TH1D("pPb_data",";pt;E#frac{d^{3}N}{dPtdyd#phi}",s.ntrkBins,s.xtrkbins);
  for(int i=1; i<s.ntrkBins+1; i++) RpPb->SetBinContent(i,ppintyvals[i-1]);
  for(int i=1; i<s.ntrkBins+1; i++) RpPb->SetBinError(i,TMath::Power(TMath::Abs(TMath::Power(ppintyerrRpPb[i-1],2)-TMath::Power(ppintyerr_pPb[i-1],2)),0.5)*ppintyvals[i-1]);
  for(int i=1; i<s.ntrkBins+1; i++) RpPbSpectrum->SetBinContent(i,ppintyvals_RpPb[i-1]);
  for(int i=1; i<s.ntrkBins+1; i++) RpPbSpectrum->SetBinError(i,ppintyvals_RpPb[i-1]*ppintyerrRpPb[i-1]);
  for(int i=1; i<s.ntrkBins+1; i++) pPbSpectrum->SetBinContent(i,ppintyvals_pPb[i-1]);
  for(int i=1; i<s.ntrkBins+1; i++) pPbSpectrum->SetBinError(i,ppintyvals_pPb[i-1]*ppintyerr_pPb[i-1]);
  
  //float ppScale = RpPb->GetBinContent(17)/s.pp->GetBinContent(17);
  //s.pp->Scale(ppScale); 

  TFile * binShift = TFile::Open("BinningAndResolutionCorrection_TrackTrigger.root","read");
  TH1D *hBinningAndResol_extendedPt = (TH1D*)binShift->Get("hPt_pseudo2_copy1");
  hBinningAndResol_extendedPt->SetDirectory(0);
  binShift->Close();
  /*TH1D *pp_BinShift = (TH1D*)s.pp->Clone("pp_BinShift"); 
  for(int i = 2; i<hBinningAndResol_extendedPt->GetSize()+1; i++)
  {
    pp_BinShift->SetBinContent(i-1,pp_BinShift->GetBinContent(i-1)/hBinningAndResol_extendedPt->GetBinContent(i));
    pp_BinShift->SetBinError(i-1,pp_BinShift->GetBinError(i-1)/hBinningAndResol_extendedPt->GetBinError(i));
  }*/
  TFile * outBinF = TFile::Open("Spectra.root","update");
  hBinningAndResol_extendedPt->Write("RpPb_binShift_Correction");
  TH1D *pp_BinShift = (TH1D*)s.pp_perMBTrigger->Clone("pp_BinShift");
  TH1D *pp_BinShift_MB = (TH1D*)s.ppByTrigger[0]->Clone("pp_BinShift_MB");
  for(int i = 2; i<hBinningAndResol_extendedPt->GetSize()+1; i++)
  {
    pp_BinShift->SetBinContent(i-1,pp_BinShift->GetBinContent(i-1)/hBinningAndResol_extendedPt->GetBinContent(i));
    pp_BinShift->SetBinError(i-1,pp_BinShift->GetBinError(i-1)/hBinningAndResol_extendedPt->GetBinContent(i));
    pp_BinShift_MB->SetBinContent(i-1,pp_BinShift_MB->GetBinContent(i-1)/hBinningAndResol_extendedPt->GetBinContent(i));
    pp_BinShift_MB->SetBinError(i-1,pp_BinShift_MB->GetBinError(i-1)/hBinningAndResol_extendedPt->GetBinContent(i));
  }

  pp_BinShift->Write();
  pp_BinShift_MB->Write();
  RpPbSpectrum->Write("RpPb_Published");
  
  c1->SetLogy(0);
  //pPbSpectrum->Divide(s.pp);
  pPbSpectrum->Divide(pp_BinShift);
  pPbSpectrum->Scale(1.0/0.098);//<T_{pPb}> From HIN-012-017
  pPbSpectrum->Print("All");
  pPbSpectrum->GetYaxis()->SetTitle("RpPb");
  pPbSpectrum->GetYaxis()->SetRangeUser(0.5,1.5);
  pPbSpectrum->Draw();
  pPbSpectrum->Write("RpPb");

  c1->SaveAs("plots/png/pp_RpPb.png");
  c1->SaveAs("plots/png/pp_RpPb.pdf");
  c1->SaveAs("plots/png/pp_RpPb.C");
  
  /*s.pp->Divide(RpPb);
  s.pp->GetYaxis()->SetTitle("data/interp");
  s.pp->Draw(); */
  pp_BinShift->Divide(RpPb);
  pp_BinShift->GetYaxis()->SetTitle("data/interp");
  pp_BinShift->Scale(0.098);
  pp_BinShift->GetYaxis()->SetRangeUser(0.5,1.5);
  pp_BinShift->Draw();
  pp_BinShift->Write("RpPb_ppVsInterpolation");
  
  float TAAUncert = 0.177;
  TBox* bTAA = new TBox(0.15,0.1,0.2,0.2); 
  bTAA->SetFillColor(kBlue-9);
  bTAA->SetFillStyle(1001);
  bTAA->SetLineWidth(0);
  bTAA->DrawBox(200,1-TAAUncert,300,1+TAAUncert); 
 
  c1->SaveAs("plots/png/pp_dataVsInterp.png");
  c1->SaveAs("plots/pdf/pp_dataVsInterp.pdf");
  c1->SaveAs("plots/png/pp_dataVsInterp.C");
  
  pp_BinShift_MB->Divide(RpPb);
  pp_BinShift_MB->GetYaxis()->SetTitle("MB data/interp");
  //take lumi normalization from the previous made plot (should be same at low pt)
  float MBScale = pp_BinShift_MB->GetBinContent(5)/pp_BinShift->GetBinContent(5);
  pp_BinShift_MB->Scale(1/MBScale);
  pp_BinShift_MB->GetYaxis()->SetRangeUser(0.5,1.5);
  pp_BinShift_MB->SetMarkerColor(kRed);
  pp_BinShift_MB->SetLineColor(kRed);
  pp_BinShift_MB->Draw("same");
  TLegend * ppCompareLeg = new TLegend(0.2,0.2,0.5,0.5);
  ppCompareLeg->AddEntry(pp_BinShift,"Trigger Combined","p");
  ppCompareLeg->AddEntry(pp_BinShift_MB,"Only MB","p");
  ppCompareLeg->Draw("same");
  c1->SaveAs("plots/png/pp_dataVsInterp_MBData_PlusTrigger.png");
  c1->SaveAs("plots/pdf/pp_dataVsInterp_MBData_PlusTrigger.pdf");
  c1->SaveAs("plots/png/pp_dataVsInterp_MBData_PlusTrigger.C");
  delete ppCompareLeg;
  pp_BinShift_MB->SetMarkerColor(kBlack);
  pp_BinShift_MB->SetLineColor(kBlack);
  pp_BinShift_MB->Draw();
  pp_BinShift_MB->Write("RpPb_ppVsInterpolation_MBData");
  c1->SaveAs("plots/png/pp_dataVsInterp_MBData.png");
  c1->SaveAs("plots/pdf/pp_dataVsInterp_MBData.pdf");
  c1->SaveAs("plots/png/pp_dataVsInterp_MBData.C");
  outBinF->Close();
  
//************************************************************************************************************
//***********************************************TRACK TRIGGER PLOTS******************************************
//************************************************************************************************************
  TCanvas * c2 = new TCanvas("c2","c2",800,600);
  s.ppMaxtrkByTrigger[4]->SetMarkerColor(kOrange);
  s.ppMaxtrkByTrigger[4]->SetLineColor(kOrange);
  c2->SetLogy();
  s.ppMaxtrk->Scale(100);
  Ymin = 0.00000000001;
  Ymax = 10;
  s.ppMaxtrk->GetYaxis()->SetRangeUser(Ymin,Ymax);
  s.ppMaxtrk->Draw("h");
  for(int i = 0; i<s.nTriggers_trk; i++) s.ppMaxtrkByTrigger[i]->Draw("same");
  TLegend * leg_trk = new TLegend(0.6,0.6,0.9,0.9);
  leg_trk->AddEntry(s.ppMaxtrk,"Leading Trk p_{T}Spectrum (x100)","l");
  leg_trk->AddEntry(s.ppMaxtrkByTrigger[0],"MB (I)","p");
  leg_trk->AddEntry(s.ppMaxtrkByTrigger[1],"Track 18 (II)","p");
  leg_trk->AddEntry(s.ppMaxtrkByTrigger[2],"Track 24 (III)","p");
  leg_trk->AddEntry(s.ppMaxtrkByTrigger[3],"Track 34 (IV)","p");
  leg_trk->AddEntry(s.ppMaxtrkByTrigger[4],"Track 45 (V)","p");
  leg_trk->AddEntry(s.ppMaxtrkByTrigger[5],"Track 53 (VI)","p");
  leg_trk->Draw("same");
  c2->SaveAs("plots/png/ppMaxtrk_FullSpectrum.png"); 
  c2->SaveAs("plots/pdf/ppMaxtrk_FullSpectrum.pdf"); 

  s.ppMaxtrk->GetXaxis()->SetRangeUser(10,90);
  Ymin = 0.0000000001;
  Ymax = 1;
  s.ppMaxtrk->GetYaxis()->SetRangeUser(Ymin,Ymax);
  s.ppMaxtrk->Draw("h");
  for(int i = 0; i<s.nTriggers_trk; i++) s.ppMaxtrkByTrigger[i]->Draw("same");
  leg_trk->Draw("same"); 
  TLine * l_trk[5];
  for(int i = 0; i<5; i++) 
  {
    l_trk[i] = new TLine(s.triggerBins_trk[i+1],Ymin,s.triggerBins_trk[i+1],Ymax); 
    l_trk[i]->SetLineWidth(2);
    l_trk[i]->SetLineStyle(2);
    l_trk[i]->SetLineColor(1);
    l_trk[i]->Draw("same");
  }
  lat->DrawLatex(16,Ymin*3,"I");
  lat->DrawLatex(22,Ymin*3,"II");
  lat->DrawLatex(28,Ymin*3,"III");
  lat->DrawLatex(40,Ymin*3,"IV");
  lat->DrawLatex(49,Ymin*3,"V");
  lat->DrawLatex(57,Ymin*3,"VI");
  c2->SaveAs("plots/png/ppMaxtrk_FullSpectrum_XZoom.png"); 
  c2->SaveAs("plots/pdf/ppMaxtrk_FullSpectrum_XZoom.pdf"); 

  c2->SetLogy(0);
  for(int i = 0; i<s.nTriggers_trk; i++) s.ppMaxtrkByTrigger[i]->Rebin(2);
  for(int i = 0; i<s.nTriggers_trk-1; i++) s.ppMaxtrkByTrigger[s.nTriggers_trk-1-i]->Divide(s.ppMaxtrkByTrigger[s.nTriggers_trk-2-i]);
  s.ppMaxtrkByTrigger[1]->GetYaxis()->SetRangeUser(0,2);
  s.ppMaxtrkByTrigger[1]->GetXaxis()->SetRangeUser(10,90);
  s.ppMaxtrkByTrigger[1]->GetXaxis()->SetTitle("Leading Track p_{T}");
  s.ppMaxtrkByTrigger[1]->Draw();
  s.ppMaxtrkByTrigger[2]->Draw("same");
  s.ppMaxtrkByTrigger[3]->Draw("same");
  s.ppMaxtrkByTrigger[4]->Draw("same");
  s.ppMaxtrkByTrigger[5]->Draw("same");
  TLegend * leg2_trk = new TLegend(0.2,0.6,0.5,0.9);
  leg2_trk->AddEntry(s.ppMaxtrkByTrigger[1],"Trk18/MB","p");
  leg2_trk->AddEntry(s.ppMaxtrkByTrigger[2],"Trk24/Trk18","p");
  leg2_trk->AddEntry(s.ppMaxtrkByTrigger[3],"Trk34/Trk24","p");
  leg2_trk->AddEntry(s.ppMaxtrkByTrigger[4],"Trk45/Trk34","p");
  leg2_trk->AddEntry(s.ppMaxtrkByTrigger[5],"Trk53/Trk45","p");
  leg2_trk->Draw("same");
  c2->SaveAs("plots/png/TrackRelativeTurnOnes.png");
  c2->SaveAs("plots/pdf/TrackRelativeTurnOnes.pdf");
  
  c2->SetLogy();
  c2->SetLogx();
  s.pp_trk->SetMarkerSize(0.8);
  s.pp_trk->GetXaxis()->SetRangeUser(0.7,400);
  s.pp_trk->Draw();
  s.ppUsedByTrigger_trk[0]->SetFillColor(kGray);
  s.ppUsedByTrigger_trk[3]->SetFillColor(kBlue);
  s.ppUsedByTrigger_trk[4]->SetFillColor(kViolet);
  s.ppUsedByTrigger_trk[5]->SetFillColor(kCyan+2);
  s.ppUsedByTrigger_trk[4]->Add(s.ppUsedByTrigger_trk[5]);
  s.ppUsedByTrigger_trk[3]->Add(s.ppUsedByTrigger_trk[4]);
  s.ppUsedByTrigger_trk[2]->Add(s.ppUsedByTrigger_trk[3]);
  s.ppUsedByTrigger_trk[1]->Add(s.ppUsedByTrigger_trk[2]);
  s.ppUsedByTrigger_trk[0]->Add(s.ppUsedByTrigger_trk[1]);
  for(int i = 0; i<s.nTriggers_trk; i++) s.ppUsedByTrigger_trk[i]->Draw("HIST same");
  s.pp_trk->Draw("sameaxis");
  s.pp_trk->Draw("same");
  leg_trk->Clear();
  leg_trk->AddEntry(s.pp_trk,"pp track Spectrum","p");
  leg_trk->AddEntry(s.ppUsedByTrigger_trk[0],"MB trigger","f");
  leg_trk->AddEntry(s.ppUsedByTrigger_trk[1],"Track18 trigger","f");
  leg_trk->AddEntry(s.ppUsedByTrigger_trk[2],"Track24 trigger","f");
  leg_trk->AddEntry(s.ppUsedByTrigger_trk[3],"Track34 trigger","f");
  leg_trk->AddEntry(s.ppUsedByTrigger_trk[4],"Track45 trigger","f");
  leg_trk->AddEntry(s.ppUsedByTrigger_trk[5],"Track53 trigger","f");
  leg_trk->AddEntry((TObject*)0,"|#eta|<1","");
  leg_trk->Draw("same");
   
  c2->SaveAs("plots/png/ppTrack_FullSpectrum_trk.png");
  c2->SaveAs("plots/pdf/ppTrack_FullSpectrum_trk.pdf");
  c2->SetLogy(0);
  for(int i = 0; i<s.nTriggers_trk; i++) s.ppUsedByTrigger_trk[i]->Divide(s.pp_trk);
  s.ppUsedByTrigger_trk[0]->GetYaxis()->SetRangeUser(0,2);
  s.ppUsedByTrigger_trk[0]->GetYaxis()->SetTitle("Relative Contribution to Bin");
  s.ppUsedByTrigger_trk[0]->Draw("HIST");
  for(int i = 1; i<s.nTriggers_trk; i++) s.ppUsedByTrigger_trk[i]->Draw("HIST same");
  s.ppUsedByTrigger_trk[0]->Draw("sameaxis");
  leg_trk->Draw("same");
  c2->SaveAs("plots/png/ppTrack_FullSpectrum_trk_relativeContribution.png");
  c2->SaveAs("plots/pdf/ppTrack_FullSpectrum_trk_relativeContribution.pdf");
  c2->SetLogy();

  c2->SetLogy(0);
  jtVsTrk->Divide(s.pp_trk);
  jtVsTrk->GetYaxis()->SetTitle("pp Jet triggers/pp Track triggers");
  jtVsTrk->GetYaxis()->SetRangeUser(0.5,1.5);
  jtVsTrk->Draw();
  TLegend *leg3 = new TLegend(0.2,0.7,0.4,0.9);
  leg3->AddEntry((TObject*)0,"|#eta|<1 pp","");
  leg3->Draw("same");
  c2->SaveAs("plots/png/pp_jetVsTrkTriggers.png");
  c2->SaveAs("plots/pdf/pp_JetVsTrkTriggers.pdf");

  delete c1;
  delete c2;
  delete lat;
  delete leg;
  delete leg2;
  delete leg3;
  delete leg_trk; 
  delete leg2_trk; 
  delete RpPb;
  delete RpPbSpectrum;
  delete pPbSpectrum;
  return;
}